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rdesign/frontend/node_modules/@mermaid-js/parser/dist/chunks/mermaid-parser.esm/chunk-6ZVUH7GU.mjs

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var __create = Object.create;
var __defProp = Object.defineProperty;
var __getOwnPropDesc = Object.getOwnPropertyDescriptor;
var __getOwnPropNames = Object.getOwnPropertyNames;
var __getProtoOf = Object.getPrototypeOf;
var __hasOwnProp = Object.prototype.hasOwnProperty;
var __name = (target, value) => __defProp(target, "name", { value, configurable: true });
var __esm = (fn, res) => function __init() {
return fn && (res = (0, fn[__getOwnPropNames(fn)[0]])(fn = 0)), res;
};
var __commonJS = (cb, mod) => function __require() {
return mod || (0, cb[__getOwnPropNames(cb)[0]])((mod = { exports: {} }).exports, mod), mod.exports;
};
var __export = (target, all) => {
for (var name in all)
__defProp(target, name, { get: all[name], enumerable: true });
};
var __copyProps = (to, from, except, desc) => {
if (from && typeof from === "object" || typeof from === "function") {
for (let key of __getOwnPropNames(from))
if (!__hasOwnProp.call(to, key) && key !== except)
__defProp(to, key, { get: () => from[key], enumerable: !(desc = __getOwnPropDesc(from, key)) || desc.enumerable });
}
return to;
};
var __reExport = (target, mod, secondTarget) => (__copyProps(target, mod, "default"), secondTarget && __copyProps(secondTarget, mod, "default"));
var __toESM = (mod, isNodeMode, target) => (target = mod != null ? __create(__getProtoOf(mod)) : {}, __copyProps(
// If the importer is in node compatibility mode or this is not an ESM
// file that has been converted to a CommonJS file using a Babel-
// compatible transform (i.e. "__esModule" has not been set), then set
// "default" to the CommonJS "module.exports" for node compatibility.
isNodeMode || !mod || !mod.__esModule ? __defProp(target, "default", { value: mod, enumerable: true }) : target,
mod
));
var __toCommonJS = (mod) => __copyProps(__defProp({}, "__esModule", { value: true }), mod);
// ../../node_modules/.pnpm/vscode-languageserver-types@3.17.5/node_modules/vscode-languageserver-types/lib/esm/main.js
var main_exports = {};
__export(main_exports, {
AnnotatedTextEdit: () => AnnotatedTextEdit,
ChangeAnnotation: () => ChangeAnnotation,
ChangeAnnotationIdentifier: () => ChangeAnnotationIdentifier,
CodeAction: () => CodeAction,
CodeActionContext: () => CodeActionContext,
CodeActionKind: () => CodeActionKind,
CodeActionTriggerKind: () => CodeActionTriggerKind,
CodeDescription: () => CodeDescription,
CodeLens: () => CodeLens,
Color: () => Color,
ColorInformation: () => ColorInformation,
ColorPresentation: () => ColorPresentation,
Command: () => Command,
CompletionItem: () => CompletionItem,
CompletionItemKind: () => CompletionItemKind,
CompletionItemLabelDetails: () => CompletionItemLabelDetails,
CompletionItemTag: () => CompletionItemTag,
CompletionList: () => CompletionList,
CreateFile: () => CreateFile,
DeleteFile: () => DeleteFile,
Diagnostic: () => Diagnostic,
DiagnosticRelatedInformation: () => DiagnosticRelatedInformation,
DiagnosticSeverity: () => DiagnosticSeverity,
DiagnosticTag: () => DiagnosticTag,
DocumentHighlight: () => DocumentHighlight,
DocumentHighlightKind: () => DocumentHighlightKind,
DocumentLink: () => DocumentLink,
DocumentSymbol: () => DocumentSymbol,
DocumentUri: () => DocumentUri,
EOL: () => EOL,
FoldingRange: () => FoldingRange,
FoldingRangeKind: () => FoldingRangeKind,
FormattingOptions: () => FormattingOptions,
Hover: () => Hover,
InlayHint: () => InlayHint,
InlayHintKind: () => InlayHintKind,
InlayHintLabelPart: () => InlayHintLabelPart,
InlineCompletionContext: () => InlineCompletionContext,
InlineCompletionItem: () => InlineCompletionItem,
InlineCompletionList: () => InlineCompletionList,
InlineCompletionTriggerKind: () => InlineCompletionTriggerKind,
InlineValueContext: () => InlineValueContext,
InlineValueEvaluatableExpression: () => InlineValueEvaluatableExpression,
InlineValueText: () => InlineValueText,
InlineValueVariableLookup: () => InlineValueVariableLookup,
InsertReplaceEdit: () => InsertReplaceEdit,
InsertTextFormat: () => InsertTextFormat,
InsertTextMode: () => InsertTextMode,
Location: () => Location,
LocationLink: () => LocationLink,
MarkedString: () => MarkedString,
MarkupContent: () => MarkupContent,
MarkupKind: () => MarkupKind,
OptionalVersionedTextDocumentIdentifier: () => OptionalVersionedTextDocumentIdentifier,
ParameterInformation: () => ParameterInformation,
Position: () => Position,
Range: () => Range,
RenameFile: () => RenameFile,
SelectedCompletionInfo: () => SelectedCompletionInfo,
SelectionRange: () => SelectionRange,
SemanticTokenModifiers: () => SemanticTokenModifiers,
SemanticTokenTypes: () => SemanticTokenTypes,
SemanticTokens: () => SemanticTokens,
SignatureInformation: () => SignatureInformation,
StringValue: () => StringValue,
SymbolInformation: () => SymbolInformation,
SymbolKind: () => SymbolKind,
SymbolTag: () => SymbolTag,
TextDocument: () => TextDocument,
TextDocumentEdit: () => TextDocumentEdit,
TextDocumentIdentifier: () => TextDocumentIdentifier,
TextDocumentItem: () => TextDocumentItem,
TextEdit: () => TextEdit,
URI: () => URI,
VersionedTextDocumentIdentifier: () => VersionedTextDocumentIdentifier,
WorkspaceChange: () => WorkspaceChange,
WorkspaceEdit: () => WorkspaceEdit,
WorkspaceFolder: () => WorkspaceFolder,
WorkspaceSymbol: () => WorkspaceSymbol,
integer: () => integer,
uinteger: () => uinteger
});
var DocumentUri, URI, integer, uinteger, Position, Range, Location, LocationLink, Color, ColorInformation, ColorPresentation, FoldingRangeKind, FoldingRange, DiagnosticRelatedInformation, DiagnosticSeverity, DiagnosticTag, CodeDescription, Diagnostic, Command, TextEdit, ChangeAnnotation, ChangeAnnotationIdentifier, AnnotatedTextEdit, TextDocumentEdit, CreateFile, RenameFile, DeleteFile, WorkspaceEdit, TextEditChangeImpl, ChangeAnnotations, WorkspaceChange, TextDocumentIdentifier, VersionedTextDocumentIdentifier, OptionalVersionedTextDocumentIdentifier, TextDocumentItem, MarkupKind, MarkupContent, CompletionItemKind, InsertTextFormat, CompletionItemTag, InsertReplaceEdit, InsertTextMode, CompletionItemLabelDetails, CompletionItem, CompletionList, MarkedString, Hover, ParameterInformation, SignatureInformation, DocumentHighlightKind, DocumentHighlight, SymbolKind, SymbolTag, SymbolInformation, WorkspaceSymbol, DocumentSymbol, CodeActionKind, CodeActionTriggerKind, CodeActionContext, CodeAction, CodeLens, FormattingOptions, DocumentLink, SelectionRange, SemanticTokenTypes, SemanticTokenModifiers, SemanticTokens, InlineValueText, InlineValueVariableLookup, InlineValueEvaluatableExpression, InlineValueContext, InlayHintKind, InlayHintLabelPart, InlayHint, StringValue, InlineCompletionItem, InlineCompletionList, InlineCompletionTriggerKind, SelectedCompletionInfo, InlineCompletionContext, WorkspaceFolder, EOL, TextDocument, FullTextDocument, Is;
var init_main = __esm({
"../../node_modules/.pnpm/vscode-languageserver-types@3.17.5/node_modules/vscode-languageserver-types/lib/esm/main.js"() {
"use strict";
(function(DocumentUri2) {
function is(value) {
return typeof value === "string";
}
__name(is, "is");
DocumentUri2.is = is;
})(DocumentUri || (DocumentUri = {}));
(function(URI3) {
function is(value) {
return typeof value === "string";
}
__name(is, "is");
URI3.is = is;
})(URI || (URI = {}));
(function(integer2) {
integer2.MIN_VALUE = -2147483648;
integer2.MAX_VALUE = 2147483647;
function is(value) {
return typeof value === "number" && integer2.MIN_VALUE <= value && value <= integer2.MAX_VALUE;
}
__name(is, "is");
integer2.is = is;
})(integer || (integer = {}));
(function(uinteger2) {
uinteger2.MIN_VALUE = 0;
uinteger2.MAX_VALUE = 2147483647;
function is(value) {
return typeof value === "number" && uinteger2.MIN_VALUE <= value && value <= uinteger2.MAX_VALUE;
}
__name(is, "is");
uinteger2.is = is;
})(uinteger || (uinteger = {}));
(function(Position2) {
function create(line, character) {
if (line === Number.MAX_VALUE) {
line = uinteger.MAX_VALUE;
}
if (character === Number.MAX_VALUE) {
character = uinteger.MAX_VALUE;
}
return { line, character };
}
__name(create, "create");
Position2.create = create;
function is(value) {
let candidate = value;
return Is.objectLiteral(candidate) && Is.uinteger(candidate.line) && Is.uinteger(candidate.character);
}
__name(is, "is");
Position2.is = is;
})(Position || (Position = {}));
(function(Range2) {
function create(one, two, three, four) {
if (Is.uinteger(one) && Is.uinteger(two) && Is.uinteger(three) && Is.uinteger(four)) {
return { start: Position.create(one, two), end: Position.create(three, four) };
} else if (Position.is(one) && Position.is(two)) {
return { start: one, end: two };
} else {
throw new Error(`Range#create called with invalid arguments[${one}, ${two}, ${three}, ${four}]`);
}
}
__name(create, "create");
Range2.create = create;
function is(value) {
let candidate = value;
return Is.objectLiteral(candidate) && Position.is(candidate.start) && Position.is(candidate.end);
}
__name(is, "is");
Range2.is = is;
})(Range || (Range = {}));
(function(Location2) {
function create(uri, range) {
return { uri, range };
}
__name(create, "create");
Location2.create = create;
function is(value) {
let candidate = value;
return Is.objectLiteral(candidate) && Range.is(candidate.range) && (Is.string(candidate.uri) || Is.undefined(candidate.uri));
}
__name(is, "is");
Location2.is = is;
})(Location || (Location = {}));
(function(LocationLink2) {
function create(targetUri, targetRange, targetSelectionRange, originSelectionRange) {
return { targetUri, targetRange, targetSelectionRange, originSelectionRange };
}
__name(create, "create");
LocationLink2.create = create;
function is(value) {
let candidate = value;
return Is.objectLiteral(candidate) && Range.is(candidate.targetRange) && Is.string(candidate.targetUri) && Range.is(candidate.targetSelectionRange) && (Range.is(candidate.originSelectionRange) || Is.undefined(candidate.originSelectionRange));
}
__name(is, "is");
LocationLink2.is = is;
})(LocationLink || (LocationLink = {}));
(function(Color2) {
function create(red, green, blue, alpha) {
return {
red,
green,
blue,
alpha
};
}
__name(create, "create");
Color2.create = create;
function is(value) {
const candidate = value;
return Is.objectLiteral(candidate) && Is.numberRange(candidate.red, 0, 1) && Is.numberRange(candidate.green, 0, 1) && Is.numberRange(candidate.blue, 0, 1) && Is.numberRange(candidate.alpha, 0, 1);
}
__name(is, "is");
Color2.is = is;
})(Color || (Color = {}));
(function(ColorInformation2) {
function create(range, color) {
return {
range,
color
};
}
__name(create, "create");
ColorInformation2.create = create;
function is(value) {
const candidate = value;
return Is.objectLiteral(candidate) && Range.is(candidate.range) && Color.is(candidate.color);
}
__name(is, "is");
ColorInformation2.is = is;
})(ColorInformation || (ColorInformation = {}));
(function(ColorPresentation2) {
function create(label, textEdit, additionalTextEdits) {
return {
label,
textEdit,
additionalTextEdits
};
}
__name(create, "create");
ColorPresentation2.create = create;
function is(value) {
const candidate = value;
return Is.objectLiteral(candidate) && Is.string(candidate.label) && (Is.undefined(candidate.textEdit) || TextEdit.is(candidate)) && (Is.undefined(candidate.additionalTextEdits) || Is.typedArray(candidate.additionalTextEdits, TextEdit.is));
}
__name(is, "is");
ColorPresentation2.is = is;
})(ColorPresentation || (ColorPresentation = {}));
(function(FoldingRangeKind2) {
FoldingRangeKind2.Comment = "comment";
FoldingRangeKind2.Imports = "imports";
FoldingRangeKind2.Region = "region";
})(FoldingRangeKind || (FoldingRangeKind = {}));
(function(FoldingRange2) {
function create(startLine, endLine, startCharacter, endCharacter, kind, collapsedText) {
const result = {
startLine,
endLine
};
if (Is.defined(startCharacter)) {
result.startCharacter = startCharacter;
}
if (Is.defined(endCharacter)) {
result.endCharacter = endCharacter;
}
if (Is.defined(kind)) {
result.kind = kind;
}
if (Is.defined(collapsedText)) {
result.collapsedText = collapsedText;
}
return result;
}
__name(create, "create");
FoldingRange2.create = create;
function is(value) {
const candidate = value;
return Is.objectLiteral(candidate) && Is.uinteger(candidate.startLine) && Is.uinteger(candidate.startLine) && (Is.undefined(candidate.startCharacter) || Is.uinteger(candidate.startCharacter)) && (Is.undefined(candidate.endCharacter) || Is.uinteger(candidate.endCharacter)) && (Is.undefined(candidate.kind) || Is.string(candidate.kind));
}
__name(is, "is");
FoldingRange2.is = is;
})(FoldingRange || (FoldingRange = {}));
(function(DiagnosticRelatedInformation2) {
function create(location, message) {
return {
location,
message
};
}
__name(create, "create");
DiagnosticRelatedInformation2.create = create;
function is(value) {
let candidate = value;
return Is.defined(candidate) && Location.is(candidate.location) && Is.string(candidate.message);
}
__name(is, "is");
DiagnosticRelatedInformation2.is = is;
})(DiagnosticRelatedInformation || (DiagnosticRelatedInformation = {}));
(function(DiagnosticSeverity2) {
DiagnosticSeverity2.Error = 1;
DiagnosticSeverity2.Warning = 2;
DiagnosticSeverity2.Information = 3;
DiagnosticSeverity2.Hint = 4;
})(DiagnosticSeverity || (DiagnosticSeverity = {}));
(function(DiagnosticTag2) {
DiagnosticTag2.Unnecessary = 1;
DiagnosticTag2.Deprecated = 2;
})(DiagnosticTag || (DiagnosticTag = {}));
(function(CodeDescription2) {
function is(value) {
const candidate = value;
return Is.objectLiteral(candidate) && Is.string(candidate.href);
}
__name(is, "is");
CodeDescription2.is = is;
})(CodeDescription || (CodeDescription = {}));
(function(Diagnostic2) {
function create(range, message, severity, code, source, relatedInformation) {
let result = { range, message };
if (Is.defined(severity)) {
result.severity = severity;
}
if (Is.defined(code)) {
result.code = code;
}
if (Is.defined(source)) {
result.source = source;
}
if (Is.defined(relatedInformation)) {
result.relatedInformation = relatedInformation;
}
return result;
}
__name(create, "create");
Diagnostic2.create = create;
function is(value) {
var _a;
let candidate = value;
return Is.defined(candidate) && Range.is(candidate.range) && Is.string(candidate.message) && (Is.number(candidate.severity) || Is.undefined(candidate.severity)) && (Is.integer(candidate.code) || Is.string(candidate.code) || Is.undefined(candidate.code)) && (Is.undefined(candidate.codeDescription) || Is.string((_a = candidate.codeDescription) === null || _a === void 0 ? void 0 : _a.href)) && (Is.string(candidate.source) || Is.undefined(candidate.source)) && (Is.undefined(candidate.relatedInformation) || Is.typedArray(candidate.relatedInformation, DiagnosticRelatedInformation.is));
}
__name(is, "is");
Diagnostic2.is = is;
})(Diagnostic || (Diagnostic = {}));
(function(Command2) {
function create(title, command, ...args) {
let result = { title, command };
if (Is.defined(args) && args.length > 0) {
result.arguments = args;
}
return result;
}
__name(create, "create");
Command2.create = create;
function is(value) {
let candidate = value;
return Is.defined(candidate) && Is.string(candidate.title) && Is.string(candidate.command);
}
__name(is, "is");
Command2.is = is;
})(Command || (Command = {}));
(function(TextEdit2) {
function replace(range, newText) {
return { range, newText };
}
__name(replace, "replace");
TextEdit2.replace = replace;
function insert(position, newText) {
return { range: { start: position, end: position }, newText };
}
__name(insert, "insert");
TextEdit2.insert = insert;
function del(range) {
return { range, newText: "" };
}
__name(del, "del");
TextEdit2.del = del;
function is(value) {
const candidate = value;
return Is.objectLiteral(candidate) && Is.string(candidate.newText) && Range.is(candidate.range);
}
__name(is, "is");
TextEdit2.is = is;
})(TextEdit || (TextEdit = {}));
(function(ChangeAnnotation2) {
function create(label, needsConfirmation, description) {
const result = { label };
if (needsConfirmation !== void 0) {
result.needsConfirmation = needsConfirmation;
}
if (description !== void 0) {
result.description = description;
}
return result;
}
__name(create, "create");
ChangeAnnotation2.create = create;
function is(value) {
const candidate = value;
return Is.objectLiteral(candidate) && Is.string(candidate.label) && (Is.boolean(candidate.needsConfirmation) || candidate.needsConfirmation === void 0) && (Is.string(candidate.description) || candidate.description === void 0);
}
__name(is, "is");
ChangeAnnotation2.is = is;
})(ChangeAnnotation || (ChangeAnnotation = {}));
(function(ChangeAnnotationIdentifier2) {
function is(value) {
const candidate = value;
return Is.string(candidate);
}
__name(is, "is");
ChangeAnnotationIdentifier2.is = is;
})(ChangeAnnotationIdentifier || (ChangeAnnotationIdentifier = {}));
(function(AnnotatedTextEdit2) {
function replace(range, newText, annotation) {
return { range, newText, annotationId: annotation };
}
__name(replace, "replace");
AnnotatedTextEdit2.replace = replace;
function insert(position, newText, annotation) {
return { range: { start: position, end: position }, newText, annotationId: annotation };
}
__name(insert, "insert");
AnnotatedTextEdit2.insert = insert;
function del(range, annotation) {
return { range, newText: "", annotationId: annotation };
}
__name(del, "del");
AnnotatedTextEdit2.del = del;
function is(value) {
const candidate = value;
return TextEdit.is(candidate) && (ChangeAnnotation.is(candidate.annotationId) || ChangeAnnotationIdentifier.is(candidate.annotationId));
}
__name(is, "is");
AnnotatedTextEdit2.is = is;
})(AnnotatedTextEdit || (AnnotatedTextEdit = {}));
(function(TextDocumentEdit2) {
function create(textDocument, edits) {
return { textDocument, edits };
}
__name(create, "create");
TextDocumentEdit2.create = create;
function is(value) {
let candidate = value;
return Is.defined(candidate) && OptionalVersionedTextDocumentIdentifier.is(candidate.textDocument) && Array.isArray(candidate.edits);
}
__name(is, "is");
TextDocumentEdit2.is = is;
})(TextDocumentEdit || (TextDocumentEdit = {}));
(function(CreateFile2) {
function create(uri, options, annotation) {
let result = {
kind: "create",
uri
};
if (options !== void 0 && (options.overwrite !== void 0 || options.ignoreIfExists !== void 0)) {
result.options = options;
}
if (annotation !== void 0) {
result.annotationId = annotation;
}
return result;
}
__name(create, "create");
CreateFile2.create = create;
function is(value) {
let candidate = value;
return candidate && candidate.kind === "create" && Is.string(candidate.uri) && (candidate.options === void 0 || (candidate.options.overwrite === void 0 || Is.boolean(candidate.options.overwrite)) && (candidate.options.ignoreIfExists === void 0 || Is.boolean(candidate.options.ignoreIfExists))) && (candidate.annotationId === void 0 || ChangeAnnotationIdentifier.is(candidate.annotationId));
}
__name(is, "is");
CreateFile2.is = is;
})(CreateFile || (CreateFile = {}));
(function(RenameFile2) {
function create(oldUri, newUri, options, annotation) {
let result = {
kind: "rename",
oldUri,
newUri
};
if (options !== void 0 && (options.overwrite !== void 0 || options.ignoreIfExists !== void 0)) {
result.options = options;
}
if (annotation !== void 0) {
result.annotationId = annotation;
}
return result;
}
__name(create, "create");
RenameFile2.create = create;
function is(value) {
let candidate = value;
return candidate && candidate.kind === "rename" && Is.string(candidate.oldUri) && Is.string(candidate.newUri) && (candidate.options === void 0 || (candidate.options.overwrite === void 0 || Is.boolean(candidate.options.overwrite)) && (candidate.options.ignoreIfExists === void 0 || Is.boolean(candidate.options.ignoreIfExists))) && (candidate.annotationId === void 0 || ChangeAnnotationIdentifier.is(candidate.annotationId));
}
__name(is, "is");
RenameFile2.is = is;
})(RenameFile || (RenameFile = {}));
(function(DeleteFile2) {
function create(uri, options, annotation) {
let result = {
kind: "delete",
uri
};
if (options !== void 0 && (options.recursive !== void 0 || options.ignoreIfNotExists !== void 0)) {
result.options = options;
}
if (annotation !== void 0) {
result.annotationId = annotation;
}
return result;
}
__name(create, "create");
DeleteFile2.create = create;
function is(value) {
let candidate = value;
return candidate && candidate.kind === "delete" && Is.string(candidate.uri) && (candidate.options === void 0 || (candidate.options.recursive === void 0 || Is.boolean(candidate.options.recursive)) && (candidate.options.ignoreIfNotExists === void 0 || Is.boolean(candidate.options.ignoreIfNotExists))) && (candidate.annotationId === void 0 || ChangeAnnotationIdentifier.is(candidate.annotationId));
}
__name(is, "is");
DeleteFile2.is = is;
})(DeleteFile || (DeleteFile = {}));
(function(WorkspaceEdit2) {
function is(value) {
let candidate = value;
return candidate && (candidate.changes !== void 0 || candidate.documentChanges !== void 0) && (candidate.documentChanges === void 0 || candidate.documentChanges.every((change) => {
if (Is.string(change.kind)) {
return CreateFile.is(change) || RenameFile.is(change) || DeleteFile.is(change);
} else {
return TextDocumentEdit.is(change);
}
}));
}
__name(is, "is");
WorkspaceEdit2.is = is;
})(WorkspaceEdit || (WorkspaceEdit = {}));
TextEditChangeImpl = class {
static {
__name(this, "TextEditChangeImpl");
}
constructor(edits, changeAnnotations) {
this.edits = edits;
this.changeAnnotations = changeAnnotations;
}
insert(position, newText, annotation) {
let edit;
let id;
if (annotation === void 0) {
edit = TextEdit.insert(position, newText);
} else if (ChangeAnnotationIdentifier.is(annotation)) {
id = annotation;
edit = AnnotatedTextEdit.insert(position, newText, annotation);
} else {
this.assertChangeAnnotations(this.changeAnnotations);
id = this.changeAnnotations.manage(annotation);
edit = AnnotatedTextEdit.insert(position, newText, id);
}
this.edits.push(edit);
if (id !== void 0) {
return id;
}
}
replace(range, newText, annotation) {
let edit;
let id;
if (annotation === void 0) {
edit = TextEdit.replace(range, newText);
} else if (ChangeAnnotationIdentifier.is(annotation)) {
id = annotation;
edit = AnnotatedTextEdit.replace(range, newText, annotation);
} else {
this.assertChangeAnnotations(this.changeAnnotations);
id = this.changeAnnotations.manage(annotation);
edit = AnnotatedTextEdit.replace(range, newText, id);
}
this.edits.push(edit);
if (id !== void 0) {
return id;
}
}
delete(range, annotation) {
let edit;
let id;
if (annotation === void 0) {
edit = TextEdit.del(range);
} else if (ChangeAnnotationIdentifier.is(annotation)) {
id = annotation;
edit = AnnotatedTextEdit.del(range, annotation);
} else {
this.assertChangeAnnotations(this.changeAnnotations);
id = this.changeAnnotations.manage(annotation);
edit = AnnotatedTextEdit.del(range, id);
}
this.edits.push(edit);
if (id !== void 0) {
return id;
}
}
add(edit) {
this.edits.push(edit);
}
all() {
return this.edits;
}
clear() {
this.edits.splice(0, this.edits.length);
}
assertChangeAnnotations(value) {
if (value === void 0) {
throw new Error(`Text edit change is not configured to manage change annotations.`);
}
}
};
ChangeAnnotations = class {
static {
__name(this, "ChangeAnnotations");
}
constructor(annotations) {
this._annotations = annotations === void 0 ? /* @__PURE__ */ Object.create(null) : annotations;
this._counter = 0;
this._size = 0;
}
all() {
return this._annotations;
}
get size() {
return this._size;
}
manage(idOrAnnotation, annotation) {
let id;
if (ChangeAnnotationIdentifier.is(idOrAnnotation)) {
id = idOrAnnotation;
} else {
id = this.nextId();
annotation = idOrAnnotation;
}
if (this._annotations[id] !== void 0) {
throw new Error(`Id ${id} is already in use.`);
}
if (annotation === void 0) {
throw new Error(`No annotation provided for id ${id}`);
}
this._annotations[id] = annotation;
this._size++;
return id;
}
nextId() {
this._counter++;
return this._counter.toString();
}
};
WorkspaceChange = class {
static {
__name(this, "WorkspaceChange");
}
constructor(workspaceEdit) {
this._textEditChanges = /* @__PURE__ */ Object.create(null);
if (workspaceEdit !== void 0) {
this._workspaceEdit = workspaceEdit;
if (workspaceEdit.documentChanges) {
this._changeAnnotations = new ChangeAnnotations(workspaceEdit.changeAnnotations);
workspaceEdit.changeAnnotations = this._changeAnnotations.all();
workspaceEdit.documentChanges.forEach((change) => {
if (TextDocumentEdit.is(change)) {
const textEditChange = new TextEditChangeImpl(change.edits, this._changeAnnotations);
this._textEditChanges[change.textDocument.uri] = textEditChange;
}
});
} else if (workspaceEdit.changes) {
Object.keys(workspaceEdit.changes).forEach((key) => {
const textEditChange = new TextEditChangeImpl(workspaceEdit.changes[key]);
this._textEditChanges[key] = textEditChange;
});
}
} else {
this._workspaceEdit = {};
}
}
/**
* Returns the underlying {@link WorkspaceEdit} literal
* use to be returned from a workspace edit operation like rename.
*/
get edit() {
this.initDocumentChanges();
if (this._changeAnnotations !== void 0) {
if (this._changeAnnotations.size === 0) {
this._workspaceEdit.changeAnnotations = void 0;
} else {
this._workspaceEdit.changeAnnotations = this._changeAnnotations.all();
}
}
return this._workspaceEdit;
}
getTextEditChange(key) {
if (OptionalVersionedTextDocumentIdentifier.is(key)) {
this.initDocumentChanges();
if (this._workspaceEdit.documentChanges === void 0) {
throw new Error("Workspace edit is not configured for document changes.");
}
const textDocument = { uri: key.uri, version: key.version };
let result = this._textEditChanges[textDocument.uri];
if (!result) {
const edits = [];
const textDocumentEdit = {
textDocument,
edits
};
this._workspaceEdit.documentChanges.push(textDocumentEdit);
result = new TextEditChangeImpl(edits, this._changeAnnotations);
this._textEditChanges[textDocument.uri] = result;
}
return result;
} else {
this.initChanges();
if (this._workspaceEdit.changes === void 0) {
throw new Error("Workspace edit is not configured for normal text edit changes.");
}
let result = this._textEditChanges[key];
if (!result) {
let edits = [];
this._workspaceEdit.changes[key] = edits;
result = new TextEditChangeImpl(edits);
this._textEditChanges[key] = result;
}
return result;
}
}
initDocumentChanges() {
if (this._workspaceEdit.documentChanges === void 0 && this._workspaceEdit.changes === void 0) {
this._changeAnnotations = new ChangeAnnotations();
this._workspaceEdit.documentChanges = [];
this._workspaceEdit.changeAnnotations = this._changeAnnotations.all();
}
}
initChanges() {
if (this._workspaceEdit.documentChanges === void 0 && this._workspaceEdit.changes === void 0) {
this._workspaceEdit.changes = /* @__PURE__ */ Object.create(null);
}
}
createFile(uri, optionsOrAnnotation, options) {
this.initDocumentChanges();
if (this._workspaceEdit.documentChanges === void 0) {
throw new Error("Workspace edit is not configured for document changes.");
}
let annotation;
if (ChangeAnnotation.is(optionsOrAnnotation) || ChangeAnnotationIdentifier.is(optionsOrAnnotation)) {
annotation = optionsOrAnnotation;
} else {
options = optionsOrAnnotation;
}
let operation;
let id;
if (annotation === void 0) {
operation = CreateFile.create(uri, options);
} else {
id = ChangeAnnotationIdentifier.is(annotation) ? annotation : this._changeAnnotations.manage(annotation);
operation = CreateFile.create(uri, options, id);
}
this._workspaceEdit.documentChanges.push(operation);
if (id !== void 0) {
return id;
}
}
renameFile(oldUri, newUri, optionsOrAnnotation, options) {
this.initDocumentChanges();
if (this._workspaceEdit.documentChanges === void 0) {
throw new Error("Workspace edit is not configured for document changes.");
}
let annotation;
if (ChangeAnnotation.is(optionsOrAnnotation) || ChangeAnnotationIdentifier.is(optionsOrAnnotation)) {
annotation = optionsOrAnnotation;
} else {
options = optionsOrAnnotation;
}
let operation;
let id;
if (annotation === void 0) {
operation = RenameFile.create(oldUri, newUri, options);
} else {
id = ChangeAnnotationIdentifier.is(annotation) ? annotation : this._changeAnnotations.manage(annotation);
operation = RenameFile.create(oldUri, newUri, options, id);
}
this._workspaceEdit.documentChanges.push(operation);
if (id !== void 0) {
return id;
}
}
deleteFile(uri, optionsOrAnnotation, options) {
this.initDocumentChanges();
if (this._workspaceEdit.documentChanges === void 0) {
throw new Error("Workspace edit is not configured for document changes.");
}
let annotation;
if (ChangeAnnotation.is(optionsOrAnnotation) || ChangeAnnotationIdentifier.is(optionsOrAnnotation)) {
annotation = optionsOrAnnotation;
} else {
options = optionsOrAnnotation;
}
let operation;
let id;
if (annotation === void 0) {
operation = DeleteFile.create(uri, options);
} else {
id = ChangeAnnotationIdentifier.is(annotation) ? annotation : this._changeAnnotations.manage(annotation);
operation = DeleteFile.create(uri, options, id);
}
this._workspaceEdit.documentChanges.push(operation);
if (id !== void 0) {
return id;
}
}
};
(function(TextDocumentIdentifier2) {
function create(uri) {
return { uri };
}
__name(create, "create");
TextDocumentIdentifier2.create = create;
function is(value) {
let candidate = value;
return Is.defined(candidate) && Is.string(candidate.uri);
}
__name(is, "is");
TextDocumentIdentifier2.is = is;
})(TextDocumentIdentifier || (TextDocumentIdentifier = {}));
(function(VersionedTextDocumentIdentifier2) {
function create(uri, version) {
return { uri, version };
}
__name(create, "create");
VersionedTextDocumentIdentifier2.create = create;
function is(value) {
let candidate = value;
return Is.defined(candidate) && Is.string(candidate.uri) && Is.integer(candidate.version);
}
__name(is, "is");
VersionedTextDocumentIdentifier2.is = is;
})(VersionedTextDocumentIdentifier || (VersionedTextDocumentIdentifier = {}));
(function(OptionalVersionedTextDocumentIdentifier2) {
function create(uri, version) {
return { uri, version };
}
__name(create, "create");
OptionalVersionedTextDocumentIdentifier2.create = create;
function is(value) {
let candidate = value;
return Is.defined(candidate) && Is.string(candidate.uri) && (candidate.version === null || Is.integer(candidate.version));
}
__name(is, "is");
OptionalVersionedTextDocumentIdentifier2.is = is;
})(OptionalVersionedTextDocumentIdentifier || (OptionalVersionedTextDocumentIdentifier = {}));
(function(TextDocumentItem2) {
function create(uri, languageId, version, text) {
return { uri, languageId, version, text };
}
__name(create, "create");
TextDocumentItem2.create = create;
function is(value) {
let candidate = value;
return Is.defined(candidate) && Is.string(candidate.uri) && Is.string(candidate.languageId) && Is.integer(candidate.version) && Is.string(candidate.text);
}
__name(is, "is");
TextDocumentItem2.is = is;
})(TextDocumentItem || (TextDocumentItem = {}));
(function(MarkupKind2) {
MarkupKind2.PlainText = "plaintext";
MarkupKind2.Markdown = "markdown";
function is(value) {
const candidate = value;
return candidate === MarkupKind2.PlainText || candidate === MarkupKind2.Markdown;
}
__name(is, "is");
MarkupKind2.is = is;
})(MarkupKind || (MarkupKind = {}));
(function(MarkupContent2) {
function is(value) {
const candidate = value;
return Is.objectLiteral(value) && MarkupKind.is(candidate.kind) && Is.string(candidate.value);
}
__name(is, "is");
MarkupContent2.is = is;
})(MarkupContent || (MarkupContent = {}));
(function(CompletionItemKind2) {
CompletionItemKind2.Text = 1;
CompletionItemKind2.Method = 2;
CompletionItemKind2.Function = 3;
CompletionItemKind2.Constructor = 4;
CompletionItemKind2.Field = 5;
CompletionItemKind2.Variable = 6;
CompletionItemKind2.Class = 7;
CompletionItemKind2.Interface = 8;
CompletionItemKind2.Module = 9;
CompletionItemKind2.Property = 10;
CompletionItemKind2.Unit = 11;
CompletionItemKind2.Value = 12;
CompletionItemKind2.Enum = 13;
CompletionItemKind2.Keyword = 14;
CompletionItemKind2.Snippet = 15;
CompletionItemKind2.Color = 16;
CompletionItemKind2.File = 17;
CompletionItemKind2.Reference = 18;
CompletionItemKind2.Folder = 19;
CompletionItemKind2.EnumMember = 20;
CompletionItemKind2.Constant = 21;
CompletionItemKind2.Struct = 22;
CompletionItemKind2.Event = 23;
CompletionItemKind2.Operator = 24;
CompletionItemKind2.TypeParameter = 25;
})(CompletionItemKind || (CompletionItemKind = {}));
(function(InsertTextFormat2) {
InsertTextFormat2.PlainText = 1;
InsertTextFormat2.Snippet = 2;
})(InsertTextFormat || (InsertTextFormat = {}));
(function(CompletionItemTag2) {
CompletionItemTag2.Deprecated = 1;
})(CompletionItemTag || (CompletionItemTag = {}));
(function(InsertReplaceEdit2) {
function create(newText, insert, replace) {
return { newText, insert, replace };
}
__name(create, "create");
InsertReplaceEdit2.create = create;
function is(value) {
const candidate = value;
return candidate && Is.string(candidate.newText) && Range.is(candidate.insert) && Range.is(candidate.replace);
}
__name(is, "is");
InsertReplaceEdit2.is = is;
})(InsertReplaceEdit || (InsertReplaceEdit = {}));
(function(InsertTextMode2) {
InsertTextMode2.asIs = 1;
InsertTextMode2.adjustIndentation = 2;
})(InsertTextMode || (InsertTextMode = {}));
(function(CompletionItemLabelDetails2) {
function is(value) {
const candidate = value;
return candidate && (Is.string(candidate.detail) || candidate.detail === void 0) && (Is.string(candidate.description) || candidate.description === void 0);
}
__name(is, "is");
CompletionItemLabelDetails2.is = is;
})(CompletionItemLabelDetails || (CompletionItemLabelDetails = {}));
(function(CompletionItem2) {
function create(label) {
return { label };
}
__name(create, "create");
CompletionItem2.create = create;
})(CompletionItem || (CompletionItem = {}));
(function(CompletionList2) {
function create(items, isIncomplete) {
return { items: items ? items : [], isIncomplete: !!isIncomplete };
}
__name(create, "create");
CompletionList2.create = create;
})(CompletionList || (CompletionList = {}));
(function(MarkedString2) {
function fromPlainText(plainText) {
return plainText.replace(/[\\`*_{}[\]()#+\-.!]/g, "\\$&");
}
__name(fromPlainText, "fromPlainText");
MarkedString2.fromPlainText = fromPlainText;
function is(value) {
const candidate = value;
return Is.string(candidate) || Is.objectLiteral(candidate) && Is.string(candidate.language) && Is.string(candidate.value);
}
__name(is, "is");
MarkedString2.is = is;
})(MarkedString || (MarkedString = {}));
(function(Hover2) {
function is(value) {
let candidate = value;
return !!candidate && Is.objectLiteral(candidate) && (MarkupContent.is(candidate.contents) || MarkedString.is(candidate.contents) || Is.typedArray(candidate.contents, MarkedString.is)) && (value.range === void 0 || Range.is(value.range));
}
__name(is, "is");
Hover2.is = is;
})(Hover || (Hover = {}));
(function(ParameterInformation2) {
function create(label, documentation) {
return documentation ? { label, documentation } : { label };
}
__name(create, "create");
ParameterInformation2.create = create;
})(ParameterInformation || (ParameterInformation = {}));
(function(SignatureInformation2) {
function create(label, documentation, ...parameters) {
let result = { label };
if (Is.defined(documentation)) {
result.documentation = documentation;
}
if (Is.defined(parameters)) {
result.parameters = parameters;
} else {
result.parameters = [];
}
return result;
}
__name(create, "create");
SignatureInformation2.create = create;
})(SignatureInformation || (SignatureInformation = {}));
(function(DocumentHighlightKind2) {
DocumentHighlightKind2.Text = 1;
DocumentHighlightKind2.Read = 2;
DocumentHighlightKind2.Write = 3;
})(DocumentHighlightKind || (DocumentHighlightKind = {}));
(function(DocumentHighlight2) {
function create(range, kind) {
let result = { range };
if (Is.number(kind)) {
result.kind = kind;
}
return result;
}
__name(create, "create");
DocumentHighlight2.create = create;
})(DocumentHighlight || (DocumentHighlight = {}));
(function(SymbolKind2) {
SymbolKind2.File = 1;
SymbolKind2.Module = 2;
SymbolKind2.Namespace = 3;
SymbolKind2.Package = 4;
SymbolKind2.Class = 5;
SymbolKind2.Method = 6;
SymbolKind2.Property = 7;
SymbolKind2.Field = 8;
SymbolKind2.Constructor = 9;
SymbolKind2.Enum = 10;
SymbolKind2.Interface = 11;
SymbolKind2.Function = 12;
SymbolKind2.Variable = 13;
SymbolKind2.Constant = 14;
SymbolKind2.String = 15;
SymbolKind2.Number = 16;
SymbolKind2.Boolean = 17;
SymbolKind2.Array = 18;
SymbolKind2.Object = 19;
SymbolKind2.Key = 20;
SymbolKind2.Null = 21;
SymbolKind2.EnumMember = 22;
SymbolKind2.Struct = 23;
SymbolKind2.Event = 24;
SymbolKind2.Operator = 25;
SymbolKind2.TypeParameter = 26;
})(SymbolKind || (SymbolKind = {}));
(function(SymbolTag2) {
SymbolTag2.Deprecated = 1;
})(SymbolTag || (SymbolTag = {}));
(function(SymbolInformation2) {
function create(name, kind, range, uri, containerName) {
let result = {
name,
kind,
location: { uri, range }
};
if (containerName) {
result.containerName = containerName;
}
return result;
}
__name(create, "create");
SymbolInformation2.create = create;
})(SymbolInformation || (SymbolInformation = {}));
(function(WorkspaceSymbol2) {
function create(name, kind, uri, range) {
return range !== void 0 ? { name, kind, location: { uri, range } } : { name, kind, location: { uri } };
}
__name(create, "create");
WorkspaceSymbol2.create = create;
})(WorkspaceSymbol || (WorkspaceSymbol = {}));
(function(DocumentSymbol2) {
function create(name, detail, kind, range, selectionRange, children) {
let result = {
name,
detail,
kind,
range,
selectionRange
};
if (children !== void 0) {
result.children = children;
}
return result;
}
__name(create, "create");
DocumentSymbol2.create = create;
function is(value) {
let candidate = value;
return candidate && Is.string(candidate.name) && Is.number(candidate.kind) && Range.is(candidate.range) && Range.is(candidate.selectionRange) && (candidate.detail === void 0 || Is.string(candidate.detail)) && (candidate.deprecated === void 0 || Is.boolean(candidate.deprecated)) && (candidate.children === void 0 || Array.isArray(candidate.children)) && (candidate.tags === void 0 || Array.isArray(candidate.tags));
}
__name(is, "is");
DocumentSymbol2.is = is;
})(DocumentSymbol || (DocumentSymbol = {}));
(function(CodeActionKind2) {
CodeActionKind2.Empty = "";
CodeActionKind2.QuickFix = "quickfix";
CodeActionKind2.Refactor = "refactor";
CodeActionKind2.RefactorExtract = "refactor.extract";
CodeActionKind2.RefactorInline = "refactor.inline";
CodeActionKind2.RefactorRewrite = "refactor.rewrite";
CodeActionKind2.Source = "source";
CodeActionKind2.SourceOrganizeImports = "source.organizeImports";
CodeActionKind2.SourceFixAll = "source.fixAll";
})(CodeActionKind || (CodeActionKind = {}));
(function(CodeActionTriggerKind2) {
CodeActionTriggerKind2.Invoked = 1;
CodeActionTriggerKind2.Automatic = 2;
})(CodeActionTriggerKind || (CodeActionTriggerKind = {}));
(function(CodeActionContext2) {
function create(diagnostics, only, triggerKind) {
let result = { diagnostics };
if (only !== void 0 && only !== null) {
result.only = only;
}
if (triggerKind !== void 0 && triggerKind !== null) {
result.triggerKind = triggerKind;
}
return result;
}
__name(create, "create");
CodeActionContext2.create = create;
function is(value) {
let candidate = value;
return Is.defined(candidate) && Is.typedArray(candidate.diagnostics, Diagnostic.is) && (candidate.only === void 0 || Is.typedArray(candidate.only, Is.string)) && (candidate.triggerKind === void 0 || candidate.triggerKind === CodeActionTriggerKind.Invoked || candidate.triggerKind === CodeActionTriggerKind.Automatic);
}
__name(is, "is");
CodeActionContext2.is = is;
})(CodeActionContext || (CodeActionContext = {}));
(function(CodeAction2) {
function create(title, kindOrCommandOrEdit, kind) {
let result = { title };
let checkKind = true;
if (typeof kindOrCommandOrEdit === "string") {
checkKind = false;
result.kind = kindOrCommandOrEdit;
} else if (Command.is(kindOrCommandOrEdit)) {
result.command = kindOrCommandOrEdit;
} else {
result.edit = kindOrCommandOrEdit;
}
if (checkKind && kind !== void 0) {
result.kind = kind;
}
return result;
}
__name(create, "create");
CodeAction2.create = create;
function is(value) {
let candidate = value;
return candidate && Is.string(candidate.title) && (candidate.diagnostics === void 0 || Is.typedArray(candidate.diagnostics, Diagnostic.is)) && (candidate.kind === void 0 || Is.string(candidate.kind)) && (candidate.edit !== void 0 || candidate.command !== void 0) && (candidate.command === void 0 || Command.is(candidate.command)) && (candidate.isPreferred === void 0 || Is.boolean(candidate.isPreferred)) && (candidate.edit === void 0 || WorkspaceEdit.is(candidate.edit));
}
__name(is, "is");
CodeAction2.is = is;
})(CodeAction || (CodeAction = {}));
(function(CodeLens2) {
function create(range, data) {
let result = { range };
if (Is.defined(data)) {
result.data = data;
}
return result;
}
__name(create, "create");
CodeLens2.create = create;
function is(value) {
let candidate = value;
return Is.defined(candidate) && Range.is(candidate.range) && (Is.undefined(candidate.command) || Command.is(candidate.command));
}
__name(is, "is");
CodeLens2.is = is;
})(CodeLens || (CodeLens = {}));
(function(FormattingOptions2) {
function create(tabSize, insertSpaces) {
return { tabSize, insertSpaces };
}
__name(create, "create");
FormattingOptions2.create = create;
function is(value) {
let candidate = value;
return Is.defined(candidate) && Is.uinteger(candidate.tabSize) && Is.boolean(candidate.insertSpaces);
}
__name(is, "is");
FormattingOptions2.is = is;
})(FormattingOptions || (FormattingOptions = {}));
(function(DocumentLink2) {
function create(range, target, data) {
return { range, target, data };
}
__name(create, "create");
DocumentLink2.create = create;
function is(value) {
let candidate = value;
return Is.defined(candidate) && Range.is(candidate.range) && (Is.undefined(candidate.target) || Is.string(candidate.target));
}
__name(is, "is");
DocumentLink2.is = is;
})(DocumentLink || (DocumentLink = {}));
(function(SelectionRange2) {
function create(range, parent) {
return { range, parent };
}
__name(create, "create");
SelectionRange2.create = create;
function is(value) {
let candidate = value;
return Is.objectLiteral(candidate) && Range.is(candidate.range) && (candidate.parent === void 0 || SelectionRange2.is(candidate.parent));
}
__name(is, "is");
SelectionRange2.is = is;
})(SelectionRange || (SelectionRange = {}));
(function(SemanticTokenTypes2) {
SemanticTokenTypes2["namespace"] = "namespace";
SemanticTokenTypes2["type"] = "type";
SemanticTokenTypes2["class"] = "class";
SemanticTokenTypes2["enum"] = "enum";
SemanticTokenTypes2["interface"] = "interface";
SemanticTokenTypes2["struct"] = "struct";
SemanticTokenTypes2["typeParameter"] = "typeParameter";
SemanticTokenTypes2["parameter"] = "parameter";
SemanticTokenTypes2["variable"] = "variable";
SemanticTokenTypes2["property"] = "property";
SemanticTokenTypes2["enumMember"] = "enumMember";
SemanticTokenTypes2["event"] = "event";
SemanticTokenTypes2["function"] = "function";
SemanticTokenTypes2["method"] = "method";
SemanticTokenTypes2["macro"] = "macro";
SemanticTokenTypes2["keyword"] = "keyword";
SemanticTokenTypes2["modifier"] = "modifier";
SemanticTokenTypes2["comment"] = "comment";
SemanticTokenTypes2["string"] = "string";
SemanticTokenTypes2["number"] = "number";
SemanticTokenTypes2["regexp"] = "regexp";
SemanticTokenTypes2["operator"] = "operator";
SemanticTokenTypes2["decorator"] = "decorator";
})(SemanticTokenTypes || (SemanticTokenTypes = {}));
(function(SemanticTokenModifiers2) {
SemanticTokenModifiers2["declaration"] = "declaration";
SemanticTokenModifiers2["definition"] = "definition";
SemanticTokenModifiers2["readonly"] = "readonly";
SemanticTokenModifiers2["static"] = "static";
SemanticTokenModifiers2["deprecated"] = "deprecated";
SemanticTokenModifiers2["abstract"] = "abstract";
SemanticTokenModifiers2["async"] = "async";
SemanticTokenModifiers2["modification"] = "modification";
SemanticTokenModifiers2["documentation"] = "documentation";
SemanticTokenModifiers2["defaultLibrary"] = "defaultLibrary";
})(SemanticTokenModifiers || (SemanticTokenModifiers = {}));
(function(SemanticTokens2) {
function is(value) {
const candidate = value;
return Is.objectLiteral(candidate) && (candidate.resultId === void 0 || typeof candidate.resultId === "string") && Array.isArray(candidate.data) && (candidate.data.length === 0 || typeof candidate.data[0] === "number");
}
__name(is, "is");
SemanticTokens2.is = is;
})(SemanticTokens || (SemanticTokens = {}));
(function(InlineValueText2) {
function create(range, text) {
return { range, text };
}
__name(create, "create");
InlineValueText2.create = create;
function is(value) {
const candidate = value;
return candidate !== void 0 && candidate !== null && Range.is(candidate.range) && Is.string(candidate.text);
}
__name(is, "is");
InlineValueText2.is = is;
})(InlineValueText || (InlineValueText = {}));
(function(InlineValueVariableLookup2) {
function create(range, variableName, caseSensitiveLookup) {
return { range, variableName, caseSensitiveLookup };
}
__name(create, "create");
InlineValueVariableLookup2.create = create;
function is(value) {
const candidate = value;
return candidate !== void 0 && candidate !== null && Range.is(candidate.range) && Is.boolean(candidate.caseSensitiveLookup) && (Is.string(candidate.variableName) || candidate.variableName === void 0);
}
__name(is, "is");
InlineValueVariableLookup2.is = is;
})(InlineValueVariableLookup || (InlineValueVariableLookup = {}));
(function(InlineValueEvaluatableExpression2) {
function create(range, expression) {
return { range, expression };
}
__name(create, "create");
InlineValueEvaluatableExpression2.create = create;
function is(value) {
const candidate = value;
return candidate !== void 0 && candidate !== null && Range.is(candidate.range) && (Is.string(candidate.expression) || candidate.expression === void 0);
}
__name(is, "is");
InlineValueEvaluatableExpression2.is = is;
})(InlineValueEvaluatableExpression || (InlineValueEvaluatableExpression = {}));
(function(InlineValueContext2) {
function create(frameId, stoppedLocation) {
return { frameId, stoppedLocation };
}
__name(create, "create");
InlineValueContext2.create = create;
function is(value) {
const candidate = value;
return Is.defined(candidate) && Range.is(value.stoppedLocation);
}
__name(is, "is");
InlineValueContext2.is = is;
})(InlineValueContext || (InlineValueContext = {}));
(function(InlayHintKind2) {
InlayHintKind2.Type = 1;
InlayHintKind2.Parameter = 2;
function is(value) {
return value === 1 || value === 2;
}
__name(is, "is");
InlayHintKind2.is = is;
})(InlayHintKind || (InlayHintKind = {}));
(function(InlayHintLabelPart2) {
function create(value) {
return { value };
}
__name(create, "create");
InlayHintLabelPart2.create = create;
function is(value) {
const candidate = value;
return Is.objectLiteral(candidate) && (candidate.tooltip === void 0 || Is.string(candidate.tooltip) || MarkupContent.is(candidate.tooltip)) && (candidate.location === void 0 || Location.is(candidate.location)) && (candidate.command === void 0 || Command.is(candidate.command));
}
__name(is, "is");
InlayHintLabelPart2.is = is;
})(InlayHintLabelPart || (InlayHintLabelPart = {}));
(function(InlayHint2) {
function create(position, label, kind) {
const result = { position, label };
if (kind !== void 0) {
result.kind = kind;
}
return result;
}
__name(create, "create");
InlayHint2.create = create;
function is(value) {
const candidate = value;
return Is.objectLiteral(candidate) && Position.is(candidate.position) && (Is.string(candidate.label) || Is.typedArray(candidate.label, InlayHintLabelPart.is)) && (candidate.kind === void 0 || InlayHintKind.is(candidate.kind)) && candidate.textEdits === void 0 || Is.typedArray(candidate.textEdits, TextEdit.is) && (candidate.tooltip === void 0 || Is.string(candidate.tooltip) || MarkupContent.is(candidate.tooltip)) && (candidate.paddingLeft === void 0 || Is.boolean(candidate.paddingLeft)) && (candidate.paddingRight === void 0 || Is.boolean(candidate.paddingRight));
}
__name(is, "is");
InlayHint2.is = is;
})(InlayHint || (InlayHint = {}));
(function(StringValue2) {
function createSnippet(value) {
return { kind: "snippet", value };
}
__name(createSnippet, "createSnippet");
StringValue2.createSnippet = createSnippet;
})(StringValue || (StringValue = {}));
(function(InlineCompletionItem2) {
function create(insertText, filterText, range, command) {
return { insertText, filterText, range, command };
}
__name(create, "create");
InlineCompletionItem2.create = create;
})(InlineCompletionItem || (InlineCompletionItem = {}));
(function(InlineCompletionList2) {
function create(items) {
return { items };
}
__name(create, "create");
InlineCompletionList2.create = create;
})(InlineCompletionList || (InlineCompletionList = {}));
(function(InlineCompletionTriggerKind2) {
InlineCompletionTriggerKind2.Invoked = 0;
InlineCompletionTriggerKind2.Automatic = 1;
})(InlineCompletionTriggerKind || (InlineCompletionTriggerKind = {}));
(function(SelectedCompletionInfo2) {
function create(range, text) {
return { range, text };
}
__name(create, "create");
SelectedCompletionInfo2.create = create;
})(SelectedCompletionInfo || (SelectedCompletionInfo = {}));
(function(InlineCompletionContext2) {
function create(triggerKind, selectedCompletionInfo) {
return { triggerKind, selectedCompletionInfo };
}
__name(create, "create");
InlineCompletionContext2.create = create;
})(InlineCompletionContext || (InlineCompletionContext = {}));
(function(WorkspaceFolder2) {
function is(value) {
const candidate = value;
return Is.objectLiteral(candidate) && URI.is(candidate.uri) && Is.string(candidate.name);
}
__name(is, "is");
WorkspaceFolder2.is = is;
})(WorkspaceFolder || (WorkspaceFolder = {}));
EOL = ["\n", "\r\n", "\r"];
(function(TextDocument3) {
function create(uri, languageId, version, content) {
return new FullTextDocument(uri, languageId, version, content);
}
__name(create, "create");
TextDocument3.create = create;
function is(value) {
let candidate = value;
return Is.defined(candidate) && Is.string(candidate.uri) && (Is.undefined(candidate.languageId) || Is.string(candidate.languageId)) && Is.uinteger(candidate.lineCount) && Is.func(candidate.getText) && Is.func(candidate.positionAt) && Is.func(candidate.offsetAt) ? true : false;
}
__name(is, "is");
TextDocument3.is = is;
function applyEdits(document, edits) {
let text = document.getText();
let sortedEdits = mergeSort2(edits, (a, b) => {
let diff = a.range.start.line - b.range.start.line;
if (diff === 0) {
return a.range.start.character - b.range.start.character;
}
return diff;
});
let lastModifiedOffset = text.length;
for (let i = sortedEdits.length - 1; i >= 0; i--) {
let e = sortedEdits[i];
let startOffset = document.offsetAt(e.range.start);
let endOffset = document.offsetAt(e.range.end);
if (endOffset <= lastModifiedOffset) {
text = text.substring(0, startOffset) + e.newText + text.substring(endOffset, text.length);
} else {
throw new Error("Overlapping edit");
}
lastModifiedOffset = startOffset;
}
return text;
}
__name(applyEdits, "applyEdits");
TextDocument3.applyEdits = applyEdits;
function mergeSort2(data, compare) {
if (data.length <= 1) {
return data;
}
const p = data.length / 2 | 0;
const left = data.slice(0, p);
const right = data.slice(p);
mergeSort2(left, compare);
mergeSort2(right, compare);
let leftIdx = 0;
let rightIdx = 0;
let i = 0;
while (leftIdx < left.length && rightIdx < right.length) {
let ret = compare(left[leftIdx], right[rightIdx]);
if (ret <= 0) {
data[i++] = left[leftIdx++];
} else {
data[i++] = right[rightIdx++];
}
}
while (leftIdx < left.length) {
data[i++] = left[leftIdx++];
}
while (rightIdx < right.length) {
data[i++] = right[rightIdx++];
}
return data;
}
__name(mergeSort2, "mergeSort");
})(TextDocument || (TextDocument = {}));
FullTextDocument = class {
static {
__name(this, "FullTextDocument");
}
constructor(uri, languageId, version, content) {
this._uri = uri;
this._languageId = languageId;
this._version = version;
this._content = content;
this._lineOffsets = void 0;
}
get uri() {
return this._uri;
}
get languageId() {
return this._languageId;
}
get version() {
return this._version;
}
getText(range) {
if (range) {
let start = this.offsetAt(range.start);
let end = this.offsetAt(range.end);
return this._content.substring(start, end);
}
return this._content;
}
update(event, version) {
this._content = event.text;
this._version = version;
this._lineOffsets = void 0;
}
getLineOffsets() {
if (this._lineOffsets === void 0) {
let lineOffsets = [];
let text = this._content;
let isLineStart = true;
for (let i = 0; i < text.length; i++) {
if (isLineStart) {
lineOffsets.push(i);
isLineStart = false;
}
let ch = text.charAt(i);
isLineStart = ch === "\r" || ch === "\n";
if (ch === "\r" && i + 1 < text.length && text.charAt(i + 1) === "\n") {
i++;
}
}
if (isLineStart && text.length > 0) {
lineOffsets.push(text.length);
}
this._lineOffsets = lineOffsets;
}
return this._lineOffsets;
}
positionAt(offset) {
offset = Math.max(Math.min(offset, this._content.length), 0);
let lineOffsets = this.getLineOffsets();
let low = 0, high = lineOffsets.length;
if (high === 0) {
return Position.create(0, offset);
}
while (low < high) {
let mid = Math.floor((low + high) / 2);
if (lineOffsets[mid] > offset) {
high = mid;
} else {
low = mid + 1;
}
}
let line = low - 1;
return Position.create(line, offset - lineOffsets[line]);
}
offsetAt(position) {
let lineOffsets = this.getLineOffsets();
if (position.line >= lineOffsets.length) {
return this._content.length;
} else if (position.line < 0) {
return 0;
}
let lineOffset = lineOffsets[position.line];
let nextLineOffset = position.line + 1 < lineOffsets.length ? lineOffsets[position.line + 1] : this._content.length;
return Math.max(Math.min(lineOffset + position.character, nextLineOffset), lineOffset);
}
get lineCount() {
return this.getLineOffsets().length;
}
};
(function(Is2) {
const toString3 = Object.prototype.toString;
function defined(value) {
return typeof value !== "undefined";
}
__name(defined, "defined");
Is2.defined = defined;
function undefined2(value) {
return typeof value === "undefined";
}
__name(undefined2, "undefined");
Is2.undefined = undefined2;
function boolean(value) {
return value === true || value === false;
}
__name(boolean, "boolean");
Is2.boolean = boolean;
function string(value) {
return toString3.call(value) === "[object String]";
}
__name(string, "string");
Is2.string = string;
function number(value) {
return toString3.call(value) === "[object Number]";
}
__name(number, "number");
Is2.number = number;
function numberRange(value, min2, max) {
return toString3.call(value) === "[object Number]" && min2 <= value && value <= max;
}
__name(numberRange, "numberRange");
Is2.numberRange = numberRange;
function integer2(value) {
return toString3.call(value) === "[object Number]" && -2147483648 <= value && value <= 2147483647;
}
__name(integer2, "integer");
Is2.integer = integer2;
function uinteger2(value) {
return toString3.call(value) === "[object Number]" && 0 <= value && value <= 2147483647;
}
__name(uinteger2, "uinteger");
Is2.uinteger = uinteger2;
function func(value) {
return toString3.call(value) === "[object Function]";
}
__name(func, "func");
Is2.func = func;
function objectLiteral(value) {
return value !== null && typeof value === "object";
}
__name(objectLiteral, "objectLiteral");
Is2.objectLiteral = objectLiteral;
function typedArray(value, check) {
return Array.isArray(value) && value.every(check);
}
__name(typedArray, "typedArray");
Is2.typedArray = typedArray;
})(Is || (Is = {}));
}
});
// ../../node_modules/.pnpm/vscode-jsonrpc@8.2.0/node_modules/vscode-jsonrpc/lib/common/ral.js
var require_ral = __commonJS({
"../../node_modules/.pnpm/vscode-jsonrpc@8.2.0/node_modules/vscode-jsonrpc/lib/common/ral.js"(exports2) {
"use strict";
Object.defineProperty(exports2, "__esModule", { value: true });
var _ral;
function RAL() {
if (_ral === void 0) {
throw new Error(`No runtime abstraction layer installed`);
}
return _ral;
}
__name(RAL, "RAL");
(function(RAL2) {
function install(ral) {
if (ral === void 0) {
throw new Error(`No runtime abstraction layer provided`);
}
_ral = ral;
}
__name(install, "install");
RAL2.install = install;
})(RAL || (RAL = {}));
exports2.default = RAL;
}
});
// ../../node_modules/.pnpm/vscode-jsonrpc@8.2.0/node_modules/vscode-jsonrpc/lib/common/is.js
var require_is = __commonJS({
"../../node_modules/.pnpm/vscode-jsonrpc@8.2.0/node_modules/vscode-jsonrpc/lib/common/is.js"(exports2) {
"use strict";
Object.defineProperty(exports2, "__esModule", { value: true });
exports2.stringArray = exports2.array = exports2.func = exports2.error = exports2.number = exports2.string = exports2.boolean = void 0;
function boolean(value) {
return value === true || value === false;
}
__name(boolean, "boolean");
exports2.boolean = boolean;
function string(value) {
return typeof value === "string" || value instanceof String;
}
__name(string, "string");
exports2.string = string;
function number(value) {
return typeof value === "number" || value instanceof Number;
}
__name(number, "number");
exports2.number = number;
function error(value) {
return value instanceof Error;
}
__name(error, "error");
exports2.error = error;
function func(value) {
return typeof value === "function";
}
__name(func, "func");
exports2.func = func;
function array(value) {
return Array.isArray(value);
}
__name(array, "array");
exports2.array = array;
function stringArray(value) {
return array(value) && value.every((elem) => string(elem));
}
__name(stringArray, "stringArray");
exports2.stringArray = stringArray;
}
});
// ../../node_modules/.pnpm/vscode-jsonrpc@8.2.0/node_modules/vscode-jsonrpc/lib/common/events.js
var require_events = __commonJS({
"../../node_modules/.pnpm/vscode-jsonrpc@8.2.0/node_modules/vscode-jsonrpc/lib/common/events.js"(exports2) {
"use strict";
Object.defineProperty(exports2, "__esModule", { value: true });
exports2.Emitter = exports2.Event = void 0;
var ral_1 = require_ral();
var Event;
(function(Event2) {
const _disposable = { dispose() {
} };
Event2.None = function() {
return _disposable;
};
})(Event || (exports2.Event = Event = {}));
var CallbackList = class {
static {
__name(this, "CallbackList");
}
add(callback, context = null, bucket) {
if (!this._callbacks) {
this._callbacks = [];
this._contexts = [];
}
this._callbacks.push(callback);
this._contexts.push(context);
if (Array.isArray(bucket)) {
bucket.push({ dispose: /* @__PURE__ */ __name(() => this.remove(callback, context), "dispose") });
}
}
remove(callback, context = null) {
if (!this._callbacks) {
return;
}
let foundCallbackWithDifferentContext = false;
for (let i = 0, len = this._callbacks.length; i < len; i++) {
if (this._callbacks[i] === callback) {
if (this._contexts[i] === context) {
this._callbacks.splice(i, 1);
this._contexts.splice(i, 1);
return;
} else {
foundCallbackWithDifferentContext = true;
}
}
}
if (foundCallbackWithDifferentContext) {
throw new Error("When adding a listener with a context, you should remove it with the same context");
}
}
invoke(...args) {
if (!this._callbacks) {
return [];
}
const ret = [], callbacks = this._callbacks.slice(0), contexts = this._contexts.slice(0);
for (let i = 0, len = callbacks.length; i < len; i++) {
try {
ret.push(callbacks[i].apply(contexts[i], args));
} catch (e) {
(0, ral_1.default)().console.error(e);
}
}
return ret;
}
isEmpty() {
return !this._callbacks || this._callbacks.length === 0;
}
dispose() {
this._callbacks = void 0;
this._contexts = void 0;
}
};
var Emitter3 = class _Emitter {
static {
__name(this, "Emitter");
}
constructor(_options) {
this._options = _options;
}
/**
* For the public to allow to subscribe
* to events from this Emitter
*/
get event() {
if (!this._event) {
this._event = (listener, thisArgs, disposables) => {
if (!this._callbacks) {
this._callbacks = new CallbackList();
}
if (this._options && this._options.onFirstListenerAdd && this._callbacks.isEmpty()) {
this._options.onFirstListenerAdd(this);
}
this._callbacks.add(listener, thisArgs);
const result = {
dispose: /* @__PURE__ */ __name(() => {
if (!this._callbacks) {
return;
}
this._callbacks.remove(listener, thisArgs);
result.dispose = _Emitter._noop;
if (this._options && this._options.onLastListenerRemove && this._callbacks.isEmpty()) {
this._options.onLastListenerRemove(this);
}
}, "dispose")
};
if (Array.isArray(disposables)) {
disposables.push(result);
}
return result;
};
}
return this._event;
}
/**
* To be kept private to fire an event to
* subscribers
*/
fire(event) {
if (this._callbacks) {
this._callbacks.invoke.call(this._callbacks, event);
}
}
dispose() {
if (this._callbacks) {
this._callbacks.dispose();
this._callbacks = void 0;
}
}
};
exports2.Emitter = Emitter3;
Emitter3._noop = function() {
};
}
});
// ../../node_modules/.pnpm/vscode-jsonrpc@8.2.0/node_modules/vscode-jsonrpc/lib/common/cancellation.js
var require_cancellation = __commonJS({
"../../node_modules/.pnpm/vscode-jsonrpc@8.2.0/node_modules/vscode-jsonrpc/lib/common/cancellation.js"(exports2) {
"use strict";
Object.defineProperty(exports2, "__esModule", { value: true });
exports2.CancellationTokenSource = exports2.CancellationToken = void 0;
var ral_1 = require_ral();
var Is2 = require_is();
var events_1 = require_events();
var CancellationToken11;
(function(CancellationToken12) {
CancellationToken12.None = Object.freeze({
isCancellationRequested: false,
onCancellationRequested: events_1.Event.None
});
CancellationToken12.Cancelled = Object.freeze({
isCancellationRequested: true,
onCancellationRequested: events_1.Event.None
});
function is(value) {
const candidate = value;
return candidate && (candidate === CancellationToken12.None || candidate === CancellationToken12.Cancelled || Is2.boolean(candidate.isCancellationRequested) && !!candidate.onCancellationRequested);
}
__name(is, "is");
CancellationToken12.is = is;
})(CancellationToken11 || (exports2.CancellationToken = CancellationToken11 = {}));
var shortcutEvent = Object.freeze(function(callback, context) {
const handle = (0, ral_1.default)().timer.setTimeout(callback.bind(context), 0);
return { dispose() {
handle.dispose();
} };
});
var MutableToken = class {
static {
__name(this, "MutableToken");
}
constructor() {
this._isCancelled = false;
}
cancel() {
if (!this._isCancelled) {
this._isCancelled = true;
if (this._emitter) {
this._emitter.fire(void 0);
this.dispose();
}
}
}
get isCancellationRequested() {
return this._isCancelled;
}
get onCancellationRequested() {
if (this._isCancelled) {
return shortcutEvent;
}
if (!this._emitter) {
this._emitter = new events_1.Emitter();
}
return this._emitter.event;
}
dispose() {
if (this._emitter) {
this._emitter.dispose();
this._emitter = void 0;
}
}
};
var CancellationTokenSource3 = class {
static {
__name(this, "CancellationTokenSource");
}
get token() {
if (!this._token) {
this._token = new MutableToken();
}
return this._token;
}
cancel() {
if (!this._token) {
this._token = CancellationToken11.Cancelled;
} else {
this._token.cancel();
}
}
dispose() {
if (!this._token) {
this._token = CancellationToken11.None;
} else if (this._token instanceof MutableToken) {
this._token.dispose();
}
}
};
exports2.CancellationTokenSource = CancellationTokenSource3;
}
});
// ../../node_modules/.pnpm/vscode-jsonrpc@8.2.0/node_modules/vscode-jsonrpc/lib/common/messages.js
var require_messages = __commonJS({
"../../node_modules/.pnpm/vscode-jsonrpc@8.2.0/node_modules/vscode-jsonrpc/lib/common/messages.js"(exports2) {
"use strict";
Object.defineProperty(exports2, "__esModule", { value: true });
exports2.Message = exports2.NotificationType9 = exports2.NotificationType8 = exports2.NotificationType7 = exports2.NotificationType6 = exports2.NotificationType5 = exports2.NotificationType4 = exports2.NotificationType3 = exports2.NotificationType2 = exports2.NotificationType1 = exports2.NotificationType0 = exports2.NotificationType = exports2.RequestType9 = exports2.RequestType8 = exports2.RequestType7 = exports2.RequestType6 = exports2.RequestType5 = exports2.RequestType4 = exports2.RequestType3 = exports2.RequestType2 = exports2.RequestType1 = exports2.RequestType = exports2.RequestType0 = exports2.AbstractMessageSignature = exports2.ParameterStructures = exports2.ResponseError = exports2.ErrorCodes = void 0;
var is = require_is();
var ErrorCodes;
(function(ErrorCodes2) {
ErrorCodes2.ParseError = -32700;
ErrorCodes2.InvalidRequest = -32600;
ErrorCodes2.MethodNotFound = -32601;
ErrorCodes2.InvalidParams = -32602;
ErrorCodes2.InternalError = -32603;
ErrorCodes2.jsonrpcReservedErrorRangeStart = -32099;
ErrorCodes2.serverErrorStart = -32099;
ErrorCodes2.MessageWriteError = -32099;
ErrorCodes2.MessageReadError = -32098;
ErrorCodes2.PendingResponseRejected = -32097;
ErrorCodes2.ConnectionInactive = -32096;
ErrorCodes2.ServerNotInitialized = -32002;
ErrorCodes2.UnknownErrorCode = -32001;
ErrorCodes2.jsonrpcReservedErrorRangeEnd = -32e3;
ErrorCodes2.serverErrorEnd = -32e3;
})(ErrorCodes || (exports2.ErrorCodes = ErrorCodes = {}));
var ResponseError2 = class _ResponseError extends Error {
static {
__name(this, "ResponseError");
}
constructor(code, message, data) {
super(message);
this.code = is.number(code) ? code : ErrorCodes.UnknownErrorCode;
this.data = data;
Object.setPrototypeOf(this, _ResponseError.prototype);
}
toJson() {
const result = {
code: this.code,
message: this.message
};
if (this.data !== void 0) {
result.data = this.data;
}
return result;
}
};
exports2.ResponseError = ResponseError2;
var ParameterStructures = class _ParameterStructures {
static {
__name(this, "ParameterStructures");
}
constructor(kind) {
this.kind = kind;
}
static is(value) {
return value === _ParameterStructures.auto || value === _ParameterStructures.byName || value === _ParameterStructures.byPosition;
}
toString() {
return this.kind;
}
};
exports2.ParameterStructures = ParameterStructures;
ParameterStructures.auto = new ParameterStructures("auto");
ParameterStructures.byPosition = new ParameterStructures("byPosition");
ParameterStructures.byName = new ParameterStructures("byName");
var AbstractMessageSignature = class {
static {
__name(this, "AbstractMessageSignature");
}
constructor(method, numberOfParams) {
this.method = method;
this.numberOfParams = numberOfParams;
}
get parameterStructures() {
return ParameterStructures.auto;
}
};
exports2.AbstractMessageSignature = AbstractMessageSignature;
var RequestType0 = class extends AbstractMessageSignature {
static {
__name(this, "RequestType0");
}
constructor(method) {
super(method, 0);
}
};
exports2.RequestType0 = RequestType0;
var RequestType = class extends AbstractMessageSignature {
static {
__name(this, "RequestType");
}
constructor(method, _parameterStructures = ParameterStructures.auto) {
super(method, 1);
this._parameterStructures = _parameterStructures;
}
get parameterStructures() {
return this._parameterStructures;
}
};
exports2.RequestType = RequestType;
var RequestType1 = class extends AbstractMessageSignature {
static {
__name(this, "RequestType1");
}
constructor(method, _parameterStructures = ParameterStructures.auto) {
super(method, 1);
this._parameterStructures = _parameterStructures;
}
get parameterStructures() {
return this._parameterStructures;
}
};
exports2.RequestType1 = RequestType1;
var RequestType2 = class extends AbstractMessageSignature {
static {
__name(this, "RequestType2");
}
constructor(method) {
super(method, 2);
}
};
exports2.RequestType2 = RequestType2;
var RequestType3 = class extends AbstractMessageSignature {
static {
__name(this, "RequestType3");
}
constructor(method) {
super(method, 3);
}
};
exports2.RequestType3 = RequestType3;
var RequestType4 = class extends AbstractMessageSignature {
static {
__name(this, "RequestType4");
}
constructor(method) {
super(method, 4);
}
};
exports2.RequestType4 = RequestType4;
var RequestType5 = class extends AbstractMessageSignature {
static {
__name(this, "RequestType5");
}
constructor(method) {
super(method, 5);
}
};
exports2.RequestType5 = RequestType5;
var RequestType6 = class extends AbstractMessageSignature {
static {
__name(this, "RequestType6");
}
constructor(method) {
super(method, 6);
}
};
exports2.RequestType6 = RequestType6;
var RequestType7 = class extends AbstractMessageSignature {
static {
__name(this, "RequestType7");
}
constructor(method) {
super(method, 7);
}
};
exports2.RequestType7 = RequestType7;
var RequestType8 = class extends AbstractMessageSignature {
static {
__name(this, "RequestType8");
}
constructor(method) {
super(method, 8);
}
};
exports2.RequestType8 = RequestType8;
var RequestType9 = class extends AbstractMessageSignature {
static {
__name(this, "RequestType9");
}
constructor(method) {
super(method, 9);
}
};
exports2.RequestType9 = RequestType9;
var NotificationType = class extends AbstractMessageSignature {
static {
__name(this, "NotificationType");
}
constructor(method, _parameterStructures = ParameterStructures.auto) {
super(method, 1);
this._parameterStructures = _parameterStructures;
}
get parameterStructures() {
return this._parameterStructures;
}
};
exports2.NotificationType = NotificationType;
var NotificationType0 = class extends AbstractMessageSignature {
static {
__name(this, "NotificationType0");
}
constructor(method) {
super(method, 0);
}
};
exports2.NotificationType0 = NotificationType0;
var NotificationType1 = class extends AbstractMessageSignature {
static {
__name(this, "NotificationType1");
}
constructor(method, _parameterStructures = ParameterStructures.auto) {
super(method, 1);
this._parameterStructures = _parameterStructures;
}
get parameterStructures() {
return this._parameterStructures;
}
};
exports2.NotificationType1 = NotificationType1;
var NotificationType2 = class extends AbstractMessageSignature {
static {
__name(this, "NotificationType2");
}
constructor(method) {
super(method, 2);
}
};
exports2.NotificationType2 = NotificationType2;
var NotificationType3 = class extends AbstractMessageSignature {
static {
__name(this, "NotificationType3");
}
constructor(method) {
super(method, 3);
}
};
exports2.NotificationType3 = NotificationType3;
var NotificationType4 = class extends AbstractMessageSignature {
static {
__name(this, "NotificationType4");
}
constructor(method) {
super(method, 4);
}
};
exports2.NotificationType4 = NotificationType4;
var NotificationType5 = class extends AbstractMessageSignature {
static {
__name(this, "NotificationType5");
}
constructor(method) {
super(method, 5);
}
};
exports2.NotificationType5 = NotificationType5;
var NotificationType6 = class extends AbstractMessageSignature {
static {
__name(this, "NotificationType6");
}
constructor(method) {
super(method, 6);
}
};
exports2.NotificationType6 = NotificationType6;
var NotificationType7 = class extends AbstractMessageSignature {
static {
__name(this, "NotificationType7");
}
constructor(method) {
super(method, 7);
}
};
exports2.NotificationType7 = NotificationType7;
var NotificationType8 = class extends AbstractMessageSignature {
static {
__name(this, "NotificationType8");
}
constructor(method) {
super(method, 8);
}
};
exports2.NotificationType8 = NotificationType8;
var NotificationType9 = class extends AbstractMessageSignature {
static {
__name(this, "NotificationType9");
}
constructor(method) {
super(method, 9);
}
};
exports2.NotificationType9 = NotificationType9;
var Message;
(function(Message2) {
function isRequest(message) {
const candidate = message;
return candidate && is.string(candidate.method) && (is.string(candidate.id) || is.number(candidate.id));
}
__name(isRequest, "isRequest");
Message2.isRequest = isRequest;
function isNotification(message) {
const candidate = message;
return candidate && is.string(candidate.method) && message.id === void 0;
}
__name(isNotification, "isNotification");
Message2.isNotification = isNotification;
function isResponse(message) {
const candidate = message;
return candidate && (candidate.result !== void 0 || !!candidate.error) && (is.string(candidate.id) || is.number(candidate.id) || candidate.id === null);
}
__name(isResponse, "isResponse");
Message2.isResponse = isResponse;
})(Message || (exports2.Message = Message = {}));
}
});
// ../../node_modules/.pnpm/vscode-jsonrpc@8.2.0/node_modules/vscode-jsonrpc/lib/common/linkedMap.js
var require_linkedMap = __commonJS({
"../../node_modules/.pnpm/vscode-jsonrpc@8.2.0/node_modules/vscode-jsonrpc/lib/common/linkedMap.js"(exports2) {
"use strict";
var _a;
Object.defineProperty(exports2, "__esModule", { value: true });
exports2.LRUCache = exports2.LinkedMap = exports2.Touch = void 0;
var Touch;
(function(Touch2) {
Touch2.None = 0;
Touch2.First = 1;
Touch2.AsOld = Touch2.First;
Touch2.Last = 2;
Touch2.AsNew = Touch2.Last;
})(Touch || (exports2.Touch = Touch = {}));
var LinkedMap = class {
static {
__name(this, "LinkedMap");
}
constructor() {
this[_a] = "LinkedMap";
this._map = /* @__PURE__ */ new Map();
this._head = void 0;
this._tail = void 0;
this._size = 0;
this._state = 0;
}
clear() {
this._map.clear();
this._head = void 0;
this._tail = void 0;
this._size = 0;
this._state++;
}
isEmpty() {
return !this._head && !this._tail;
}
get size() {
return this._size;
}
get first() {
return this._head?.value;
}
get last() {
return this._tail?.value;
}
has(key) {
return this._map.has(key);
}
get(key, touch = Touch.None) {
const item = this._map.get(key);
if (!item) {
return void 0;
}
if (touch !== Touch.None) {
this.touch(item, touch);
}
return item.value;
}
set(key, value, touch = Touch.None) {
let item = this._map.get(key);
if (item) {
item.value = value;
if (touch !== Touch.None) {
this.touch(item, touch);
}
} else {
item = { key, value, next: void 0, previous: void 0 };
switch (touch) {
case Touch.None:
this.addItemLast(item);
break;
case Touch.First:
this.addItemFirst(item);
break;
case Touch.Last:
this.addItemLast(item);
break;
default:
this.addItemLast(item);
break;
}
this._map.set(key, item);
this._size++;
}
return this;
}
delete(key) {
return !!this.remove(key);
}
remove(key) {
const item = this._map.get(key);
if (!item) {
return void 0;
}
this._map.delete(key);
this.removeItem(item);
this._size--;
return item.value;
}
shift() {
if (!this._head && !this._tail) {
return void 0;
}
if (!this._head || !this._tail) {
throw new Error("Invalid list");
}
const item = this._head;
this._map.delete(item.key);
this.removeItem(item);
this._size--;
return item.value;
}
forEach(callbackfn, thisArg) {
const state = this._state;
let current = this._head;
while (current) {
if (thisArg) {
callbackfn.bind(thisArg)(current.value, current.key, this);
} else {
callbackfn(current.value, current.key, this);
}
if (this._state !== state) {
throw new Error(`LinkedMap got modified during iteration.`);
}
current = current.next;
}
}
keys() {
const state = this._state;
let current = this._head;
const iterator = {
[Symbol.iterator]: () => {
return iterator;
},
next: /* @__PURE__ */ __name(() => {
if (this._state !== state) {
throw new Error(`LinkedMap got modified during iteration.`);
}
if (current) {
const result = { value: current.key, done: false };
current = current.next;
return result;
} else {
return { value: void 0, done: true };
}
}, "next")
};
return iterator;
}
values() {
const state = this._state;
let current = this._head;
const iterator = {
[Symbol.iterator]: () => {
return iterator;
},
next: /* @__PURE__ */ __name(() => {
if (this._state !== state) {
throw new Error(`LinkedMap got modified during iteration.`);
}
if (current) {
const result = { value: current.value, done: false };
current = current.next;
return result;
} else {
return { value: void 0, done: true };
}
}, "next")
};
return iterator;
}
entries() {
const state = this._state;
let current = this._head;
const iterator = {
[Symbol.iterator]: () => {
return iterator;
},
next: /* @__PURE__ */ __name(() => {
if (this._state !== state) {
throw new Error(`LinkedMap got modified during iteration.`);
}
if (current) {
const result = { value: [current.key, current.value], done: false };
current = current.next;
return result;
} else {
return { value: void 0, done: true };
}
}, "next")
};
return iterator;
}
[(_a = Symbol.toStringTag, Symbol.iterator)]() {
return this.entries();
}
trimOld(newSize) {
if (newSize >= this.size) {
return;
}
if (newSize === 0) {
this.clear();
return;
}
let current = this._head;
let currentSize = this.size;
while (current && currentSize > newSize) {
this._map.delete(current.key);
current = current.next;
currentSize--;
}
this._head = current;
this._size = currentSize;
if (current) {
current.previous = void 0;
}
this._state++;
}
addItemFirst(item) {
if (!this._head && !this._tail) {
this._tail = item;
} else if (!this._head) {
throw new Error("Invalid list");
} else {
item.next = this._head;
this._head.previous = item;
}
this._head = item;
this._state++;
}
addItemLast(item) {
if (!this._head && !this._tail) {
this._head = item;
} else if (!this._tail) {
throw new Error("Invalid list");
} else {
item.previous = this._tail;
this._tail.next = item;
}
this._tail = item;
this._state++;
}
removeItem(item) {
if (item === this._head && item === this._tail) {
this._head = void 0;
this._tail = void 0;
} else if (item === this._head) {
if (!item.next) {
throw new Error("Invalid list");
}
item.next.previous = void 0;
this._head = item.next;
} else if (item === this._tail) {
if (!item.previous) {
throw new Error("Invalid list");
}
item.previous.next = void 0;
this._tail = item.previous;
} else {
const next = item.next;
const previous = item.previous;
if (!next || !previous) {
throw new Error("Invalid list");
}
next.previous = previous;
previous.next = next;
}
item.next = void 0;
item.previous = void 0;
this._state++;
}
touch(item, touch) {
if (!this._head || !this._tail) {
throw new Error("Invalid list");
}
if (touch !== Touch.First && touch !== Touch.Last) {
return;
}
if (touch === Touch.First) {
if (item === this._head) {
return;
}
const next = item.next;
const previous = item.previous;
if (item === this._tail) {
previous.next = void 0;
this._tail = previous;
} else {
next.previous = previous;
previous.next = next;
}
item.previous = void 0;
item.next = this._head;
this._head.previous = item;
this._head = item;
this._state++;
} else if (touch === Touch.Last) {
if (item === this._tail) {
return;
}
const next = item.next;
const previous = item.previous;
if (item === this._head) {
next.previous = void 0;
this._head = next;
} else {
next.previous = previous;
previous.next = next;
}
item.next = void 0;
item.previous = this._tail;
this._tail.next = item;
this._tail = item;
this._state++;
}
}
toJSON() {
const data = [];
this.forEach((value, key) => {
data.push([key, value]);
});
return data;
}
fromJSON(data) {
this.clear();
for (const [key, value] of data) {
this.set(key, value);
}
}
};
exports2.LinkedMap = LinkedMap;
var LRUCache = class extends LinkedMap {
static {
__name(this, "LRUCache");
}
constructor(limit, ratio = 1) {
super();
this._limit = limit;
this._ratio = Math.min(Math.max(0, ratio), 1);
}
get limit() {
return this._limit;
}
set limit(limit) {
this._limit = limit;
this.checkTrim();
}
get ratio() {
return this._ratio;
}
set ratio(ratio) {
this._ratio = Math.min(Math.max(0, ratio), 1);
this.checkTrim();
}
get(key, touch = Touch.AsNew) {
return super.get(key, touch);
}
peek(key) {
return super.get(key, Touch.None);
}
set(key, value) {
super.set(key, value, Touch.Last);
this.checkTrim();
return this;
}
checkTrim() {
if (this.size > this._limit) {
this.trimOld(Math.round(this._limit * this._ratio));
}
}
};
exports2.LRUCache = LRUCache;
}
});
// ../../node_modules/.pnpm/vscode-jsonrpc@8.2.0/node_modules/vscode-jsonrpc/lib/common/disposable.js
var require_disposable = __commonJS({
"../../node_modules/.pnpm/vscode-jsonrpc@8.2.0/node_modules/vscode-jsonrpc/lib/common/disposable.js"(exports2) {
"use strict";
Object.defineProperty(exports2, "__esModule", { value: true });
exports2.Disposable = void 0;
var Disposable2;
(function(Disposable3) {
function create(func) {
return {
dispose: func
};
}
__name(create, "create");
Disposable3.create = create;
})(Disposable2 || (exports2.Disposable = Disposable2 = {}));
}
});
// ../../node_modules/.pnpm/vscode-jsonrpc@8.2.0/node_modules/vscode-jsonrpc/lib/common/sharedArrayCancellation.js
var require_sharedArrayCancellation = __commonJS({
"../../node_modules/.pnpm/vscode-jsonrpc@8.2.0/node_modules/vscode-jsonrpc/lib/common/sharedArrayCancellation.js"(exports2) {
"use strict";
Object.defineProperty(exports2, "__esModule", { value: true });
exports2.SharedArrayReceiverStrategy = exports2.SharedArraySenderStrategy = void 0;
var cancellation_1 = require_cancellation();
var CancellationState;
(function(CancellationState2) {
CancellationState2.Continue = 0;
CancellationState2.Cancelled = 1;
})(CancellationState || (CancellationState = {}));
var SharedArraySenderStrategy = class {
static {
__name(this, "SharedArraySenderStrategy");
}
constructor() {
this.buffers = /* @__PURE__ */ new Map();
}
enableCancellation(request) {
if (request.id === null) {
return;
}
const buffer = new SharedArrayBuffer(4);
const data = new Int32Array(buffer, 0, 1);
data[0] = CancellationState.Continue;
this.buffers.set(request.id, buffer);
request.$cancellationData = buffer;
}
async sendCancellation(_conn, id) {
const buffer = this.buffers.get(id);
if (buffer === void 0) {
return;
}
const data = new Int32Array(buffer, 0, 1);
Atomics.store(data, 0, CancellationState.Cancelled);
}
cleanup(id) {
this.buffers.delete(id);
}
dispose() {
this.buffers.clear();
}
};
exports2.SharedArraySenderStrategy = SharedArraySenderStrategy;
var SharedArrayBufferCancellationToken = class {
static {
__name(this, "SharedArrayBufferCancellationToken");
}
constructor(buffer) {
this.data = new Int32Array(buffer, 0, 1);
}
get isCancellationRequested() {
return Atomics.load(this.data, 0) === CancellationState.Cancelled;
}
get onCancellationRequested() {
throw new Error(`Cancellation over SharedArrayBuffer doesn't support cancellation events`);
}
};
var SharedArrayBufferCancellationTokenSource = class {
static {
__name(this, "SharedArrayBufferCancellationTokenSource");
}
constructor(buffer) {
this.token = new SharedArrayBufferCancellationToken(buffer);
}
cancel() {
}
dispose() {
}
};
var SharedArrayReceiverStrategy = class {
static {
__name(this, "SharedArrayReceiverStrategy");
}
constructor() {
this.kind = "request";
}
createCancellationTokenSource(request) {
const buffer = request.$cancellationData;
if (buffer === void 0) {
return new cancellation_1.CancellationTokenSource();
}
return new SharedArrayBufferCancellationTokenSource(buffer);
}
};
exports2.SharedArrayReceiverStrategy = SharedArrayReceiverStrategy;
}
});
// ../../node_modules/.pnpm/vscode-jsonrpc@8.2.0/node_modules/vscode-jsonrpc/lib/common/semaphore.js
var require_semaphore = __commonJS({
"../../node_modules/.pnpm/vscode-jsonrpc@8.2.0/node_modules/vscode-jsonrpc/lib/common/semaphore.js"(exports2) {
"use strict";
Object.defineProperty(exports2, "__esModule", { value: true });
exports2.Semaphore = void 0;
var ral_1 = require_ral();
var Semaphore = class {
static {
__name(this, "Semaphore");
}
constructor(capacity = 1) {
if (capacity <= 0) {
throw new Error("Capacity must be greater than 0");
}
this._capacity = capacity;
this._active = 0;
this._waiting = [];
}
lock(thunk) {
return new Promise((resolve, reject2) => {
this._waiting.push({ thunk, resolve, reject: reject2 });
this.runNext();
});
}
get active() {
return this._active;
}
runNext() {
if (this._waiting.length === 0 || this._active === this._capacity) {
return;
}
(0, ral_1.default)().timer.setImmediate(() => this.doRunNext());
}
doRunNext() {
if (this._waiting.length === 0 || this._active === this._capacity) {
return;
}
const next = this._waiting.shift();
this._active++;
if (this._active > this._capacity) {
throw new Error(`To many thunks active`);
}
try {
const result = next.thunk();
if (result instanceof Promise) {
result.then((value) => {
this._active--;
next.resolve(value);
this.runNext();
}, (err) => {
this._active--;
next.reject(err);
this.runNext();
});
} else {
this._active--;
next.resolve(result);
this.runNext();
}
} catch (err) {
this._active--;
next.reject(err);
this.runNext();
}
}
};
exports2.Semaphore = Semaphore;
}
});
// ../../node_modules/.pnpm/vscode-jsonrpc@8.2.0/node_modules/vscode-jsonrpc/lib/common/messageReader.js
var require_messageReader = __commonJS({
"../../node_modules/.pnpm/vscode-jsonrpc@8.2.0/node_modules/vscode-jsonrpc/lib/common/messageReader.js"(exports2) {
"use strict";
Object.defineProperty(exports2, "__esModule", { value: true });
exports2.ReadableStreamMessageReader = exports2.AbstractMessageReader = exports2.MessageReader = void 0;
var ral_1 = require_ral();
var Is2 = require_is();
var events_1 = require_events();
var semaphore_1 = require_semaphore();
var MessageReader;
(function(MessageReader2) {
function is(value) {
let candidate = value;
return candidate && Is2.func(candidate.listen) && Is2.func(candidate.dispose) && Is2.func(candidate.onError) && Is2.func(candidate.onClose) && Is2.func(candidate.onPartialMessage);
}
__name(is, "is");
MessageReader2.is = is;
})(MessageReader || (exports2.MessageReader = MessageReader = {}));
var AbstractMessageReader = class {
static {
__name(this, "AbstractMessageReader");
}
constructor() {
this.errorEmitter = new events_1.Emitter();
this.closeEmitter = new events_1.Emitter();
this.partialMessageEmitter = new events_1.Emitter();
}
dispose() {
this.errorEmitter.dispose();
this.closeEmitter.dispose();
}
get onError() {
return this.errorEmitter.event;
}
fireError(error) {
this.errorEmitter.fire(this.asError(error));
}
get onClose() {
return this.closeEmitter.event;
}
fireClose() {
this.closeEmitter.fire(void 0);
}
get onPartialMessage() {
return this.partialMessageEmitter.event;
}
firePartialMessage(info) {
this.partialMessageEmitter.fire(info);
}
asError(error) {
if (error instanceof Error) {
return error;
} else {
return new Error(`Reader received error. Reason: ${Is2.string(error.message) ? error.message : "unknown"}`);
}
}
};
exports2.AbstractMessageReader = AbstractMessageReader;
var ResolvedMessageReaderOptions;
(function(ResolvedMessageReaderOptions2) {
function fromOptions(options) {
let charset;
let result;
let contentDecoder;
const contentDecoders = /* @__PURE__ */ new Map();
let contentTypeDecoder;
const contentTypeDecoders = /* @__PURE__ */ new Map();
if (options === void 0 || typeof options === "string") {
charset = options ?? "utf-8";
} else {
charset = options.charset ?? "utf-8";
if (options.contentDecoder !== void 0) {
contentDecoder = options.contentDecoder;
contentDecoders.set(contentDecoder.name, contentDecoder);
}
if (options.contentDecoders !== void 0) {
for (const decoder of options.contentDecoders) {
contentDecoders.set(decoder.name, decoder);
}
}
if (options.contentTypeDecoder !== void 0) {
contentTypeDecoder = options.contentTypeDecoder;
contentTypeDecoders.set(contentTypeDecoder.name, contentTypeDecoder);
}
if (options.contentTypeDecoders !== void 0) {
for (const decoder of options.contentTypeDecoders) {
contentTypeDecoders.set(decoder.name, decoder);
}
}
}
if (contentTypeDecoder === void 0) {
contentTypeDecoder = (0, ral_1.default)().applicationJson.decoder;
contentTypeDecoders.set(contentTypeDecoder.name, contentTypeDecoder);
}
return { charset, contentDecoder, contentDecoders, contentTypeDecoder, contentTypeDecoders };
}
__name(fromOptions, "fromOptions");
ResolvedMessageReaderOptions2.fromOptions = fromOptions;
})(ResolvedMessageReaderOptions || (ResolvedMessageReaderOptions = {}));
var ReadableStreamMessageReader = class extends AbstractMessageReader {
static {
__name(this, "ReadableStreamMessageReader");
}
constructor(readable, options) {
super();
this.readable = readable;
this.options = ResolvedMessageReaderOptions.fromOptions(options);
this.buffer = (0, ral_1.default)().messageBuffer.create(this.options.charset);
this._partialMessageTimeout = 1e4;
this.nextMessageLength = -1;
this.messageToken = 0;
this.readSemaphore = new semaphore_1.Semaphore(1);
}
set partialMessageTimeout(timeout) {
this._partialMessageTimeout = timeout;
}
get partialMessageTimeout() {
return this._partialMessageTimeout;
}
listen(callback) {
this.nextMessageLength = -1;
this.messageToken = 0;
this.partialMessageTimer = void 0;
this.callback = callback;
const result = this.readable.onData((data) => {
this.onData(data);
});
this.readable.onError((error) => this.fireError(error));
this.readable.onClose(() => this.fireClose());
return result;
}
onData(data) {
try {
this.buffer.append(data);
while (true) {
if (this.nextMessageLength === -1) {
const headers = this.buffer.tryReadHeaders(true);
if (!headers) {
return;
}
const contentLength = headers.get("content-length");
if (!contentLength) {
this.fireError(new Error(`Header must provide a Content-Length property.
${JSON.stringify(Object.fromEntries(headers))}`));
return;
}
const length = parseInt(contentLength);
if (isNaN(length)) {
this.fireError(new Error(`Content-Length value must be a number. Got ${contentLength}`));
return;
}
this.nextMessageLength = length;
}
const body = this.buffer.tryReadBody(this.nextMessageLength);
if (body === void 0) {
this.setPartialMessageTimer();
return;
}
this.clearPartialMessageTimer();
this.nextMessageLength = -1;
this.readSemaphore.lock(async () => {
const bytes = this.options.contentDecoder !== void 0 ? await this.options.contentDecoder.decode(body) : body;
const message = await this.options.contentTypeDecoder.decode(bytes, this.options);
this.callback(message);
}).catch((error) => {
this.fireError(error);
});
}
} catch (error) {
this.fireError(error);
}
}
clearPartialMessageTimer() {
if (this.partialMessageTimer) {
this.partialMessageTimer.dispose();
this.partialMessageTimer = void 0;
}
}
setPartialMessageTimer() {
this.clearPartialMessageTimer();
if (this._partialMessageTimeout <= 0) {
return;
}
this.partialMessageTimer = (0, ral_1.default)().timer.setTimeout((token, timeout) => {
this.partialMessageTimer = void 0;
if (token === this.messageToken) {
this.firePartialMessage({ messageToken: token, waitingTime: timeout });
this.setPartialMessageTimer();
}
}, this._partialMessageTimeout, this.messageToken, this._partialMessageTimeout);
}
};
exports2.ReadableStreamMessageReader = ReadableStreamMessageReader;
}
});
// ../../node_modules/.pnpm/vscode-jsonrpc@8.2.0/node_modules/vscode-jsonrpc/lib/common/messageWriter.js
var require_messageWriter = __commonJS({
"../../node_modules/.pnpm/vscode-jsonrpc@8.2.0/node_modules/vscode-jsonrpc/lib/common/messageWriter.js"(exports2) {
"use strict";
Object.defineProperty(exports2, "__esModule", { value: true });
exports2.WriteableStreamMessageWriter = exports2.AbstractMessageWriter = exports2.MessageWriter = void 0;
var ral_1 = require_ral();
var Is2 = require_is();
var semaphore_1 = require_semaphore();
var events_1 = require_events();
var ContentLength = "Content-Length: ";
var CRLF = "\r\n";
var MessageWriter;
(function(MessageWriter2) {
function is(value) {
let candidate = value;
return candidate && Is2.func(candidate.dispose) && Is2.func(candidate.onClose) && Is2.func(candidate.onError) && Is2.func(candidate.write);
}
__name(is, "is");
MessageWriter2.is = is;
})(MessageWriter || (exports2.MessageWriter = MessageWriter = {}));
var AbstractMessageWriter = class {
static {
__name(this, "AbstractMessageWriter");
}
constructor() {
this.errorEmitter = new events_1.Emitter();
this.closeEmitter = new events_1.Emitter();
}
dispose() {
this.errorEmitter.dispose();
this.closeEmitter.dispose();
}
get onError() {
return this.errorEmitter.event;
}
fireError(error, message, count) {
this.errorEmitter.fire([this.asError(error), message, count]);
}
get onClose() {
return this.closeEmitter.event;
}
fireClose() {
this.closeEmitter.fire(void 0);
}
asError(error) {
if (error instanceof Error) {
return error;
} else {
return new Error(`Writer received error. Reason: ${Is2.string(error.message) ? error.message : "unknown"}`);
}
}
};
exports2.AbstractMessageWriter = AbstractMessageWriter;
var ResolvedMessageWriterOptions;
(function(ResolvedMessageWriterOptions2) {
function fromOptions(options) {
if (options === void 0 || typeof options === "string") {
return { charset: options ?? "utf-8", contentTypeEncoder: (0, ral_1.default)().applicationJson.encoder };
} else {
return { charset: options.charset ?? "utf-8", contentEncoder: options.contentEncoder, contentTypeEncoder: options.contentTypeEncoder ?? (0, ral_1.default)().applicationJson.encoder };
}
}
__name(fromOptions, "fromOptions");
ResolvedMessageWriterOptions2.fromOptions = fromOptions;
})(ResolvedMessageWriterOptions || (ResolvedMessageWriterOptions = {}));
var WriteableStreamMessageWriter = class extends AbstractMessageWriter {
static {
__name(this, "WriteableStreamMessageWriter");
}
constructor(writable, options) {
super();
this.writable = writable;
this.options = ResolvedMessageWriterOptions.fromOptions(options);
this.errorCount = 0;
this.writeSemaphore = new semaphore_1.Semaphore(1);
this.writable.onError((error) => this.fireError(error));
this.writable.onClose(() => this.fireClose());
}
async write(msg) {
return this.writeSemaphore.lock(async () => {
const payload = this.options.contentTypeEncoder.encode(msg, this.options).then((buffer) => {
if (this.options.contentEncoder !== void 0) {
return this.options.contentEncoder.encode(buffer);
} else {
return buffer;
}
});
return payload.then((buffer) => {
const headers = [];
headers.push(ContentLength, buffer.byteLength.toString(), CRLF);
headers.push(CRLF);
return this.doWrite(msg, headers, buffer);
}, (error) => {
this.fireError(error);
throw error;
});
});
}
async doWrite(msg, headers, data) {
try {
await this.writable.write(headers.join(""), "ascii");
return this.writable.write(data);
} catch (error) {
this.handleError(error, msg);
return Promise.reject(error);
}
}
handleError(error, msg) {
this.errorCount++;
this.fireError(error, msg, this.errorCount);
}
end() {
this.writable.end();
}
};
exports2.WriteableStreamMessageWriter = WriteableStreamMessageWriter;
}
});
// ../../node_modules/.pnpm/vscode-jsonrpc@8.2.0/node_modules/vscode-jsonrpc/lib/common/messageBuffer.js
var require_messageBuffer = __commonJS({
"../../node_modules/.pnpm/vscode-jsonrpc@8.2.0/node_modules/vscode-jsonrpc/lib/common/messageBuffer.js"(exports2) {
"use strict";
Object.defineProperty(exports2, "__esModule", { value: true });
exports2.AbstractMessageBuffer = void 0;
var CR = 13;
var LF = 10;
var CRLF = "\r\n";
var AbstractMessageBuffer = class {
static {
__name(this, "AbstractMessageBuffer");
}
constructor(encoding = "utf-8") {
this._encoding = encoding;
this._chunks = [];
this._totalLength = 0;
}
get encoding() {
return this._encoding;
}
append(chunk) {
const toAppend = typeof chunk === "string" ? this.fromString(chunk, this._encoding) : chunk;
this._chunks.push(toAppend);
this._totalLength += toAppend.byteLength;
}
tryReadHeaders(lowerCaseKeys = false) {
if (this._chunks.length === 0) {
return void 0;
}
let state = 0;
let chunkIndex = 0;
let offset = 0;
let chunkBytesRead = 0;
row: while (chunkIndex < this._chunks.length) {
const chunk = this._chunks[chunkIndex];
offset = 0;
column: while (offset < chunk.length) {
const value = chunk[offset];
switch (value) {
case CR:
switch (state) {
case 0:
state = 1;
break;
case 2:
state = 3;
break;
default:
state = 0;
}
break;
case LF:
switch (state) {
case 1:
state = 2;
break;
case 3:
state = 4;
offset++;
break row;
default:
state = 0;
}
break;
default:
state = 0;
}
offset++;
}
chunkBytesRead += chunk.byteLength;
chunkIndex++;
}
if (state !== 4) {
return void 0;
}
const buffer = this._read(chunkBytesRead + offset);
const result = /* @__PURE__ */ new Map();
const headers = this.toString(buffer, "ascii").split(CRLF);
if (headers.length < 2) {
return result;
}
for (let i = 0; i < headers.length - 2; i++) {
const header = headers[i];
const index = header.indexOf(":");
if (index === -1) {
throw new Error(`Message header must separate key and value using ':'
${header}`);
}
const key = header.substr(0, index);
const value = header.substr(index + 1).trim();
result.set(lowerCaseKeys ? key.toLowerCase() : key, value);
}
return result;
}
tryReadBody(length) {
if (this._totalLength < length) {
return void 0;
}
return this._read(length);
}
get numberOfBytes() {
return this._totalLength;
}
_read(byteCount) {
if (byteCount === 0) {
return this.emptyBuffer();
}
if (byteCount > this._totalLength) {
throw new Error(`Cannot read so many bytes!`);
}
if (this._chunks[0].byteLength === byteCount) {
const chunk = this._chunks[0];
this._chunks.shift();
this._totalLength -= byteCount;
return this.asNative(chunk);
}
if (this._chunks[0].byteLength > byteCount) {
const chunk = this._chunks[0];
const result2 = this.asNative(chunk, byteCount);
this._chunks[0] = chunk.slice(byteCount);
this._totalLength -= byteCount;
return result2;
}
const result = this.allocNative(byteCount);
let resultOffset = 0;
let chunkIndex = 0;
while (byteCount > 0) {
const chunk = this._chunks[chunkIndex];
if (chunk.byteLength > byteCount) {
const chunkPart = chunk.slice(0, byteCount);
result.set(chunkPart, resultOffset);
resultOffset += byteCount;
this._chunks[chunkIndex] = chunk.slice(byteCount);
this._totalLength -= byteCount;
byteCount -= byteCount;
} else {
result.set(chunk, resultOffset);
resultOffset += chunk.byteLength;
this._chunks.shift();
this._totalLength -= chunk.byteLength;
byteCount -= chunk.byteLength;
}
}
return result;
}
};
exports2.AbstractMessageBuffer = AbstractMessageBuffer;
}
});
// ../../node_modules/.pnpm/vscode-jsonrpc@8.2.0/node_modules/vscode-jsonrpc/lib/common/connection.js
var require_connection = __commonJS({
"../../node_modules/.pnpm/vscode-jsonrpc@8.2.0/node_modules/vscode-jsonrpc/lib/common/connection.js"(exports2) {
"use strict";
Object.defineProperty(exports2, "__esModule", { value: true });
exports2.createMessageConnection = exports2.ConnectionOptions = exports2.MessageStrategy = exports2.CancellationStrategy = exports2.CancellationSenderStrategy = exports2.CancellationReceiverStrategy = exports2.RequestCancellationReceiverStrategy = exports2.IdCancellationReceiverStrategy = exports2.ConnectionStrategy = exports2.ConnectionError = exports2.ConnectionErrors = exports2.LogTraceNotification = exports2.SetTraceNotification = exports2.TraceFormat = exports2.TraceValues = exports2.Trace = exports2.NullLogger = exports2.ProgressType = exports2.ProgressToken = void 0;
var ral_1 = require_ral();
var Is2 = require_is();
var messages_1 = require_messages();
var linkedMap_1 = require_linkedMap();
var events_1 = require_events();
var cancellation_1 = require_cancellation();
var CancelNotification;
(function(CancelNotification2) {
CancelNotification2.type = new messages_1.NotificationType("$/cancelRequest");
})(CancelNotification || (CancelNotification = {}));
var ProgressToken;
(function(ProgressToken2) {
function is(value) {
return typeof value === "string" || typeof value === "number";
}
__name(is, "is");
ProgressToken2.is = is;
})(ProgressToken || (exports2.ProgressToken = ProgressToken = {}));
var ProgressNotification;
(function(ProgressNotification2) {
ProgressNotification2.type = new messages_1.NotificationType("$/progress");
})(ProgressNotification || (ProgressNotification = {}));
var ProgressType = class {
static {
__name(this, "ProgressType");
}
constructor() {
}
};
exports2.ProgressType = ProgressType;
var StarRequestHandler;
(function(StarRequestHandler2) {
function is(value) {
return Is2.func(value);
}
__name(is, "is");
StarRequestHandler2.is = is;
})(StarRequestHandler || (StarRequestHandler = {}));
exports2.NullLogger = Object.freeze({
error: /* @__PURE__ */ __name(() => {
}, "error"),
warn: /* @__PURE__ */ __name(() => {
}, "warn"),
info: /* @__PURE__ */ __name(() => {
}, "info"),
log: /* @__PURE__ */ __name(() => {
}, "log")
});
var Trace;
(function(Trace2) {
Trace2[Trace2["Off"] = 0] = "Off";
Trace2[Trace2["Messages"] = 1] = "Messages";
Trace2[Trace2["Compact"] = 2] = "Compact";
Trace2[Trace2["Verbose"] = 3] = "Verbose";
})(Trace || (exports2.Trace = Trace = {}));
var TraceValues;
(function(TraceValues2) {
TraceValues2.Off = "off";
TraceValues2.Messages = "messages";
TraceValues2.Compact = "compact";
TraceValues2.Verbose = "verbose";
})(TraceValues || (exports2.TraceValues = TraceValues = {}));
(function(Trace2) {
function fromString(value) {
if (!Is2.string(value)) {
return Trace2.Off;
}
value = value.toLowerCase();
switch (value) {
case "off":
return Trace2.Off;
case "messages":
return Trace2.Messages;
case "compact":
return Trace2.Compact;
case "verbose":
return Trace2.Verbose;
default:
return Trace2.Off;
}
}
__name(fromString, "fromString");
Trace2.fromString = fromString;
function toString3(value) {
switch (value) {
case Trace2.Off:
return "off";
case Trace2.Messages:
return "messages";
case Trace2.Compact:
return "compact";
case Trace2.Verbose:
return "verbose";
default:
return "off";
}
}
__name(toString3, "toString");
Trace2.toString = toString3;
})(Trace || (exports2.Trace = Trace = {}));
var TraceFormat;
(function(TraceFormat2) {
TraceFormat2["Text"] = "text";
TraceFormat2["JSON"] = "json";
})(TraceFormat || (exports2.TraceFormat = TraceFormat = {}));
(function(TraceFormat2) {
function fromString(value) {
if (!Is2.string(value)) {
return TraceFormat2.Text;
}
value = value.toLowerCase();
if (value === "json") {
return TraceFormat2.JSON;
} else {
return TraceFormat2.Text;
}
}
__name(fromString, "fromString");
TraceFormat2.fromString = fromString;
})(TraceFormat || (exports2.TraceFormat = TraceFormat = {}));
var SetTraceNotification;
(function(SetTraceNotification2) {
SetTraceNotification2.type = new messages_1.NotificationType("$/setTrace");
})(SetTraceNotification || (exports2.SetTraceNotification = SetTraceNotification = {}));
var LogTraceNotification;
(function(LogTraceNotification2) {
LogTraceNotification2.type = new messages_1.NotificationType("$/logTrace");
})(LogTraceNotification || (exports2.LogTraceNotification = LogTraceNotification = {}));
var ConnectionErrors;
(function(ConnectionErrors2) {
ConnectionErrors2[ConnectionErrors2["Closed"] = 1] = "Closed";
ConnectionErrors2[ConnectionErrors2["Disposed"] = 2] = "Disposed";
ConnectionErrors2[ConnectionErrors2["AlreadyListening"] = 3] = "AlreadyListening";
})(ConnectionErrors || (exports2.ConnectionErrors = ConnectionErrors = {}));
var ConnectionError = class _ConnectionError extends Error {
static {
__name(this, "ConnectionError");
}
constructor(code, message) {
super(message);
this.code = code;
Object.setPrototypeOf(this, _ConnectionError.prototype);
}
};
exports2.ConnectionError = ConnectionError;
var ConnectionStrategy;
(function(ConnectionStrategy2) {
function is(value) {
const candidate = value;
return candidate && Is2.func(candidate.cancelUndispatched);
}
__name(is, "is");
ConnectionStrategy2.is = is;
})(ConnectionStrategy || (exports2.ConnectionStrategy = ConnectionStrategy = {}));
var IdCancellationReceiverStrategy;
(function(IdCancellationReceiverStrategy2) {
function is(value) {
const candidate = value;
return candidate && (candidate.kind === void 0 || candidate.kind === "id") && Is2.func(candidate.createCancellationTokenSource) && (candidate.dispose === void 0 || Is2.func(candidate.dispose));
}
__name(is, "is");
IdCancellationReceiverStrategy2.is = is;
})(IdCancellationReceiverStrategy || (exports2.IdCancellationReceiverStrategy = IdCancellationReceiverStrategy = {}));
var RequestCancellationReceiverStrategy;
(function(RequestCancellationReceiverStrategy2) {
function is(value) {
const candidate = value;
return candidate && candidate.kind === "request" && Is2.func(candidate.createCancellationTokenSource) && (candidate.dispose === void 0 || Is2.func(candidate.dispose));
}
__name(is, "is");
RequestCancellationReceiverStrategy2.is = is;
})(RequestCancellationReceiverStrategy || (exports2.RequestCancellationReceiverStrategy = RequestCancellationReceiverStrategy = {}));
var CancellationReceiverStrategy;
(function(CancellationReceiverStrategy2) {
CancellationReceiverStrategy2.Message = Object.freeze({
createCancellationTokenSource(_) {
return new cancellation_1.CancellationTokenSource();
}
});
function is(value) {
return IdCancellationReceiverStrategy.is(value) || RequestCancellationReceiverStrategy.is(value);
}
__name(is, "is");
CancellationReceiverStrategy2.is = is;
})(CancellationReceiverStrategy || (exports2.CancellationReceiverStrategy = CancellationReceiverStrategy = {}));
var CancellationSenderStrategy;
(function(CancellationSenderStrategy2) {
CancellationSenderStrategy2.Message = Object.freeze({
sendCancellation(conn, id) {
return conn.sendNotification(CancelNotification.type, { id });
},
cleanup(_) {
}
});
function is(value) {
const candidate = value;
return candidate && Is2.func(candidate.sendCancellation) && Is2.func(candidate.cleanup);
}
__name(is, "is");
CancellationSenderStrategy2.is = is;
})(CancellationSenderStrategy || (exports2.CancellationSenderStrategy = CancellationSenderStrategy = {}));
var CancellationStrategy;
(function(CancellationStrategy2) {
CancellationStrategy2.Message = Object.freeze({
receiver: CancellationReceiverStrategy.Message,
sender: CancellationSenderStrategy.Message
});
function is(value) {
const candidate = value;
return candidate && CancellationReceiverStrategy.is(candidate.receiver) && CancellationSenderStrategy.is(candidate.sender);
}
__name(is, "is");
CancellationStrategy2.is = is;
})(CancellationStrategy || (exports2.CancellationStrategy = CancellationStrategy = {}));
var MessageStrategy;
(function(MessageStrategy2) {
function is(value) {
const candidate = value;
return candidate && Is2.func(candidate.handleMessage);
}
__name(is, "is");
MessageStrategy2.is = is;
})(MessageStrategy || (exports2.MessageStrategy = MessageStrategy = {}));
var ConnectionOptions;
(function(ConnectionOptions2) {
function is(value) {
const candidate = value;
return candidate && (CancellationStrategy.is(candidate.cancellationStrategy) || ConnectionStrategy.is(candidate.connectionStrategy) || MessageStrategy.is(candidate.messageStrategy));
}
__name(is, "is");
ConnectionOptions2.is = is;
})(ConnectionOptions || (exports2.ConnectionOptions = ConnectionOptions = {}));
var ConnectionState;
(function(ConnectionState2) {
ConnectionState2[ConnectionState2["New"] = 1] = "New";
ConnectionState2[ConnectionState2["Listening"] = 2] = "Listening";
ConnectionState2[ConnectionState2["Closed"] = 3] = "Closed";
ConnectionState2[ConnectionState2["Disposed"] = 4] = "Disposed";
})(ConnectionState || (ConnectionState = {}));
function createMessageConnection(messageReader, messageWriter, _logger, options) {
const logger = _logger !== void 0 ? _logger : exports2.NullLogger;
let sequenceNumber = 0;
let notificationSequenceNumber = 0;
let unknownResponseSequenceNumber = 0;
const version = "2.0";
let starRequestHandler = void 0;
const requestHandlers = /* @__PURE__ */ new Map();
let starNotificationHandler = void 0;
const notificationHandlers = /* @__PURE__ */ new Map();
const progressHandlers = /* @__PURE__ */ new Map();
let timer2;
let messageQueue = new linkedMap_1.LinkedMap();
let responsePromises = /* @__PURE__ */ new Map();
let knownCanceledRequests = /* @__PURE__ */ new Set();
let requestTokens = /* @__PURE__ */ new Map();
let trace = Trace.Off;
let traceFormat = TraceFormat.Text;
let tracer;
let state = ConnectionState.New;
const errorEmitter = new events_1.Emitter();
const closeEmitter = new events_1.Emitter();
const unhandledNotificationEmitter = new events_1.Emitter();
const unhandledProgressEmitter = new events_1.Emitter();
const disposeEmitter = new events_1.Emitter();
const cancellationStrategy = options && options.cancellationStrategy ? options.cancellationStrategy : CancellationStrategy.Message;
function createRequestQueueKey(id) {
if (id === null) {
throw new Error(`Can't send requests with id null since the response can't be correlated.`);
}
return "req-" + id.toString();
}
__name(createRequestQueueKey, "createRequestQueueKey");
function createResponseQueueKey(id) {
if (id === null) {
return "res-unknown-" + (++unknownResponseSequenceNumber).toString();
} else {
return "res-" + id.toString();
}
}
__name(createResponseQueueKey, "createResponseQueueKey");
function createNotificationQueueKey() {
return "not-" + (++notificationSequenceNumber).toString();
}
__name(createNotificationQueueKey, "createNotificationQueueKey");
function addMessageToQueue(queue, message) {
if (messages_1.Message.isRequest(message)) {
queue.set(createRequestQueueKey(message.id), message);
} else if (messages_1.Message.isResponse(message)) {
queue.set(createResponseQueueKey(message.id), message);
} else {
queue.set(createNotificationQueueKey(), message);
}
}
__name(addMessageToQueue, "addMessageToQueue");
function cancelUndispatched(_message) {
return void 0;
}
__name(cancelUndispatched, "cancelUndispatched");
function isListening() {
return state === ConnectionState.Listening;
}
__name(isListening, "isListening");
function isClosed() {
return state === ConnectionState.Closed;
}
__name(isClosed, "isClosed");
function isDisposed() {
return state === ConnectionState.Disposed;
}
__name(isDisposed, "isDisposed");
function closeHandler() {
if (state === ConnectionState.New || state === ConnectionState.Listening) {
state = ConnectionState.Closed;
closeEmitter.fire(void 0);
}
}
__name(closeHandler, "closeHandler");
function readErrorHandler(error) {
errorEmitter.fire([error, void 0, void 0]);
}
__name(readErrorHandler, "readErrorHandler");
function writeErrorHandler(data) {
errorEmitter.fire(data);
}
__name(writeErrorHandler, "writeErrorHandler");
messageReader.onClose(closeHandler);
messageReader.onError(readErrorHandler);
messageWriter.onClose(closeHandler);
messageWriter.onError(writeErrorHandler);
function triggerMessageQueue() {
if (timer2 || messageQueue.size === 0) {
return;
}
timer2 = (0, ral_1.default)().timer.setImmediate(() => {
timer2 = void 0;
processMessageQueue();
});
}
__name(triggerMessageQueue, "triggerMessageQueue");
function handleMessage(message) {
if (messages_1.Message.isRequest(message)) {
handleRequest(message);
} else if (messages_1.Message.isNotification(message)) {
handleNotification(message);
} else if (messages_1.Message.isResponse(message)) {
handleResponse(message);
} else {
handleInvalidMessage(message);
}
}
__name(handleMessage, "handleMessage");
function processMessageQueue() {
if (messageQueue.size === 0) {
return;
}
const message = messageQueue.shift();
try {
const messageStrategy = options?.messageStrategy;
if (MessageStrategy.is(messageStrategy)) {
messageStrategy.handleMessage(message, handleMessage);
} else {
handleMessage(message);
}
} finally {
triggerMessageQueue();
}
}
__name(processMessageQueue, "processMessageQueue");
const callback = /* @__PURE__ */ __name((message) => {
try {
if (messages_1.Message.isNotification(message) && message.method === CancelNotification.type.method) {
const cancelId = message.params.id;
const key = createRequestQueueKey(cancelId);
const toCancel = messageQueue.get(key);
if (messages_1.Message.isRequest(toCancel)) {
const strategy = options?.connectionStrategy;
const response = strategy && strategy.cancelUndispatched ? strategy.cancelUndispatched(toCancel, cancelUndispatched) : cancelUndispatched(toCancel);
if (response && (response.error !== void 0 || response.result !== void 0)) {
messageQueue.delete(key);
requestTokens.delete(cancelId);
response.id = toCancel.id;
traceSendingResponse(response, message.method, Date.now());
messageWriter.write(response).catch(() => logger.error(`Sending response for canceled message failed.`));
return;
}
}
const cancellationToken = requestTokens.get(cancelId);
if (cancellationToken !== void 0) {
cancellationToken.cancel();
traceReceivedNotification(message);
return;
} else {
knownCanceledRequests.add(cancelId);
}
}
addMessageToQueue(messageQueue, message);
} finally {
triggerMessageQueue();
}
}, "callback");
function handleRequest(requestMessage) {
if (isDisposed()) {
return;
}
function reply(resultOrError, method, startTime2) {
const message = {
jsonrpc: version,
id: requestMessage.id
};
if (resultOrError instanceof messages_1.ResponseError) {
message.error = resultOrError.toJson();
} else {
message.result = resultOrError === void 0 ? null : resultOrError;
}
traceSendingResponse(message, method, startTime2);
messageWriter.write(message).catch(() => logger.error(`Sending response failed.`));
}
__name(reply, "reply");
function replyError(error, method, startTime2) {
const message = {
jsonrpc: version,
id: requestMessage.id,
error: error.toJson()
};
traceSendingResponse(message, method, startTime2);
messageWriter.write(message).catch(() => logger.error(`Sending response failed.`));
}
__name(replyError, "replyError");
function replySuccess(result, method, startTime2) {
if (result === void 0) {
result = null;
}
const message = {
jsonrpc: version,
id: requestMessage.id,
result
};
traceSendingResponse(message, method, startTime2);
messageWriter.write(message).catch(() => logger.error(`Sending response failed.`));
}
__name(replySuccess, "replySuccess");
traceReceivedRequest(requestMessage);
const element = requestHandlers.get(requestMessage.method);
let type;
let requestHandler;
if (element) {
type = element.type;
requestHandler = element.handler;
}
const startTime = Date.now();
if (requestHandler || starRequestHandler) {
const tokenKey = requestMessage.id ?? String(Date.now());
const cancellationSource = IdCancellationReceiverStrategy.is(cancellationStrategy.receiver) ? cancellationStrategy.receiver.createCancellationTokenSource(tokenKey) : cancellationStrategy.receiver.createCancellationTokenSource(requestMessage);
if (requestMessage.id !== null && knownCanceledRequests.has(requestMessage.id)) {
cancellationSource.cancel();
}
if (requestMessage.id !== null) {
requestTokens.set(tokenKey, cancellationSource);
}
try {
let handlerResult;
if (requestHandler) {
if (requestMessage.params === void 0) {
if (type !== void 0 && type.numberOfParams !== 0) {
replyError(new messages_1.ResponseError(messages_1.ErrorCodes.InvalidParams, `Request ${requestMessage.method} defines ${type.numberOfParams} params but received none.`), requestMessage.method, startTime);
return;
}
handlerResult = requestHandler(cancellationSource.token);
} else if (Array.isArray(requestMessage.params)) {
if (type !== void 0 && type.parameterStructures === messages_1.ParameterStructures.byName) {
replyError(new messages_1.ResponseError(messages_1.ErrorCodes.InvalidParams, `Request ${requestMessage.method} defines parameters by name but received parameters by position`), requestMessage.method, startTime);
return;
}
handlerResult = requestHandler(...requestMessage.params, cancellationSource.token);
} else {
if (type !== void 0 && type.parameterStructures === messages_1.ParameterStructures.byPosition) {
replyError(new messages_1.ResponseError(messages_1.ErrorCodes.InvalidParams, `Request ${requestMessage.method} defines parameters by position but received parameters by name`), requestMessage.method, startTime);
return;
}
handlerResult = requestHandler(requestMessage.params, cancellationSource.token);
}
} else if (starRequestHandler) {
handlerResult = starRequestHandler(requestMessage.method, requestMessage.params, cancellationSource.token);
}
const promise = handlerResult;
if (!handlerResult) {
requestTokens.delete(tokenKey);
replySuccess(handlerResult, requestMessage.method, startTime);
} else if (promise.then) {
promise.then((resultOrError) => {
requestTokens.delete(tokenKey);
reply(resultOrError, requestMessage.method, startTime);
}, (error) => {
requestTokens.delete(tokenKey);
if (error instanceof messages_1.ResponseError) {
replyError(error, requestMessage.method, startTime);
} else if (error && Is2.string(error.message)) {
replyError(new messages_1.ResponseError(messages_1.ErrorCodes.InternalError, `Request ${requestMessage.method} failed with message: ${error.message}`), requestMessage.method, startTime);
} else {
replyError(new messages_1.ResponseError(messages_1.ErrorCodes.InternalError, `Request ${requestMessage.method} failed unexpectedly without providing any details.`), requestMessage.method, startTime);
}
});
} else {
requestTokens.delete(tokenKey);
reply(handlerResult, requestMessage.method, startTime);
}
} catch (error) {
requestTokens.delete(tokenKey);
if (error instanceof messages_1.ResponseError) {
reply(error, requestMessage.method, startTime);
} else if (error && Is2.string(error.message)) {
replyError(new messages_1.ResponseError(messages_1.ErrorCodes.InternalError, `Request ${requestMessage.method} failed with message: ${error.message}`), requestMessage.method, startTime);
} else {
replyError(new messages_1.ResponseError(messages_1.ErrorCodes.InternalError, `Request ${requestMessage.method} failed unexpectedly without providing any details.`), requestMessage.method, startTime);
}
}
} else {
replyError(new messages_1.ResponseError(messages_1.ErrorCodes.MethodNotFound, `Unhandled method ${requestMessage.method}`), requestMessage.method, startTime);
}
}
__name(handleRequest, "handleRequest");
function handleResponse(responseMessage) {
if (isDisposed()) {
return;
}
if (responseMessage.id === null) {
if (responseMessage.error) {
logger.error(`Received response message without id: Error is:
${JSON.stringify(responseMessage.error, void 0, 4)}`);
} else {
logger.error(`Received response message without id. No further error information provided.`);
}
} else {
const key = responseMessage.id;
const responsePromise = responsePromises.get(key);
traceReceivedResponse(responseMessage, responsePromise);
if (responsePromise !== void 0) {
responsePromises.delete(key);
try {
if (responseMessage.error) {
const error = responseMessage.error;
responsePromise.reject(new messages_1.ResponseError(error.code, error.message, error.data));
} else if (responseMessage.result !== void 0) {
responsePromise.resolve(responseMessage.result);
} else {
throw new Error("Should never happen.");
}
} catch (error) {
if (error.message) {
logger.error(`Response handler '${responsePromise.method}' failed with message: ${error.message}`);
} else {
logger.error(`Response handler '${responsePromise.method}' failed unexpectedly.`);
}
}
}
}
}
__name(handleResponse, "handleResponse");
function handleNotification(message) {
if (isDisposed()) {
return;
}
let type = void 0;
let notificationHandler;
if (message.method === CancelNotification.type.method) {
const cancelId = message.params.id;
knownCanceledRequests.delete(cancelId);
traceReceivedNotification(message);
return;
} else {
const element = notificationHandlers.get(message.method);
if (element) {
notificationHandler = element.handler;
type = element.type;
}
}
if (notificationHandler || starNotificationHandler) {
try {
traceReceivedNotification(message);
if (notificationHandler) {
if (message.params === void 0) {
if (type !== void 0) {
if (type.numberOfParams !== 0 && type.parameterStructures !== messages_1.ParameterStructures.byName) {
logger.error(`Notification ${message.method} defines ${type.numberOfParams} params but received none.`);
}
}
notificationHandler();
} else if (Array.isArray(message.params)) {
const params = message.params;
if (message.method === ProgressNotification.type.method && params.length === 2 && ProgressToken.is(params[0])) {
notificationHandler({ token: params[0], value: params[1] });
} else {
if (type !== void 0) {
if (type.parameterStructures === messages_1.ParameterStructures.byName) {
logger.error(`Notification ${message.method} defines parameters by name but received parameters by position`);
}
if (type.numberOfParams !== message.params.length) {
logger.error(`Notification ${message.method} defines ${type.numberOfParams} params but received ${params.length} arguments`);
}
}
notificationHandler(...params);
}
} else {
if (type !== void 0 && type.parameterStructures === messages_1.ParameterStructures.byPosition) {
logger.error(`Notification ${message.method} defines parameters by position but received parameters by name`);
}
notificationHandler(message.params);
}
} else if (starNotificationHandler) {
starNotificationHandler(message.method, message.params);
}
} catch (error) {
if (error.message) {
logger.error(`Notification handler '${message.method}' failed with message: ${error.message}`);
} else {
logger.error(`Notification handler '${message.method}' failed unexpectedly.`);
}
}
} else {
unhandledNotificationEmitter.fire(message);
}
}
__name(handleNotification, "handleNotification");
function handleInvalidMessage(message) {
if (!message) {
logger.error("Received empty message.");
return;
}
logger.error(`Received message which is neither a response nor a notification message:
${JSON.stringify(message, null, 4)}`);
const responseMessage = message;
if (Is2.string(responseMessage.id) || Is2.number(responseMessage.id)) {
const key = responseMessage.id;
const responseHandler = responsePromises.get(key);
if (responseHandler) {
responseHandler.reject(new Error("The received response has neither a result nor an error property."));
}
}
}
__name(handleInvalidMessage, "handleInvalidMessage");
function stringifyTrace(params) {
if (params === void 0 || params === null) {
return void 0;
}
switch (trace) {
case Trace.Verbose:
return JSON.stringify(params, null, 4);
case Trace.Compact:
return JSON.stringify(params);
default:
return void 0;
}
}
__name(stringifyTrace, "stringifyTrace");
function traceSendingRequest(message) {
if (trace === Trace.Off || !tracer) {
return;
}
if (traceFormat === TraceFormat.Text) {
let data = void 0;
if ((trace === Trace.Verbose || trace === Trace.Compact) && message.params) {
data = `Params: ${stringifyTrace(message.params)}
`;
}
tracer.log(`Sending request '${message.method} - (${message.id})'.`, data);
} else {
logLSPMessage("send-request", message);
}
}
__name(traceSendingRequest, "traceSendingRequest");
function traceSendingNotification(message) {
if (trace === Trace.Off || !tracer) {
return;
}
if (traceFormat === TraceFormat.Text) {
let data = void 0;
if (trace === Trace.Verbose || trace === Trace.Compact) {
if (message.params) {
data = `Params: ${stringifyTrace(message.params)}
`;
} else {
data = "No parameters provided.\n\n";
}
}
tracer.log(`Sending notification '${message.method}'.`, data);
} else {
logLSPMessage("send-notification", message);
}
}
__name(traceSendingNotification, "traceSendingNotification");
function traceSendingResponse(message, method, startTime) {
if (trace === Trace.Off || !tracer) {
return;
}
if (traceFormat === TraceFormat.Text) {
let data = void 0;
if (trace === Trace.Verbose || trace === Trace.Compact) {
if (message.error && message.error.data) {
data = `Error data: ${stringifyTrace(message.error.data)}
`;
} else {
if (message.result) {
data = `Result: ${stringifyTrace(message.result)}
`;
} else if (message.error === void 0) {
data = "No result returned.\n\n";
}
}
}
tracer.log(`Sending response '${method} - (${message.id})'. Processing request took ${Date.now() - startTime}ms`, data);
} else {
logLSPMessage("send-response", message);
}
}
__name(traceSendingResponse, "traceSendingResponse");
function traceReceivedRequest(message) {
if (trace === Trace.Off || !tracer) {
return;
}
if (traceFormat === TraceFormat.Text) {
let data = void 0;
if ((trace === Trace.Verbose || trace === Trace.Compact) && message.params) {
data = `Params: ${stringifyTrace(message.params)}
`;
}
tracer.log(`Received request '${message.method} - (${message.id})'.`, data);
} else {
logLSPMessage("receive-request", message);
}
}
__name(traceReceivedRequest, "traceReceivedRequest");
function traceReceivedNotification(message) {
if (trace === Trace.Off || !tracer || message.method === LogTraceNotification.type.method) {
return;
}
if (traceFormat === TraceFormat.Text) {
let data = void 0;
if (trace === Trace.Verbose || trace === Trace.Compact) {
if (message.params) {
data = `Params: ${stringifyTrace(message.params)}
`;
} else {
data = "No parameters provided.\n\n";
}
}
tracer.log(`Received notification '${message.method}'.`, data);
} else {
logLSPMessage("receive-notification", message);
}
}
__name(traceReceivedNotification, "traceReceivedNotification");
function traceReceivedResponse(message, responsePromise) {
if (trace === Trace.Off || !tracer) {
return;
}
if (traceFormat === TraceFormat.Text) {
let data = void 0;
if (trace === Trace.Verbose || trace === Trace.Compact) {
if (message.error && message.error.data) {
data = `Error data: ${stringifyTrace(message.error.data)}
`;
} else {
if (message.result) {
data = `Result: ${stringifyTrace(message.result)}
`;
} else if (message.error === void 0) {
data = "No result returned.\n\n";
}
}
}
if (responsePromise) {
const error = message.error ? ` Request failed: ${message.error.message} (${message.error.code}).` : "";
tracer.log(`Received response '${responsePromise.method} - (${message.id})' in ${Date.now() - responsePromise.timerStart}ms.${error}`, data);
} else {
tracer.log(`Received response ${message.id} without active response promise.`, data);
}
} else {
logLSPMessage("receive-response", message);
}
}
__name(traceReceivedResponse, "traceReceivedResponse");
function logLSPMessage(type, message) {
if (!tracer || trace === Trace.Off) {
return;
}
const lspMessage = {
isLSPMessage: true,
type,
message,
timestamp: Date.now()
};
tracer.log(lspMessage);
}
__name(logLSPMessage, "logLSPMessage");
function throwIfClosedOrDisposed() {
if (isClosed()) {
throw new ConnectionError(ConnectionErrors.Closed, "Connection is closed.");
}
if (isDisposed()) {
throw new ConnectionError(ConnectionErrors.Disposed, "Connection is disposed.");
}
}
__name(throwIfClosedOrDisposed, "throwIfClosedOrDisposed");
function throwIfListening() {
if (isListening()) {
throw new ConnectionError(ConnectionErrors.AlreadyListening, "Connection is already listening");
}
}
__name(throwIfListening, "throwIfListening");
function throwIfNotListening() {
if (!isListening()) {
throw new Error("Call listen() first.");
}
}
__name(throwIfNotListening, "throwIfNotListening");
function undefinedToNull(param) {
if (param === void 0) {
return null;
} else {
return param;
}
}
__name(undefinedToNull, "undefinedToNull");
function nullToUndefined(param) {
if (param === null) {
return void 0;
} else {
return param;
}
}
__name(nullToUndefined, "nullToUndefined");
function isNamedParam(param) {
return param !== void 0 && param !== null && !Array.isArray(param) && typeof param === "object";
}
__name(isNamedParam, "isNamedParam");
function computeSingleParam(parameterStructures, param) {
switch (parameterStructures) {
case messages_1.ParameterStructures.auto:
if (isNamedParam(param)) {
return nullToUndefined(param);
} else {
return [undefinedToNull(param)];
}
case messages_1.ParameterStructures.byName:
if (!isNamedParam(param)) {
throw new Error(`Received parameters by name but param is not an object literal.`);
}
return nullToUndefined(param);
case messages_1.ParameterStructures.byPosition:
return [undefinedToNull(param)];
default:
throw new Error(`Unknown parameter structure ${parameterStructures.toString()}`);
}
}
__name(computeSingleParam, "computeSingleParam");
function computeMessageParams(type, params) {
let result;
const numberOfParams = type.numberOfParams;
switch (numberOfParams) {
case 0:
result = void 0;
break;
case 1:
result = computeSingleParam(type.parameterStructures, params[0]);
break;
default:
result = [];
for (let i = 0; i < params.length && i < numberOfParams; i++) {
result.push(undefinedToNull(params[i]));
}
if (params.length < numberOfParams) {
for (let i = params.length; i < numberOfParams; i++) {
result.push(null);
}
}
break;
}
return result;
}
__name(computeMessageParams, "computeMessageParams");
const connection = {
sendNotification: /* @__PURE__ */ __name((type, ...args) => {
throwIfClosedOrDisposed();
let method;
let messageParams;
if (Is2.string(type)) {
method = type;
const first2 = args[0];
let paramStart = 0;
let parameterStructures = messages_1.ParameterStructures.auto;
if (messages_1.ParameterStructures.is(first2)) {
paramStart = 1;
parameterStructures = first2;
}
let paramEnd = args.length;
const numberOfParams = paramEnd - paramStart;
switch (numberOfParams) {
case 0:
messageParams = void 0;
break;
case 1:
messageParams = computeSingleParam(parameterStructures, args[paramStart]);
break;
default:
if (parameterStructures === messages_1.ParameterStructures.byName) {
throw new Error(`Received ${numberOfParams} parameters for 'by Name' notification parameter structure.`);
}
messageParams = args.slice(paramStart, paramEnd).map((value) => undefinedToNull(value));
break;
}
} else {
const params = args;
method = type.method;
messageParams = computeMessageParams(type, params);
}
const notificationMessage = {
jsonrpc: version,
method,
params: messageParams
};
traceSendingNotification(notificationMessage);
return messageWriter.write(notificationMessage).catch((error) => {
logger.error(`Sending notification failed.`);
throw error;
});
}, "sendNotification"),
onNotification: /* @__PURE__ */ __name((type, handler) => {
throwIfClosedOrDisposed();
let method;
if (Is2.func(type)) {
starNotificationHandler = type;
} else if (handler) {
if (Is2.string(type)) {
method = type;
notificationHandlers.set(type, { type: void 0, handler });
} else {
method = type.method;
notificationHandlers.set(type.method, { type, handler });
}
}
return {
dispose: /* @__PURE__ */ __name(() => {
if (method !== void 0) {
notificationHandlers.delete(method);
} else {
starNotificationHandler = void 0;
}
}, "dispose")
};
}, "onNotification"),
onProgress: /* @__PURE__ */ __name((_type, token, handler) => {
if (progressHandlers.has(token)) {
throw new Error(`Progress handler for token ${token} already registered`);
}
progressHandlers.set(token, handler);
return {
dispose: /* @__PURE__ */ __name(() => {
progressHandlers.delete(token);
}, "dispose")
};
}, "onProgress"),
sendProgress: /* @__PURE__ */ __name((_type, token, value) => {
return connection.sendNotification(ProgressNotification.type, { token, value });
}, "sendProgress"),
onUnhandledProgress: unhandledProgressEmitter.event,
sendRequest: /* @__PURE__ */ __name((type, ...args) => {
throwIfClosedOrDisposed();
throwIfNotListening();
let method;
let messageParams;
let token = void 0;
if (Is2.string(type)) {
method = type;
const first2 = args[0];
const last2 = args[args.length - 1];
let paramStart = 0;
let parameterStructures = messages_1.ParameterStructures.auto;
if (messages_1.ParameterStructures.is(first2)) {
paramStart = 1;
parameterStructures = first2;
}
let paramEnd = args.length;
if (cancellation_1.CancellationToken.is(last2)) {
paramEnd = paramEnd - 1;
token = last2;
}
const numberOfParams = paramEnd - paramStart;
switch (numberOfParams) {
case 0:
messageParams = void 0;
break;
case 1:
messageParams = computeSingleParam(parameterStructures, args[paramStart]);
break;
default:
if (parameterStructures === messages_1.ParameterStructures.byName) {
throw new Error(`Received ${numberOfParams} parameters for 'by Name' request parameter structure.`);
}
messageParams = args.slice(paramStart, paramEnd).map((value) => undefinedToNull(value));
break;
}
} else {
const params = args;
method = type.method;
messageParams = computeMessageParams(type, params);
const numberOfParams = type.numberOfParams;
token = cancellation_1.CancellationToken.is(params[numberOfParams]) ? params[numberOfParams] : void 0;
}
const id = sequenceNumber++;
let disposable;
if (token) {
disposable = token.onCancellationRequested(() => {
const p = cancellationStrategy.sender.sendCancellation(connection, id);
if (p === void 0) {
logger.log(`Received no promise from cancellation strategy when cancelling id ${id}`);
return Promise.resolve();
} else {
return p.catch(() => {
logger.log(`Sending cancellation messages for id ${id} failed`);
});
}
});
}
const requestMessage = {
jsonrpc: version,
id,
method,
params: messageParams
};
traceSendingRequest(requestMessage);
if (typeof cancellationStrategy.sender.enableCancellation === "function") {
cancellationStrategy.sender.enableCancellation(requestMessage);
}
return new Promise(async (resolve, reject2) => {
const resolveWithCleanup = /* @__PURE__ */ __name((r) => {
resolve(r);
cancellationStrategy.sender.cleanup(id);
disposable?.dispose();
}, "resolveWithCleanup");
const rejectWithCleanup = /* @__PURE__ */ __name((r) => {
reject2(r);
cancellationStrategy.sender.cleanup(id);
disposable?.dispose();
}, "rejectWithCleanup");
const responsePromise = { method, timerStart: Date.now(), resolve: resolveWithCleanup, reject: rejectWithCleanup };
try {
await messageWriter.write(requestMessage);
responsePromises.set(id, responsePromise);
} catch (error) {
logger.error(`Sending request failed.`);
responsePromise.reject(new messages_1.ResponseError(messages_1.ErrorCodes.MessageWriteError, error.message ? error.message : "Unknown reason"));
throw error;
}
});
}, "sendRequest"),
onRequest: /* @__PURE__ */ __name((type, handler) => {
throwIfClosedOrDisposed();
let method = null;
if (StarRequestHandler.is(type)) {
method = void 0;
starRequestHandler = type;
} else if (Is2.string(type)) {
method = null;
if (handler !== void 0) {
method = type;
requestHandlers.set(type, { handler, type: void 0 });
}
} else {
if (handler !== void 0) {
method = type.method;
requestHandlers.set(type.method, { type, handler });
}
}
return {
dispose: /* @__PURE__ */ __name(() => {
if (method === null) {
return;
}
if (method !== void 0) {
requestHandlers.delete(method);
} else {
starRequestHandler = void 0;
}
}, "dispose")
};
}, "onRequest"),
hasPendingResponse: /* @__PURE__ */ __name(() => {
return responsePromises.size > 0;
}, "hasPendingResponse"),
trace: /* @__PURE__ */ __name(async (_value, _tracer, sendNotificationOrTraceOptions) => {
let _sendNotification = false;
let _traceFormat = TraceFormat.Text;
if (sendNotificationOrTraceOptions !== void 0) {
if (Is2.boolean(sendNotificationOrTraceOptions)) {
_sendNotification = sendNotificationOrTraceOptions;
} else {
_sendNotification = sendNotificationOrTraceOptions.sendNotification || false;
_traceFormat = sendNotificationOrTraceOptions.traceFormat || TraceFormat.Text;
}
}
trace = _value;
traceFormat = _traceFormat;
if (trace === Trace.Off) {
tracer = void 0;
} else {
tracer = _tracer;
}
if (_sendNotification && !isClosed() && !isDisposed()) {
await connection.sendNotification(SetTraceNotification.type, { value: Trace.toString(_value) });
}
}, "trace"),
onError: errorEmitter.event,
onClose: closeEmitter.event,
onUnhandledNotification: unhandledNotificationEmitter.event,
onDispose: disposeEmitter.event,
end: /* @__PURE__ */ __name(() => {
messageWriter.end();
}, "end"),
dispose: /* @__PURE__ */ __name(() => {
if (isDisposed()) {
return;
}
state = ConnectionState.Disposed;
disposeEmitter.fire(void 0);
const error = new messages_1.ResponseError(messages_1.ErrorCodes.PendingResponseRejected, "Pending response rejected since connection got disposed");
for (const promise of responsePromises.values()) {
promise.reject(error);
}
responsePromises = /* @__PURE__ */ new Map();
requestTokens = /* @__PURE__ */ new Map();
knownCanceledRequests = /* @__PURE__ */ new Set();
messageQueue = new linkedMap_1.LinkedMap();
if (Is2.func(messageWriter.dispose)) {
messageWriter.dispose();
}
if (Is2.func(messageReader.dispose)) {
messageReader.dispose();
}
}, "dispose"),
listen: /* @__PURE__ */ __name(() => {
throwIfClosedOrDisposed();
throwIfListening();
state = ConnectionState.Listening;
messageReader.listen(callback);
}, "listen"),
inspect: /* @__PURE__ */ __name(() => {
(0, ral_1.default)().console.log("inspect");
}, "inspect")
};
connection.onNotification(LogTraceNotification.type, (params) => {
if (trace === Trace.Off || !tracer) {
return;
}
const verbose = trace === Trace.Verbose || trace === Trace.Compact;
tracer.log(params.message, verbose ? params.verbose : void 0);
});
connection.onNotification(ProgressNotification.type, (params) => {
const handler = progressHandlers.get(params.token);
if (handler) {
handler(params.value);
} else {
unhandledProgressEmitter.fire(params);
}
});
return connection;
}
__name(createMessageConnection, "createMessageConnection");
exports2.createMessageConnection = createMessageConnection;
}
});
// ../../node_modules/.pnpm/vscode-jsonrpc@8.2.0/node_modules/vscode-jsonrpc/lib/common/api.js
var require_api = __commonJS({
"../../node_modules/.pnpm/vscode-jsonrpc@8.2.0/node_modules/vscode-jsonrpc/lib/common/api.js"(exports2) {
"use strict";
Object.defineProperty(exports2, "__esModule", { value: true });
exports2.ProgressType = exports2.ProgressToken = exports2.createMessageConnection = exports2.NullLogger = exports2.ConnectionOptions = exports2.ConnectionStrategy = exports2.AbstractMessageBuffer = exports2.WriteableStreamMessageWriter = exports2.AbstractMessageWriter = exports2.MessageWriter = exports2.ReadableStreamMessageReader = exports2.AbstractMessageReader = exports2.MessageReader = exports2.SharedArrayReceiverStrategy = exports2.SharedArraySenderStrategy = exports2.CancellationToken = exports2.CancellationTokenSource = exports2.Emitter = exports2.Event = exports2.Disposable = exports2.LRUCache = exports2.Touch = exports2.LinkedMap = exports2.ParameterStructures = exports2.NotificationType9 = exports2.NotificationType8 = exports2.NotificationType7 = exports2.NotificationType6 = exports2.NotificationType5 = exports2.NotificationType4 = exports2.NotificationType3 = exports2.NotificationType2 = exports2.NotificationType1 = exports2.NotificationType0 = exports2.NotificationType = exports2.ErrorCodes = exports2.ResponseError = exports2.RequestType9 = exports2.RequestType8 = exports2.RequestType7 = exports2.RequestType6 = exports2.RequestType5 = exports2.RequestType4 = exports2.RequestType3 = exports2.RequestType2 = exports2.RequestType1 = exports2.RequestType0 = exports2.RequestType = exports2.Message = exports2.RAL = void 0;
exports2.MessageStrategy = exports2.CancellationStrategy = exports2.CancellationSenderStrategy = exports2.CancellationReceiverStrategy = exports2.ConnectionError = exports2.ConnectionErrors = exports2.LogTraceNotification = exports2.SetTraceNotification = exports2.TraceFormat = exports2.TraceValues = exports2.Trace = void 0;
var messages_1 = require_messages();
Object.defineProperty(exports2, "Message", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return messages_1.Message;
}, "get") });
Object.defineProperty(exports2, "RequestType", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return messages_1.RequestType;
}, "get") });
Object.defineProperty(exports2, "RequestType0", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return messages_1.RequestType0;
}, "get") });
Object.defineProperty(exports2, "RequestType1", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return messages_1.RequestType1;
}, "get") });
Object.defineProperty(exports2, "RequestType2", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return messages_1.RequestType2;
}, "get") });
Object.defineProperty(exports2, "RequestType3", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return messages_1.RequestType3;
}, "get") });
Object.defineProperty(exports2, "RequestType4", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return messages_1.RequestType4;
}, "get") });
Object.defineProperty(exports2, "RequestType5", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return messages_1.RequestType5;
}, "get") });
Object.defineProperty(exports2, "RequestType6", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return messages_1.RequestType6;
}, "get") });
Object.defineProperty(exports2, "RequestType7", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return messages_1.RequestType7;
}, "get") });
Object.defineProperty(exports2, "RequestType8", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return messages_1.RequestType8;
}, "get") });
Object.defineProperty(exports2, "RequestType9", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return messages_1.RequestType9;
}, "get") });
Object.defineProperty(exports2, "ResponseError", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return messages_1.ResponseError;
}, "get") });
Object.defineProperty(exports2, "ErrorCodes", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return messages_1.ErrorCodes;
}, "get") });
Object.defineProperty(exports2, "NotificationType", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return messages_1.NotificationType;
}, "get") });
Object.defineProperty(exports2, "NotificationType0", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return messages_1.NotificationType0;
}, "get") });
Object.defineProperty(exports2, "NotificationType1", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return messages_1.NotificationType1;
}, "get") });
Object.defineProperty(exports2, "NotificationType2", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return messages_1.NotificationType2;
}, "get") });
Object.defineProperty(exports2, "NotificationType3", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return messages_1.NotificationType3;
}, "get") });
Object.defineProperty(exports2, "NotificationType4", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return messages_1.NotificationType4;
}, "get") });
Object.defineProperty(exports2, "NotificationType5", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return messages_1.NotificationType5;
}, "get") });
Object.defineProperty(exports2, "NotificationType6", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return messages_1.NotificationType6;
}, "get") });
Object.defineProperty(exports2, "NotificationType7", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return messages_1.NotificationType7;
}, "get") });
Object.defineProperty(exports2, "NotificationType8", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return messages_1.NotificationType8;
}, "get") });
Object.defineProperty(exports2, "NotificationType9", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return messages_1.NotificationType9;
}, "get") });
Object.defineProperty(exports2, "ParameterStructures", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return messages_1.ParameterStructures;
}, "get") });
var linkedMap_1 = require_linkedMap();
Object.defineProperty(exports2, "LinkedMap", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return linkedMap_1.LinkedMap;
}, "get") });
Object.defineProperty(exports2, "LRUCache", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return linkedMap_1.LRUCache;
}, "get") });
Object.defineProperty(exports2, "Touch", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return linkedMap_1.Touch;
}, "get") });
var disposable_1 = require_disposable();
Object.defineProperty(exports2, "Disposable", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return disposable_1.Disposable;
}, "get") });
var events_1 = require_events();
Object.defineProperty(exports2, "Event", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return events_1.Event;
}, "get") });
Object.defineProperty(exports2, "Emitter", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return events_1.Emitter;
}, "get") });
var cancellation_1 = require_cancellation();
Object.defineProperty(exports2, "CancellationTokenSource", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return cancellation_1.CancellationTokenSource;
}, "get") });
Object.defineProperty(exports2, "CancellationToken", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return cancellation_1.CancellationToken;
}, "get") });
var sharedArrayCancellation_1 = require_sharedArrayCancellation();
Object.defineProperty(exports2, "SharedArraySenderStrategy", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return sharedArrayCancellation_1.SharedArraySenderStrategy;
}, "get") });
Object.defineProperty(exports2, "SharedArrayReceiverStrategy", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return sharedArrayCancellation_1.SharedArrayReceiverStrategy;
}, "get") });
var messageReader_1 = require_messageReader();
Object.defineProperty(exports2, "MessageReader", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return messageReader_1.MessageReader;
}, "get") });
Object.defineProperty(exports2, "AbstractMessageReader", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return messageReader_1.AbstractMessageReader;
}, "get") });
Object.defineProperty(exports2, "ReadableStreamMessageReader", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return messageReader_1.ReadableStreamMessageReader;
}, "get") });
var messageWriter_1 = require_messageWriter();
Object.defineProperty(exports2, "MessageWriter", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return messageWriter_1.MessageWriter;
}, "get") });
Object.defineProperty(exports2, "AbstractMessageWriter", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return messageWriter_1.AbstractMessageWriter;
}, "get") });
Object.defineProperty(exports2, "WriteableStreamMessageWriter", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return messageWriter_1.WriteableStreamMessageWriter;
}, "get") });
var messageBuffer_1 = require_messageBuffer();
Object.defineProperty(exports2, "AbstractMessageBuffer", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return messageBuffer_1.AbstractMessageBuffer;
}, "get") });
var connection_1 = require_connection();
Object.defineProperty(exports2, "ConnectionStrategy", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return connection_1.ConnectionStrategy;
}, "get") });
Object.defineProperty(exports2, "ConnectionOptions", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return connection_1.ConnectionOptions;
}, "get") });
Object.defineProperty(exports2, "NullLogger", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return connection_1.NullLogger;
}, "get") });
Object.defineProperty(exports2, "createMessageConnection", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return connection_1.createMessageConnection;
}, "get") });
Object.defineProperty(exports2, "ProgressToken", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return connection_1.ProgressToken;
}, "get") });
Object.defineProperty(exports2, "ProgressType", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return connection_1.ProgressType;
}, "get") });
Object.defineProperty(exports2, "Trace", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return connection_1.Trace;
}, "get") });
Object.defineProperty(exports2, "TraceValues", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return connection_1.TraceValues;
}, "get") });
Object.defineProperty(exports2, "TraceFormat", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return connection_1.TraceFormat;
}, "get") });
Object.defineProperty(exports2, "SetTraceNotification", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return connection_1.SetTraceNotification;
}, "get") });
Object.defineProperty(exports2, "LogTraceNotification", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return connection_1.LogTraceNotification;
}, "get") });
Object.defineProperty(exports2, "ConnectionErrors", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return connection_1.ConnectionErrors;
}, "get") });
Object.defineProperty(exports2, "ConnectionError", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return connection_1.ConnectionError;
}, "get") });
Object.defineProperty(exports2, "CancellationReceiverStrategy", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return connection_1.CancellationReceiverStrategy;
}, "get") });
Object.defineProperty(exports2, "CancellationSenderStrategy", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return connection_1.CancellationSenderStrategy;
}, "get") });
Object.defineProperty(exports2, "CancellationStrategy", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return connection_1.CancellationStrategy;
}, "get") });
Object.defineProperty(exports2, "MessageStrategy", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return connection_1.MessageStrategy;
}, "get") });
var ral_1 = require_ral();
exports2.RAL = ral_1.default;
}
});
// ../../node_modules/.pnpm/vscode-jsonrpc@8.2.0/node_modules/vscode-jsonrpc/lib/browser/ril.js
var require_ril = __commonJS({
"../../node_modules/.pnpm/vscode-jsonrpc@8.2.0/node_modules/vscode-jsonrpc/lib/browser/ril.js"(exports2) {
"use strict";
Object.defineProperty(exports2, "__esModule", { value: true });
var api_1 = require_api();
var MessageBuffer = class _MessageBuffer extends api_1.AbstractMessageBuffer {
static {
__name(this, "MessageBuffer");
}
constructor(encoding = "utf-8") {
super(encoding);
this.asciiDecoder = new TextDecoder("ascii");
}
emptyBuffer() {
return _MessageBuffer.emptyBuffer;
}
fromString(value, _encoding) {
return new TextEncoder().encode(value);
}
toString(value, encoding) {
if (encoding === "ascii") {
return this.asciiDecoder.decode(value);
} else {
return new TextDecoder(encoding).decode(value);
}
}
asNative(buffer, length) {
if (length === void 0) {
return buffer;
} else {
return buffer.slice(0, length);
}
}
allocNative(length) {
return new Uint8Array(length);
}
};
MessageBuffer.emptyBuffer = new Uint8Array(0);
var ReadableStreamWrapper = class {
static {
__name(this, "ReadableStreamWrapper");
}
constructor(socket) {
this.socket = socket;
this._onData = new api_1.Emitter();
this._messageListener = (event) => {
const blob = event.data;
blob.arrayBuffer().then((buffer) => {
this._onData.fire(new Uint8Array(buffer));
}, () => {
(0, api_1.RAL)().console.error(`Converting blob to array buffer failed.`);
});
};
this.socket.addEventListener("message", this._messageListener);
}
onClose(listener) {
this.socket.addEventListener("close", listener);
return api_1.Disposable.create(() => this.socket.removeEventListener("close", listener));
}
onError(listener) {
this.socket.addEventListener("error", listener);
return api_1.Disposable.create(() => this.socket.removeEventListener("error", listener));
}
onEnd(listener) {
this.socket.addEventListener("end", listener);
return api_1.Disposable.create(() => this.socket.removeEventListener("end", listener));
}
onData(listener) {
return this._onData.event(listener);
}
};
var WritableStreamWrapper = class {
static {
__name(this, "WritableStreamWrapper");
}
constructor(socket) {
this.socket = socket;
}
onClose(listener) {
this.socket.addEventListener("close", listener);
return api_1.Disposable.create(() => this.socket.removeEventListener("close", listener));
}
onError(listener) {
this.socket.addEventListener("error", listener);
return api_1.Disposable.create(() => this.socket.removeEventListener("error", listener));
}
onEnd(listener) {
this.socket.addEventListener("end", listener);
return api_1.Disposable.create(() => this.socket.removeEventListener("end", listener));
}
write(data, encoding) {
if (typeof data === "string") {
if (encoding !== void 0 && encoding !== "utf-8") {
throw new Error(`In a Browser environments only utf-8 text encoding is supported. But got encoding: ${encoding}`);
}
this.socket.send(data);
} else {
this.socket.send(data);
}
return Promise.resolve();
}
end() {
this.socket.close();
}
};
var _textEncoder = new TextEncoder();
var _ril = Object.freeze({
messageBuffer: Object.freeze({
create: /* @__PURE__ */ __name((encoding) => new MessageBuffer(encoding), "create")
}),
applicationJson: Object.freeze({
encoder: Object.freeze({
name: "application/json",
encode: /* @__PURE__ */ __name((msg, options) => {
if (options.charset !== "utf-8") {
throw new Error(`In a Browser environments only utf-8 text encoding is supported. But got encoding: ${options.charset}`);
}
return Promise.resolve(_textEncoder.encode(JSON.stringify(msg, void 0, 0)));
}, "encode")
}),
decoder: Object.freeze({
name: "application/json",
decode: /* @__PURE__ */ __name((buffer, options) => {
if (!(buffer instanceof Uint8Array)) {
throw new Error(`In a Browser environments only Uint8Arrays are supported.`);
}
return Promise.resolve(JSON.parse(new TextDecoder(options.charset).decode(buffer)));
}, "decode")
})
}),
stream: Object.freeze({
asReadableStream: /* @__PURE__ */ __name((socket) => new ReadableStreamWrapper(socket), "asReadableStream"),
asWritableStream: /* @__PURE__ */ __name((socket) => new WritableStreamWrapper(socket), "asWritableStream")
}),
console,
timer: Object.freeze({
setTimeout(callback, ms, ...args) {
const handle = setTimeout(callback, ms, ...args);
return { dispose: /* @__PURE__ */ __name(() => clearTimeout(handle), "dispose") };
},
setImmediate(callback, ...args) {
const handle = setTimeout(callback, 0, ...args);
return { dispose: /* @__PURE__ */ __name(() => clearTimeout(handle), "dispose") };
},
setInterval(callback, ms, ...args) {
const handle = setInterval(callback, ms, ...args);
return { dispose: /* @__PURE__ */ __name(() => clearInterval(handle), "dispose") };
}
})
});
function RIL() {
return _ril;
}
__name(RIL, "RIL");
(function(RIL2) {
function install() {
api_1.RAL.install(_ril);
}
__name(install, "install");
RIL2.install = install;
})(RIL || (RIL = {}));
exports2.default = RIL;
}
});
// ../../node_modules/.pnpm/vscode-jsonrpc@8.2.0/node_modules/vscode-jsonrpc/lib/browser/main.js
var require_main = __commonJS({
"../../node_modules/.pnpm/vscode-jsonrpc@8.2.0/node_modules/vscode-jsonrpc/lib/browser/main.js"(exports2) {
"use strict";
var __createBinding = exports2 && exports2.__createBinding || (Object.create ? (function(o, m, k, k2) {
if (k2 === void 0) k2 = k;
var desc = Object.getOwnPropertyDescriptor(m, k);
if (!desc || ("get" in desc ? !m.__esModule : desc.writable || desc.configurable)) {
desc = { enumerable: true, get: /* @__PURE__ */ __name(function() {
return m[k];
}, "get") };
}
Object.defineProperty(o, k2, desc);
}) : (function(o, m, k, k2) {
if (k2 === void 0) k2 = k;
o[k2] = m[k];
}));
var __exportStar = exports2 && exports2.__exportStar || function(m, exports3) {
for (var p in m) if (p !== "default" && !Object.prototype.hasOwnProperty.call(exports3, p)) __createBinding(exports3, m, p);
};
Object.defineProperty(exports2, "__esModule", { value: true });
exports2.createMessageConnection = exports2.BrowserMessageWriter = exports2.BrowserMessageReader = void 0;
var ril_1 = require_ril();
ril_1.default.install();
var api_1 = require_api();
__exportStar(require_api(), exports2);
var BrowserMessageReader = class extends api_1.AbstractMessageReader {
static {
__name(this, "BrowserMessageReader");
}
constructor(port) {
super();
this._onData = new api_1.Emitter();
this._messageListener = (event) => {
this._onData.fire(event.data);
};
port.addEventListener("error", (event) => this.fireError(event));
port.onmessage = this._messageListener;
}
listen(callback) {
return this._onData.event(callback);
}
};
exports2.BrowserMessageReader = BrowserMessageReader;
var BrowserMessageWriter = class extends api_1.AbstractMessageWriter {
static {
__name(this, "BrowserMessageWriter");
}
constructor(port) {
super();
this.port = port;
this.errorCount = 0;
port.addEventListener("error", (event) => this.fireError(event));
}
write(msg) {
try {
this.port.postMessage(msg);
return Promise.resolve();
} catch (error) {
this.handleError(error, msg);
return Promise.reject(error);
}
}
handleError(error, msg) {
this.errorCount++;
this.fireError(error, msg, this.errorCount);
}
end() {
}
};
exports2.BrowserMessageWriter = BrowserMessageWriter;
function createMessageConnection(reader, writer, logger, options) {
if (logger === void 0) {
logger = api_1.NullLogger;
}
if (api_1.ConnectionStrategy.is(options)) {
options = { connectionStrategy: options };
}
return (0, api_1.createMessageConnection)(reader, writer, logger, options);
}
__name(createMessageConnection, "createMessageConnection");
exports2.createMessageConnection = createMessageConnection;
}
});
// ../../node_modules/.pnpm/vscode-jsonrpc@8.2.0/node_modules/vscode-jsonrpc/browser.js
var require_browser = __commonJS({
"../../node_modules/.pnpm/vscode-jsonrpc@8.2.0/node_modules/vscode-jsonrpc/browser.js"(exports2, module2) {
"use strict";
module2.exports = require_main();
}
});
// ../../node_modules/.pnpm/vscode-languageserver-protocol@3.17.5/node_modules/vscode-languageserver-protocol/lib/common/messages.js
var require_messages2 = __commonJS({
"../../node_modules/.pnpm/vscode-languageserver-protocol@3.17.5/node_modules/vscode-languageserver-protocol/lib/common/messages.js"(exports2) {
"use strict";
Object.defineProperty(exports2, "__esModule", { value: true });
exports2.ProtocolNotificationType = exports2.ProtocolNotificationType0 = exports2.ProtocolRequestType = exports2.ProtocolRequestType0 = exports2.RegistrationType = exports2.MessageDirection = void 0;
var vscode_jsonrpc_1 = require_main();
var MessageDirection;
(function(MessageDirection2) {
MessageDirection2["clientToServer"] = "clientToServer";
MessageDirection2["serverToClient"] = "serverToClient";
MessageDirection2["both"] = "both";
})(MessageDirection || (exports2.MessageDirection = MessageDirection = {}));
var RegistrationType = class {
static {
__name(this, "RegistrationType");
}
constructor(method) {
this.method = method;
}
};
exports2.RegistrationType = RegistrationType;
var ProtocolRequestType0 = class extends vscode_jsonrpc_1.RequestType0 {
static {
__name(this, "ProtocolRequestType0");
}
constructor(method) {
super(method);
}
};
exports2.ProtocolRequestType0 = ProtocolRequestType0;
var ProtocolRequestType = class extends vscode_jsonrpc_1.RequestType {
static {
__name(this, "ProtocolRequestType");
}
constructor(method) {
super(method, vscode_jsonrpc_1.ParameterStructures.byName);
}
};
exports2.ProtocolRequestType = ProtocolRequestType;
var ProtocolNotificationType0 = class extends vscode_jsonrpc_1.NotificationType0 {
static {
__name(this, "ProtocolNotificationType0");
}
constructor(method) {
super(method);
}
};
exports2.ProtocolNotificationType0 = ProtocolNotificationType0;
var ProtocolNotificationType = class extends vscode_jsonrpc_1.NotificationType {
static {
__name(this, "ProtocolNotificationType");
}
constructor(method) {
super(method, vscode_jsonrpc_1.ParameterStructures.byName);
}
};
exports2.ProtocolNotificationType = ProtocolNotificationType;
}
});
// ../../node_modules/.pnpm/vscode-languageserver-protocol@3.17.5/node_modules/vscode-languageserver-protocol/lib/common/utils/is.js
var require_is2 = __commonJS({
"../../node_modules/.pnpm/vscode-languageserver-protocol@3.17.5/node_modules/vscode-languageserver-protocol/lib/common/utils/is.js"(exports2) {
"use strict";
Object.defineProperty(exports2, "__esModule", { value: true });
exports2.objectLiteral = exports2.typedArray = exports2.stringArray = exports2.array = exports2.func = exports2.error = exports2.number = exports2.string = exports2.boolean = void 0;
function boolean(value) {
return value === true || value === false;
}
__name(boolean, "boolean");
exports2.boolean = boolean;
function string(value) {
return typeof value === "string" || value instanceof String;
}
__name(string, "string");
exports2.string = string;
function number(value) {
return typeof value === "number" || value instanceof Number;
}
__name(number, "number");
exports2.number = number;
function error(value) {
return value instanceof Error;
}
__name(error, "error");
exports2.error = error;
function func(value) {
return typeof value === "function";
}
__name(func, "func");
exports2.func = func;
function array(value) {
return Array.isArray(value);
}
__name(array, "array");
exports2.array = array;
function stringArray(value) {
return array(value) && value.every((elem) => string(elem));
}
__name(stringArray, "stringArray");
exports2.stringArray = stringArray;
function typedArray(value, check) {
return Array.isArray(value) && value.every(check);
}
__name(typedArray, "typedArray");
exports2.typedArray = typedArray;
function objectLiteral(value) {
return value !== null && typeof value === "object";
}
__name(objectLiteral, "objectLiteral");
exports2.objectLiteral = objectLiteral;
}
});
// ../../node_modules/.pnpm/vscode-languageserver-protocol@3.17.5/node_modules/vscode-languageserver-protocol/lib/common/protocol.implementation.js
var require_protocol_implementation = __commonJS({
"../../node_modules/.pnpm/vscode-languageserver-protocol@3.17.5/node_modules/vscode-languageserver-protocol/lib/common/protocol.implementation.js"(exports2) {
"use strict";
Object.defineProperty(exports2, "__esModule", { value: true });
exports2.ImplementationRequest = void 0;
var messages_1 = require_messages2();
var ImplementationRequest;
(function(ImplementationRequest2) {
ImplementationRequest2.method = "textDocument/implementation";
ImplementationRequest2.messageDirection = messages_1.MessageDirection.clientToServer;
ImplementationRequest2.type = new messages_1.ProtocolRequestType(ImplementationRequest2.method);
})(ImplementationRequest || (exports2.ImplementationRequest = ImplementationRequest = {}));
}
});
// ../../node_modules/.pnpm/vscode-languageserver-protocol@3.17.5/node_modules/vscode-languageserver-protocol/lib/common/protocol.typeDefinition.js
var require_protocol_typeDefinition = __commonJS({
"../../node_modules/.pnpm/vscode-languageserver-protocol@3.17.5/node_modules/vscode-languageserver-protocol/lib/common/protocol.typeDefinition.js"(exports2) {
"use strict";
Object.defineProperty(exports2, "__esModule", { value: true });
exports2.TypeDefinitionRequest = void 0;
var messages_1 = require_messages2();
var TypeDefinitionRequest;
(function(TypeDefinitionRequest2) {
TypeDefinitionRequest2.method = "textDocument/typeDefinition";
TypeDefinitionRequest2.messageDirection = messages_1.MessageDirection.clientToServer;
TypeDefinitionRequest2.type = new messages_1.ProtocolRequestType(TypeDefinitionRequest2.method);
})(TypeDefinitionRequest || (exports2.TypeDefinitionRequest = TypeDefinitionRequest = {}));
}
});
// ../../node_modules/.pnpm/vscode-languageserver-protocol@3.17.5/node_modules/vscode-languageserver-protocol/lib/common/protocol.workspaceFolder.js
var require_protocol_workspaceFolder = __commonJS({
"../../node_modules/.pnpm/vscode-languageserver-protocol@3.17.5/node_modules/vscode-languageserver-protocol/lib/common/protocol.workspaceFolder.js"(exports2) {
"use strict";
Object.defineProperty(exports2, "__esModule", { value: true });
exports2.DidChangeWorkspaceFoldersNotification = exports2.WorkspaceFoldersRequest = void 0;
var messages_1 = require_messages2();
var WorkspaceFoldersRequest;
(function(WorkspaceFoldersRequest2) {
WorkspaceFoldersRequest2.method = "workspace/workspaceFolders";
WorkspaceFoldersRequest2.messageDirection = messages_1.MessageDirection.serverToClient;
WorkspaceFoldersRequest2.type = new messages_1.ProtocolRequestType0(WorkspaceFoldersRequest2.method);
})(WorkspaceFoldersRequest || (exports2.WorkspaceFoldersRequest = WorkspaceFoldersRequest = {}));
var DidChangeWorkspaceFoldersNotification;
(function(DidChangeWorkspaceFoldersNotification2) {
DidChangeWorkspaceFoldersNotification2.method = "workspace/didChangeWorkspaceFolders";
DidChangeWorkspaceFoldersNotification2.messageDirection = messages_1.MessageDirection.clientToServer;
DidChangeWorkspaceFoldersNotification2.type = new messages_1.ProtocolNotificationType(DidChangeWorkspaceFoldersNotification2.method);
})(DidChangeWorkspaceFoldersNotification || (exports2.DidChangeWorkspaceFoldersNotification = DidChangeWorkspaceFoldersNotification = {}));
}
});
// ../../node_modules/.pnpm/vscode-languageserver-protocol@3.17.5/node_modules/vscode-languageserver-protocol/lib/common/protocol.configuration.js
var require_protocol_configuration = __commonJS({
"../../node_modules/.pnpm/vscode-languageserver-protocol@3.17.5/node_modules/vscode-languageserver-protocol/lib/common/protocol.configuration.js"(exports2) {
"use strict";
Object.defineProperty(exports2, "__esModule", { value: true });
exports2.ConfigurationRequest = void 0;
var messages_1 = require_messages2();
var ConfigurationRequest;
(function(ConfigurationRequest2) {
ConfigurationRequest2.method = "workspace/configuration";
ConfigurationRequest2.messageDirection = messages_1.MessageDirection.serverToClient;
ConfigurationRequest2.type = new messages_1.ProtocolRequestType(ConfigurationRequest2.method);
})(ConfigurationRequest || (exports2.ConfigurationRequest = ConfigurationRequest = {}));
}
});
// ../../node_modules/.pnpm/vscode-languageserver-protocol@3.17.5/node_modules/vscode-languageserver-protocol/lib/common/protocol.colorProvider.js
var require_protocol_colorProvider = __commonJS({
"../../node_modules/.pnpm/vscode-languageserver-protocol@3.17.5/node_modules/vscode-languageserver-protocol/lib/common/protocol.colorProvider.js"(exports2) {
"use strict";
Object.defineProperty(exports2, "__esModule", { value: true });
exports2.ColorPresentationRequest = exports2.DocumentColorRequest = void 0;
var messages_1 = require_messages2();
var DocumentColorRequest;
(function(DocumentColorRequest2) {
DocumentColorRequest2.method = "textDocument/documentColor";
DocumentColorRequest2.messageDirection = messages_1.MessageDirection.clientToServer;
DocumentColorRequest2.type = new messages_1.ProtocolRequestType(DocumentColorRequest2.method);
})(DocumentColorRequest || (exports2.DocumentColorRequest = DocumentColorRequest = {}));
var ColorPresentationRequest;
(function(ColorPresentationRequest2) {
ColorPresentationRequest2.method = "textDocument/colorPresentation";
ColorPresentationRequest2.messageDirection = messages_1.MessageDirection.clientToServer;
ColorPresentationRequest2.type = new messages_1.ProtocolRequestType(ColorPresentationRequest2.method);
})(ColorPresentationRequest || (exports2.ColorPresentationRequest = ColorPresentationRequest = {}));
}
});
// ../../node_modules/.pnpm/vscode-languageserver-protocol@3.17.5/node_modules/vscode-languageserver-protocol/lib/common/protocol.foldingRange.js
var require_protocol_foldingRange = __commonJS({
"../../node_modules/.pnpm/vscode-languageserver-protocol@3.17.5/node_modules/vscode-languageserver-protocol/lib/common/protocol.foldingRange.js"(exports2) {
"use strict";
Object.defineProperty(exports2, "__esModule", { value: true });
exports2.FoldingRangeRefreshRequest = exports2.FoldingRangeRequest = void 0;
var messages_1 = require_messages2();
var FoldingRangeRequest;
(function(FoldingRangeRequest2) {
FoldingRangeRequest2.method = "textDocument/foldingRange";
FoldingRangeRequest2.messageDirection = messages_1.MessageDirection.clientToServer;
FoldingRangeRequest2.type = new messages_1.ProtocolRequestType(FoldingRangeRequest2.method);
})(FoldingRangeRequest || (exports2.FoldingRangeRequest = FoldingRangeRequest = {}));
var FoldingRangeRefreshRequest;
(function(FoldingRangeRefreshRequest2) {
FoldingRangeRefreshRequest2.method = `workspace/foldingRange/refresh`;
FoldingRangeRefreshRequest2.messageDirection = messages_1.MessageDirection.serverToClient;
FoldingRangeRefreshRequest2.type = new messages_1.ProtocolRequestType0(FoldingRangeRefreshRequest2.method);
})(FoldingRangeRefreshRequest || (exports2.FoldingRangeRefreshRequest = FoldingRangeRefreshRequest = {}));
}
});
// ../../node_modules/.pnpm/vscode-languageserver-protocol@3.17.5/node_modules/vscode-languageserver-protocol/lib/common/protocol.declaration.js
var require_protocol_declaration = __commonJS({
"../../node_modules/.pnpm/vscode-languageserver-protocol@3.17.5/node_modules/vscode-languageserver-protocol/lib/common/protocol.declaration.js"(exports2) {
"use strict";
Object.defineProperty(exports2, "__esModule", { value: true });
exports2.DeclarationRequest = void 0;
var messages_1 = require_messages2();
var DeclarationRequest;
(function(DeclarationRequest2) {
DeclarationRequest2.method = "textDocument/declaration";
DeclarationRequest2.messageDirection = messages_1.MessageDirection.clientToServer;
DeclarationRequest2.type = new messages_1.ProtocolRequestType(DeclarationRequest2.method);
})(DeclarationRequest || (exports2.DeclarationRequest = DeclarationRequest = {}));
}
});
// ../../node_modules/.pnpm/vscode-languageserver-protocol@3.17.5/node_modules/vscode-languageserver-protocol/lib/common/protocol.selectionRange.js
var require_protocol_selectionRange = __commonJS({
"../../node_modules/.pnpm/vscode-languageserver-protocol@3.17.5/node_modules/vscode-languageserver-protocol/lib/common/protocol.selectionRange.js"(exports2) {
"use strict";
Object.defineProperty(exports2, "__esModule", { value: true });
exports2.SelectionRangeRequest = void 0;
var messages_1 = require_messages2();
var SelectionRangeRequest;
(function(SelectionRangeRequest2) {
SelectionRangeRequest2.method = "textDocument/selectionRange";
SelectionRangeRequest2.messageDirection = messages_1.MessageDirection.clientToServer;
SelectionRangeRequest2.type = new messages_1.ProtocolRequestType(SelectionRangeRequest2.method);
})(SelectionRangeRequest || (exports2.SelectionRangeRequest = SelectionRangeRequest = {}));
}
});
// ../../node_modules/.pnpm/vscode-languageserver-protocol@3.17.5/node_modules/vscode-languageserver-protocol/lib/common/protocol.progress.js
var require_protocol_progress = __commonJS({
"../../node_modules/.pnpm/vscode-languageserver-protocol@3.17.5/node_modules/vscode-languageserver-protocol/lib/common/protocol.progress.js"(exports2) {
"use strict";
Object.defineProperty(exports2, "__esModule", { value: true });
exports2.WorkDoneProgressCancelNotification = exports2.WorkDoneProgressCreateRequest = exports2.WorkDoneProgress = void 0;
var vscode_jsonrpc_1 = require_main();
var messages_1 = require_messages2();
var WorkDoneProgress;
(function(WorkDoneProgress2) {
WorkDoneProgress2.type = new vscode_jsonrpc_1.ProgressType();
function is(value) {
return value === WorkDoneProgress2.type;
}
__name(is, "is");
WorkDoneProgress2.is = is;
})(WorkDoneProgress || (exports2.WorkDoneProgress = WorkDoneProgress = {}));
var WorkDoneProgressCreateRequest;
(function(WorkDoneProgressCreateRequest2) {
WorkDoneProgressCreateRequest2.method = "window/workDoneProgress/create";
WorkDoneProgressCreateRequest2.messageDirection = messages_1.MessageDirection.serverToClient;
WorkDoneProgressCreateRequest2.type = new messages_1.ProtocolRequestType(WorkDoneProgressCreateRequest2.method);
})(WorkDoneProgressCreateRequest || (exports2.WorkDoneProgressCreateRequest = WorkDoneProgressCreateRequest = {}));
var WorkDoneProgressCancelNotification;
(function(WorkDoneProgressCancelNotification2) {
WorkDoneProgressCancelNotification2.method = "window/workDoneProgress/cancel";
WorkDoneProgressCancelNotification2.messageDirection = messages_1.MessageDirection.clientToServer;
WorkDoneProgressCancelNotification2.type = new messages_1.ProtocolNotificationType(WorkDoneProgressCancelNotification2.method);
})(WorkDoneProgressCancelNotification || (exports2.WorkDoneProgressCancelNotification = WorkDoneProgressCancelNotification = {}));
}
});
// ../../node_modules/.pnpm/vscode-languageserver-protocol@3.17.5/node_modules/vscode-languageserver-protocol/lib/common/protocol.callHierarchy.js
var require_protocol_callHierarchy = __commonJS({
"../../node_modules/.pnpm/vscode-languageserver-protocol@3.17.5/node_modules/vscode-languageserver-protocol/lib/common/protocol.callHierarchy.js"(exports2) {
"use strict";
Object.defineProperty(exports2, "__esModule", { value: true });
exports2.CallHierarchyOutgoingCallsRequest = exports2.CallHierarchyIncomingCallsRequest = exports2.CallHierarchyPrepareRequest = void 0;
var messages_1 = require_messages2();
var CallHierarchyPrepareRequest;
(function(CallHierarchyPrepareRequest2) {
CallHierarchyPrepareRequest2.method = "textDocument/prepareCallHierarchy";
CallHierarchyPrepareRequest2.messageDirection = messages_1.MessageDirection.clientToServer;
CallHierarchyPrepareRequest2.type = new messages_1.ProtocolRequestType(CallHierarchyPrepareRequest2.method);
})(CallHierarchyPrepareRequest || (exports2.CallHierarchyPrepareRequest = CallHierarchyPrepareRequest = {}));
var CallHierarchyIncomingCallsRequest;
(function(CallHierarchyIncomingCallsRequest2) {
CallHierarchyIncomingCallsRequest2.method = "callHierarchy/incomingCalls";
CallHierarchyIncomingCallsRequest2.messageDirection = messages_1.MessageDirection.clientToServer;
CallHierarchyIncomingCallsRequest2.type = new messages_1.ProtocolRequestType(CallHierarchyIncomingCallsRequest2.method);
})(CallHierarchyIncomingCallsRequest || (exports2.CallHierarchyIncomingCallsRequest = CallHierarchyIncomingCallsRequest = {}));
var CallHierarchyOutgoingCallsRequest;
(function(CallHierarchyOutgoingCallsRequest2) {
CallHierarchyOutgoingCallsRequest2.method = "callHierarchy/outgoingCalls";
CallHierarchyOutgoingCallsRequest2.messageDirection = messages_1.MessageDirection.clientToServer;
CallHierarchyOutgoingCallsRequest2.type = new messages_1.ProtocolRequestType(CallHierarchyOutgoingCallsRequest2.method);
})(CallHierarchyOutgoingCallsRequest || (exports2.CallHierarchyOutgoingCallsRequest = CallHierarchyOutgoingCallsRequest = {}));
}
});
// ../../node_modules/.pnpm/vscode-languageserver-protocol@3.17.5/node_modules/vscode-languageserver-protocol/lib/common/protocol.semanticTokens.js
var require_protocol_semanticTokens = __commonJS({
"../../node_modules/.pnpm/vscode-languageserver-protocol@3.17.5/node_modules/vscode-languageserver-protocol/lib/common/protocol.semanticTokens.js"(exports2) {
"use strict";
Object.defineProperty(exports2, "__esModule", { value: true });
exports2.SemanticTokensRefreshRequest = exports2.SemanticTokensRangeRequest = exports2.SemanticTokensDeltaRequest = exports2.SemanticTokensRequest = exports2.SemanticTokensRegistrationType = exports2.TokenFormat = void 0;
var messages_1 = require_messages2();
var TokenFormat;
(function(TokenFormat2) {
TokenFormat2.Relative = "relative";
})(TokenFormat || (exports2.TokenFormat = TokenFormat = {}));
var SemanticTokensRegistrationType;
(function(SemanticTokensRegistrationType2) {
SemanticTokensRegistrationType2.method = "textDocument/semanticTokens";
SemanticTokensRegistrationType2.type = new messages_1.RegistrationType(SemanticTokensRegistrationType2.method);
})(SemanticTokensRegistrationType || (exports2.SemanticTokensRegistrationType = SemanticTokensRegistrationType = {}));
var SemanticTokensRequest;
(function(SemanticTokensRequest2) {
SemanticTokensRequest2.method = "textDocument/semanticTokens/full";
SemanticTokensRequest2.messageDirection = messages_1.MessageDirection.clientToServer;
SemanticTokensRequest2.type = new messages_1.ProtocolRequestType(SemanticTokensRequest2.method);
SemanticTokensRequest2.registrationMethod = SemanticTokensRegistrationType.method;
})(SemanticTokensRequest || (exports2.SemanticTokensRequest = SemanticTokensRequest = {}));
var SemanticTokensDeltaRequest;
(function(SemanticTokensDeltaRequest2) {
SemanticTokensDeltaRequest2.method = "textDocument/semanticTokens/full/delta";
SemanticTokensDeltaRequest2.messageDirection = messages_1.MessageDirection.clientToServer;
SemanticTokensDeltaRequest2.type = new messages_1.ProtocolRequestType(SemanticTokensDeltaRequest2.method);
SemanticTokensDeltaRequest2.registrationMethod = SemanticTokensRegistrationType.method;
})(SemanticTokensDeltaRequest || (exports2.SemanticTokensDeltaRequest = SemanticTokensDeltaRequest = {}));
var SemanticTokensRangeRequest;
(function(SemanticTokensRangeRequest2) {
SemanticTokensRangeRequest2.method = "textDocument/semanticTokens/range";
SemanticTokensRangeRequest2.messageDirection = messages_1.MessageDirection.clientToServer;
SemanticTokensRangeRequest2.type = new messages_1.ProtocolRequestType(SemanticTokensRangeRequest2.method);
SemanticTokensRangeRequest2.registrationMethod = SemanticTokensRegistrationType.method;
})(SemanticTokensRangeRequest || (exports2.SemanticTokensRangeRequest = SemanticTokensRangeRequest = {}));
var SemanticTokensRefreshRequest;
(function(SemanticTokensRefreshRequest2) {
SemanticTokensRefreshRequest2.method = `workspace/semanticTokens/refresh`;
SemanticTokensRefreshRequest2.messageDirection = messages_1.MessageDirection.serverToClient;
SemanticTokensRefreshRequest2.type = new messages_1.ProtocolRequestType0(SemanticTokensRefreshRequest2.method);
})(SemanticTokensRefreshRequest || (exports2.SemanticTokensRefreshRequest = SemanticTokensRefreshRequest = {}));
}
});
// ../../node_modules/.pnpm/vscode-languageserver-protocol@3.17.5/node_modules/vscode-languageserver-protocol/lib/common/protocol.showDocument.js
var require_protocol_showDocument = __commonJS({
"../../node_modules/.pnpm/vscode-languageserver-protocol@3.17.5/node_modules/vscode-languageserver-protocol/lib/common/protocol.showDocument.js"(exports2) {
"use strict";
Object.defineProperty(exports2, "__esModule", { value: true });
exports2.ShowDocumentRequest = void 0;
var messages_1 = require_messages2();
var ShowDocumentRequest;
(function(ShowDocumentRequest2) {
ShowDocumentRequest2.method = "window/showDocument";
ShowDocumentRequest2.messageDirection = messages_1.MessageDirection.serverToClient;
ShowDocumentRequest2.type = new messages_1.ProtocolRequestType(ShowDocumentRequest2.method);
})(ShowDocumentRequest || (exports2.ShowDocumentRequest = ShowDocumentRequest = {}));
}
});
// ../../node_modules/.pnpm/vscode-languageserver-protocol@3.17.5/node_modules/vscode-languageserver-protocol/lib/common/protocol.linkedEditingRange.js
var require_protocol_linkedEditingRange = __commonJS({
"../../node_modules/.pnpm/vscode-languageserver-protocol@3.17.5/node_modules/vscode-languageserver-protocol/lib/common/protocol.linkedEditingRange.js"(exports2) {
"use strict";
Object.defineProperty(exports2, "__esModule", { value: true });
exports2.LinkedEditingRangeRequest = void 0;
var messages_1 = require_messages2();
var LinkedEditingRangeRequest;
(function(LinkedEditingRangeRequest2) {
LinkedEditingRangeRequest2.method = "textDocument/linkedEditingRange";
LinkedEditingRangeRequest2.messageDirection = messages_1.MessageDirection.clientToServer;
LinkedEditingRangeRequest2.type = new messages_1.ProtocolRequestType(LinkedEditingRangeRequest2.method);
})(LinkedEditingRangeRequest || (exports2.LinkedEditingRangeRequest = LinkedEditingRangeRequest = {}));
}
});
// ../../node_modules/.pnpm/vscode-languageserver-protocol@3.17.5/node_modules/vscode-languageserver-protocol/lib/common/protocol.fileOperations.js
var require_protocol_fileOperations = __commonJS({
"../../node_modules/.pnpm/vscode-languageserver-protocol@3.17.5/node_modules/vscode-languageserver-protocol/lib/common/protocol.fileOperations.js"(exports2) {
"use strict";
Object.defineProperty(exports2, "__esModule", { value: true });
exports2.WillDeleteFilesRequest = exports2.DidDeleteFilesNotification = exports2.DidRenameFilesNotification = exports2.WillRenameFilesRequest = exports2.DidCreateFilesNotification = exports2.WillCreateFilesRequest = exports2.FileOperationPatternKind = void 0;
var messages_1 = require_messages2();
var FileOperationPatternKind;
(function(FileOperationPatternKind2) {
FileOperationPatternKind2.file = "file";
FileOperationPatternKind2.folder = "folder";
})(FileOperationPatternKind || (exports2.FileOperationPatternKind = FileOperationPatternKind = {}));
var WillCreateFilesRequest;
(function(WillCreateFilesRequest2) {
WillCreateFilesRequest2.method = "workspace/willCreateFiles";
WillCreateFilesRequest2.messageDirection = messages_1.MessageDirection.clientToServer;
WillCreateFilesRequest2.type = new messages_1.ProtocolRequestType(WillCreateFilesRequest2.method);
})(WillCreateFilesRequest || (exports2.WillCreateFilesRequest = WillCreateFilesRequest = {}));
var DidCreateFilesNotification;
(function(DidCreateFilesNotification2) {
DidCreateFilesNotification2.method = "workspace/didCreateFiles";
DidCreateFilesNotification2.messageDirection = messages_1.MessageDirection.clientToServer;
DidCreateFilesNotification2.type = new messages_1.ProtocolNotificationType(DidCreateFilesNotification2.method);
})(DidCreateFilesNotification || (exports2.DidCreateFilesNotification = DidCreateFilesNotification = {}));
var WillRenameFilesRequest;
(function(WillRenameFilesRequest2) {
WillRenameFilesRequest2.method = "workspace/willRenameFiles";
WillRenameFilesRequest2.messageDirection = messages_1.MessageDirection.clientToServer;
WillRenameFilesRequest2.type = new messages_1.ProtocolRequestType(WillRenameFilesRequest2.method);
})(WillRenameFilesRequest || (exports2.WillRenameFilesRequest = WillRenameFilesRequest = {}));
var DidRenameFilesNotification;
(function(DidRenameFilesNotification2) {
DidRenameFilesNotification2.method = "workspace/didRenameFiles";
DidRenameFilesNotification2.messageDirection = messages_1.MessageDirection.clientToServer;
DidRenameFilesNotification2.type = new messages_1.ProtocolNotificationType(DidRenameFilesNotification2.method);
})(DidRenameFilesNotification || (exports2.DidRenameFilesNotification = DidRenameFilesNotification = {}));
var DidDeleteFilesNotification;
(function(DidDeleteFilesNotification2) {
DidDeleteFilesNotification2.method = "workspace/didDeleteFiles";
DidDeleteFilesNotification2.messageDirection = messages_1.MessageDirection.clientToServer;
DidDeleteFilesNotification2.type = new messages_1.ProtocolNotificationType(DidDeleteFilesNotification2.method);
})(DidDeleteFilesNotification || (exports2.DidDeleteFilesNotification = DidDeleteFilesNotification = {}));
var WillDeleteFilesRequest;
(function(WillDeleteFilesRequest2) {
WillDeleteFilesRequest2.method = "workspace/willDeleteFiles";
WillDeleteFilesRequest2.messageDirection = messages_1.MessageDirection.clientToServer;
WillDeleteFilesRequest2.type = new messages_1.ProtocolRequestType(WillDeleteFilesRequest2.method);
})(WillDeleteFilesRequest || (exports2.WillDeleteFilesRequest = WillDeleteFilesRequest = {}));
}
});
// ../../node_modules/.pnpm/vscode-languageserver-protocol@3.17.5/node_modules/vscode-languageserver-protocol/lib/common/protocol.moniker.js
var require_protocol_moniker = __commonJS({
"../../node_modules/.pnpm/vscode-languageserver-protocol@3.17.5/node_modules/vscode-languageserver-protocol/lib/common/protocol.moniker.js"(exports2) {
"use strict";
Object.defineProperty(exports2, "__esModule", { value: true });
exports2.MonikerRequest = exports2.MonikerKind = exports2.UniquenessLevel = void 0;
var messages_1 = require_messages2();
var UniquenessLevel;
(function(UniquenessLevel2) {
UniquenessLevel2.document = "document";
UniquenessLevel2.project = "project";
UniquenessLevel2.group = "group";
UniquenessLevel2.scheme = "scheme";
UniquenessLevel2.global = "global";
})(UniquenessLevel || (exports2.UniquenessLevel = UniquenessLevel = {}));
var MonikerKind;
(function(MonikerKind2) {
MonikerKind2.$import = "import";
MonikerKind2.$export = "export";
MonikerKind2.local = "local";
})(MonikerKind || (exports2.MonikerKind = MonikerKind = {}));
var MonikerRequest;
(function(MonikerRequest2) {
MonikerRequest2.method = "textDocument/moniker";
MonikerRequest2.messageDirection = messages_1.MessageDirection.clientToServer;
MonikerRequest2.type = new messages_1.ProtocolRequestType(MonikerRequest2.method);
})(MonikerRequest || (exports2.MonikerRequest = MonikerRequest = {}));
}
});
// ../../node_modules/.pnpm/vscode-languageserver-protocol@3.17.5/node_modules/vscode-languageserver-protocol/lib/common/protocol.typeHierarchy.js
var require_protocol_typeHierarchy = __commonJS({
"../../node_modules/.pnpm/vscode-languageserver-protocol@3.17.5/node_modules/vscode-languageserver-protocol/lib/common/protocol.typeHierarchy.js"(exports2) {
"use strict";
Object.defineProperty(exports2, "__esModule", { value: true });
exports2.TypeHierarchySubtypesRequest = exports2.TypeHierarchySupertypesRequest = exports2.TypeHierarchyPrepareRequest = void 0;
var messages_1 = require_messages2();
var TypeHierarchyPrepareRequest;
(function(TypeHierarchyPrepareRequest2) {
TypeHierarchyPrepareRequest2.method = "textDocument/prepareTypeHierarchy";
TypeHierarchyPrepareRequest2.messageDirection = messages_1.MessageDirection.clientToServer;
TypeHierarchyPrepareRequest2.type = new messages_1.ProtocolRequestType(TypeHierarchyPrepareRequest2.method);
})(TypeHierarchyPrepareRequest || (exports2.TypeHierarchyPrepareRequest = TypeHierarchyPrepareRequest = {}));
var TypeHierarchySupertypesRequest;
(function(TypeHierarchySupertypesRequest2) {
TypeHierarchySupertypesRequest2.method = "typeHierarchy/supertypes";
TypeHierarchySupertypesRequest2.messageDirection = messages_1.MessageDirection.clientToServer;
TypeHierarchySupertypesRequest2.type = new messages_1.ProtocolRequestType(TypeHierarchySupertypesRequest2.method);
})(TypeHierarchySupertypesRequest || (exports2.TypeHierarchySupertypesRequest = TypeHierarchySupertypesRequest = {}));
var TypeHierarchySubtypesRequest;
(function(TypeHierarchySubtypesRequest2) {
TypeHierarchySubtypesRequest2.method = "typeHierarchy/subtypes";
TypeHierarchySubtypesRequest2.messageDirection = messages_1.MessageDirection.clientToServer;
TypeHierarchySubtypesRequest2.type = new messages_1.ProtocolRequestType(TypeHierarchySubtypesRequest2.method);
})(TypeHierarchySubtypesRequest || (exports2.TypeHierarchySubtypesRequest = TypeHierarchySubtypesRequest = {}));
}
});
// ../../node_modules/.pnpm/vscode-languageserver-protocol@3.17.5/node_modules/vscode-languageserver-protocol/lib/common/protocol.inlineValue.js
var require_protocol_inlineValue = __commonJS({
"../../node_modules/.pnpm/vscode-languageserver-protocol@3.17.5/node_modules/vscode-languageserver-protocol/lib/common/protocol.inlineValue.js"(exports2) {
"use strict";
Object.defineProperty(exports2, "__esModule", { value: true });
exports2.InlineValueRefreshRequest = exports2.InlineValueRequest = void 0;
var messages_1 = require_messages2();
var InlineValueRequest;
(function(InlineValueRequest2) {
InlineValueRequest2.method = "textDocument/inlineValue";
InlineValueRequest2.messageDirection = messages_1.MessageDirection.clientToServer;
InlineValueRequest2.type = new messages_1.ProtocolRequestType(InlineValueRequest2.method);
})(InlineValueRequest || (exports2.InlineValueRequest = InlineValueRequest = {}));
var InlineValueRefreshRequest;
(function(InlineValueRefreshRequest2) {
InlineValueRefreshRequest2.method = `workspace/inlineValue/refresh`;
InlineValueRefreshRequest2.messageDirection = messages_1.MessageDirection.serverToClient;
InlineValueRefreshRequest2.type = new messages_1.ProtocolRequestType0(InlineValueRefreshRequest2.method);
})(InlineValueRefreshRequest || (exports2.InlineValueRefreshRequest = InlineValueRefreshRequest = {}));
}
});
// ../../node_modules/.pnpm/vscode-languageserver-protocol@3.17.5/node_modules/vscode-languageserver-protocol/lib/common/protocol.inlayHint.js
var require_protocol_inlayHint = __commonJS({
"../../node_modules/.pnpm/vscode-languageserver-protocol@3.17.5/node_modules/vscode-languageserver-protocol/lib/common/protocol.inlayHint.js"(exports2) {
"use strict";
Object.defineProperty(exports2, "__esModule", { value: true });
exports2.InlayHintRefreshRequest = exports2.InlayHintResolveRequest = exports2.InlayHintRequest = void 0;
var messages_1 = require_messages2();
var InlayHintRequest;
(function(InlayHintRequest2) {
InlayHintRequest2.method = "textDocument/inlayHint";
InlayHintRequest2.messageDirection = messages_1.MessageDirection.clientToServer;
InlayHintRequest2.type = new messages_1.ProtocolRequestType(InlayHintRequest2.method);
})(InlayHintRequest || (exports2.InlayHintRequest = InlayHintRequest = {}));
var InlayHintResolveRequest;
(function(InlayHintResolveRequest2) {
InlayHintResolveRequest2.method = "inlayHint/resolve";
InlayHintResolveRequest2.messageDirection = messages_1.MessageDirection.clientToServer;
InlayHintResolveRequest2.type = new messages_1.ProtocolRequestType(InlayHintResolveRequest2.method);
})(InlayHintResolveRequest || (exports2.InlayHintResolveRequest = InlayHintResolveRequest = {}));
var InlayHintRefreshRequest;
(function(InlayHintRefreshRequest2) {
InlayHintRefreshRequest2.method = `workspace/inlayHint/refresh`;
InlayHintRefreshRequest2.messageDirection = messages_1.MessageDirection.serverToClient;
InlayHintRefreshRequest2.type = new messages_1.ProtocolRequestType0(InlayHintRefreshRequest2.method);
})(InlayHintRefreshRequest || (exports2.InlayHintRefreshRequest = InlayHintRefreshRequest = {}));
}
});
// ../../node_modules/.pnpm/vscode-languageserver-protocol@3.17.5/node_modules/vscode-languageserver-protocol/lib/common/protocol.diagnostic.js
var require_protocol_diagnostic = __commonJS({
"../../node_modules/.pnpm/vscode-languageserver-protocol@3.17.5/node_modules/vscode-languageserver-protocol/lib/common/protocol.diagnostic.js"(exports2) {
"use strict";
Object.defineProperty(exports2, "__esModule", { value: true });
exports2.DiagnosticRefreshRequest = exports2.WorkspaceDiagnosticRequest = exports2.DocumentDiagnosticRequest = exports2.DocumentDiagnosticReportKind = exports2.DiagnosticServerCancellationData = void 0;
var vscode_jsonrpc_1 = require_main();
var Is2 = require_is2();
var messages_1 = require_messages2();
var DiagnosticServerCancellationData;
(function(DiagnosticServerCancellationData2) {
function is(value) {
const candidate = value;
return candidate && Is2.boolean(candidate.retriggerRequest);
}
__name(is, "is");
DiagnosticServerCancellationData2.is = is;
})(DiagnosticServerCancellationData || (exports2.DiagnosticServerCancellationData = DiagnosticServerCancellationData = {}));
var DocumentDiagnosticReportKind;
(function(DocumentDiagnosticReportKind2) {
DocumentDiagnosticReportKind2.Full = "full";
DocumentDiagnosticReportKind2.Unchanged = "unchanged";
})(DocumentDiagnosticReportKind || (exports2.DocumentDiagnosticReportKind = DocumentDiagnosticReportKind = {}));
var DocumentDiagnosticRequest;
(function(DocumentDiagnosticRequest2) {
DocumentDiagnosticRequest2.method = "textDocument/diagnostic";
DocumentDiagnosticRequest2.messageDirection = messages_1.MessageDirection.clientToServer;
DocumentDiagnosticRequest2.type = new messages_1.ProtocolRequestType(DocumentDiagnosticRequest2.method);
DocumentDiagnosticRequest2.partialResult = new vscode_jsonrpc_1.ProgressType();
})(DocumentDiagnosticRequest || (exports2.DocumentDiagnosticRequest = DocumentDiagnosticRequest = {}));
var WorkspaceDiagnosticRequest;
(function(WorkspaceDiagnosticRequest2) {
WorkspaceDiagnosticRequest2.method = "workspace/diagnostic";
WorkspaceDiagnosticRequest2.messageDirection = messages_1.MessageDirection.clientToServer;
WorkspaceDiagnosticRequest2.type = new messages_1.ProtocolRequestType(WorkspaceDiagnosticRequest2.method);
WorkspaceDiagnosticRequest2.partialResult = new vscode_jsonrpc_1.ProgressType();
})(WorkspaceDiagnosticRequest || (exports2.WorkspaceDiagnosticRequest = WorkspaceDiagnosticRequest = {}));
var DiagnosticRefreshRequest;
(function(DiagnosticRefreshRequest2) {
DiagnosticRefreshRequest2.method = `workspace/diagnostic/refresh`;
DiagnosticRefreshRequest2.messageDirection = messages_1.MessageDirection.serverToClient;
DiagnosticRefreshRequest2.type = new messages_1.ProtocolRequestType0(DiagnosticRefreshRequest2.method);
})(DiagnosticRefreshRequest || (exports2.DiagnosticRefreshRequest = DiagnosticRefreshRequest = {}));
}
});
// ../../node_modules/.pnpm/vscode-languageserver-protocol@3.17.5/node_modules/vscode-languageserver-protocol/lib/common/protocol.notebook.js
var require_protocol_notebook = __commonJS({
"../../node_modules/.pnpm/vscode-languageserver-protocol@3.17.5/node_modules/vscode-languageserver-protocol/lib/common/protocol.notebook.js"(exports2) {
"use strict";
Object.defineProperty(exports2, "__esModule", { value: true });
exports2.DidCloseNotebookDocumentNotification = exports2.DidSaveNotebookDocumentNotification = exports2.DidChangeNotebookDocumentNotification = exports2.NotebookCellArrayChange = exports2.DidOpenNotebookDocumentNotification = exports2.NotebookDocumentSyncRegistrationType = exports2.NotebookDocument = exports2.NotebookCell = exports2.ExecutionSummary = exports2.NotebookCellKind = void 0;
var vscode_languageserver_types_1 = (init_main(), __toCommonJS(main_exports));
var Is2 = require_is2();
var messages_1 = require_messages2();
var NotebookCellKind;
(function(NotebookCellKind2) {
NotebookCellKind2.Markup = 1;
NotebookCellKind2.Code = 2;
function is(value) {
return value === 1 || value === 2;
}
__name(is, "is");
NotebookCellKind2.is = is;
})(NotebookCellKind || (exports2.NotebookCellKind = NotebookCellKind = {}));
var ExecutionSummary;
(function(ExecutionSummary2) {
function create(executionOrder, success) {
const result = { executionOrder };
if (success === true || success === false) {
result.success = success;
}
return result;
}
__name(create, "create");
ExecutionSummary2.create = create;
function is(value) {
const candidate = value;
return Is2.objectLiteral(candidate) && vscode_languageserver_types_1.uinteger.is(candidate.executionOrder) && (candidate.success === void 0 || Is2.boolean(candidate.success));
}
__name(is, "is");
ExecutionSummary2.is = is;
function equals(one, other) {
if (one === other) {
return true;
}
if (one === null || one === void 0 || other === null || other === void 0) {
return false;
}
return one.executionOrder === other.executionOrder && one.success === other.success;
}
__name(equals, "equals");
ExecutionSummary2.equals = equals;
})(ExecutionSummary || (exports2.ExecutionSummary = ExecutionSummary = {}));
var NotebookCell;
(function(NotebookCell2) {
function create(kind, document) {
return { kind, document };
}
__name(create, "create");
NotebookCell2.create = create;
function is(value) {
const candidate = value;
return Is2.objectLiteral(candidate) && NotebookCellKind.is(candidate.kind) && vscode_languageserver_types_1.DocumentUri.is(candidate.document) && (candidate.metadata === void 0 || Is2.objectLiteral(candidate.metadata));
}
__name(is, "is");
NotebookCell2.is = is;
function diff(one, two) {
const result = /* @__PURE__ */ new Set();
if (one.document !== two.document) {
result.add("document");
}
if (one.kind !== two.kind) {
result.add("kind");
}
if (one.executionSummary !== two.executionSummary) {
result.add("executionSummary");
}
if ((one.metadata !== void 0 || two.metadata !== void 0) && !equalsMetadata(one.metadata, two.metadata)) {
result.add("metadata");
}
if ((one.executionSummary !== void 0 || two.executionSummary !== void 0) && !ExecutionSummary.equals(one.executionSummary, two.executionSummary)) {
result.add("executionSummary");
}
return result;
}
__name(diff, "diff");
NotebookCell2.diff = diff;
function equalsMetadata(one, other) {
if (one === other) {
return true;
}
if (one === null || one === void 0 || other === null || other === void 0) {
return false;
}
if (typeof one !== typeof other) {
return false;
}
if (typeof one !== "object") {
return false;
}
const oneArray = Array.isArray(one);
const otherArray = Array.isArray(other);
if (oneArray !== otherArray) {
return false;
}
if (oneArray && otherArray) {
if (one.length !== other.length) {
return false;
}
for (let i = 0; i < one.length; i++) {
if (!equalsMetadata(one[i], other[i])) {
return false;
}
}
}
if (Is2.objectLiteral(one) && Is2.objectLiteral(other)) {
const oneKeys = Object.keys(one);
const otherKeys = Object.keys(other);
if (oneKeys.length !== otherKeys.length) {
return false;
}
oneKeys.sort();
otherKeys.sort();
if (!equalsMetadata(oneKeys, otherKeys)) {
return false;
}
for (let i = 0; i < oneKeys.length; i++) {
const prop = oneKeys[i];
if (!equalsMetadata(one[prop], other[prop])) {
return false;
}
}
}
return true;
}
__name(equalsMetadata, "equalsMetadata");
})(NotebookCell || (exports2.NotebookCell = NotebookCell = {}));
var NotebookDocument;
(function(NotebookDocument2) {
function create(uri, notebookType, version, cells) {
return { uri, notebookType, version, cells };
}
__name(create, "create");
NotebookDocument2.create = create;
function is(value) {
const candidate = value;
return Is2.objectLiteral(candidate) && Is2.string(candidate.uri) && vscode_languageserver_types_1.integer.is(candidate.version) && Is2.typedArray(candidate.cells, NotebookCell.is);
}
__name(is, "is");
NotebookDocument2.is = is;
})(NotebookDocument || (exports2.NotebookDocument = NotebookDocument = {}));
var NotebookDocumentSyncRegistrationType;
(function(NotebookDocumentSyncRegistrationType2) {
NotebookDocumentSyncRegistrationType2.method = "notebookDocument/sync";
NotebookDocumentSyncRegistrationType2.messageDirection = messages_1.MessageDirection.clientToServer;
NotebookDocumentSyncRegistrationType2.type = new messages_1.RegistrationType(NotebookDocumentSyncRegistrationType2.method);
})(NotebookDocumentSyncRegistrationType || (exports2.NotebookDocumentSyncRegistrationType = NotebookDocumentSyncRegistrationType = {}));
var DidOpenNotebookDocumentNotification;
(function(DidOpenNotebookDocumentNotification2) {
DidOpenNotebookDocumentNotification2.method = "notebookDocument/didOpen";
DidOpenNotebookDocumentNotification2.messageDirection = messages_1.MessageDirection.clientToServer;
DidOpenNotebookDocumentNotification2.type = new messages_1.ProtocolNotificationType(DidOpenNotebookDocumentNotification2.method);
DidOpenNotebookDocumentNotification2.registrationMethod = NotebookDocumentSyncRegistrationType.method;
})(DidOpenNotebookDocumentNotification || (exports2.DidOpenNotebookDocumentNotification = DidOpenNotebookDocumentNotification = {}));
var NotebookCellArrayChange;
(function(NotebookCellArrayChange2) {
function is(value) {
const candidate = value;
return Is2.objectLiteral(candidate) && vscode_languageserver_types_1.uinteger.is(candidate.start) && vscode_languageserver_types_1.uinteger.is(candidate.deleteCount) && (candidate.cells === void 0 || Is2.typedArray(candidate.cells, NotebookCell.is));
}
__name(is, "is");
NotebookCellArrayChange2.is = is;
function create(start, deleteCount, cells) {
const result = { start, deleteCount };
if (cells !== void 0) {
result.cells = cells;
}
return result;
}
__name(create, "create");
NotebookCellArrayChange2.create = create;
})(NotebookCellArrayChange || (exports2.NotebookCellArrayChange = NotebookCellArrayChange = {}));
var DidChangeNotebookDocumentNotification;
(function(DidChangeNotebookDocumentNotification2) {
DidChangeNotebookDocumentNotification2.method = "notebookDocument/didChange";
DidChangeNotebookDocumentNotification2.messageDirection = messages_1.MessageDirection.clientToServer;
DidChangeNotebookDocumentNotification2.type = new messages_1.ProtocolNotificationType(DidChangeNotebookDocumentNotification2.method);
DidChangeNotebookDocumentNotification2.registrationMethod = NotebookDocumentSyncRegistrationType.method;
})(DidChangeNotebookDocumentNotification || (exports2.DidChangeNotebookDocumentNotification = DidChangeNotebookDocumentNotification = {}));
var DidSaveNotebookDocumentNotification;
(function(DidSaveNotebookDocumentNotification2) {
DidSaveNotebookDocumentNotification2.method = "notebookDocument/didSave";
DidSaveNotebookDocumentNotification2.messageDirection = messages_1.MessageDirection.clientToServer;
DidSaveNotebookDocumentNotification2.type = new messages_1.ProtocolNotificationType(DidSaveNotebookDocumentNotification2.method);
DidSaveNotebookDocumentNotification2.registrationMethod = NotebookDocumentSyncRegistrationType.method;
})(DidSaveNotebookDocumentNotification || (exports2.DidSaveNotebookDocumentNotification = DidSaveNotebookDocumentNotification = {}));
var DidCloseNotebookDocumentNotification;
(function(DidCloseNotebookDocumentNotification2) {
DidCloseNotebookDocumentNotification2.method = "notebookDocument/didClose";
DidCloseNotebookDocumentNotification2.messageDirection = messages_1.MessageDirection.clientToServer;
DidCloseNotebookDocumentNotification2.type = new messages_1.ProtocolNotificationType(DidCloseNotebookDocumentNotification2.method);
DidCloseNotebookDocumentNotification2.registrationMethod = NotebookDocumentSyncRegistrationType.method;
})(DidCloseNotebookDocumentNotification || (exports2.DidCloseNotebookDocumentNotification = DidCloseNotebookDocumentNotification = {}));
}
});
// ../../node_modules/.pnpm/vscode-languageserver-protocol@3.17.5/node_modules/vscode-languageserver-protocol/lib/common/protocol.inlineCompletion.js
var require_protocol_inlineCompletion = __commonJS({
"../../node_modules/.pnpm/vscode-languageserver-protocol@3.17.5/node_modules/vscode-languageserver-protocol/lib/common/protocol.inlineCompletion.js"(exports2) {
"use strict";
Object.defineProperty(exports2, "__esModule", { value: true });
exports2.InlineCompletionRequest = void 0;
var messages_1 = require_messages2();
var InlineCompletionRequest;
(function(InlineCompletionRequest2) {
InlineCompletionRequest2.method = "textDocument/inlineCompletion";
InlineCompletionRequest2.messageDirection = messages_1.MessageDirection.clientToServer;
InlineCompletionRequest2.type = new messages_1.ProtocolRequestType(InlineCompletionRequest2.method);
})(InlineCompletionRequest || (exports2.InlineCompletionRequest = InlineCompletionRequest = {}));
}
});
// ../../node_modules/.pnpm/vscode-languageserver-protocol@3.17.5/node_modules/vscode-languageserver-protocol/lib/common/protocol.js
var require_protocol = __commonJS({
"../../node_modules/.pnpm/vscode-languageserver-protocol@3.17.5/node_modules/vscode-languageserver-protocol/lib/common/protocol.js"(exports2) {
"use strict";
Object.defineProperty(exports2, "__esModule", { value: true });
exports2.WorkspaceSymbolRequest = exports2.CodeActionResolveRequest = exports2.CodeActionRequest = exports2.DocumentSymbolRequest = exports2.DocumentHighlightRequest = exports2.ReferencesRequest = exports2.DefinitionRequest = exports2.SignatureHelpRequest = exports2.SignatureHelpTriggerKind = exports2.HoverRequest = exports2.CompletionResolveRequest = exports2.CompletionRequest = exports2.CompletionTriggerKind = exports2.PublishDiagnosticsNotification = exports2.WatchKind = exports2.RelativePattern = exports2.FileChangeType = exports2.DidChangeWatchedFilesNotification = exports2.WillSaveTextDocumentWaitUntilRequest = exports2.WillSaveTextDocumentNotification = exports2.TextDocumentSaveReason = exports2.DidSaveTextDocumentNotification = exports2.DidCloseTextDocumentNotification = exports2.DidChangeTextDocumentNotification = exports2.TextDocumentContentChangeEvent = exports2.DidOpenTextDocumentNotification = exports2.TextDocumentSyncKind = exports2.TelemetryEventNotification = exports2.LogMessageNotification = exports2.ShowMessageRequest = exports2.ShowMessageNotification = exports2.MessageType = exports2.DidChangeConfigurationNotification = exports2.ExitNotification = exports2.ShutdownRequest = exports2.InitializedNotification = exports2.InitializeErrorCodes = exports2.InitializeRequest = exports2.WorkDoneProgressOptions = exports2.TextDocumentRegistrationOptions = exports2.StaticRegistrationOptions = exports2.PositionEncodingKind = exports2.FailureHandlingKind = exports2.ResourceOperationKind = exports2.UnregistrationRequest = exports2.RegistrationRequest = exports2.DocumentSelector = exports2.NotebookCellTextDocumentFilter = exports2.NotebookDocumentFilter = exports2.TextDocumentFilter = void 0;
exports2.MonikerRequest = exports2.MonikerKind = exports2.UniquenessLevel = exports2.WillDeleteFilesRequest = exports2.DidDeleteFilesNotification = exports2.WillRenameFilesRequest = exports2.DidRenameFilesNotification = exports2.WillCreateFilesRequest = exports2.DidCreateFilesNotification = exports2.FileOperationPatternKind = exports2.LinkedEditingRangeRequest = exports2.ShowDocumentRequest = exports2.SemanticTokensRegistrationType = exports2.SemanticTokensRefreshRequest = exports2.SemanticTokensRangeRequest = exports2.SemanticTokensDeltaRequest = exports2.SemanticTokensRequest = exports2.TokenFormat = exports2.CallHierarchyPrepareRequest = exports2.CallHierarchyOutgoingCallsRequest = exports2.CallHierarchyIncomingCallsRequest = exports2.WorkDoneProgressCancelNotification = exports2.WorkDoneProgressCreateRequest = exports2.WorkDoneProgress = exports2.SelectionRangeRequest = exports2.DeclarationRequest = exports2.FoldingRangeRefreshRequest = exports2.FoldingRangeRequest = exports2.ColorPresentationRequest = exports2.DocumentColorRequest = exports2.ConfigurationRequest = exports2.DidChangeWorkspaceFoldersNotification = exports2.WorkspaceFoldersRequest = exports2.TypeDefinitionRequest = exports2.ImplementationRequest = exports2.ApplyWorkspaceEditRequest = exports2.ExecuteCommandRequest = exports2.PrepareRenameRequest = exports2.RenameRequest = exports2.PrepareSupportDefaultBehavior = exports2.DocumentOnTypeFormattingRequest = exports2.DocumentRangesFormattingRequest = exports2.DocumentRangeFormattingRequest = exports2.DocumentFormattingRequest = exports2.DocumentLinkResolveRequest = exports2.DocumentLinkRequest = exports2.CodeLensRefreshRequest = exports2.CodeLensResolveRequest = exports2.CodeLensRequest = exports2.WorkspaceSymbolResolveRequest = void 0;
exports2.InlineCompletionRequest = exports2.DidCloseNotebookDocumentNotification = exports2.DidSaveNotebookDocumentNotification = exports2.DidChangeNotebookDocumentNotification = exports2.NotebookCellArrayChange = exports2.DidOpenNotebookDocumentNotification = exports2.NotebookDocumentSyncRegistrationType = exports2.NotebookDocument = exports2.NotebookCell = exports2.ExecutionSummary = exports2.NotebookCellKind = exports2.DiagnosticRefreshRequest = exports2.WorkspaceDiagnosticRequest = exports2.DocumentDiagnosticRequest = exports2.DocumentDiagnosticReportKind = exports2.DiagnosticServerCancellationData = exports2.InlayHintRefreshRequest = exports2.InlayHintResolveRequest = exports2.InlayHintRequest = exports2.InlineValueRefreshRequest = exports2.InlineValueRequest = exports2.TypeHierarchySupertypesRequest = exports2.TypeHierarchySubtypesRequest = exports2.TypeHierarchyPrepareRequest = void 0;
var messages_1 = require_messages2();
var vscode_languageserver_types_1 = (init_main(), __toCommonJS(main_exports));
var Is2 = require_is2();
var protocol_implementation_1 = require_protocol_implementation();
Object.defineProperty(exports2, "ImplementationRequest", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return protocol_implementation_1.ImplementationRequest;
}, "get") });
var protocol_typeDefinition_1 = require_protocol_typeDefinition();
Object.defineProperty(exports2, "TypeDefinitionRequest", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return protocol_typeDefinition_1.TypeDefinitionRequest;
}, "get") });
var protocol_workspaceFolder_1 = require_protocol_workspaceFolder();
Object.defineProperty(exports2, "WorkspaceFoldersRequest", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return protocol_workspaceFolder_1.WorkspaceFoldersRequest;
}, "get") });
Object.defineProperty(exports2, "DidChangeWorkspaceFoldersNotification", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return protocol_workspaceFolder_1.DidChangeWorkspaceFoldersNotification;
}, "get") });
var protocol_configuration_1 = require_protocol_configuration();
Object.defineProperty(exports2, "ConfigurationRequest", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return protocol_configuration_1.ConfigurationRequest;
}, "get") });
var protocol_colorProvider_1 = require_protocol_colorProvider();
Object.defineProperty(exports2, "DocumentColorRequest", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return protocol_colorProvider_1.DocumentColorRequest;
}, "get") });
Object.defineProperty(exports2, "ColorPresentationRequest", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return protocol_colorProvider_1.ColorPresentationRequest;
}, "get") });
var protocol_foldingRange_1 = require_protocol_foldingRange();
Object.defineProperty(exports2, "FoldingRangeRequest", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return protocol_foldingRange_1.FoldingRangeRequest;
}, "get") });
Object.defineProperty(exports2, "FoldingRangeRefreshRequest", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return protocol_foldingRange_1.FoldingRangeRefreshRequest;
}, "get") });
var protocol_declaration_1 = require_protocol_declaration();
Object.defineProperty(exports2, "DeclarationRequest", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return protocol_declaration_1.DeclarationRequest;
}, "get") });
var protocol_selectionRange_1 = require_protocol_selectionRange();
Object.defineProperty(exports2, "SelectionRangeRequest", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return protocol_selectionRange_1.SelectionRangeRequest;
}, "get") });
var protocol_progress_1 = require_protocol_progress();
Object.defineProperty(exports2, "WorkDoneProgress", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return protocol_progress_1.WorkDoneProgress;
}, "get") });
Object.defineProperty(exports2, "WorkDoneProgressCreateRequest", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return protocol_progress_1.WorkDoneProgressCreateRequest;
}, "get") });
Object.defineProperty(exports2, "WorkDoneProgressCancelNotification", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return protocol_progress_1.WorkDoneProgressCancelNotification;
}, "get") });
var protocol_callHierarchy_1 = require_protocol_callHierarchy();
Object.defineProperty(exports2, "CallHierarchyIncomingCallsRequest", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return protocol_callHierarchy_1.CallHierarchyIncomingCallsRequest;
}, "get") });
Object.defineProperty(exports2, "CallHierarchyOutgoingCallsRequest", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return protocol_callHierarchy_1.CallHierarchyOutgoingCallsRequest;
}, "get") });
Object.defineProperty(exports2, "CallHierarchyPrepareRequest", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return protocol_callHierarchy_1.CallHierarchyPrepareRequest;
}, "get") });
var protocol_semanticTokens_1 = require_protocol_semanticTokens();
Object.defineProperty(exports2, "TokenFormat", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return protocol_semanticTokens_1.TokenFormat;
}, "get") });
Object.defineProperty(exports2, "SemanticTokensRequest", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return protocol_semanticTokens_1.SemanticTokensRequest;
}, "get") });
Object.defineProperty(exports2, "SemanticTokensDeltaRequest", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return protocol_semanticTokens_1.SemanticTokensDeltaRequest;
}, "get") });
Object.defineProperty(exports2, "SemanticTokensRangeRequest", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return protocol_semanticTokens_1.SemanticTokensRangeRequest;
}, "get") });
Object.defineProperty(exports2, "SemanticTokensRefreshRequest", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return protocol_semanticTokens_1.SemanticTokensRefreshRequest;
}, "get") });
Object.defineProperty(exports2, "SemanticTokensRegistrationType", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return protocol_semanticTokens_1.SemanticTokensRegistrationType;
}, "get") });
var protocol_showDocument_1 = require_protocol_showDocument();
Object.defineProperty(exports2, "ShowDocumentRequest", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return protocol_showDocument_1.ShowDocumentRequest;
}, "get") });
var protocol_linkedEditingRange_1 = require_protocol_linkedEditingRange();
Object.defineProperty(exports2, "LinkedEditingRangeRequest", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return protocol_linkedEditingRange_1.LinkedEditingRangeRequest;
}, "get") });
var protocol_fileOperations_1 = require_protocol_fileOperations();
Object.defineProperty(exports2, "FileOperationPatternKind", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return protocol_fileOperations_1.FileOperationPatternKind;
}, "get") });
Object.defineProperty(exports2, "DidCreateFilesNotification", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return protocol_fileOperations_1.DidCreateFilesNotification;
}, "get") });
Object.defineProperty(exports2, "WillCreateFilesRequest", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return protocol_fileOperations_1.WillCreateFilesRequest;
}, "get") });
Object.defineProperty(exports2, "DidRenameFilesNotification", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return protocol_fileOperations_1.DidRenameFilesNotification;
}, "get") });
Object.defineProperty(exports2, "WillRenameFilesRequest", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return protocol_fileOperations_1.WillRenameFilesRequest;
}, "get") });
Object.defineProperty(exports2, "DidDeleteFilesNotification", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return protocol_fileOperations_1.DidDeleteFilesNotification;
}, "get") });
Object.defineProperty(exports2, "WillDeleteFilesRequest", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return protocol_fileOperations_1.WillDeleteFilesRequest;
}, "get") });
var protocol_moniker_1 = require_protocol_moniker();
Object.defineProperty(exports2, "UniquenessLevel", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return protocol_moniker_1.UniquenessLevel;
}, "get") });
Object.defineProperty(exports2, "MonikerKind", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return protocol_moniker_1.MonikerKind;
}, "get") });
Object.defineProperty(exports2, "MonikerRequest", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return protocol_moniker_1.MonikerRequest;
}, "get") });
var protocol_typeHierarchy_1 = require_protocol_typeHierarchy();
Object.defineProperty(exports2, "TypeHierarchyPrepareRequest", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return protocol_typeHierarchy_1.TypeHierarchyPrepareRequest;
}, "get") });
Object.defineProperty(exports2, "TypeHierarchySubtypesRequest", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return protocol_typeHierarchy_1.TypeHierarchySubtypesRequest;
}, "get") });
Object.defineProperty(exports2, "TypeHierarchySupertypesRequest", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return protocol_typeHierarchy_1.TypeHierarchySupertypesRequest;
}, "get") });
var protocol_inlineValue_1 = require_protocol_inlineValue();
Object.defineProperty(exports2, "InlineValueRequest", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return protocol_inlineValue_1.InlineValueRequest;
}, "get") });
Object.defineProperty(exports2, "InlineValueRefreshRequest", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return protocol_inlineValue_1.InlineValueRefreshRequest;
}, "get") });
var protocol_inlayHint_1 = require_protocol_inlayHint();
Object.defineProperty(exports2, "InlayHintRequest", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return protocol_inlayHint_1.InlayHintRequest;
}, "get") });
Object.defineProperty(exports2, "InlayHintResolveRequest", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return protocol_inlayHint_1.InlayHintResolveRequest;
}, "get") });
Object.defineProperty(exports2, "InlayHintRefreshRequest", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return protocol_inlayHint_1.InlayHintRefreshRequest;
}, "get") });
var protocol_diagnostic_1 = require_protocol_diagnostic();
Object.defineProperty(exports2, "DiagnosticServerCancellationData", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return protocol_diagnostic_1.DiagnosticServerCancellationData;
}, "get") });
Object.defineProperty(exports2, "DocumentDiagnosticReportKind", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return protocol_diagnostic_1.DocumentDiagnosticReportKind;
}, "get") });
Object.defineProperty(exports2, "DocumentDiagnosticRequest", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return protocol_diagnostic_1.DocumentDiagnosticRequest;
}, "get") });
Object.defineProperty(exports2, "WorkspaceDiagnosticRequest", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return protocol_diagnostic_1.WorkspaceDiagnosticRequest;
}, "get") });
Object.defineProperty(exports2, "DiagnosticRefreshRequest", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return protocol_diagnostic_1.DiagnosticRefreshRequest;
}, "get") });
var protocol_notebook_1 = require_protocol_notebook();
Object.defineProperty(exports2, "NotebookCellKind", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return protocol_notebook_1.NotebookCellKind;
}, "get") });
Object.defineProperty(exports2, "ExecutionSummary", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return protocol_notebook_1.ExecutionSummary;
}, "get") });
Object.defineProperty(exports2, "NotebookCell", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return protocol_notebook_1.NotebookCell;
}, "get") });
Object.defineProperty(exports2, "NotebookDocument", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return protocol_notebook_1.NotebookDocument;
}, "get") });
Object.defineProperty(exports2, "NotebookDocumentSyncRegistrationType", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return protocol_notebook_1.NotebookDocumentSyncRegistrationType;
}, "get") });
Object.defineProperty(exports2, "DidOpenNotebookDocumentNotification", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return protocol_notebook_1.DidOpenNotebookDocumentNotification;
}, "get") });
Object.defineProperty(exports2, "NotebookCellArrayChange", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return protocol_notebook_1.NotebookCellArrayChange;
}, "get") });
Object.defineProperty(exports2, "DidChangeNotebookDocumentNotification", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return protocol_notebook_1.DidChangeNotebookDocumentNotification;
}, "get") });
Object.defineProperty(exports2, "DidSaveNotebookDocumentNotification", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return protocol_notebook_1.DidSaveNotebookDocumentNotification;
}, "get") });
Object.defineProperty(exports2, "DidCloseNotebookDocumentNotification", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return protocol_notebook_1.DidCloseNotebookDocumentNotification;
}, "get") });
var protocol_inlineCompletion_1 = require_protocol_inlineCompletion();
Object.defineProperty(exports2, "InlineCompletionRequest", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return protocol_inlineCompletion_1.InlineCompletionRequest;
}, "get") });
var TextDocumentFilter;
(function(TextDocumentFilter2) {
function is(value) {
const candidate = value;
return Is2.string(candidate) || (Is2.string(candidate.language) || Is2.string(candidate.scheme) || Is2.string(candidate.pattern));
}
__name(is, "is");
TextDocumentFilter2.is = is;
})(TextDocumentFilter || (exports2.TextDocumentFilter = TextDocumentFilter = {}));
var NotebookDocumentFilter;
(function(NotebookDocumentFilter2) {
function is(value) {
const candidate = value;
return Is2.objectLiteral(candidate) && (Is2.string(candidate.notebookType) || Is2.string(candidate.scheme) || Is2.string(candidate.pattern));
}
__name(is, "is");
NotebookDocumentFilter2.is = is;
})(NotebookDocumentFilter || (exports2.NotebookDocumentFilter = NotebookDocumentFilter = {}));
var NotebookCellTextDocumentFilter;
(function(NotebookCellTextDocumentFilter2) {
function is(value) {
const candidate = value;
return Is2.objectLiteral(candidate) && (Is2.string(candidate.notebook) || NotebookDocumentFilter.is(candidate.notebook)) && (candidate.language === void 0 || Is2.string(candidate.language));
}
__name(is, "is");
NotebookCellTextDocumentFilter2.is = is;
})(NotebookCellTextDocumentFilter || (exports2.NotebookCellTextDocumentFilter = NotebookCellTextDocumentFilter = {}));
var DocumentSelector;
(function(DocumentSelector2) {
function is(value) {
if (!Array.isArray(value)) {
return false;
}
for (let elem of value) {
if (!Is2.string(elem) && !TextDocumentFilter.is(elem) && !NotebookCellTextDocumentFilter.is(elem)) {
return false;
}
}
return true;
}
__name(is, "is");
DocumentSelector2.is = is;
})(DocumentSelector || (exports2.DocumentSelector = DocumentSelector = {}));
var RegistrationRequest;
(function(RegistrationRequest2) {
RegistrationRequest2.method = "client/registerCapability";
RegistrationRequest2.messageDirection = messages_1.MessageDirection.serverToClient;
RegistrationRequest2.type = new messages_1.ProtocolRequestType(RegistrationRequest2.method);
})(RegistrationRequest || (exports2.RegistrationRequest = RegistrationRequest = {}));
var UnregistrationRequest;
(function(UnregistrationRequest2) {
UnregistrationRequest2.method = "client/unregisterCapability";
UnregistrationRequest2.messageDirection = messages_1.MessageDirection.serverToClient;
UnregistrationRequest2.type = new messages_1.ProtocolRequestType(UnregistrationRequest2.method);
})(UnregistrationRequest || (exports2.UnregistrationRequest = UnregistrationRequest = {}));
var ResourceOperationKind;
(function(ResourceOperationKind2) {
ResourceOperationKind2.Create = "create";
ResourceOperationKind2.Rename = "rename";
ResourceOperationKind2.Delete = "delete";
})(ResourceOperationKind || (exports2.ResourceOperationKind = ResourceOperationKind = {}));
var FailureHandlingKind;
(function(FailureHandlingKind2) {
FailureHandlingKind2.Abort = "abort";
FailureHandlingKind2.Transactional = "transactional";
FailureHandlingKind2.TextOnlyTransactional = "textOnlyTransactional";
FailureHandlingKind2.Undo = "undo";
})(FailureHandlingKind || (exports2.FailureHandlingKind = FailureHandlingKind = {}));
var PositionEncodingKind;
(function(PositionEncodingKind2) {
PositionEncodingKind2.UTF8 = "utf-8";
PositionEncodingKind2.UTF16 = "utf-16";
PositionEncodingKind2.UTF32 = "utf-32";
})(PositionEncodingKind || (exports2.PositionEncodingKind = PositionEncodingKind = {}));
var StaticRegistrationOptions;
(function(StaticRegistrationOptions2) {
function hasId(value) {
const candidate = value;
return candidate && Is2.string(candidate.id) && candidate.id.length > 0;
}
__name(hasId, "hasId");
StaticRegistrationOptions2.hasId = hasId;
})(StaticRegistrationOptions || (exports2.StaticRegistrationOptions = StaticRegistrationOptions = {}));
var TextDocumentRegistrationOptions;
(function(TextDocumentRegistrationOptions2) {
function is(value) {
const candidate = value;
return candidate && (candidate.documentSelector === null || DocumentSelector.is(candidate.documentSelector));
}
__name(is, "is");
TextDocumentRegistrationOptions2.is = is;
})(TextDocumentRegistrationOptions || (exports2.TextDocumentRegistrationOptions = TextDocumentRegistrationOptions = {}));
var WorkDoneProgressOptions;
(function(WorkDoneProgressOptions2) {
function is(value) {
const candidate = value;
return Is2.objectLiteral(candidate) && (candidate.workDoneProgress === void 0 || Is2.boolean(candidate.workDoneProgress));
}
__name(is, "is");
WorkDoneProgressOptions2.is = is;
function hasWorkDoneProgress(value) {
const candidate = value;
return candidate && Is2.boolean(candidate.workDoneProgress);
}
__name(hasWorkDoneProgress, "hasWorkDoneProgress");
WorkDoneProgressOptions2.hasWorkDoneProgress = hasWorkDoneProgress;
})(WorkDoneProgressOptions || (exports2.WorkDoneProgressOptions = WorkDoneProgressOptions = {}));
var InitializeRequest;
(function(InitializeRequest2) {
InitializeRequest2.method = "initialize";
InitializeRequest2.messageDirection = messages_1.MessageDirection.clientToServer;
InitializeRequest2.type = new messages_1.ProtocolRequestType(InitializeRequest2.method);
})(InitializeRequest || (exports2.InitializeRequest = InitializeRequest = {}));
var InitializeErrorCodes;
(function(InitializeErrorCodes2) {
InitializeErrorCodes2.unknownProtocolVersion = 1;
})(InitializeErrorCodes || (exports2.InitializeErrorCodes = InitializeErrorCodes = {}));
var InitializedNotification;
(function(InitializedNotification2) {
InitializedNotification2.method = "initialized";
InitializedNotification2.messageDirection = messages_1.MessageDirection.clientToServer;
InitializedNotification2.type = new messages_1.ProtocolNotificationType(InitializedNotification2.method);
})(InitializedNotification || (exports2.InitializedNotification = InitializedNotification = {}));
var ShutdownRequest;
(function(ShutdownRequest2) {
ShutdownRequest2.method = "shutdown";
ShutdownRequest2.messageDirection = messages_1.MessageDirection.clientToServer;
ShutdownRequest2.type = new messages_1.ProtocolRequestType0(ShutdownRequest2.method);
})(ShutdownRequest || (exports2.ShutdownRequest = ShutdownRequest = {}));
var ExitNotification;
(function(ExitNotification2) {
ExitNotification2.method = "exit";
ExitNotification2.messageDirection = messages_1.MessageDirection.clientToServer;
ExitNotification2.type = new messages_1.ProtocolNotificationType0(ExitNotification2.method);
})(ExitNotification || (exports2.ExitNotification = ExitNotification = {}));
var DidChangeConfigurationNotification;
(function(DidChangeConfigurationNotification2) {
DidChangeConfigurationNotification2.method = "workspace/didChangeConfiguration";
DidChangeConfigurationNotification2.messageDirection = messages_1.MessageDirection.clientToServer;
DidChangeConfigurationNotification2.type = new messages_1.ProtocolNotificationType(DidChangeConfigurationNotification2.method);
})(DidChangeConfigurationNotification || (exports2.DidChangeConfigurationNotification = DidChangeConfigurationNotification = {}));
var MessageType;
(function(MessageType2) {
MessageType2.Error = 1;
MessageType2.Warning = 2;
MessageType2.Info = 3;
MessageType2.Log = 4;
MessageType2.Debug = 5;
})(MessageType || (exports2.MessageType = MessageType = {}));
var ShowMessageNotification;
(function(ShowMessageNotification2) {
ShowMessageNotification2.method = "window/showMessage";
ShowMessageNotification2.messageDirection = messages_1.MessageDirection.serverToClient;
ShowMessageNotification2.type = new messages_1.ProtocolNotificationType(ShowMessageNotification2.method);
})(ShowMessageNotification || (exports2.ShowMessageNotification = ShowMessageNotification = {}));
var ShowMessageRequest;
(function(ShowMessageRequest2) {
ShowMessageRequest2.method = "window/showMessageRequest";
ShowMessageRequest2.messageDirection = messages_1.MessageDirection.serverToClient;
ShowMessageRequest2.type = new messages_1.ProtocolRequestType(ShowMessageRequest2.method);
})(ShowMessageRequest || (exports2.ShowMessageRequest = ShowMessageRequest = {}));
var LogMessageNotification;
(function(LogMessageNotification2) {
LogMessageNotification2.method = "window/logMessage";
LogMessageNotification2.messageDirection = messages_1.MessageDirection.serverToClient;
LogMessageNotification2.type = new messages_1.ProtocolNotificationType(LogMessageNotification2.method);
})(LogMessageNotification || (exports2.LogMessageNotification = LogMessageNotification = {}));
var TelemetryEventNotification;
(function(TelemetryEventNotification2) {
TelemetryEventNotification2.method = "telemetry/event";
TelemetryEventNotification2.messageDirection = messages_1.MessageDirection.serverToClient;
TelemetryEventNotification2.type = new messages_1.ProtocolNotificationType(TelemetryEventNotification2.method);
})(TelemetryEventNotification || (exports2.TelemetryEventNotification = TelemetryEventNotification = {}));
var TextDocumentSyncKind;
(function(TextDocumentSyncKind2) {
TextDocumentSyncKind2.None = 0;
TextDocumentSyncKind2.Full = 1;
TextDocumentSyncKind2.Incremental = 2;
})(TextDocumentSyncKind || (exports2.TextDocumentSyncKind = TextDocumentSyncKind = {}));
var DidOpenTextDocumentNotification;
(function(DidOpenTextDocumentNotification2) {
DidOpenTextDocumentNotification2.method = "textDocument/didOpen";
DidOpenTextDocumentNotification2.messageDirection = messages_1.MessageDirection.clientToServer;
DidOpenTextDocumentNotification2.type = new messages_1.ProtocolNotificationType(DidOpenTextDocumentNotification2.method);
})(DidOpenTextDocumentNotification || (exports2.DidOpenTextDocumentNotification = DidOpenTextDocumentNotification = {}));
var TextDocumentContentChangeEvent;
(function(TextDocumentContentChangeEvent2) {
function isIncremental(event) {
let candidate = event;
return candidate !== void 0 && candidate !== null && typeof candidate.text === "string" && candidate.range !== void 0 && (candidate.rangeLength === void 0 || typeof candidate.rangeLength === "number");
}
__name(isIncremental, "isIncremental");
TextDocumentContentChangeEvent2.isIncremental = isIncremental;
function isFull(event) {
let candidate = event;
return candidate !== void 0 && candidate !== null && typeof candidate.text === "string" && candidate.range === void 0 && candidate.rangeLength === void 0;
}
__name(isFull, "isFull");
TextDocumentContentChangeEvent2.isFull = isFull;
})(TextDocumentContentChangeEvent || (exports2.TextDocumentContentChangeEvent = TextDocumentContentChangeEvent = {}));
var DidChangeTextDocumentNotification;
(function(DidChangeTextDocumentNotification2) {
DidChangeTextDocumentNotification2.method = "textDocument/didChange";
DidChangeTextDocumentNotification2.messageDirection = messages_1.MessageDirection.clientToServer;
DidChangeTextDocumentNotification2.type = new messages_1.ProtocolNotificationType(DidChangeTextDocumentNotification2.method);
})(DidChangeTextDocumentNotification || (exports2.DidChangeTextDocumentNotification = DidChangeTextDocumentNotification = {}));
var DidCloseTextDocumentNotification;
(function(DidCloseTextDocumentNotification2) {
DidCloseTextDocumentNotification2.method = "textDocument/didClose";
DidCloseTextDocumentNotification2.messageDirection = messages_1.MessageDirection.clientToServer;
DidCloseTextDocumentNotification2.type = new messages_1.ProtocolNotificationType(DidCloseTextDocumentNotification2.method);
})(DidCloseTextDocumentNotification || (exports2.DidCloseTextDocumentNotification = DidCloseTextDocumentNotification = {}));
var DidSaveTextDocumentNotification;
(function(DidSaveTextDocumentNotification2) {
DidSaveTextDocumentNotification2.method = "textDocument/didSave";
DidSaveTextDocumentNotification2.messageDirection = messages_1.MessageDirection.clientToServer;
DidSaveTextDocumentNotification2.type = new messages_1.ProtocolNotificationType(DidSaveTextDocumentNotification2.method);
})(DidSaveTextDocumentNotification || (exports2.DidSaveTextDocumentNotification = DidSaveTextDocumentNotification = {}));
var TextDocumentSaveReason;
(function(TextDocumentSaveReason2) {
TextDocumentSaveReason2.Manual = 1;
TextDocumentSaveReason2.AfterDelay = 2;
TextDocumentSaveReason2.FocusOut = 3;
})(TextDocumentSaveReason || (exports2.TextDocumentSaveReason = TextDocumentSaveReason = {}));
var WillSaveTextDocumentNotification;
(function(WillSaveTextDocumentNotification2) {
WillSaveTextDocumentNotification2.method = "textDocument/willSave";
WillSaveTextDocumentNotification2.messageDirection = messages_1.MessageDirection.clientToServer;
WillSaveTextDocumentNotification2.type = new messages_1.ProtocolNotificationType(WillSaveTextDocumentNotification2.method);
})(WillSaveTextDocumentNotification || (exports2.WillSaveTextDocumentNotification = WillSaveTextDocumentNotification = {}));
var WillSaveTextDocumentWaitUntilRequest;
(function(WillSaveTextDocumentWaitUntilRequest2) {
WillSaveTextDocumentWaitUntilRequest2.method = "textDocument/willSaveWaitUntil";
WillSaveTextDocumentWaitUntilRequest2.messageDirection = messages_1.MessageDirection.clientToServer;
WillSaveTextDocumentWaitUntilRequest2.type = new messages_1.ProtocolRequestType(WillSaveTextDocumentWaitUntilRequest2.method);
})(WillSaveTextDocumentWaitUntilRequest || (exports2.WillSaveTextDocumentWaitUntilRequest = WillSaveTextDocumentWaitUntilRequest = {}));
var DidChangeWatchedFilesNotification;
(function(DidChangeWatchedFilesNotification2) {
DidChangeWatchedFilesNotification2.method = "workspace/didChangeWatchedFiles";
DidChangeWatchedFilesNotification2.messageDirection = messages_1.MessageDirection.clientToServer;
DidChangeWatchedFilesNotification2.type = new messages_1.ProtocolNotificationType(DidChangeWatchedFilesNotification2.method);
})(DidChangeWatchedFilesNotification || (exports2.DidChangeWatchedFilesNotification = DidChangeWatchedFilesNotification = {}));
var FileChangeType;
(function(FileChangeType2) {
FileChangeType2.Created = 1;
FileChangeType2.Changed = 2;
FileChangeType2.Deleted = 3;
})(FileChangeType || (exports2.FileChangeType = FileChangeType = {}));
var RelativePattern;
(function(RelativePattern2) {
function is(value) {
const candidate = value;
return Is2.objectLiteral(candidate) && (vscode_languageserver_types_1.URI.is(candidate.baseUri) || vscode_languageserver_types_1.WorkspaceFolder.is(candidate.baseUri)) && Is2.string(candidate.pattern);
}
__name(is, "is");
RelativePattern2.is = is;
})(RelativePattern || (exports2.RelativePattern = RelativePattern = {}));
var WatchKind;
(function(WatchKind2) {
WatchKind2.Create = 1;
WatchKind2.Change = 2;
WatchKind2.Delete = 4;
})(WatchKind || (exports2.WatchKind = WatchKind = {}));
var PublishDiagnosticsNotification;
(function(PublishDiagnosticsNotification2) {
PublishDiagnosticsNotification2.method = "textDocument/publishDiagnostics";
PublishDiagnosticsNotification2.messageDirection = messages_1.MessageDirection.serverToClient;
PublishDiagnosticsNotification2.type = new messages_1.ProtocolNotificationType(PublishDiagnosticsNotification2.method);
})(PublishDiagnosticsNotification || (exports2.PublishDiagnosticsNotification = PublishDiagnosticsNotification = {}));
var CompletionTriggerKind;
(function(CompletionTriggerKind2) {
CompletionTriggerKind2.Invoked = 1;
CompletionTriggerKind2.TriggerCharacter = 2;
CompletionTriggerKind2.TriggerForIncompleteCompletions = 3;
})(CompletionTriggerKind || (exports2.CompletionTriggerKind = CompletionTriggerKind = {}));
var CompletionRequest;
(function(CompletionRequest2) {
CompletionRequest2.method = "textDocument/completion";
CompletionRequest2.messageDirection = messages_1.MessageDirection.clientToServer;
CompletionRequest2.type = new messages_1.ProtocolRequestType(CompletionRequest2.method);
})(CompletionRequest || (exports2.CompletionRequest = CompletionRequest = {}));
var CompletionResolveRequest;
(function(CompletionResolveRequest2) {
CompletionResolveRequest2.method = "completionItem/resolve";
CompletionResolveRequest2.messageDirection = messages_1.MessageDirection.clientToServer;
CompletionResolveRequest2.type = new messages_1.ProtocolRequestType(CompletionResolveRequest2.method);
})(CompletionResolveRequest || (exports2.CompletionResolveRequest = CompletionResolveRequest = {}));
var HoverRequest;
(function(HoverRequest2) {
HoverRequest2.method = "textDocument/hover";
HoverRequest2.messageDirection = messages_1.MessageDirection.clientToServer;
HoverRequest2.type = new messages_1.ProtocolRequestType(HoverRequest2.method);
})(HoverRequest || (exports2.HoverRequest = HoverRequest = {}));
var SignatureHelpTriggerKind;
(function(SignatureHelpTriggerKind2) {
SignatureHelpTriggerKind2.Invoked = 1;
SignatureHelpTriggerKind2.TriggerCharacter = 2;
SignatureHelpTriggerKind2.ContentChange = 3;
})(SignatureHelpTriggerKind || (exports2.SignatureHelpTriggerKind = SignatureHelpTriggerKind = {}));
var SignatureHelpRequest;
(function(SignatureHelpRequest2) {
SignatureHelpRequest2.method = "textDocument/signatureHelp";
SignatureHelpRequest2.messageDirection = messages_1.MessageDirection.clientToServer;
SignatureHelpRequest2.type = new messages_1.ProtocolRequestType(SignatureHelpRequest2.method);
})(SignatureHelpRequest || (exports2.SignatureHelpRequest = SignatureHelpRequest = {}));
var DefinitionRequest;
(function(DefinitionRequest2) {
DefinitionRequest2.method = "textDocument/definition";
DefinitionRequest2.messageDirection = messages_1.MessageDirection.clientToServer;
DefinitionRequest2.type = new messages_1.ProtocolRequestType(DefinitionRequest2.method);
})(DefinitionRequest || (exports2.DefinitionRequest = DefinitionRequest = {}));
var ReferencesRequest;
(function(ReferencesRequest2) {
ReferencesRequest2.method = "textDocument/references";
ReferencesRequest2.messageDirection = messages_1.MessageDirection.clientToServer;
ReferencesRequest2.type = new messages_1.ProtocolRequestType(ReferencesRequest2.method);
})(ReferencesRequest || (exports2.ReferencesRequest = ReferencesRequest = {}));
var DocumentHighlightRequest;
(function(DocumentHighlightRequest2) {
DocumentHighlightRequest2.method = "textDocument/documentHighlight";
DocumentHighlightRequest2.messageDirection = messages_1.MessageDirection.clientToServer;
DocumentHighlightRequest2.type = new messages_1.ProtocolRequestType(DocumentHighlightRequest2.method);
})(DocumentHighlightRequest || (exports2.DocumentHighlightRequest = DocumentHighlightRequest = {}));
var DocumentSymbolRequest;
(function(DocumentSymbolRequest2) {
DocumentSymbolRequest2.method = "textDocument/documentSymbol";
DocumentSymbolRequest2.messageDirection = messages_1.MessageDirection.clientToServer;
DocumentSymbolRequest2.type = new messages_1.ProtocolRequestType(DocumentSymbolRequest2.method);
})(DocumentSymbolRequest || (exports2.DocumentSymbolRequest = DocumentSymbolRequest = {}));
var CodeActionRequest;
(function(CodeActionRequest2) {
CodeActionRequest2.method = "textDocument/codeAction";
CodeActionRequest2.messageDirection = messages_1.MessageDirection.clientToServer;
CodeActionRequest2.type = new messages_1.ProtocolRequestType(CodeActionRequest2.method);
})(CodeActionRequest || (exports2.CodeActionRequest = CodeActionRequest = {}));
var CodeActionResolveRequest;
(function(CodeActionResolveRequest2) {
CodeActionResolveRequest2.method = "codeAction/resolve";
CodeActionResolveRequest2.messageDirection = messages_1.MessageDirection.clientToServer;
CodeActionResolveRequest2.type = new messages_1.ProtocolRequestType(CodeActionResolveRequest2.method);
})(CodeActionResolveRequest || (exports2.CodeActionResolveRequest = CodeActionResolveRequest = {}));
var WorkspaceSymbolRequest;
(function(WorkspaceSymbolRequest2) {
WorkspaceSymbolRequest2.method = "workspace/symbol";
WorkspaceSymbolRequest2.messageDirection = messages_1.MessageDirection.clientToServer;
WorkspaceSymbolRequest2.type = new messages_1.ProtocolRequestType(WorkspaceSymbolRequest2.method);
})(WorkspaceSymbolRequest || (exports2.WorkspaceSymbolRequest = WorkspaceSymbolRequest = {}));
var WorkspaceSymbolResolveRequest;
(function(WorkspaceSymbolResolveRequest2) {
WorkspaceSymbolResolveRequest2.method = "workspaceSymbol/resolve";
WorkspaceSymbolResolveRequest2.messageDirection = messages_1.MessageDirection.clientToServer;
WorkspaceSymbolResolveRequest2.type = new messages_1.ProtocolRequestType(WorkspaceSymbolResolveRequest2.method);
})(WorkspaceSymbolResolveRequest || (exports2.WorkspaceSymbolResolveRequest = WorkspaceSymbolResolveRequest = {}));
var CodeLensRequest;
(function(CodeLensRequest2) {
CodeLensRequest2.method = "textDocument/codeLens";
CodeLensRequest2.messageDirection = messages_1.MessageDirection.clientToServer;
CodeLensRequest2.type = new messages_1.ProtocolRequestType(CodeLensRequest2.method);
})(CodeLensRequest || (exports2.CodeLensRequest = CodeLensRequest = {}));
var CodeLensResolveRequest;
(function(CodeLensResolveRequest2) {
CodeLensResolveRequest2.method = "codeLens/resolve";
CodeLensResolveRequest2.messageDirection = messages_1.MessageDirection.clientToServer;
CodeLensResolveRequest2.type = new messages_1.ProtocolRequestType(CodeLensResolveRequest2.method);
})(CodeLensResolveRequest || (exports2.CodeLensResolveRequest = CodeLensResolveRequest = {}));
var CodeLensRefreshRequest;
(function(CodeLensRefreshRequest2) {
CodeLensRefreshRequest2.method = `workspace/codeLens/refresh`;
CodeLensRefreshRequest2.messageDirection = messages_1.MessageDirection.serverToClient;
CodeLensRefreshRequest2.type = new messages_1.ProtocolRequestType0(CodeLensRefreshRequest2.method);
})(CodeLensRefreshRequest || (exports2.CodeLensRefreshRequest = CodeLensRefreshRequest = {}));
var DocumentLinkRequest;
(function(DocumentLinkRequest2) {
DocumentLinkRequest2.method = "textDocument/documentLink";
DocumentLinkRequest2.messageDirection = messages_1.MessageDirection.clientToServer;
DocumentLinkRequest2.type = new messages_1.ProtocolRequestType(DocumentLinkRequest2.method);
})(DocumentLinkRequest || (exports2.DocumentLinkRequest = DocumentLinkRequest = {}));
var DocumentLinkResolveRequest;
(function(DocumentLinkResolveRequest2) {
DocumentLinkResolveRequest2.method = "documentLink/resolve";
DocumentLinkResolveRequest2.messageDirection = messages_1.MessageDirection.clientToServer;
DocumentLinkResolveRequest2.type = new messages_1.ProtocolRequestType(DocumentLinkResolveRequest2.method);
})(DocumentLinkResolveRequest || (exports2.DocumentLinkResolveRequest = DocumentLinkResolveRequest = {}));
var DocumentFormattingRequest;
(function(DocumentFormattingRequest2) {
DocumentFormattingRequest2.method = "textDocument/formatting";
DocumentFormattingRequest2.messageDirection = messages_1.MessageDirection.clientToServer;
DocumentFormattingRequest2.type = new messages_1.ProtocolRequestType(DocumentFormattingRequest2.method);
})(DocumentFormattingRequest || (exports2.DocumentFormattingRequest = DocumentFormattingRequest = {}));
var DocumentRangeFormattingRequest;
(function(DocumentRangeFormattingRequest2) {
DocumentRangeFormattingRequest2.method = "textDocument/rangeFormatting";
DocumentRangeFormattingRequest2.messageDirection = messages_1.MessageDirection.clientToServer;
DocumentRangeFormattingRequest2.type = new messages_1.ProtocolRequestType(DocumentRangeFormattingRequest2.method);
})(DocumentRangeFormattingRequest || (exports2.DocumentRangeFormattingRequest = DocumentRangeFormattingRequest = {}));
var DocumentRangesFormattingRequest;
(function(DocumentRangesFormattingRequest2) {
DocumentRangesFormattingRequest2.method = "textDocument/rangesFormatting";
DocumentRangesFormattingRequest2.messageDirection = messages_1.MessageDirection.clientToServer;
DocumentRangesFormattingRequest2.type = new messages_1.ProtocolRequestType(DocumentRangesFormattingRequest2.method);
})(DocumentRangesFormattingRequest || (exports2.DocumentRangesFormattingRequest = DocumentRangesFormattingRequest = {}));
var DocumentOnTypeFormattingRequest;
(function(DocumentOnTypeFormattingRequest2) {
DocumentOnTypeFormattingRequest2.method = "textDocument/onTypeFormatting";
DocumentOnTypeFormattingRequest2.messageDirection = messages_1.MessageDirection.clientToServer;
DocumentOnTypeFormattingRequest2.type = new messages_1.ProtocolRequestType(DocumentOnTypeFormattingRequest2.method);
})(DocumentOnTypeFormattingRequest || (exports2.DocumentOnTypeFormattingRequest = DocumentOnTypeFormattingRequest = {}));
var PrepareSupportDefaultBehavior;
(function(PrepareSupportDefaultBehavior2) {
PrepareSupportDefaultBehavior2.Identifier = 1;
})(PrepareSupportDefaultBehavior || (exports2.PrepareSupportDefaultBehavior = PrepareSupportDefaultBehavior = {}));
var RenameRequest;
(function(RenameRequest2) {
RenameRequest2.method = "textDocument/rename";
RenameRequest2.messageDirection = messages_1.MessageDirection.clientToServer;
RenameRequest2.type = new messages_1.ProtocolRequestType(RenameRequest2.method);
})(RenameRequest || (exports2.RenameRequest = RenameRequest = {}));
var PrepareRenameRequest;
(function(PrepareRenameRequest2) {
PrepareRenameRequest2.method = "textDocument/prepareRename";
PrepareRenameRequest2.messageDirection = messages_1.MessageDirection.clientToServer;
PrepareRenameRequest2.type = new messages_1.ProtocolRequestType(PrepareRenameRequest2.method);
})(PrepareRenameRequest || (exports2.PrepareRenameRequest = PrepareRenameRequest = {}));
var ExecuteCommandRequest;
(function(ExecuteCommandRequest2) {
ExecuteCommandRequest2.method = "workspace/executeCommand";
ExecuteCommandRequest2.messageDirection = messages_1.MessageDirection.clientToServer;
ExecuteCommandRequest2.type = new messages_1.ProtocolRequestType(ExecuteCommandRequest2.method);
})(ExecuteCommandRequest || (exports2.ExecuteCommandRequest = ExecuteCommandRequest = {}));
var ApplyWorkspaceEditRequest;
(function(ApplyWorkspaceEditRequest2) {
ApplyWorkspaceEditRequest2.method = "workspace/applyEdit";
ApplyWorkspaceEditRequest2.messageDirection = messages_1.MessageDirection.serverToClient;
ApplyWorkspaceEditRequest2.type = new messages_1.ProtocolRequestType("workspace/applyEdit");
})(ApplyWorkspaceEditRequest || (exports2.ApplyWorkspaceEditRequest = ApplyWorkspaceEditRequest = {}));
}
});
// ../../node_modules/.pnpm/vscode-languageserver-protocol@3.17.5/node_modules/vscode-languageserver-protocol/lib/common/connection.js
var require_connection2 = __commonJS({
"../../node_modules/.pnpm/vscode-languageserver-protocol@3.17.5/node_modules/vscode-languageserver-protocol/lib/common/connection.js"(exports2) {
"use strict";
Object.defineProperty(exports2, "__esModule", { value: true });
exports2.createProtocolConnection = void 0;
var vscode_jsonrpc_1 = require_main();
function createProtocolConnection(input, output, logger, options) {
if (vscode_jsonrpc_1.ConnectionStrategy.is(options)) {
options = { connectionStrategy: options };
}
return (0, vscode_jsonrpc_1.createMessageConnection)(input, output, logger, options);
}
__name(createProtocolConnection, "createProtocolConnection");
exports2.createProtocolConnection = createProtocolConnection;
}
});
// ../../node_modules/.pnpm/vscode-languageserver-protocol@3.17.5/node_modules/vscode-languageserver-protocol/lib/common/api.js
var require_api2 = __commonJS({
"../../node_modules/.pnpm/vscode-languageserver-protocol@3.17.5/node_modules/vscode-languageserver-protocol/lib/common/api.js"(exports2) {
"use strict";
var __createBinding = exports2 && exports2.__createBinding || (Object.create ? (function(o, m, k, k2) {
if (k2 === void 0) k2 = k;
var desc = Object.getOwnPropertyDescriptor(m, k);
if (!desc || ("get" in desc ? !m.__esModule : desc.writable || desc.configurable)) {
desc = { enumerable: true, get: /* @__PURE__ */ __name(function() {
return m[k];
}, "get") };
}
Object.defineProperty(o, k2, desc);
}) : (function(o, m, k, k2) {
if (k2 === void 0) k2 = k;
o[k2] = m[k];
}));
var __exportStar = exports2 && exports2.__exportStar || function(m, exports3) {
for (var p in m) if (p !== "default" && !Object.prototype.hasOwnProperty.call(exports3, p)) __createBinding(exports3, m, p);
};
Object.defineProperty(exports2, "__esModule", { value: true });
exports2.LSPErrorCodes = exports2.createProtocolConnection = void 0;
__exportStar(require_main(), exports2);
__exportStar((init_main(), __toCommonJS(main_exports)), exports2);
__exportStar(require_messages2(), exports2);
__exportStar(require_protocol(), exports2);
var connection_1 = require_connection2();
Object.defineProperty(exports2, "createProtocolConnection", { enumerable: true, get: /* @__PURE__ */ __name(function() {
return connection_1.createProtocolConnection;
}, "get") });
var LSPErrorCodes2;
(function(LSPErrorCodes3) {
LSPErrorCodes3.lspReservedErrorRangeStart = -32899;
LSPErrorCodes3.RequestFailed = -32803;
LSPErrorCodes3.ServerCancelled = -32802;
LSPErrorCodes3.ContentModified = -32801;
LSPErrorCodes3.RequestCancelled = -32800;
LSPErrorCodes3.lspReservedErrorRangeEnd = -32800;
})(LSPErrorCodes2 || (exports2.LSPErrorCodes = LSPErrorCodes2 = {}));
}
});
// ../../node_modules/.pnpm/vscode-languageserver-protocol@3.17.5/node_modules/vscode-languageserver-protocol/lib/browser/main.js
var require_main2 = __commonJS({
"../../node_modules/.pnpm/vscode-languageserver-protocol@3.17.5/node_modules/vscode-languageserver-protocol/lib/browser/main.js"(exports2) {
"use strict";
var __createBinding = exports2 && exports2.__createBinding || (Object.create ? (function(o, m, k, k2) {
if (k2 === void 0) k2 = k;
var desc = Object.getOwnPropertyDescriptor(m, k);
if (!desc || ("get" in desc ? !m.__esModule : desc.writable || desc.configurable)) {
desc = { enumerable: true, get: /* @__PURE__ */ __name(function() {
return m[k];
}, "get") };
}
Object.defineProperty(o, k2, desc);
}) : (function(o, m, k, k2) {
if (k2 === void 0) k2 = k;
o[k2] = m[k];
}));
var __exportStar = exports2 && exports2.__exportStar || function(m, exports3) {
for (var p in m) if (p !== "default" && !Object.prototype.hasOwnProperty.call(exports3, p)) __createBinding(exports3, m, p);
};
Object.defineProperty(exports2, "__esModule", { value: true });
exports2.createProtocolConnection = void 0;
var browser_1 = require_browser();
__exportStar(require_browser(), exports2);
__exportStar(require_api2(), exports2);
function createProtocolConnection(reader, writer, logger, options) {
return (0, browser_1.createMessageConnection)(reader, writer, logger, options);
}
__name(createProtocolConnection, "createProtocolConnection");
exports2.createProtocolConnection = createProtocolConnection;
}
});
// ../../node_modules/.pnpm/langium@4.2.0/node_modules/langium/lib/index.js
var lib_exports = {};
__export(lib_exports, {
AbstractAstReflection: () => AbstractAstReflection,
AbstractCstNode: () => AbstractCstNode,
AbstractLangiumParser: () => AbstractLangiumParser,
AbstractParserErrorMessageProvider: () => AbstractParserErrorMessageProvider,
AbstractThreadedAsyncParser: () => AbstractThreadedAsyncParser,
AstUtils: () => ast_utils_exports,
BiMap: () => BiMap,
Cancellation: () => cancellation_exports,
CompositeCstNodeImpl: () => CompositeCstNodeImpl,
ContextCache: () => ContextCache,
CstNodeBuilder: () => CstNodeBuilder,
CstUtils: () => cst_utils_exports,
DEFAULT_TOKENIZE_OPTIONS: () => DEFAULT_TOKENIZE_OPTIONS,
DONE_RESULT: () => DONE_RESULT,
DatatypeSymbol: () => DatatypeSymbol,
DefaultAstNodeDescriptionProvider: () => DefaultAstNodeDescriptionProvider,
DefaultAstNodeLocator: () => DefaultAstNodeLocator,
DefaultAsyncParser: () => DefaultAsyncParser,
DefaultCommentProvider: () => DefaultCommentProvider,
DefaultConfigurationProvider: () => DefaultConfigurationProvider,
DefaultDocumentBuilder: () => DefaultDocumentBuilder,
DefaultDocumentValidator: () => DefaultDocumentValidator,
DefaultHydrator: () => DefaultHydrator,
DefaultIndexManager: () => DefaultIndexManager,
DefaultJsonSerializer: () => DefaultJsonSerializer,
DefaultLangiumDocumentFactory: () => DefaultLangiumDocumentFactory,
DefaultLangiumDocuments: () => DefaultLangiumDocuments,
DefaultLangiumProfiler: () => DefaultLangiumProfiler,
DefaultLexer: () => DefaultLexer,
DefaultLexerErrorMessageProvider: () => DefaultLexerErrorMessageProvider,
DefaultLinker: () => DefaultLinker,
DefaultNameProvider: () => DefaultNameProvider,
DefaultReferenceDescriptionProvider: () => DefaultReferenceDescriptionProvider,
DefaultReferences: () => DefaultReferences,
DefaultScopeComputation: () => DefaultScopeComputation,
DefaultScopeProvider: () => DefaultScopeProvider,
DefaultServiceRegistry: () => DefaultServiceRegistry,
DefaultTokenBuilder: () => DefaultTokenBuilder,
DefaultValueConverter: () => DefaultValueConverter,
DefaultWorkspaceLock: () => DefaultWorkspaceLock,
DefaultWorkspaceManager: () => DefaultWorkspaceManager,
Deferred: () => Deferred,
Disposable: () => Disposable,
DisposableCache: () => DisposableCache,
DocumentCache: () => DocumentCache,
DocumentState: () => DocumentState,
DocumentValidator: () => DocumentValidator,
EMPTY_SCOPE: () => EMPTY_SCOPE,
EMPTY_STREAM: () => EMPTY_STREAM,
EmptyFileSystem: () => EmptyFileSystem,
EmptyFileSystemProvider: () => EmptyFileSystemProvider,
ErrorWithLocation: () => ErrorWithLocation,
GrammarAST: () => ast_exports,
GrammarUtils: () => grammar_utils_exports,
IndentationAwareLexer: () => IndentationAwareLexer,
IndentationAwareTokenBuilder: () => IndentationAwareTokenBuilder,
JSDocDocumentationProvider: () => JSDocDocumentationProvider,
LangiumCompletionParser: () => LangiumCompletionParser,
LangiumParser: () => LangiumParser,
LangiumParserErrorMessageProvider: () => LangiumParserErrorMessageProvider,
LeafCstNodeImpl: () => LeafCstNodeImpl,
LexingMode: () => LexingMode,
MapScope: () => MapScope,
Module: () => Module,
MultiMap: () => MultiMap,
MultiMapScope: () => MultiMapScope,
OperationCancelled: () => OperationCancelled,
ParserWorker: () => ParserWorker,
ProfilingTask: () => ProfilingTask,
Reduction: () => Reduction,
RefResolving: () => RefResolving,
RegExpUtils: () => regexp_utils_exports,
RootCstNodeImpl: () => RootCstNodeImpl,
SimpleCache: () => SimpleCache,
StreamImpl: () => StreamImpl,
StreamScope: () => StreamScope,
TextDocument: () => TextDocument2,
TreeStreamImpl: () => TreeStreamImpl,
URI: () => URI2,
UriTrie: () => UriTrie,
UriUtils: () => UriUtils,
VALIDATE_EACH_NODE: () => VALIDATE_EACH_NODE,
ValidationCategory: () => ValidationCategory,
ValidationRegistry: () => ValidationRegistry,
ValueConverter: () => ValueConverter,
WorkspaceCache: () => WorkspaceCache,
assertCondition: () => assertCondition,
assertUnreachable: () => assertUnreachable,
createCompletionParser: () => createCompletionParser,
createDefaultCoreModule: () => createDefaultCoreModule,
createDefaultSharedCoreModule: () => createDefaultSharedCoreModule,
createGrammarConfig: () => createGrammarConfig,
createLangiumParser: () => createLangiumParser,
createParser: () => createParser,
delayNextTick: () => delayNextTick,
diagnosticData: () => diagnosticData,
eagerLoad: () => eagerLoad,
getDiagnosticRange: () => getDiagnosticRange,
indentationBuilderDefaultOptions: () => indentationBuilderDefaultOptions,
inject: () => inject,
interruptAndCheck: () => interruptAndCheck,
isAstNode: () => isAstNode,
isAstNodeDescription: () => isAstNodeDescription,
isAstNodeWithComment: () => isAstNodeWithComment,
isCompositeCstNode: () => isCompositeCstNode,
isIMultiModeLexerDefinition: () => isIMultiModeLexerDefinition,
isJSDoc: () => isJSDoc,
isLeafCstNode: () => isLeafCstNode,
isLinkingError: () => isLinkingError,
isMultiReference: () => isMultiReference,
isNamed: () => isNamed,
isOperationCancelled: () => isOperationCancelled,
isReference: () => isReference,
isRootCstNode: () => isRootCstNode,
isTokenTypeArray: () => isTokenTypeArray,
isTokenTypeDictionary: () => isTokenTypeDictionary,
loadGrammarFromJson: () => loadGrammarFromJson,
parseJSDoc: () => parseJSDoc,
prepareLangiumParser: () => prepareLangiumParser,
setInterruptionPeriod: () => setInterruptionPeriod,
startCancelableOperation: () => startCancelableOperation,
stream: () => stream,
toDiagnosticData: () => toDiagnosticData,
toDiagnosticSeverity: () => toDiagnosticSeverity
});
// ../../node_modules/.pnpm/langium@4.2.0/node_modules/langium/lib/utils/cst-utils.js
var cst_utils_exports = {};
__export(cst_utils_exports, {
DefaultNameRegexp: () => DefaultNameRegexp,
RangeComparison: () => RangeComparison,
compareRange: () => compareRange,
findCommentNode: () => findCommentNode,
findDeclarationNodeAtOffset: () => findDeclarationNodeAtOffset,
findLeafNodeAtOffset: () => findLeafNodeAtOffset,
findLeafNodeBeforeOffset: () => findLeafNodeBeforeOffset,
flattenCst: () => flattenCst,
getDatatypeNode: () => getDatatypeNode,
getInteriorNodes: () => getInteriorNodes,
getNextNode: () => getNextNode,
getPreviousNode: () => getPreviousNode,
getStartlineNode: () => getStartlineNode,
inRange: () => inRange,
isChildNode: () => isChildNode,
isCommentNode: () => isCommentNode,
streamCst: () => streamCst,
toDocumentSegment: () => toDocumentSegment,
tokenToRange: () => tokenToRange
});
// ../../node_modules/.pnpm/langium@4.2.0/node_modules/langium/lib/syntax-tree.js
function isAstNode(obj) {
return typeof obj === "object" && obj !== null && typeof obj.$type === "string";
}
__name(isAstNode, "isAstNode");
function isReference(obj) {
return typeof obj === "object" && obj !== null && typeof obj.$refText === "string" && "ref" in obj;
}
__name(isReference, "isReference");
function isMultiReference(obj) {
return typeof obj === "object" && obj !== null && typeof obj.$refText === "string" && "items" in obj;
}
__name(isMultiReference, "isMultiReference");
function isAstNodeDescription(obj) {
return typeof obj === "object" && obj !== null && typeof obj.name === "string" && typeof obj.type === "string" && typeof obj.path === "string";
}
__name(isAstNodeDescription, "isAstNodeDescription");
function isLinkingError(obj) {
return typeof obj === "object" && obj !== null && typeof obj.info === "object" && typeof obj.message === "string";
}
__name(isLinkingError, "isLinkingError");
var AbstractAstReflection = class {
static {
__name(this, "AbstractAstReflection");
}
constructor() {
this.subtypes = {};
this.allSubtypes = {};
}
getAllTypes() {
return Object.keys(this.types);
}
getReferenceType(refInfo) {
const metaData = this.types[refInfo.container.$type];
if (!metaData) {
throw new Error(`Type ${refInfo.container.$type || "undefined"} not found.`);
}
const referenceType = metaData.properties[refInfo.property]?.referenceType;
if (!referenceType) {
throw new Error(`Property ${refInfo.property || "undefined"} of type ${refInfo.container.$type} is not a reference.`);
}
return referenceType;
}
getTypeMetaData(type) {
const result = this.types[type];
if (!result) {
return {
name: type,
properties: {},
superTypes: []
};
}
return result;
}
isInstance(node, type) {
return isAstNode(node) && this.isSubtype(node.$type, type);
}
isSubtype(subtype, supertype) {
if (subtype === supertype) {
return true;
}
let nested = this.subtypes[subtype];
if (!nested) {
nested = this.subtypes[subtype] = {};
}
const existing = nested[supertype];
if (existing !== void 0) {
return existing;
} else {
const metaData = this.types[subtype];
const result = metaData ? metaData.superTypes.some((s) => this.isSubtype(s, supertype)) : false;
nested[supertype] = result;
return result;
}
}
getAllSubTypes(type) {
const existing = this.allSubtypes[type];
if (existing) {
return existing;
} else {
const allTypes = this.getAllTypes();
const types = [];
for (const possibleSubType of allTypes) {
if (this.isSubtype(possibleSubType, type)) {
types.push(possibleSubType);
}
}
this.allSubtypes[type] = types;
return types;
}
}
};
function isCompositeCstNode(node) {
return typeof node === "object" && node !== null && Array.isArray(node.content);
}
__name(isCompositeCstNode, "isCompositeCstNode");
function isLeafCstNode(node) {
return typeof node === "object" && node !== null && typeof node.tokenType === "object";
}
__name(isLeafCstNode, "isLeafCstNode");
function isRootCstNode(node) {
return isCompositeCstNode(node) && typeof node.fullText === "string";
}
__name(isRootCstNode, "isRootCstNode");
// ../../node_modules/.pnpm/langium@4.2.0/node_modules/langium/lib/utils/stream.js
var StreamImpl = class _StreamImpl {
static {
__name(this, "StreamImpl");
}
constructor(startFn, nextFn) {
this.startFn = startFn;
this.nextFn = nextFn;
}
iterator() {
const iterator = {
state: this.startFn(),
next: /* @__PURE__ */ __name(() => this.nextFn(iterator.state), "next"),
[Symbol.iterator]: () => iterator
};
return iterator;
}
[Symbol.iterator]() {
return this.iterator();
}
isEmpty() {
const iterator = this.iterator();
return Boolean(iterator.next().done);
}
count() {
const iterator = this.iterator();
let count = 0;
let next = iterator.next();
while (!next.done) {
count++;
next = iterator.next();
}
return count;
}
toArray() {
const result = [];
const iterator = this.iterator();
let next;
do {
next = iterator.next();
if (next.value !== void 0) {
result.push(next.value);
}
} while (!next.done);
return result;
}
toSet() {
return new Set(this);
}
toMap(keyFn, valueFn) {
const entryStream = this.map((element) => [
keyFn ? keyFn(element) : element,
valueFn ? valueFn(element) : element
]);
return new Map(entryStream);
}
toString() {
return this.join();
}
concat(other) {
return new _StreamImpl(() => ({ first: this.startFn(), firstDone: false, iterator: other[Symbol.iterator]() }), (state) => {
let result;
if (!state.firstDone) {
do {
result = this.nextFn(state.first);
if (!result.done) {
return result;
}
} while (!result.done);
state.firstDone = true;
}
do {
result = state.iterator.next();
if (!result.done) {
return result;
}
} while (!result.done);
return DONE_RESULT;
});
}
join(separator = ",") {
const iterator = this.iterator();
let value = "";
let result;
let addSeparator = false;
do {
result = iterator.next();
if (!result.done) {
if (addSeparator) {
value += separator;
}
value += toString(result.value);
}
addSeparator = true;
} while (!result.done);
return value;
}
indexOf(searchElement, fromIndex = 0) {
const iterator = this.iterator();
let index = 0;
let next = iterator.next();
while (!next.done) {
if (index >= fromIndex && next.value === searchElement) {
return index;
}
next = iterator.next();
index++;
}
return -1;
}
every(predicate) {
const iterator = this.iterator();
let next = iterator.next();
while (!next.done) {
if (!predicate(next.value)) {
return false;
}
next = iterator.next();
}
return true;
}
some(predicate) {
const iterator = this.iterator();
let next = iterator.next();
while (!next.done) {
if (predicate(next.value)) {
return true;
}
next = iterator.next();
}
return false;
}
forEach(callbackfn) {
const iterator = this.iterator();
let index = 0;
let next = iterator.next();
while (!next.done) {
callbackfn(next.value, index);
next = iterator.next();
index++;
}
}
map(callbackfn) {
return new _StreamImpl(this.startFn, (state) => {
const { done, value } = this.nextFn(state);
if (done) {
return DONE_RESULT;
} else {
return { done: false, value: callbackfn(value) };
}
});
}
filter(predicate) {
return new _StreamImpl(this.startFn, (state) => {
let result;
do {
result = this.nextFn(state);
if (!result.done && predicate(result.value)) {
return result;
}
} while (!result.done);
return DONE_RESULT;
});
}
nonNullable() {
return this.filter((e) => e !== void 0 && e !== null);
}
reduce(callbackfn, initialValue) {
const iterator = this.iterator();
let previousValue = initialValue;
let next = iterator.next();
while (!next.done) {
if (previousValue === void 0) {
previousValue = next.value;
} else {
previousValue = callbackfn(previousValue, next.value);
}
next = iterator.next();
}
return previousValue;
}
reduceRight(callbackfn, initialValue) {
return this.recursiveReduce(this.iterator(), callbackfn, initialValue);
}
recursiveReduce(iterator, callbackfn, initialValue) {
const next = iterator.next();
if (next.done) {
return initialValue;
}
const previousValue = this.recursiveReduce(iterator, callbackfn, initialValue);
if (previousValue === void 0) {
return next.value;
}
return callbackfn(previousValue, next.value);
}
find(predicate) {
const iterator = this.iterator();
let next = iterator.next();
while (!next.done) {
if (predicate(next.value)) {
return next.value;
}
next = iterator.next();
}
return void 0;
}
findIndex(predicate) {
const iterator = this.iterator();
let index = 0;
let next = iterator.next();
while (!next.done) {
if (predicate(next.value)) {
return index;
}
next = iterator.next();
index++;
}
return -1;
}
includes(searchElement) {
const iterator = this.iterator();
let next = iterator.next();
while (!next.done) {
if (next.value === searchElement) {
return true;
}
next = iterator.next();
}
return false;
}
flatMap(callbackfn) {
return new _StreamImpl(() => ({ this: this.startFn() }), (state) => {
do {
if (state.iterator) {
const next = state.iterator.next();
if (next.done) {
state.iterator = void 0;
} else {
return next;
}
}
const { done, value } = this.nextFn(state.this);
if (!done) {
const mapped = callbackfn(value);
if (isIterable(mapped)) {
state.iterator = mapped[Symbol.iterator]();
} else {
return { done: false, value: mapped };
}
}
} while (state.iterator);
return DONE_RESULT;
});
}
flat(depth) {
if (depth === void 0) {
depth = 1;
}
if (depth <= 0) {
return this;
}
const stream2 = depth > 1 ? this.flat(depth - 1) : this;
return new _StreamImpl(() => ({ this: stream2.startFn() }), (state) => {
do {
if (state.iterator) {
const next = state.iterator.next();
if (next.done) {
state.iterator = void 0;
} else {
return next;
}
}
const { done, value } = stream2.nextFn(state.this);
if (!done) {
if (isIterable(value)) {
state.iterator = value[Symbol.iterator]();
} else {
return { done: false, value };
}
}
} while (state.iterator);
return DONE_RESULT;
});
}
head() {
const iterator = this.iterator();
const result = iterator.next();
if (result.done) {
return void 0;
}
return result.value;
}
tail(skipCount = 1) {
return new _StreamImpl(() => {
const state = this.startFn();
for (let i = 0; i < skipCount; i++) {
const next = this.nextFn(state);
if (next.done) {
return state;
}
}
return state;
}, this.nextFn);
}
limit(maxSize) {
return new _StreamImpl(() => ({ size: 0, state: this.startFn() }), (state) => {
state.size++;
if (state.size > maxSize) {
return DONE_RESULT;
}
return this.nextFn(state.state);
});
}
distinct(by) {
return new _StreamImpl(() => ({ set: /* @__PURE__ */ new Set(), internalState: this.startFn() }), (state) => {
let result;
do {
result = this.nextFn(state.internalState);
if (!result.done) {
const value = by ? by(result.value) : result.value;
if (!state.set.has(value)) {
state.set.add(value);
return result;
}
}
} while (!result.done);
return DONE_RESULT;
});
}
exclude(other, key) {
const otherKeySet = /* @__PURE__ */ new Set();
for (const item of other) {
const value = key ? key(item) : item;
otherKeySet.add(value);
}
return this.filter((e) => {
const ownKey = key ? key(e) : e;
return !otherKeySet.has(ownKey);
});
}
};
function toString(item) {
if (typeof item === "string") {
return item;
}
if (typeof item === "undefined") {
return "undefined";
}
if (typeof item.toString === "function") {
return item.toString();
}
return Object.prototype.toString.call(item);
}
__name(toString, "toString");
function isIterable(obj) {
return !!obj && typeof obj[Symbol.iterator] === "function";
}
__name(isIterable, "isIterable");
var EMPTY_STREAM = new StreamImpl(() => void 0, () => DONE_RESULT);
var DONE_RESULT = Object.freeze({ done: true, value: void 0 });
function stream(...collections) {
if (collections.length === 1) {
const collection = collections[0];
if (collection instanceof StreamImpl) {
return collection;
}
if (isIterable(collection)) {
return new StreamImpl(() => collection[Symbol.iterator](), (iterator) => iterator.next());
}
if (typeof collection.length === "number") {
return new StreamImpl(() => ({ index: 0 }), (state) => {
if (state.index < collection.length) {
return { done: false, value: collection[state.index++] };
} else {
return DONE_RESULT;
}
});
}
}
if (collections.length > 1) {
return new StreamImpl(() => ({ collIndex: 0, arrIndex: 0 }), (state) => {
do {
if (state.iterator) {
const next = state.iterator.next();
if (!next.done) {
return next;
}
state.iterator = void 0;
}
if (state.array) {
if (state.arrIndex < state.array.length) {
return { done: false, value: state.array[state.arrIndex++] };
}
state.array = void 0;
state.arrIndex = 0;
}
if (state.collIndex < collections.length) {
const collection = collections[state.collIndex++];
if (isIterable(collection)) {
state.iterator = collection[Symbol.iterator]();
} else if (collection && typeof collection.length === "number") {
state.array = collection;
}
}
} while (state.iterator || state.array || state.collIndex < collections.length);
return DONE_RESULT;
});
}
return EMPTY_STREAM;
}
__name(stream, "stream");
var TreeStreamImpl = class extends StreamImpl {
static {
__name(this, "TreeStreamImpl");
}
constructor(root2, children, options) {
super(() => ({
iterators: options?.includeRoot ? [[root2][Symbol.iterator]()] : [children(root2)[Symbol.iterator]()],
pruned: false
}), (state) => {
if (state.pruned) {
state.iterators.pop();
state.pruned = false;
}
while (state.iterators.length > 0) {
const iterator = state.iterators[state.iterators.length - 1];
const next = iterator.next();
if (next.done) {
state.iterators.pop();
} else {
state.iterators.push(children(next.value)[Symbol.iterator]());
return next;
}
}
return DONE_RESULT;
});
}
iterator() {
const iterator = {
state: this.startFn(),
next: /* @__PURE__ */ __name(() => this.nextFn(iterator.state), "next"),
prune: /* @__PURE__ */ __name(() => {
iterator.state.pruned = true;
}, "prune"),
[Symbol.iterator]: () => iterator
};
return iterator;
}
};
var Reduction;
(function(Reduction2) {
function sum(stream2) {
return stream2.reduce((a, b) => a + b, 0);
}
__name(sum, "sum");
Reduction2.sum = sum;
function product(stream2) {
return stream2.reduce((a, b) => a * b, 0);
}
__name(product, "product");
Reduction2.product = product;
function min2(stream2) {
return stream2.reduce((a, b) => Math.min(a, b));
}
__name(min2, "min");
Reduction2.min = min2;
function max(stream2) {
return stream2.reduce((a, b) => Math.max(a, b));
}
__name(max, "max");
Reduction2.max = max;
})(Reduction || (Reduction = {}));
// ../../node_modules/.pnpm/langium@4.2.0/node_modules/langium/lib/utils/ast-utils.js
var ast_utils_exports = {};
__export(ast_utils_exports, {
assignMandatoryProperties: () => assignMandatoryProperties,
copyAstNode: () => copyAstNode,
findRootNode: () => findRootNode,
getContainerOfType: () => getContainerOfType,
getDocument: () => getDocument,
getReferenceNodes: () => getReferenceNodes,
hasContainerOfType: () => hasContainerOfType,
linkContentToContainer: () => linkContentToContainer,
streamAllContents: () => streamAllContents,
streamAst: () => streamAst,
streamContents: () => streamContents,
streamReferences: () => streamReferences
});
function linkContentToContainer(node, options = {}) {
for (const [name, value] of Object.entries(node)) {
if (!name.startsWith("$")) {
if (Array.isArray(value)) {
value.forEach((item, index) => {
if (isAstNode(item)) {
item.$container = node;
item.$containerProperty = name;
item.$containerIndex = index;
if (options.deep) {
linkContentToContainer(item, options);
}
}
});
} else if (isAstNode(value)) {
value.$container = node;
value.$containerProperty = name;
if (options.deep) {
linkContentToContainer(value, options);
}
}
}
}
}
__name(linkContentToContainer, "linkContentToContainer");
function getContainerOfType(node, typePredicate) {
let item = node;
while (item) {
if (typePredicate(item)) {
return item;
}
item = item.$container;
}
return void 0;
}
__name(getContainerOfType, "getContainerOfType");
function hasContainerOfType(node, predicate) {
let item = node;
while (item) {
if (predicate(item)) {
return true;
}
item = item.$container;
}
return false;
}
__name(hasContainerOfType, "hasContainerOfType");
function getDocument(node) {
const rootNode = findRootNode(node);
const result = rootNode.$document;
if (!result) {
throw new Error("AST node has no document.");
}
return result;
}
__name(getDocument, "getDocument");
function findRootNode(node) {
while (node.$container) {
node = node.$container;
}
return node;
}
__name(findRootNode, "findRootNode");
function getReferenceNodes(reference) {
if (isReference(reference)) {
return reference.ref ? [reference.ref] : [];
} else if (isMultiReference(reference)) {
return reference.items.map((item) => item.ref);
}
return [];
}
__name(getReferenceNodes, "getReferenceNodes");
function streamContents(node, options) {
if (!node) {
throw new Error("Node must be an AstNode.");
}
const range = options?.range;
return new StreamImpl(() => ({
keys: Object.keys(node),
keyIndex: 0,
arrayIndex: 0
}), (state) => {
while (state.keyIndex < state.keys.length) {
const property2 = state.keys[state.keyIndex];
if (!property2.startsWith("$")) {
const value = node[property2];
if (isAstNode(value)) {
state.keyIndex++;
if (isAstNodeInRange(value, range)) {
return { done: false, value };
}
} else if (Array.isArray(value)) {
while (state.arrayIndex < value.length) {
const index = state.arrayIndex++;
const element = value[index];
if (isAstNode(element) && isAstNodeInRange(element, range)) {
return { done: false, value: element };
}
}
state.arrayIndex = 0;
}
}
state.keyIndex++;
}
return DONE_RESULT;
});
}
__name(streamContents, "streamContents");
function streamAllContents(root2, options) {
if (!root2) {
throw new Error("Root node must be an AstNode.");
}
return new TreeStreamImpl(root2, (node) => streamContents(node, options));
}
__name(streamAllContents, "streamAllContents");
function streamAst(root2, options) {
if (!root2) {
throw new Error("Root node must be an AstNode.");
} else if (options?.range && !isAstNodeInRange(root2, options.range)) {
return new TreeStreamImpl(root2, () => []);
}
return new TreeStreamImpl(root2, (node) => streamContents(node, options), { includeRoot: true });
}
__name(streamAst, "streamAst");
function isAstNodeInRange(astNode, range) {
if (!range) {
return true;
}
const nodeRange = astNode.$cstNode?.range;
if (!nodeRange) {
return false;
}
return inRange(nodeRange, range);
}
__name(isAstNodeInRange, "isAstNodeInRange");
function streamReferences(node) {
return new StreamImpl(() => ({
keys: Object.keys(node),
keyIndex: 0,
arrayIndex: 0
}), (state) => {
while (state.keyIndex < state.keys.length) {
const property2 = state.keys[state.keyIndex];
if (!property2.startsWith("$")) {
const value = node[property2];
if (isReference(value) || isMultiReference(value)) {
state.keyIndex++;
return { done: false, value: { reference: value, container: node, property: property2 } };
} else if (Array.isArray(value)) {
while (state.arrayIndex < value.length) {
const index = state.arrayIndex++;
const element = value[index];
if (isReference(element) || isMultiReference(value)) {
return { done: false, value: { reference: element, container: node, property: property2, index } };
}
}
state.arrayIndex = 0;
}
}
state.keyIndex++;
}
return DONE_RESULT;
});
}
__name(streamReferences, "streamReferences");
function assignMandatoryProperties(reflection3, node) {
const typeMetaData = reflection3.getTypeMetaData(node.$type);
const genericNode = node;
for (const property2 of Object.values(typeMetaData.properties)) {
if (property2.defaultValue !== void 0 && genericNode[property2.name] === void 0) {
genericNode[property2.name] = copyDefaultValue(property2.defaultValue);
}
}
}
__name(assignMandatoryProperties, "assignMandatoryProperties");
function copyDefaultValue(propertyType) {
if (Array.isArray(propertyType)) {
return [...propertyType.map(copyDefaultValue)];
} else {
return propertyType;
}
}
__name(copyDefaultValue, "copyDefaultValue");
function copyAstNode(node, buildReference, trace) {
const copy = { $type: node.$type };
if (trace) {
trace.set(node, copy);
trace.set(copy, node);
}
for (const [name, value] of Object.entries(node)) {
if (!name.startsWith("$")) {
if (isAstNode(value)) {
copy[name] = copyAstNode(value, buildReference, trace);
} else if (isReference(value)) {
copy[name] = buildReference(copy, name, value.$refNode, value.$refText, value);
} else if (Array.isArray(value)) {
const copiedArray = [];
for (const element of value) {
if (isAstNode(element)) {
copiedArray.push(copyAstNode(element, buildReference, trace));
} else if (isReference(element)) {
copiedArray.push(buildReference(copy, name, element.$refNode, element.$refText, element));
} else {
copiedArray.push(element);
}
}
copy[name] = copiedArray;
} else {
copy[name] = value;
}
}
}
linkContentToContainer(copy, { deep: true });
return copy;
}
__name(copyAstNode, "copyAstNode");
// ../../node_modules/.pnpm/langium@4.2.0/node_modules/langium/lib/languages/generated/ast.js
var ast_exports = {};
__export(ast_exports, {
AbstractElement: () => AbstractElement,
AbstractParserRule: () => AbstractParserRule,
AbstractRule: () => AbstractRule,
AbstractType: () => AbstractType,
Action: () => Action,
Alternatives: () => Alternatives,
ArrayLiteral: () => ArrayLiteral,
ArrayType: () => ArrayType,
Assignment: () => Assignment,
BooleanLiteral: () => BooleanLiteral,
CharacterRange: () => CharacterRange,
Condition: () => Condition,
Conjunction: () => Conjunction,
CrossReference: () => CrossReference,
Disjunction: () => Disjunction,
EndOfFile: () => EndOfFile,
Grammar: () => Grammar,
GrammarImport: () => GrammarImport,
Group: () => Group,
InferredType: () => InferredType,
InfixRule: () => InfixRule,
InfixRuleOperatorList: () => InfixRuleOperatorList,
InfixRuleOperators: () => InfixRuleOperators,
Interface: () => Interface,
Keyword: () => Keyword,
LangiumGrammarAstReflection: () => LangiumGrammarAstReflection,
LangiumGrammarTerminals: () => LangiumGrammarTerminals,
NamedArgument: () => NamedArgument,
NegatedToken: () => NegatedToken,
Negation: () => Negation,
NumberLiteral: () => NumberLiteral,
Parameter: () => Parameter,
ParameterReference: () => ParameterReference,
ParserRule: () => ParserRule,
ReferenceType: () => ReferenceType,
RegexToken: () => RegexToken,
ReturnType: () => ReturnType,
RuleCall: () => RuleCall,
SimpleType: () => SimpleType,
StringLiteral: () => StringLiteral,
TerminalAlternatives: () => TerminalAlternatives,
TerminalElement: () => TerminalElement,
TerminalGroup: () => TerminalGroup,
TerminalRule: () => TerminalRule,
TerminalRuleCall: () => TerminalRuleCall,
Type: () => Type,
TypeAttribute: () => TypeAttribute,
TypeDefinition: () => TypeDefinition,
UnionType: () => UnionType,
UnorderedGroup: () => UnorderedGroup,
UntilToken: () => UntilToken,
ValueLiteral: () => ValueLiteral,
Wildcard: () => Wildcard,
isAbstractElement: () => isAbstractElement,
isAbstractParserRule: () => isAbstractParserRule,
isAbstractRule: () => isAbstractRule,
isAbstractType: () => isAbstractType,
isAction: () => isAction,
isAlternatives: () => isAlternatives,
isArrayLiteral: () => isArrayLiteral,
isArrayType: () => isArrayType,
isAssignment: () => isAssignment,
isBooleanLiteral: () => isBooleanLiteral,
isCharacterRange: () => isCharacterRange,
isCondition: () => isCondition,
isConjunction: () => isConjunction,
isCrossReference: () => isCrossReference,
isDisjunction: () => isDisjunction,
isEndOfFile: () => isEndOfFile,
isGrammar: () => isGrammar,
isGrammarImport: () => isGrammarImport,
isGroup: () => isGroup,
isInferredType: () => isInferredType,
isInfixRule: () => isInfixRule,
isInfixRuleOperatorList: () => isInfixRuleOperatorList,
isInfixRuleOperators: () => isInfixRuleOperators,
isInterface: () => isInterface,
isKeyword: () => isKeyword,
isNamedArgument: () => isNamedArgument,
isNegatedToken: () => isNegatedToken,
isNegation: () => isNegation,
isNumberLiteral: () => isNumberLiteral,
isParameter: () => isParameter,
isParameterReference: () => isParameterReference,
isParserRule: () => isParserRule,
isReferenceType: () => isReferenceType,
isRegexToken: () => isRegexToken,
isReturnType: () => isReturnType,
isRuleCall: () => isRuleCall,
isSimpleType: () => isSimpleType,
isStringLiteral: () => isStringLiteral,
isTerminalAlternatives: () => isTerminalAlternatives,
isTerminalElement: () => isTerminalElement,
isTerminalGroup: () => isTerminalGroup,
isTerminalRule: () => isTerminalRule,
isTerminalRuleCall: () => isTerminalRuleCall,
isType: () => isType,
isTypeAttribute: () => isTypeAttribute,
isTypeDefinition: () => isTypeDefinition,
isUnionType: () => isUnionType,
isUnorderedGroup: () => isUnorderedGroup,
isUntilToken: () => isUntilToken,
isValueLiteral: () => isValueLiteral,
isWildcard: () => isWildcard,
reflection: () => reflection
});
var LangiumGrammarTerminals = {
ID: /\^?[_a-zA-Z][\w_]*/,
STRING: /"(\\.|[^"\\])*"|'(\\.|[^'\\])*'/,
NUMBER: /NaN|-?((\d*\.\d+|\d+)([Ee][+-]?\d+)?|Infinity)/,
RegexLiteral: /\/(?![*+?])(?:[^\r\n\[/\\]|\\.|\[(?:[^\r\n\]\\]|\\.)*\])+\/[a-z]*/,
WS: /\s+/,
ML_COMMENT: /\/\*[\s\S]*?\*\//,
SL_COMMENT: /\/\/[^\n\r]*/
};
var AbstractElement = {
$type: "AbstractElement",
cardinality: "cardinality"
};
function isAbstractElement(item) {
return reflection.isInstance(item, AbstractElement.$type);
}
__name(isAbstractElement, "isAbstractElement");
var AbstractParserRule = {
$type: "AbstractParserRule"
};
function isAbstractParserRule(item) {
return reflection.isInstance(item, AbstractParserRule.$type);
}
__name(isAbstractParserRule, "isAbstractParserRule");
var AbstractRule = {
$type: "AbstractRule"
};
function isAbstractRule(item) {
return reflection.isInstance(item, AbstractRule.$type);
}
__name(isAbstractRule, "isAbstractRule");
var AbstractType = {
$type: "AbstractType"
};
function isAbstractType(item) {
return reflection.isInstance(item, AbstractType.$type);
}
__name(isAbstractType, "isAbstractType");
var Action = {
$type: "Action",
cardinality: "cardinality",
feature: "feature",
inferredType: "inferredType",
operator: "operator",
type: "type"
};
function isAction(item) {
return reflection.isInstance(item, Action.$type);
}
__name(isAction, "isAction");
var Alternatives = {
$type: "Alternatives",
cardinality: "cardinality",
elements: "elements"
};
function isAlternatives(item) {
return reflection.isInstance(item, Alternatives.$type);
}
__name(isAlternatives, "isAlternatives");
var ArrayLiteral = {
$type: "ArrayLiteral",
elements: "elements"
};
function isArrayLiteral(item) {
return reflection.isInstance(item, ArrayLiteral.$type);
}
__name(isArrayLiteral, "isArrayLiteral");
var ArrayType = {
$type: "ArrayType",
elementType: "elementType"
};
function isArrayType(item) {
return reflection.isInstance(item, ArrayType.$type);
}
__name(isArrayType, "isArrayType");
var Assignment = {
$type: "Assignment",
cardinality: "cardinality",
feature: "feature",
operator: "operator",
predicate: "predicate",
terminal: "terminal"
};
function isAssignment(item) {
return reflection.isInstance(item, Assignment.$type);
}
__name(isAssignment, "isAssignment");
var BooleanLiteral = {
$type: "BooleanLiteral",
true: "true"
};
function isBooleanLiteral(item) {
return reflection.isInstance(item, BooleanLiteral.$type);
}
__name(isBooleanLiteral, "isBooleanLiteral");
var CharacterRange = {
$type: "CharacterRange",
cardinality: "cardinality",
left: "left",
lookahead: "lookahead",
parenthesized: "parenthesized",
right: "right"
};
function isCharacterRange(item) {
return reflection.isInstance(item, CharacterRange.$type);
}
__name(isCharacterRange, "isCharacterRange");
var Condition = {
$type: "Condition"
};
function isCondition(item) {
return reflection.isInstance(item, Condition.$type);
}
__name(isCondition, "isCondition");
var Conjunction = {
$type: "Conjunction",
left: "left",
right: "right"
};
function isConjunction(item) {
return reflection.isInstance(item, Conjunction.$type);
}
__name(isConjunction, "isConjunction");
var CrossReference = {
$type: "CrossReference",
cardinality: "cardinality",
deprecatedSyntax: "deprecatedSyntax",
isMulti: "isMulti",
terminal: "terminal",
type: "type"
};
function isCrossReference(item) {
return reflection.isInstance(item, CrossReference.$type);
}
__name(isCrossReference, "isCrossReference");
var Disjunction = {
$type: "Disjunction",
left: "left",
right: "right"
};
function isDisjunction(item) {
return reflection.isInstance(item, Disjunction.$type);
}
__name(isDisjunction, "isDisjunction");
var EndOfFile = {
$type: "EndOfFile",
cardinality: "cardinality"
};
function isEndOfFile(item) {
return reflection.isInstance(item, EndOfFile.$type);
}
__name(isEndOfFile, "isEndOfFile");
var Grammar = {
$type: "Grammar",
imports: "imports",
interfaces: "interfaces",
isDeclared: "isDeclared",
name: "name",
rules: "rules",
types: "types"
};
function isGrammar(item) {
return reflection.isInstance(item, Grammar.$type);
}
__name(isGrammar, "isGrammar");
var GrammarImport = {
$type: "GrammarImport",
path: "path"
};
function isGrammarImport(item) {
return reflection.isInstance(item, GrammarImport.$type);
}
__name(isGrammarImport, "isGrammarImport");
var Group = {
$type: "Group",
cardinality: "cardinality",
elements: "elements",
guardCondition: "guardCondition",
predicate: "predicate"
};
function isGroup(item) {
return reflection.isInstance(item, Group.$type);
}
__name(isGroup, "isGroup");
var InferredType = {
$type: "InferredType",
name: "name"
};
function isInferredType(item) {
return reflection.isInstance(item, InferredType.$type);
}
__name(isInferredType, "isInferredType");
var InfixRule = {
$type: "InfixRule",
call: "call",
dataType: "dataType",
inferredType: "inferredType",
name: "name",
operators: "operators",
parameters: "parameters",
returnType: "returnType"
};
function isInfixRule(item) {
return reflection.isInstance(item, InfixRule.$type);
}
__name(isInfixRule, "isInfixRule");
var InfixRuleOperatorList = {
$type: "InfixRuleOperatorList",
associativity: "associativity",
operators: "operators"
};
function isInfixRuleOperatorList(item) {
return reflection.isInstance(item, InfixRuleOperatorList.$type);
}
__name(isInfixRuleOperatorList, "isInfixRuleOperatorList");
var InfixRuleOperators = {
$type: "InfixRuleOperators",
precedences: "precedences"
};
function isInfixRuleOperators(item) {
return reflection.isInstance(item, InfixRuleOperators.$type);
}
__name(isInfixRuleOperators, "isInfixRuleOperators");
var Interface = {
$type: "Interface",
attributes: "attributes",
name: "name",
superTypes: "superTypes"
};
function isInterface(item) {
return reflection.isInstance(item, Interface.$type);
}
__name(isInterface, "isInterface");
var Keyword = {
$type: "Keyword",
cardinality: "cardinality",
predicate: "predicate",
value: "value"
};
function isKeyword(item) {
return reflection.isInstance(item, Keyword.$type);
}
__name(isKeyword, "isKeyword");
var NamedArgument = {
$type: "NamedArgument",
calledByName: "calledByName",
parameter: "parameter",
value: "value"
};
function isNamedArgument(item) {
return reflection.isInstance(item, NamedArgument.$type);
}
__name(isNamedArgument, "isNamedArgument");
var NegatedToken = {
$type: "NegatedToken",
cardinality: "cardinality",
lookahead: "lookahead",
parenthesized: "parenthesized",
terminal: "terminal"
};
function isNegatedToken(item) {
return reflection.isInstance(item, NegatedToken.$type);
}
__name(isNegatedToken, "isNegatedToken");
var Negation = {
$type: "Negation",
value: "value"
};
function isNegation(item) {
return reflection.isInstance(item, Negation.$type);
}
__name(isNegation, "isNegation");
var NumberLiteral = {
$type: "NumberLiteral",
value: "value"
};
function isNumberLiteral(item) {
return reflection.isInstance(item, NumberLiteral.$type);
}
__name(isNumberLiteral, "isNumberLiteral");
var Parameter = {
$type: "Parameter",
name: "name"
};
function isParameter(item) {
return reflection.isInstance(item, Parameter.$type);
}
__name(isParameter, "isParameter");
var ParameterReference = {
$type: "ParameterReference",
parameter: "parameter"
};
function isParameterReference(item) {
return reflection.isInstance(item, ParameterReference.$type);
}
__name(isParameterReference, "isParameterReference");
var ParserRule = {
$type: "ParserRule",
dataType: "dataType",
definition: "definition",
entry: "entry",
fragment: "fragment",
inferredType: "inferredType",
name: "name",
parameters: "parameters",
returnType: "returnType"
};
function isParserRule(item) {
return reflection.isInstance(item, ParserRule.$type);
}
__name(isParserRule, "isParserRule");
var ReferenceType = {
$type: "ReferenceType",
isMulti: "isMulti",
referenceType: "referenceType"
};
function isReferenceType(item) {
return reflection.isInstance(item, ReferenceType.$type);
}
__name(isReferenceType, "isReferenceType");
var RegexToken = {
$type: "RegexToken",
cardinality: "cardinality",
lookahead: "lookahead",
parenthesized: "parenthesized",
regex: "regex"
};
function isRegexToken(item) {
return reflection.isInstance(item, RegexToken.$type);
}
__name(isRegexToken, "isRegexToken");
var ReturnType = {
$type: "ReturnType",
name: "name"
};
function isReturnType(item) {
return reflection.isInstance(item, ReturnType.$type);
}
__name(isReturnType, "isReturnType");
var RuleCall = {
$type: "RuleCall",
arguments: "arguments",
cardinality: "cardinality",
predicate: "predicate",
rule: "rule"
};
function isRuleCall(item) {
return reflection.isInstance(item, RuleCall.$type);
}
__name(isRuleCall, "isRuleCall");
var SimpleType = {
$type: "SimpleType",
primitiveType: "primitiveType",
stringType: "stringType",
typeRef: "typeRef"
};
function isSimpleType(item) {
return reflection.isInstance(item, SimpleType.$type);
}
__name(isSimpleType, "isSimpleType");
var StringLiteral = {
$type: "StringLiteral",
value: "value"
};
function isStringLiteral(item) {
return reflection.isInstance(item, StringLiteral.$type);
}
__name(isStringLiteral, "isStringLiteral");
var TerminalAlternatives = {
$type: "TerminalAlternatives",
cardinality: "cardinality",
elements: "elements",
lookahead: "lookahead",
parenthesized: "parenthesized"
};
function isTerminalAlternatives(item) {
return reflection.isInstance(item, TerminalAlternatives.$type);
}
__name(isTerminalAlternatives, "isTerminalAlternatives");
var TerminalElement = {
$type: "TerminalElement",
cardinality: "cardinality",
lookahead: "lookahead",
parenthesized: "parenthesized"
};
function isTerminalElement(item) {
return reflection.isInstance(item, TerminalElement.$type);
}
__name(isTerminalElement, "isTerminalElement");
var TerminalGroup = {
$type: "TerminalGroup",
cardinality: "cardinality",
elements: "elements",
lookahead: "lookahead",
parenthesized: "parenthesized"
};
function isTerminalGroup(item) {
return reflection.isInstance(item, TerminalGroup.$type);
}
__name(isTerminalGroup, "isTerminalGroup");
var TerminalRule = {
$type: "TerminalRule",
definition: "definition",
fragment: "fragment",
hidden: "hidden",
name: "name",
type: "type"
};
function isTerminalRule(item) {
return reflection.isInstance(item, TerminalRule.$type);
}
__name(isTerminalRule, "isTerminalRule");
var TerminalRuleCall = {
$type: "TerminalRuleCall",
cardinality: "cardinality",
lookahead: "lookahead",
parenthesized: "parenthesized",
rule: "rule"
};
function isTerminalRuleCall(item) {
return reflection.isInstance(item, TerminalRuleCall.$type);
}
__name(isTerminalRuleCall, "isTerminalRuleCall");
var Type = {
$type: "Type",
name: "name",
type: "type"
};
function isType(item) {
return reflection.isInstance(item, Type.$type);
}
__name(isType, "isType");
var TypeAttribute = {
$type: "TypeAttribute",
defaultValue: "defaultValue",
isOptional: "isOptional",
name: "name",
type: "type"
};
function isTypeAttribute(item) {
return reflection.isInstance(item, TypeAttribute.$type);
}
__name(isTypeAttribute, "isTypeAttribute");
var TypeDefinition = {
$type: "TypeDefinition"
};
function isTypeDefinition(item) {
return reflection.isInstance(item, TypeDefinition.$type);
}
__name(isTypeDefinition, "isTypeDefinition");
var UnionType = {
$type: "UnionType",
types: "types"
};
function isUnionType(item) {
return reflection.isInstance(item, UnionType.$type);
}
__name(isUnionType, "isUnionType");
var UnorderedGroup = {
$type: "UnorderedGroup",
cardinality: "cardinality",
elements: "elements"
};
function isUnorderedGroup(item) {
return reflection.isInstance(item, UnorderedGroup.$type);
}
__name(isUnorderedGroup, "isUnorderedGroup");
var UntilToken = {
$type: "UntilToken",
cardinality: "cardinality",
lookahead: "lookahead",
parenthesized: "parenthesized",
terminal: "terminal"
};
function isUntilToken(item) {
return reflection.isInstance(item, UntilToken.$type);
}
__name(isUntilToken, "isUntilToken");
var ValueLiteral = {
$type: "ValueLiteral"
};
function isValueLiteral(item) {
return reflection.isInstance(item, ValueLiteral.$type);
}
__name(isValueLiteral, "isValueLiteral");
var Wildcard = {
$type: "Wildcard",
cardinality: "cardinality",
lookahead: "lookahead",
parenthesized: "parenthesized"
};
function isWildcard(item) {
return reflection.isInstance(item, Wildcard.$type);
}
__name(isWildcard, "isWildcard");
var LangiumGrammarAstReflection = class extends AbstractAstReflection {
static {
__name(this, "LangiumGrammarAstReflection");
}
constructor() {
super(...arguments);
this.types = {
AbstractElement: {
name: AbstractElement.$type,
properties: {
cardinality: {
name: AbstractElement.cardinality
}
},
superTypes: []
},
AbstractParserRule: {
name: AbstractParserRule.$type,
properties: {},
superTypes: [AbstractRule.$type, AbstractType.$type]
},
AbstractRule: {
name: AbstractRule.$type,
properties: {},
superTypes: []
},
AbstractType: {
name: AbstractType.$type,
properties: {},
superTypes: []
},
Action: {
name: Action.$type,
properties: {
cardinality: {
name: Action.cardinality
},
feature: {
name: Action.feature
},
inferredType: {
name: Action.inferredType
},
operator: {
name: Action.operator
},
type: {
name: Action.type,
referenceType: AbstractType.$type
}
},
superTypes: [AbstractElement.$type]
},
Alternatives: {
name: Alternatives.$type,
properties: {
cardinality: {
name: Alternatives.cardinality
},
elements: {
name: Alternatives.elements,
defaultValue: []
}
},
superTypes: [AbstractElement.$type]
},
ArrayLiteral: {
name: ArrayLiteral.$type,
properties: {
elements: {
name: ArrayLiteral.elements,
defaultValue: []
}
},
superTypes: [ValueLiteral.$type]
},
ArrayType: {
name: ArrayType.$type,
properties: {
elementType: {
name: ArrayType.elementType
}
},
superTypes: [TypeDefinition.$type]
},
Assignment: {
name: Assignment.$type,
properties: {
cardinality: {
name: Assignment.cardinality
},
feature: {
name: Assignment.feature
},
operator: {
name: Assignment.operator
},
predicate: {
name: Assignment.predicate
},
terminal: {
name: Assignment.terminal
}
},
superTypes: [AbstractElement.$type]
},
BooleanLiteral: {
name: BooleanLiteral.$type,
properties: {
true: {
name: BooleanLiteral.true,
defaultValue: false
}
},
superTypes: [Condition.$type, ValueLiteral.$type]
},
CharacterRange: {
name: CharacterRange.$type,
properties: {
cardinality: {
name: CharacterRange.cardinality
},
left: {
name: CharacterRange.left
},
lookahead: {
name: CharacterRange.lookahead
},
parenthesized: {
name: CharacterRange.parenthesized,
defaultValue: false
},
right: {
name: CharacterRange.right
}
},
superTypes: [TerminalElement.$type]
},
Condition: {
name: Condition.$type,
properties: {},
superTypes: []
},
Conjunction: {
name: Conjunction.$type,
properties: {
left: {
name: Conjunction.left
},
right: {
name: Conjunction.right
}
},
superTypes: [Condition.$type]
},
CrossReference: {
name: CrossReference.$type,
properties: {
cardinality: {
name: CrossReference.cardinality
},
deprecatedSyntax: {
name: CrossReference.deprecatedSyntax,
defaultValue: false
},
isMulti: {
name: CrossReference.isMulti,
defaultValue: false
},
terminal: {
name: CrossReference.terminal
},
type: {
name: CrossReference.type,
referenceType: AbstractType.$type
}
},
superTypes: [AbstractElement.$type]
},
Disjunction: {
name: Disjunction.$type,
properties: {
left: {
name: Disjunction.left
},
right: {
name: Disjunction.right
}
},
superTypes: [Condition.$type]
},
EndOfFile: {
name: EndOfFile.$type,
properties: {
cardinality: {
name: EndOfFile.cardinality
}
},
superTypes: [AbstractElement.$type]
},
Grammar: {
name: Grammar.$type,
properties: {
imports: {
name: Grammar.imports,
defaultValue: []
},
interfaces: {
name: Grammar.interfaces,
defaultValue: []
},
isDeclared: {
name: Grammar.isDeclared,
defaultValue: false
},
name: {
name: Grammar.name
},
rules: {
name: Grammar.rules,
defaultValue: []
},
types: {
name: Grammar.types,
defaultValue: []
}
},
superTypes: []
},
GrammarImport: {
name: GrammarImport.$type,
properties: {
path: {
name: GrammarImport.path
}
},
superTypes: []
},
Group: {
name: Group.$type,
properties: {
cardinality: {
name: Group.cardinality
},
elements: {
name: Group.elements,
defaultValue: []
},
guardCondition: {
name: Group.guardCondition
},
predicate: {
name: Group.predicate
}
},
superTypes: [AbstractElement.$type]
},
InferredType: {
name: InferredType.$type,
properties: {
name: {
name: InferredType.name
}
},
superTypes: [AbstractType.$type]
},
InfixRule: {
name: InfixRule.$type,
properties: {
call: {
name: InfixRule.call
},
dataType: {
name: InfixRule.dataType
},
inferredType: {
name: InfixRule.inferredType
},
name: {
name: InfixRule.name
},
operators: {
name: InfixRule.operators
},
parameters: {
name: InfixRule.parameters,
defaultValue: []
},
returnType: {
name: InfixRule.returnType,
referenceType: AbstractType.$type
}
},
superTypes: [AbstractParserRule.$type]
},
InfixRuleOperatorList: {
name: InfixRuleOperatorList.$type,
properties: {
associativity: {
name: InfixRuleOperatorList.associativity
},
operators: {
name: InfixRuleOperatorList.operators,
defaultValue: []
}
},
superTypes: []
},
InfixRuleOperators: {
name: InfixRuleOperators.$type,
properties: {
precedences: {
name: InfixRuleOperators.precedences,
defaultValue: []
}
},
superTypes: []
},
Interface: {
name: Interface.$type,
properties: {
attributes: {
name: Interface.attributes,
defaultValue: []
},
name: {
name: Interface.name
},
superTypes: {
name: Interface.superTypes,
defaultValue: [],
referenceType: AbstractType.$type
}
},
superTypes: [AbstractType.$type]
},
Keyword: {
name: Keyword.$type,
properties: {
cardinality: {
name: Keyword.cardinality
},
predicate: {
name: Keyword.predicate
},
value: {
name: Keyword.value
}
},
superTypes: [AbstractElement.$type]
},
NamedArgument: {
name: NamedArgument.$type,
properties: {
calledByName: {
name: NamedArgument.calledByName,
defaultValue: false
},
parameter: {
name: NamedArgument.parameter,
referenceType: Parameter.$type
},
value: {
name: NamedArgument.value
}
},
superTypes: []
},
NegatedToken: {
name: NegatedToken.$type,
properties: {
cardinality: {
name: NegatedToken.cardinality
},
lookahead: {
name: NegatedToken.lookahead
},
parenthesized: {
name: NegatedToken.parenthesized,
defaultValue: false
},
terminal: {
name: NegatedToken.terminal
}
},
superTypes: [TerminalElement.$type]
},
Negation: {
name: Negation.$type,
properties: {
value: {
name: Negation.value
}
},
superTypes: [Condition.$type]
},
NumberLiteral: {
name: NumberLiteral.$type,
properties: {
value: {
name: NumberLiteral.value
}
},
superTypes: [ValueLiteral.$type]
},
Parameter: {
name: Parameter.$type,
properties: {
name: {
name: Parameter.name
}
},
superTypes: []
},
ParameterReference: {
name: ParameterReference.$type,
properties: {
parameter: {
name: ParameterReference.parameter,
referenceType: Parameter.$type
}
},
superTypes: [Condition.$type]
},
ParserRule: {
name: ParserRule.$type,
properties: {
dataType: {
name: ParserRule.dataType
},
definition: {
name: ParserRule.definition
},
entry: {
name: ParserRule.entry,
defaultValue: false
},
fragment: {
name: ParserRule.fragment,
defaultValue: false
},
inferredType: {
name: ParserRule.inferredType
},
name: {
name: ParserRule.name
},
parameters: {
name: ParserRule.parameters,
defaultValue: []
},
returnType: {
name: ParserRule.returnType,
referenceType: AbstractType.$type
}
},
superTypes: [AbstractParserRule.$type]
},
ReferenceType: {
name: ReferenceType.$type,
properties: {
isMulti: {
name: ReferenceType.isMulti,
defaultValue: false
},
referenceType: {
name: ReferenceType.referenceType
}
},
superTypes: [TypeDefinition.$type]
},
RegexToken: {
name: RegexToken.$type,
properties: {
cardinality: {
name: RegexToken.cardinality
},
lookahead: {
name: RegexToken.lookahead
},
parenthesized: {
name: RegexToken.parenthesized,
defaultValue: false
},
regex: {
name: RegexToken.regex
}
},
superTypes: [TerminalElement.$type]
},
ReturnType: {
name: ReturnType.$type,
properties: {
name: {
name: ReturnType.name
}
},
superTypes: []
},
RuleCall: {
name: RuleCall.$type,
properties: {
arguments: {
name: RuleCall.arguments,
defaultValue: []
},
cardinality: {
name: RuleCall.cardinality
},
predicate: {
name: RuleCall.predicate
},
rule: {
name: RuleCall.rule,
referenceType: AbstractRule.$type
}
},
superTypes: [AbstractElement.$type]
},
SimpleType: {
name: SimpleType.$type,
properties: {
primitiveType: {
name: SimpleType.primitiveType
},
stringType: {
name: SimpleType.stringType
},
typeRef: {
name: SimpleType.typeRef,
referenceType: AbstractType.$type
}
},
superTypes: [TypeDefinition.$type]
},
StringLiteral: {
name: StringLiteral.$type,
properties: {
value: {
name: StringLiteral.value
}
},
superTypes: [ValueLiteral.$type]
},
TerminalAlternatives: {
name: TerminalAlternatives.$type,
properties: {
cardinality: {
name: TerminalAlternatives.cardinality
},
elements: {
name: TerminalAlternatives.elements,
defaultValue: []
},
lookahead: {
name: TerminalAlternatives.lookahead
},
parenthesized: {
name: TerminalAlternatives.parenthesized,
defaultValue: false
}
},
superTypes: [TerminalElement.$type]
},
TerminalElement: {
name: TerminalElement.$type,
properties: {
cardinality: {
name: TerminalElement.cardinality
},
lookahead: {
name: TerminalElement.lookahead
},
parenthesized: {
name: TerminalElement.parenthesized,
defaultValue: false
}
},
superTypes: [AbstractElement.$type]
},
TerminalGroup: {
name: TerminalGroup.$type,
properties: {
cardinality: {
name: TerminalGroup.cardinality
},
elements: {
name: TerminalGroup.elements,
defaultValue: []
},
lookahead: {
name: TerminalGroup.lookahead
},
parenthesized: {
name: TerminalGroup.parenthesized,
defaultValue: false
}
},
superTypes: [TerminalElement.$type]
},
TerminalRule: {
name: TerminalRule.$type,
properties: {
definition: {
name: TerminalRule.definition
},
fragment: {
name: TerminalRule.fragment,
defaultValue: false
},
hidden: {
name: TerminalRule.hidden,
defaultValue: false
},
name: {
name: TerminalRule.name
},
type: {
name: TerminalRule.type
}
},
superTypes: [AbstractRule.$type]
},
TerminalRuleCall: {
name: TerminalRuleCall.$type,
properties: {
cardinality: {
name: TerminalRuleCall.cardinality
},
lookahead: {
name: TerminalRuleCall.lookahead
},
parenthesized: {
name: TerminalRuleCall.parenthesized,
defaultValue: false
},
rule: {
name: TerminalRuleCall.rule,
referenceType: TerminalRule.$type
}
},
superTypes: [TerminalElement.$type]
},
Type: {
name: Type.$type,
properties: {
name: {
name: Type.name
},
type: {
name: Type.type
}
},
superTypes: [AbstractType.$type]
},
TypeAttribute: {
name: TypeAttribute.$type,
properties: {
defaultValue: {
name: TypeAttribute.defaultValue
},
isOptional: {
name: TypeAttribute.isOptional,
defaultValue: false
},
name: {
name: TypeAttribute.name
},
type: {
name: TypeAttribute.type
}
},
superTypes: []
},
TypeDefinition: {
name: TypeDefinition.$type,
properties: {},
superTypes: []
},
UnionType: {
name: UnionType.$type,
properties: {
types: {
name: UnionType.types,
defaultValue: []
}
},
superTypes: [TypeDefinition.$type]
},
UnorderedGroup: {
name: UnorderedGroup.$type,
properties: {
cardinality: {
name: UnorderedGroup.cardinality
},
elements: {
name: UnorderedGroup.elements,
defaultValue: []
}
},
superTypes: [AbstractElement.$type]
},
UntilToken: {
name: UntilToken.$type,
properties: {
cardinality: {
name: UntilToken.cardinality
},
lookahead: {
name: UntilToken.lookahead
},
parenthesized: {
name: UntilToken.parenthesized,
defaultValue: false
},
terminal: {
name: UntilToken.terminal
}
},
superTypes: [TerminalElement.$type]
},
ValueLiteral: {
name: ValueLiteral.$type,
properties: {},
superTypes: []
},
Wildcard: {
name: Wildcard.$type,
properties: {
cardinality: {
name: Wildcard.cardinality
},
lookahead: {
name: Wildcard.lookahead
},
parenthesized: {
name: Wildcard.parenthesized,
defaultValue: false
}
},
superTypes: [TerminalElement.$type]
}
};
}
};
var reflection = new LangiumGrammarAstReflection();
// ../../node_modules/.pnpm/langium@4.2.0/node_modules/langium/lib/utils/cst-utils.js
function getDatatypeNode(cstNode) {
let current = cstNode;
let found = false;
while (current) {
const definingRule = getContainerOfType(current.grammarSource, isParserRule);
if (definingRule && definingRule.dataType) {
current = current.container;
found = true;
} else if (found) {
return current;
} else {
return void 0;
}
}
return void 0;
}
__name(getDatatypeNode, "getDatatypeNode");
function streamCst(node) {
return new TreeStreamImpl(node, (element) => {
if (isCompositeCstNode(element)) {
return element.content;
} else {
return [];
}
}, { includeRoot: true });
}
__name(streamCst, "streamCst");
function flattenCst(node) {
return streamCst(node).filter(isLeafCstNode);
}
__name(flattenCst, "flattenCst");
function isChildNode(child, parent) {
while (child.container) {
child = child.container;
if (child === parent) {
return true;
}
}
return false;
}
__name(isChildNode, "isChildNode");
function tokenToRange(token) {
return {
start: {
character: token.startColumn - 1,
line: token.startLine - 1
},
end: {
character: token.endColumn,
// endColumn uses the correct index
line: token.endLine - 1
}
};
}
__name(tokenToRange, "tokenToRange");
function toDocumentSegment(node) {
if (!node) {
return void 0;
}
const { offset, end, range } = node;
return {
range,
offset,
end,
length: end - offset
};
}
__name(toDocumentSegment, "toDocumentSegment");
var RangeComparison;
(function(RangeComparison2) {
RangeComparison2[RangeComparison2["Before"] = 0] = "Before";
RangeComparison2[RangeComparison2["After"] = 1] = "After";
RangeComparison2[RangeComparison2["OverlapFront"] = 2] = "OverlapFront";
RangeComparison2[RangeComparison2["OverlapBack"] = 3] = "OverlapBack";
RangeComparison2[RangeComparison2["Inside"] = 4] = "Inside";
RangeComparison2[RangeComparison2["Outside"] = 5] = "Outside";
})(RangeComparison || (RangeComparison = {}));
function compareRange(range, to) {
if (range.end.line < to.start.line || range.end.line === to.start.line && range.end.character <= to.start.character) {
return RangeComparison.Before;
} else if (range.start.line > to.end.line || range.start.line === to.end.line && range.start.character >= to.end.character) {
return RangeComparison.After;
}
const startInside = range.start.line > to.start.line || range.start.line === to.start.line && range.start.character >= to.start.character;
const endInside = range.end.line < to.end.line || range.end.line === to.end.line && range.end.character <= to.end.character;
if (startInside && endInside) {
return RangeComparison.Inside;
} else if (startInside) {
return RangeComparison.OverlapBack;
} else if (endInside) {
return RangeComparison.OverlapFront;
} else {
return RangeComparison.Outside;
}
}
__name(compareRange, "compareRange");
function inRange(range, to) {
const comparison = compareRange(range, to);
return comparison > RangeComparison.After;
}
__name(inRange, "inRange");
var DefaultNameRegexp = /^[\w\p{L}]$/u;
function findDeclarationNodeAtOffset(cstNode, offset, nameRegexp = DefaultNameRegexp) {
if (cstNode) {
if (offset > 0) {
const localOffset = offset - cstNode.offset;
const textAtOffset = cstNode.text.charAt(localOffset);
if (!nameRegexp.test(textAtOffset)) {
offset--;
}
}
return findLeafNodeAtOffset(cstNode, offset);
}
return void 0;
}
__name(findDeclarationNodeAtOffset, "findDeclarationNodeAtOffset");
function findCommentNode(cstNode, commentNames) {
if (cstNode) {
const previous = getPreviousNode(cstNode, true);
if (previous && isCommentNode(previous, commentNames)) {
return previous;
}
if (isRootCstNode(cstNode)) {
const endIndex = cstNode.content.findIndex((e) => !e.hidden);
for (let i = endIndex - 1; i >= 0; i--) {
const child = cstNode.content[i];
if (isCommentNode(child, commentNames)) {
return child;
}
}
}
}
return void 0;
}
__name(findCommentNode, "findCommentNode");
function isCommentNode(cstNode, commentNames) {
return isLeafCstNode(cstNode) && commentNames.includes(cstNode.tokenType.name);
}
__name(isCommentNode, "isCommentNode");
function findLeafNodeAtOffset(node, offset) {
if (isLeafCstNode(node)) {
return node;
} else if (isCompositeCstNode(node)) {
const searchResult = binarySearch(node, offset, false);
if (searchResult) {
return findLeafNodeAtOffset(searchResult, offset);
}
}
return void 0;
}
__name(findLeafNodeAtOffset, "findLeafNodeAtOffset");
function findLeafNodeBeforeOffset(node, offset) {
if (isLeafCstNode(node)) {
return node;
} else if (isCompositeCstNode(node)) {
const searchResult = binarySearch(node, offset, true);
if (searchResult) {
return findLeafNodeBeforeOffset(searchResult, offset);
}
}
return void 0;
}
__name(findLeafNodeBeforeOffset, "findLeafNodeBeforeOffset");
function binarySearch(node, offset, closest) {
let left = 0;
let right = node.content.length - 1;
let closestNode = void 0;
while (left <= right) {
const middle = Math.floor((left + right) / 2);
const middleNode = node.content[middle];
if (middleNode.offset <= offset && middleNode.end > offset) {
return middleNode;
}
if (middleNode.end <= offset) {
closestNode = closest ? middleNode : void 0;
left = middle + 1;
} else {
right = middle - 1;
}
}
return closestNode;
}
__name(binarySearch, "binarySearch");
function getPreviousNode(node, hidden = true) {
while (node.container) {
const parent = node.container;
let index = parent.content.indexOf(node);
while (index > 0) {
index--;
const previous = parent.content[index];
if (hidden || !previous.hidden) {
return previous;
}
}
node = parent;
}
return void 0;
}
__name(getPreviousNode, "getPreviousNode");
function getNextNode(node, hidden = true) {
while (node.container) {
const parent = node.container;
let index = parent.content.indexOf(node);
const last2 = parent.content.length - 1;
while (index < last2) {
index++;
const next = parent.content[index];
if (hidden || !next.hidden) {
return next;
}
}
node = parent;
}
return void 0;
}
__name(getNextNode, "getNextNode");
function getStartlineNode(node) {
if (node.range.start.character === 0) {
return node;
}
const line = node.range.start.line;
let last2 = node;
let index;
while (node.container) {
const parent = node.container;
const selfIndex = index ?? parent.content.indexOf(node);
if (selfIndex === 0) {
node = parent;
index = void 0;
} else {
index = selfIndex - 1;
node = parent.content[index];
}
if (node.range.start.line !== line) {
break;
}
last2 = node;
}
return last2;
}
__name(getStartlineNode, "getStartlineNode");
function getInteriorNodes(start, end) {
const commonParent = getCommonParent(start, end);
if (!commonParent) {
return [];
}
return commonParent.parent.content.slice(commonParent.a + 1, commonParent.b);
}
__name(getInteriorNodes, "getInteriorNodes");
function getCommonParent(a, b) {
const aParents = getParentChain(a);
const bParents = getParentChain(b);
let current;
for (let i = 0; i < aParents.length && i < bParents.length; i++) {
const aParent = aParents[i];
const bParent = bParents[i];
if (aParent.parent === bParent.parent) {
current = {
parent: aParent.parent,
a: aParent.index,
b: bParent.index
};
} else {
break;
}
}
return current;
}
__name(getCommonParent, "getCommonParent");
function getParentChain(node) {
const chain = [];
while (node.container) {
const parent = node.container;
const index = parent.content.indexOf(node);
chain.push({
parent,
index
});
node = parent;
}
return chain.reverse();
}
__name(getParentChain, "getParentChain");
// ../../node_modules/.pnpm/langium@4.2.0/node_modules/langium/lib/utils/grammar-utils.js
var grammar_utils_exports = {};
__export(grammar_utils_exports, {
findAssignment: () => findAssignment,
findNameAssignment: () => findNameAssignment,
findNodeForKeyword: () => findNodeForKeyword,
findNodeForProperty: () => findNodeForProperty,
findNodesForKeyword: () => findNodesForKeyword,
findNodesForKeywordInternal: () => findNodesForKeywordInternal,
findNodesForProperty: () => findNodesForProperty,
getActionAtElement: () => getActionAtElement,
getActionType: () => getActionType,
getAllReachableRules: () => getAllReachableRules,
getAllRulesUsedForCrossReferences: () => getAllRulesUsedForCrossReferences,
getCrossReferenceTerminal: () => getCrossReferenceTerminal,
getEntryRule: () => getEntryRule,
getExplicitRuleType: () => getExplicitRuleType,
getHiddenRules: () => getHiddenRules,
getRuleType: () => getRuleType,
getRuleTypeName: () => getRuleTypeName,
getTypeName: () => getTypeName,
isArrayCardinality: () => isArrayCardinality,
isArrayOperator: () => isArrayOperator,
isCommentTerminal: () => isCommentTerminal,
isDataType: () => isDataType,
isDataTypeRule: () => isDataTypeRule,
isOptionalCardinality: () => isOptionalCardinality,
terminalRegex: () => terminalRegex
});
// ../../node_modules/.pnpm/langium@4.2.0/node_modules/langium/lib/utils/errors.js
var ErrorWithLocation = class extends Error {
static {
__name(this, "ErrorWithLocation");
}
constructor(node, message) {
super(node ? `${message} at ${node.range.start.line}:${node.range.start.character}` : message);
}
};
function assertUnreachable(_, message = "Error: Got unexpected value.") {
throw new Error(message);
}
__name(assertUnreachable, "assertUnreachable");
function assertCondition(condition, message = "Error: Condition is violated.") {
if (!condition) {
throw new Error(message);
}
}
__name(assertCondition, "assertCondition");
// ../../node_modules/.pnpm/langium@4.2.0/node_modules/langium/lib/utils/regexp-utils.js
var regexp_utils_exports = {};
__export(regexp_utils_exports, {
NEWLINE_REGEXP: () => NEWLINE_REGEXP,
escapeRegExp: () => escapeRegExp,
getTerminalParts: () => getTerminalParts,
isMultilineComment: () => isMultilineComment,
isWhitespace: () => isWhitespace,
partialMatches: () => partialMatches,
partialRegExp: () => partialRegExp,
whitespaceCharacters: () => whitespaceCharacters
});
// ../../node_modules/.pnpm/@chevrotain+regexp-to-ast@11.1.1/node_modules/@chevrotain/regexp-to-ast/lib/src/utils.js
function cc(char) {
return char.charCodeAt(0);
}
__name(cc, "cc");
function insertToSet(item, set) {
if (Array.isArray(item)) {
item.forEach(function(subItem) {
set.push(subItem);
});
} else {
set.push(item);
}
}
__name(insertToSet, "insertToSet");
function addFlag(flagObj, flagKey) {
if (flagObj[flagKey] === true) {
throw "duplicate flag " + flagKey;
}
const x = flagObj[flagKey];
flagObj[flagKey] = true;
}
__name(addFlag, "addFlag");
function ASSERT_EXISTS(obj) {
if (obj === void 0) {
throw Error("Internal Error - Should never get here!");
}
return true;
}
__name(ASSERT_EXISTS, "ASSERT_EXISTS");
function ASSERT_NEVER_REACH_HERE() {
throw Error("Internal Error - Should never get here!");
}
__name(ASSERT_NEVER_REACH_HERE, "ASSERT_NEVER_REACH_HERE");
function isCharacter(obj) {
return obj["type"] === "Character";
}
__name(isCharacter, "isCharacter");
// ../../node_modules/.pnpm/@chevrotain+regexp-to-ast@11.1.1/node_modules/@chevrotain/regexp-to-ast/lib/src/character-classes.js
var digitsCharCodes = [];
for (let i = cc("0"); i <= cc("9"); i++) {
digitsCharCodes.push(i);
}
var wordCharCodes = [cc("_")].concat(digitsCharCodes);
for (let i = cc("a"); i <= cc("z"); i++) {
wordCharCodes.push(i);
}
for (let i = cc("A"); i <= cc("Z"); i++) {
wordCharCodes.push(i);
}
var whitespaceCodes = [
cc(" "),
cc("\f"),
cc("\n"),
cc("\r"),
cc(" "),
cc("\v"),
cc(" "),
cc("\xA0"),
cc("\u1680"),
cc("\u2000"),
cc("\u2001"),
cc("\u2002"),
cc("\u2003"),
cc("\u2004"),
cc("\u2005"),
cc("\u2006"),
cc("\u2007"),
cc("\u2008"),
cc("\u2009"),
cc("\u200A"),
cc("\u2028"),
cc("\u2029"),
cc("\u202F"),
cc("\u205F"),
cc("\u3000"),
cc("\uFEFF")
];
// ../../node_modules/.pnpm/@chevrotain+regexp-to-ast@11.1.1/node_modules/@chevrotain/regexp-to-ast/lib/src/regexp-parser.js
var hexDigitPattern = /[0-9a-fA-F]/;
var decimalPattern = /[0-9]/;
var decimalPatternNoZero = /[1-9]/;
var RegExpParser = class {
static {
__name(this, "RegExpParser");
}
constructor() {
this.idx = 0;
this.input = "";
this.groupIdx = 0;
}
saveState() {
return {
idx: this.idx,
input: this.input,
groupIdx: this.groupIdx
};
}
restoreState(newState2) {
this.idx = newState2.idx;
this.input = newState2.input;
this.groupIdx = newState2.groupIdx;
}
pattern(input) {
this.idx = 0;
this.input = input;
this.groupIdx = 0;
this.consumeChar("/");
const value = this.disjunction();
this.consumeChar("/");
const flags = {
type: "Flags",
loc: { begin: this.idx, end: input.length },
global: false,
ignoreCase: false,
multiLine: false,
unicode: false,
sticky: false
};
while (this.isRegExpFlag()) {
switch (this.popChar()) {
case "g":
addFlag(flags, "global");
break;
case "i":
addFlag(flags, "ignoreCase");
break;
case "m":
addFlag(flags, "multiLine");
break;
case "u":
addFlag(flags, "unicode");
break;
case "y":
addFlag(flags, "sticky");
break;
}
}
if (this.idx !== this.input.length) {
throw Error("Redundant input: " + this.input.substring(this.idx));
}
return {
type: "Pattern",
flags,
value,
loc: this.loc(0)
};
}
disjunction() {
const alts = [];
const begin = this.idx;
alts.push(this.alternative());
while (this.peekChar() === "|") {
this.consumeChar("|");
alts.push(this.alternative());
}
return { type: "Disjunction", value: alts, loc: this.loc(begin) };
}
alternative() {
const terms = [];
const begin = this.idx;
while (this.isTerm()) {
terms.push(this.term());
}
return { type: "Alternative", value: terms, loc: this.loc(begin) };
}
term() {
if (this.isAssertion()) {
return this.assertion();
} else {
return this.atom();
}
}
assertion() {
const begin = this.idx;
switch (this.popChar()) {
case "^":
return {
type: "StartAnchor",
loc: this.loc(begin)
};
case "$":
return { type: "EndAnchor", loc: this.loc(begin) };
// '\b' or '\B'
case "\\":
switch (this.popChar()) {
case "b":
return {
type: "WordBoundary",
loc: this.loc(begin)
};
case "B":
return {
type: "NonWordBoundary",
loc: this.loc(begin)
};
}
throw Error("Invalid Assertion Escape");
// '(?=' or '(?!'
case "(":
this.consumeChar("?");
let type;
switch (this.popChar()) {
case "=":
type = "Lookahead";
break;
case "!":
type = "NegativeLookahead";
break;
case "<": {
switch (this.popChar()) {
case "=":
type = "Lookbehind";
break;
case "!":
type = "NegativeLookbehind";
}
break;
}
}
ASSERT_EXISTS(type);
const disjunction = this.disjunction();
this.consumeChar(")");
return {
type,
value: disjunction,
loc: this.loc(begin)
};
}
return ASSERT_NEVER_REACH_HERE();
}
quantifier(isBacktracking = false) {
let range = void 0;
const begin = this.idx;
switch (this.popChar()) {
case "*":
range = {
atLeast: 0,
atMost: Infinity
};
break;
case "+":
range = {
atLeast: 1,
atMost: Infinity
};
break;
case "?":
range = {
atLeast: 0,
atMost: 1
};
break;
case "{":
const atLeast = this.integerIncludingZero();
switch (this.popChar()) {
case "}":
range = {
atLeast,
atMost: atLeast
};
break;
case ",":
let atMost;
if (this.isDigit()) {
atMost = this.integerIncludingZero();
range = {
atLeast,
atMost
};
} else {
range = {
atLeast,
atMost: Infinity
};
}
this.consumeChar("}");
break;
}
if (isBacktracking === true && range === void 0) {
return void 0;
}
ASSERT_EXISTS(range);
break;
}
if (isBacktracking === true && range === void 0) {
return void 0;
}
if (ASSERT_EXISTS(range)) {
if (this.peekChar(0) === "?") {
this.consumeChar("?");
range.greedy = false;
} else {
range.greedy = true;
}
range.type = "Quantifier";
range.loc = this.loc(begin);
return range;
}
}
atom() {
let atom2;
const begin = this.idx;
switch (this.peekChar()) {
case ".":
atom2 = this.dotAll();
break;
case "\\":
atom2 = this.atomEscape();
break;
case "[":
atom2 = this.characterClass();
break;
case "(":
atom2 = this.group();
break;
}
if (atom2 === void 0 && this.isPatternCharacter()) {
atom2 = this.patternCharacter();
}
if (ASSERT_EXISTS(atom2)) {
atom2.loc = this.loc(begin);
if (this.isQuantifier()) {
atom2.quantifier = this.quantifier();
}
return atom2;
}
return ASSERT_NEVER_REACH_HERE();
}
dotAll() {
this.consumeChar(".");
return {
type: "Set",
complement: true,
value: [cc("\n"), cc("\r"), cc("\u2028"), cc("\u2029")]
};
}
atomEscape() {
this.consumeChar("\\");
switch (this.peekChar()) {
case "1":
case "2":
case "3":
case "4":
case "5":
case "6":
case "7":
case "8":
case "9":
return this.decimalEscapeAtom();
case "d":
case "D":
case "s":
case "S":
case "w":
case "W":
return this.characterClassEscape();
case "f":
case "n":
case "r":
case "t":
case "v":
return this.controlEscapeAtom();
case "c":
return this.controlLetterEscapeAtom();
case "0":
return this.nulCharacterAtom();
case "x":
return this.hexEscapeSequenceAtom();
case "u":
return this.regExpUnicodeEscapeSequenceAtom();
default:
return this.identityEscapeAtom();
}
}
decimalEscapeAtom() {
const value = this.positiveInteger();
return { type: "GroupBackReference", value };
}
characterClassEscape() {
let set;
let complement = false;
switch (this.popChar()) {
case "d":
set = digitsCharCodes;
break;
case "D":
set = digitsCharCodes;
complement = true;
break;
case "s":
set = whitespaceCodes;
break;
case "S":
set = whitespaceCodes;
complement = true;
break;
case "w":
set = wordCharCodes;
break;
case "W":
set = wordCharCodes;
complement = true;
break;
}
if (ASSERT_EXISTS(set)) {
return { type: "Set", value: set, complement };
}
return ASSERT_NEVER_REACH_HERE();
}
controlEscapeAtom() {
let escapeCode;
switch (this.popChar()) {
case "f":
escapeCode = cc("\f");
break;
case "n":
escapeCode = cc("\n");
break;
case "r":
escapeCode = cc("\r");
break;
case "t":
escapeCode = cc(" ");
break;
case "v":
escapeCode = cc("\v");
break;
}
if (ASSERT_EXISTS(escapeCode)) {
return { type: "Character", value: escapeCode };
}
return ASSERT_NEVER_REACH_HERE();
}
controlLetterEscapeAtom() {
this.consumeChar("c");
const letter = this.popChar();
if (/[a-zA-Z]/.test(letter) === false) {
throw Error("Invalid ");
}
const letterCode = letter.toUpperCase().charCodeAt(0) - 64;
return { type: "Character", value: letterCode };
}
nulCharacterAtom() {
this.consumeChar("0");
return { type: "Character", value: cc("\0") };
}
hexEscapeSequenceAtom() {
this.consumeChar("x");
return this.parseHexDigits(2);
}
regExpUnicodeEscapeSequenceAtom() {
this.consumeChar("u");
return this.parseHexDigits(4);
}
identityEscapeAtom() {
const escapedChar = this.popChar();
return { type: "Character", value: cc(escapedChar) };
}
classPatternCharacterAtom() {
switch (this.peekChar()) {
// istanbul ignore next
case "\n":
// istanbul ignore next
case "\r":
// istanbul ignore next
case "\u2028":
// istanbul ignore next
case "\u2029":
// istanbul ignore next
case "\\":
// istanbul ignore next
case "]":
throw Error("TBD");
default:
const nextChar = this.popChar();
return { type: "Character", value: cc(nextChar) };
}
}
characterClass() {
const set = [];
let complement = false;
this.consumeChar("[");
if (this.peekChar(0) === "^") {
this.consumeChar("^");
complement = true;
}
while (this.isClassAtom()) {
const from = this.classAtom();
const isFromSingleChar = from.type === "Character";
if (isCharacter(from) && this.isRangeDash()) {
this.consumeChar("-");
const to = this.classAtom();
const isToSingleChar = to.type === "Character";
if (isCharacter(to)) {
if (to.value < from.value) {
throw Error("Range out of order in character class");
}
set.push({ from: from.value, to: to.value });
} else {
insertToSet(from.value, set);
set.push(cc("-"));
insertToSet(to.value, set);
}
} else {
insertToSet(from.value, set);
}
}
this.consumeChar("]");
return { type: "Set", complement, value: set };
}
classAtom() {
switch (this.peekChar()) {
// istanbul ignore next
case "]":
// istanbul ignore next
case "\n":
// istanbul ignore next
case "\r":
// istanbul ignore next
case "\u2028":
// istanbul ignore next
case "\u2029":
throw Error("TBD");
case "\\":
return this.classEscape();
default:
return this.classPatternCharacterAtom();
}
}
classEscape() {
this.consumeChar("\\");
switch (this.peekChar()) {
// Matches a backspace.
// (Not to be confused with \b word boundary outside characterClass)
case "b":
this.consumeChar("b");
return { type: "Character", value: cc("\b") };
case "d":
case "D":
case "s":
case "S":
case "w":
case "W":
return this.characterClassEscape();
case "f":
case "n":
case "r":
case "t":
case "v":
return this.controlEscapeAtom();
case "c":
return this.controlLetterEscapeAtom();
case "0":
return this.nulCharacterAtom();
case "x":
return this.hexEscapeSequenceAtom();
case "u":
return this.regExpUnicodeEscapeSequenceAtom();
default:
return this.identityEscapeAtom();
}
}
group() {
let capturing = true;
this.consumeChar("(");
switch (this.peekChar(0)) {
case "?":
this.consumeChar("?");
this.consumeChar(":");
capturing = false;
break;
default:
this.groupIdx++;
break;
}
const value = this.disjunction();
this.consumeChar(")");
const groupAst = {
type: "Group",
capturing,
value
};
if (capturing) {
groupAst["idx"] = this.groupIdx;
}
return groupAst;
}
positiveInteger() {
let number = this.popChar();
if (decimalPatternNoZero.test(number) === false) {
throw Error("Expecting a positive integer");
}
while (decimalPattern.test(this.peekChar(0))) {
number += this.popChar();
}
return parseInt(number, 10);
}
integerIncludingZero() {
let number = this.popChar();
if (decimalPattern.test(number) === false) {
throw Error("Expecting an integer");
}
while (decimalPattern.test(this.peekChar(0))) {
number += this.popChar();
}
return parseInt(number, 10);
}
patternCharacter() {
const nextChar = this.popChar();
switch (nextChar) {
// istanbul ignore next
case "\n":
// istanbul ignore next
case "\r":
// istanbul ignore next
case "\u2028":
// istanbul ignore next
case "\u2029":
// istanbul ignore next
case "^":
// istanbul ignore next
case "$":
// istanbul ignore next
case "\\":
// istanbul ignore next
case ".":
// istanbul ignore next
case "*":
// istanbul ignore next
case "+":
// istanbul ignore next
case "?":
// istanbul ignore next
case "(":
// istanbul ignore next
case ")":
// istanbul ignore next
case "[":
// istanbul ignore next
case "|":
throw Error("TBD");
default:
return { type: "Character", value: cc(nextChar) };
}
}
isRegExpFlag() {
switch (this.peekChar(0)) {
case "g":
case "i":
case "m":
case "u":
case "y":
return true;
default:
return false;
}
}
isRangeDash() {
return this.peekChar() === "-" && this.isClassAtom(1);
}
isDigit() {
return decimalPattern.test(this.peekChar(0));
}
isClassAtom(howMuch = 0) {
switch (this.peekChar(howMuch)) {
case "]":
case "\n":
case "\r":
case "\u2028":
case "\u2029":
return false;
default:
return true;
}
}
isTerm() {
return this.isAtom() || this.isAssertion();
}
isAtom() {
if (this.isPatternCharacter()) {
return true;
}
switch (this.peekChar(0)) {
case ".":
case "\\":
// atomEscape
case "[":
// characterClass
// TODO: isAtom must be called before isAssertion - disambiguate
case "(":
return true;
default:
return false;
}
}
isAssertion() {
switch (this.peekChar(0)) {
case "^":
case "$":
return true;
// '\b' or '\B'
case "\\":
switch (this.peekChar(1)) {
case "b":
case "B":
return true;
default:
return false;
}
// '(?=' or '(?!' or `(?<=` or `(?<!`
case "(":
return this.peekChar(1) === "?" && (this.peekChar(2) === "=" || this.peekChar(2) === "!" || this.peekChar(2) === "<" && (this.peekChar(3) === "=" || this.peekChar(3) === "!"));
default:
return false;
}
}
isQuantifier() {
const prevState = this.saveState();
try {
return this.quantifier(true) !== void 0;
} catch (e) {
return false;
} finally {
this.restoreState(prevState);
}
}
isPatternCharacter() {
switch (this.peekChar()) {
case "^":
case "$":
case "\\":
case ".":
case "*":
case "+":
case "?":
case "(":
case ")":
case "[":
case "|":
case "/":
case "\n":
case "\r":
case "\u2028":
case "\u2029":
return false;
default:
return true;
}
}
parseHexDigits(howMany) {
let hexString = "";
for (let i = 0; i < howMany; i++) {
const hexChar = this.popChar();
if (hexDigitPattern.test(hexChar) === false) {
throw Error("Expecting a HexDecimal digits");
}
hexString += hexChar;
}
const charCode = parseInt(hexString, 16);
return { type: "Character", value: charCode };
}
peekChar(howMuch = 0) {
return this.input[this.idx + howMuch];
}
popChar() {
const nextChar = this.peekChar(0);
this.consumeChar(void 0);
return nextChar;
}
consumeChar(char) {
if (char !== void 0 && this.input[this.idx] !== char) {
throw Error("Expected: '" + char + "' but found: '" + this.input[this.idx] + "' at offset: " + this.idx);
}
if (this.idx >= this.input.length) {
throw Error("Unexpected end of input");
}
this.idx++;
}
loc(begin) {
return { begin, end: this.idx };
}
};
// ../../node_modules/.pnpm/@chevrotain+regexp-to-ast@11.1.1/node_modules/@chevrotain/regexp-to-ast/lib/src/base-regexp-visitor.js
var BaseRegExpVisitor = class {
static {
__name(this, "BaseRegExpVisitor");
}
visitChildren(node) {
for (const key in node) {
const child = node[key];
if (node.hasOwnProperty(key)) {
if (child.type !== void 0) {
this.visit(child);
} else if (Array.isArray(child)) {
child.forEach((subChild) => {
this.visit(subChild);
}, this);
}
}
}
}
visit(node) {
switch (node.type) {
case "Pattern":
this.visitPattern(node);
break;
case "Flags":
this.visitFlags(node);
break;
case "Disjunction":
this.visitDisjunction(node);
break;
case "Alternative":
this.visitAlternative(node);
break;
case "StartAnchor":
this.visitStartAnchor(node);
break;
case "EndAnchor":
this.visitEndAnchor(node);
break;
case "WordBoundary":
this.visitWordBoundary(node);
break;
case "NonWordBoundary":
this.visitNonWordBoundary(node);
break;
case "Lookahead":
this.visitLookahead(node);
break;
case "NegativeLookahead":
this.visitNegativeLookahead(node);
break;
case "Lookbehind":
this.visitLookbehind(node);
break;
case "NegativeLookbehind":
this.visitNegativeLookbehind(node);
break;
case "Character":
this.visitCharacter(node);
break;
case "Set":
this.visitSet(node);
break;
case "Group":
this.visitGroup(node);
break;
case "GroupBackReference":
this.visitGroupBackReference(node);
break;
case "Quantifier":
this.visitQuantifier(node);
break;
}
this.visitChildren(node);
}
visitPattern(node) {
}
visitFlags(node) {
}
visitDisjunction(node) {
}
visitAlternative(node) {
}
// Assertion
visitStartAnchor(node) {
}
visitEndAnchor(node) {
}
visitWordBoundary(node) {
}
visitNonWordBoundary(node) {
}
visitLookahead(node) {
}
visitNegativeLookahead(node) {
}
visitLookbehind(node) {
}
visitNegativeLookbehind(node) {
}
// atoms
visitCharacter(node) {
}
visitSet(node) {
}
visitGroup(node) {
}
visitGroupBackReference(node) {
}
visitQuantifier(node) {
}
};
// ../../node_modules/.pnpm/langium@4.2.0/node_modules/langium/lib/utils/regexp-utils.js
var NEWLINE_REGEXP = /\r?\n/gm;
var regexpParser = new RegExpParser();
var TerminalRegExpVisitor = class extends BaseRegExpVisitor {
static {
__name(this, "TerminalRegExpVisitor");
}
constructor() {
super(...arguments);
this.isStarting = true;
this.endRegexpStack = [];
this.multiline = false;
}
get endRegex() {
return this.endRegexpStack.join("");
}
reset(regex) {
this.multiline = false;
this.regex = regex;
this.startRegexp = "";
this.isStarting = true;
this.endRegexpStack = [];
}
visitGroup(node) {
if (node.quantifier) {
this.isStarting = false;
this.endRegexpStack = [];
}
}
visitCharacter(node) {
const char = String.fromCharCode(node.value);
if (!this.multiline && char === "\n") {
this.multiline = true;
}
if (node.quantifier) {
this.isStarting = false;
this.endRegexpStack = [];
} else {
const escapedChar = escapeRegExp(char);
this.endRegexpStack.push(escapedChar);
if (this.isStarting) {
this.startRegexp += escapedChar;
}
}
}
visitSet(node) {
if (!this.multiline) {
const set = this.regex.substring(node.loc.begin, node.loc.end);
const regex = new RegExp(set);
this.multiline = Boolean("\n".match(regex));
}
if (node.quantifier) {
this.isStarting = false;
this.endRegexpStack = [];
} else {
const set = this.regex.substring(node.loc.begin, node.loc.end);
this.endRegexpStack.push(set);
if (this.isStarting) {
this.startRegexp += set;
}
}
}
visitChildren(node) {
if (node.type === "Group") {
const group = node;
if (group.quantifier) {
return;
}
}
super.visitChildren(node);
}
};
var visitor = new TerminalRegExpVisitor();
function getTerminalParts(regexp) {
try {
if (typeof regexp !== "string") {
regexp = regexp.source;
}
regexp = `/${regexp}/`;
const pattern = regexpParser.pattern(regexp);
const parts = [];
for (const alternative of pattern.value.value) {
visitor.reset(regexp);
visitor.visit(alternative);
parts.push({
start: visitor.startRegexp,
end: visitor.endRegex
});
}
return parts;
} catch {
return [];
}
}
__name(getTerminalParts, "getTerminalParts");
function isMultilineComment(regexp) {
try {
if (typeof regexp === "string") {
regexp = new RegExp(regexp);
}
regexp = regexp.toString();
visitor.reset(regexp);
visitor.visit(regexpParser.pattern(regexp));
return visitor.multiline;
} catch {
return false;
}
}
__name(isMultilineComment, "isMultilineComment");
var whitespaceCharacters = "\f\n\r \v \xA0\u1680\u2000\u2001\u2002\u2003\u2004\u2005\u2006\u2007\u2008\u2009\u200A\u2028\u2029\u202F\u205F\u3000\uFEFF".split("");
function isWhitespace(value) {
const regexp = typeof value === "string" ? new RegExp(value) : value;
return whitespaceCharacters.some((ws) => regexp.test(ws));
}
__name(isWhitespace, "isWhitespace");
function escapeRegExp(value) {
return value.replace(/[.*+?^${}()|[\]\\]/g, "\\$&");
}
__name(escapeRegExp, "escapeRegExp");
function partialMatches(regex, input) {
const partial = partialRegExp(regex);
const match = input.match(partial);
return !!match && match[0].length > 0;
}
__name(partialMatches, "partialMatches");
function partialRegExp(regex) {
if (typeof regex === "string") {
regex = new RegExp(regex);
}
const re = regex, source = regex.source;
let i = 0;
function process2() {
let result = "", tmp;
function appendRaw(nbChars) {
result += source.substr(i, nbChars);
i += nbChars;
}
__name(appendRaw, "appendRaw");
function appendOptional(nbChars) {
result += "(?:" + source.substr(i, nbChars) + "|$)";
i += nbChars;
}
__name(appendOptional, "appendOptional");
while (i < source.length) {
switch (source[i]) {
case "\\":
switch (source[i + 1]) {
case "c":
appendOptional(3);
break;
case "x":
appendOptional(4);
break;
case "u":
if (re.unicode) {
if (source[i + 2] === "{") {
appendOptional(source.indexOf("}", i) - i + 1);
} else {
appendOptional(6);
}
} else {
appendOptional(2);
}
break;
case "p":
case "P":
if (re.unicode) {
appendOptional(source.indexOf("}", i) - i + 1);
} else {
appendOptional(2);
}
break;
case "k":
appendOptional(source.indexOf(">", i) - i + 1);
break;
default:
appendOptional(2);
break;
}
break;
case "[":
tmp = /\[(?:\\.|.)*?\]/g;
tmp.lastIndex = i;
tmp = tmp.exec(source) || [];
appendOptional(tmp[0].length);
break;
case "|":
case "^":
case "$":
case "*":
case "+":
case "?":
appendRaw(1);
break;
case "{":
tmp = /\{\d+,?\d*\}/g;
tmp.lastIndex = i;
tmp = tmp.exec(source);
if (tmp) {
appendRaw(tmp[0].length);
} else {
appendOptional(1);
}
break;
case "(":
if (source[i + 1] === "?") {
switch (source[i + 2]) {
case ":":
result += "(?:";
i += 3;
result += process2() + "|$)";
break;
case "=":
result += "(?=";
i += 3;
result += process2() + ")";
break;
case "!":
tmp = i;
i += 3;
process2();
result += source.substr(tmp, i - tmp);
break;
case "<":
switch (source[i + 3]) {
case "=":
case "!":
tmp = i;
i += 4;
process2();
result += source.substr(tmp, i - tmp);
break;
default:
appendRaw(source.indexOf(">", i) - i + 1);
result += process2() + "|$)";
break;
}
break;
}
} else {
appendRaw(1);
result += process2() + "|$)";
}
break;
case ")":
++i;
return result;
default:
appendOptional(1);
break;
}
}
return result;
}
__name(process2, "process");
return new RegExp(process2(), regex.flags);
}
__name(partialRegExp, "partialRegExp");
// ../../node_modules/.pnpm/langium@4.2.0/node_modules/langium/lib/utils/grammar-utils.js
function getEntryRule(grammar) {
return grammar.rules.find((e) => isParserRule(e) && e.entry);
}
__name(getEntryRule, "getEntryRule");
function getHiddenRules(grammar) {
return grammar.rules.filter((e) => isTerminalRule(e) && e.hidden);
}
__name(getHiddenRules, "getHiddenRules");
function getAllReachableRules(grammar, allTerminals) {
const ruleNames = /* @__PURE__ */ new Set();
const entryRule = getEntryRule(grammar);
if (!entryRule) {
return new Set(grammar.rules);
}
const topMostRules = [entryRule].concat(getHiddenRules(grammar));
for (const rule of topMostRules) {
ruleDfs(rule, ruleNames, allTerminals);
}
const rules = /* @__PURE__ */ new Set();
for (const rule of grammar.rules) {
if (ruleNames.has(rule.name) || isTerminalRule(rule) && rule.hidden) {
rules.add(rule);
}
}
return rules;
}
__name(getAllReachableRules, "getAllReachableRules");
function ruleDfs(rule, visitedSet, allTerminals) {
visitedSet.add(rule.name);
streamAllContents(rule).forEach((node) => {
if (isRuleCall(node) || allTerminals && isTerminalRuleCall(node)) {
const refRule = node.rule.ref;
if (refRule && !visitedSet.has(refRule.name)) {
ruleDfs(refRule, visitedSet, allTerminals);
}
}
});
}
__name(ruleDfs, "ruleDfs");
function getAllRulesUsedForCrossReferences(grammar) {
const result = /* @__PURE__ */ new Set();
streamAllContents(grammar).forEach((node) => {
if (isCrossReference(node)) {
if (isParserRule(node.type.ref)) {
result.add(node.type.ref);
}
if (isInferredType(node.type.ref) && isParserRule(node.type.ref.$container)) {
result.add(node.type.ref.$container);
}
}
});
return result;
}
__name(getAllRulesUsedForCrossReferences, "getAllRulesUsedForCrossReferences");
function getCrossReferenceTerminal(crossRef) {
if (crossRef.terminal) {
return crossRef.terminal;
} else if (crossRef.type.ref) {
const nameAssigment = findNameAssignment(crossRef.type.ref);
return nameAssigment?.terminal;
}
return void 0;
}
__name(getCrossReferenceTerminal, "getCrossReferenceTerminal");
function isCommentTerminal(terminalRule) {
return terminalRule.hidden && !isWhitespace(terminalRegex(terminalRule));
}
__name(isCommentTerminal, "isCommentTerminal");
function findNodesForProperty(node, property2) {
if (!node || !property2) {
return [];
}
return findNodesForPropertyInternal(node, property2, node.astNode, true);
}
__name(findNodesForProperty, "findNodesForProperty");
function findNodeForProperty(node, property2, index) {
if (!node || !property2) {
return void 0;
}
const nodes = findNodesForPropertyInternal(node, property2, node.astNode, true);
if (nodes.length === 0) {
return void 0;
}
if (index !== void 0) {
index = Math.max(0, Math.min(index, nodes.length - 1));
} else {
index = 0;
}
return nodes[index];
}
__name(findNodeForProperty, "findNodeForProperty");
function findNodesForPropertyInternal(node, property2, element, first2) {
if (!first2) {
const nodeFeature = getContainerOfType(node.grammarSource, isAssignment);
if (nodeFeature && nodeFeature.feature === property2) {
return [node];
}
}
if (isCompositeCstNode(node) && node.astNode === element) {
return node.content.flatMap((e) => findNodesForPropertyInternal(e, property2, element, false));
}
return [];
}
__name(findNodesForPropertyInternal, "findNodesForPropertyInternal");
function findNodesForKeyword(node, keyword) {
if (!node) {
return [];
}
return findNodesForKeywordInternal(node, keyword, node?.astNode);
}
__name(findNodesForKeyword, "findNodesForKeyword");
function findNodeForKeyword(node, keyword, index) {
if (!node) {
return void 0;
}
const nodes = findNodesForKeywordInternal(node, keyword, node?.astNode);
if (nodes.length === 0) {
return void 0;
}
if (index !== void 0) {
index = Math.max(0, Math.min(index, nodes.length - 1));
} else {
index = 0;
}
return nodes[index];
}
__name(findNodeForKeyword, "findNodeForKeyword");
function findNodesForKeywordInternal(node, keyword, element) {
if (node.astNode !== element) {
return [];
}
if (isKeyword(node.grammarSource) && node.grammarSource.value === keyword) {
return [node];
}
const treeIterator = streamCst(node).iterator();
let result;
const keywordNodes = [];
do {
result = treeIterator.next();
if (!result.done) {
const childNode = result.value;
if (childNode.astNode === element) {
if (isKeyword(childNode.grammarSource) && childNode.grammarSource.value === keyword) {
keywordNodes.push(childNode);
}
} else {
treeIterator.prune();
}
}
} while (!result.done);
return keywordNodes;
}
__name(findNodesForKeywordInternal, "findNodesForKeywordInternal");
function findAssignment(cstNode) {
const astNode = cstNode.astNode;
while (astNode === cstNode.container?.astNode) {
const assignment = getContainerOfType(cstNode.grammarSource, isAssignment);
if (assignment) {
return assignment;
}
cstNode = cstNode.container;
}
return void 0;
}
__name(findAssignment, "findAssignment");
function findNameAssignment(type) {
let startNode = type;
if (isInferredType(startNode)) {
if (isAction(startNode.$container)) {
startNode = startNode.$container.$container;
} else if (isAbstractParserRule(startNode.$container)) {
startNode = startNode.$container;
} else {
assertUnreachable(startNode.$container);
}
}
return findNameAssignmentInternal(type, startNode, /* @__PURE__ */ new Map());
}
__name(findNameAssignment, "findNameAssignment");
function findNameAssignmentInternal(type, startNode, cache) {
function go(node, refType) {
let childAssignment = void 0;
const parentAssignment = getContainerOfType(node, isAssignment);
if (!parentAssignment) {
childAssignment = findNameAssignmentInternal(refType, refType, cache);
}
cache.set(type, childAssignment);
return childAssignment;
}
__name(go, "go");
if (cache.has(type)) {
return cache.get(type);
}
cache.set(type, void 0);
for (const node of streamAllContents(startNode)) {
if (isAssignment(node) && node.feature.toLowerCase() === "name") {
cache.set(type, node);
return node;
} else if (isRuleCall(node) && isParserRule(node.rule.ref)) {
return go(node, node.rule.ref);
} else if (isSimpleType(node) && node.typeRef?.ref) {
return go(node, node.typeRef.ref);
}
}
return void 0;
}
__name(findNameAssignmentInternal, "findNameAssignmentInternal");
function getActionAtElement(element) {
const parent = element.$container;
if (isGroup(parent)) {
const elements = parent.elements;
const index = elements.indexOf(element);
for (let i = index - 1; i >= 0; i--) {
const item = elements[i];
if (isAction(item)) {
return item;
} else {
const action = streamAllContents(elements[i]).find(isAction);
if (action) {
return action;
}
}
}
}
if (isAbstractElement(parent)) {
return getActionAtElement(parent);
} else {
return void 0;
}
}
__name(getActionAtElement, "getActionAtElement");
function isOptionalCardinality(cardinality, element) {
return cardinality === "?" || cardinality === "*" || isGroup(element) && Boolean(element.guardCondition);
}
__name(isOptionalCardinality, "isOptionalCardinality");
function isArrayCardinality(cardinality) {
return cardinality === "*" || cardinality === "+";
}
__name(isArrayCardinality, "isArrayCardinality");
function isArrayOperator(operator) {
return operator === "+=";
}
__name(isArrayOperator, "isArrayOperator");
function isDataTypeRule(rule) {
return isDataTypeRuleInternal(rule, /* @__PURE__ */ new Set());
}
__name(isDataTypeRule, "isDataTypeRule");
function isDataTypeRuleInternal(rule, visited) {
if (visited.has(rule)) {
return true;
} else {
visited.add(rule);
}
for (const node of streamAllContents(rule)) {
if (isRuleCall(node)) {
if (!node.rule.ref) {
return false;
}
if (isParserRule(node.rule.ref) && !isDataTypeRuleInternal(node.rule.ref, visited)) {
return false;
}
if (isInfixRule(node.rule.ref)) {
return false;
}
} else if (isAssignment(node)) {
return false;
} else if (isAction(node)) {
return false;
}
}
return Boolean(rule.definition);
}
__name(isDataTypeRuleInternal, "isDataTypeRuleInternal");
function isDataType(type) {
return isDataTypeInternal(type.type, /* @__PURE__ */ new Set());
}
__name(isDataType, "isDataType");
function isDataTypeInternal(type, visited) {
if (visited.has(type)) {
return true;
} else {
visited.add(type);
}
if (isArrayType(type)) {
return false;
} else if (isReferenceType(type)) {
return false;
} else if (isUnionType(type)) {
return type.types.every((e) => isDataTypeInternal(e, visited));
} else if (isSimpleType(type)) {
if (type.primitiveType !== void 0) {
return true;
} else if (type.stringType !== void 0) {
return true;
} else if (type.typeRef !== void 0) {
const ref = type.typeRef.ref;
if (isType(ref)) {
return isDataTypeInternal(ref.type, visited);
} else {
return false;
}
} else {
return false;
}
} else {
return false;
}
}
__name(isDataTypeInternal, "isDataTypeInternal");
function getExplicitRuleType(rule) {
if (isTerminalRule(rule)) {
return void 0;
}
if (rule.inferredType) {
return rule.inferredType.name;
} else if (rule.dataType) {
return rule.dataType;
} else if (rule.returnType) {
const refType = rule.returnType.ref;
if (refType) {
return refType.name;
}
}
return void 0;
}
__name(getExplicitRuleType, "getExplicitRuleType");
function getTypeName(type) {
if (isAbstractParserRule(type)) {
return isParserRule(type) && isDataTypeRule(type) ? type.name : getExplicitRuleType(type) ?? type.name;
} else if (isInterface(type) || isType(type) || isReturnType(type)) {
return type.name;
} else if (isAction(type)) {
const actionType = getActionType(type);
if (actionType) {
return actionType;
}
} else if (isInferredType(type)) {
return type.name;
}
throw new Error("Cannot get name of Unknown Type");
}
__name(getTypeName, "getTypeName");
function getActionType(action) {
if (action.inferredType) {
return action.inferredType.name;
} else if (action.type?.ref) {
return getTypeName(action.type.ref);
}
return void 0;
}
__name(getActionType, "getActionType");
function getRuleTypeName(rule) {
if (isTerminalRule(rule)) {
return rule.type?.name ?? "string";
} else {
return isParserRule(rule) && isDataTypeRule(rule) ? rule.name : getExplicitRuleType(rule) ?? rule.name;
}
}
__name(getRuleTypeName, "getRuleTypeName");
function getRuleType(rule) {
if (isTerminalRule(rule)) {
return rule.type?.name ?? "string";
} else {
return getExplicitRuleType(rule) ?? rule.name;
}
}
__name(getRuleType, "getRuleType");
function terminalRegex(terminalRule) {
const flags = {
s: false,
i: false,
u: false
};
const source = abstractElementToRegex(terminalRule.definition, flags);
const flagText = Object.entries(flags).filter(([, value]) => value).map(([name]) => name).join("");
return new RegExp(source, flagText);
}
__name(terminalRegex, "terminalRegex");
var WILDCARD = /[\s\S]/.source;
function abstractElementToRegex(element, flags) {
if (isTerminalAlternatives(element)) {
return terminalAlternativesToRegex(element);
} else if (isTerminalGroup(element)) {
return terminalGroupToRegex(element);
} else if (isCharacterRange(element)) {
return characterRangeToRegex(element);
} else if (isTerminalRuleCall(element)) {
const rule = element.rule.ref;
if (!rule) {
throw new Error("Missing rule reference.");
}
return withCardinality(abstractElementToRegex(rule.definition), {
cardinality: element.cardinality,
lookahead: element.lookahead,
parenthesized: element.parenthesized
});
} else if (isNegatedToken(element)) {
return negateTokenToRegex(element);
} else if (isUntilToken(element)) {
return untilTokenToRegex(element);
} else if (isRegexToken(element)) {
const lastSlash = element.regex.lastIndexOf("/");
const source = element.regex.substring(1, lastSlash);
const regexFlags = element.regex.substring(lastSlash + 1);
if (flags) {
flags.i = regexFlags.includes("i");
flags.s = regexFlags.includes("s");
flags.u = regexFlags.includes("u");
}
return withCardinality(source, {
cardinality: element.cardinality,
lookahead: element.lookahead,
parenthesized: element.parenthesized,
wrap: false
});
} else if (isWildcard(element)) {
return withCardinality(WILDCARD, {
cardinality: element.cardinality,
lookahead: element.lookahead,
parenthesized: element.parenthesized
});
} else {
throw new Error(`Invalid terminal element: ${element?.$type}, ${element?.$cstNode?.text}`);
}
}
__name(abstractElementToRegex, "abstractElementToRegex");
function terminalAlternativesToRegex(alternatives) {
return withCardinality(alternatives.elements.map((e) => abstractElementToRegex(e)).join("|"), {
cardinality: alternatives.cardinality,
lookahead: alternatives.lookahead,
parenthesized: alternatives.parenthesized,
wrap: false
// wrapping is not required for top level alternatives, and nested alternatives are already parenthesized according to the grammar
});
}
__name(terminalAlternativesToRegex, "terminalAlternativesToRegex");
function terminalGroupToRegex(group) {
return withCardinality(group.elements.map((e) => abstractElementToRegex(e)).join(""), {
cardinality: group.cardinality,
lookahead: group.lookahead,
parenthesized: group.parenthesized,
wrap: false
// wrapping is not required for top level group, and nested group are already parenthesized according to the grammar
});
}
__name(terminalGroupToRegex, "terminalGroupToRegex");
function untilTokenToRegex(until) {
return withCardinality(`${WILDCARD}*?${abstractElementToRegex(until.terminal)}`, {
cardinality: until.cardinality,
lookahead: until.lookahead,
parenthesized: until.parenthesized
});
}
__name(untilTokenToRegex, "untilTokenToRegex");
function negateTokenToRegex(negate2) {
return withCardinality(`(?!${abstractElementToRegex(negate2.terminal)})${WILDCARD}*?`, {
cardinality: negate2.cardinality,
lookahead: negate2.lookahead,
parenthesized: negate2.parenthesized
});
}
__name(negateTokenToRegex, "negateTokenToRegex");
function characterRangeToRegex(range) {
if (range.right) {
return withCardinality(`[${keywordToRegex(range.left)}-${keywordToRegex(range.right)}]`, {
cardinality: range.cardinality,
lookahead: range.lookahead,
parenthesized: range.parenthesized,
wrap: false
});
}
return withCardinality(keywordToRegex(range.left), {
cardinality: range.cardinality,
lookahead: range.lookahead,
parenthesized: range.parenthesized,
wrap: false
});
}
__name(characterRangeToRegex, "characterRangeToRegex");
function keywordToRegex(keyword) {
return escapeRegExp(keyword.value);
}
__name(keywordToRegex, "keywordToRegex");
function withCardinality(regex, options) {
if (options.parenthesized || options.lookahead || options.wrap !== false) {
const groupConfig = options.lookahead ?? (options.parenthesized ? "" : "?:");
regex = `(${groupConfig}${regex})`;
}
if (options.cardinality) {
return `${regex}${options.cardinality}`;
}
return regex;
}
__name(withCardinality, "withCardinality");
// ../../node_modules/.pnpm/langium@4.2.0/node_modules/langium/lib/languages/grammar-config.js
function createGrammarConfig(services) {
const rules = [];
const grammar = services.Grammar;
for (const rule of grammar.rules) {
if (isTerminalRule(rule) && isCommentTerminal(rule) && isMultilineComment(terminalRegex(rule))) {
rules.push(rule.name);
}
}
return {
multilineCommentRules: rules,
nameRegexp: DefaultNameRegexp
};
}
__name(createGrammarConfig, "createGrammarConfig");
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_freeGlobal.js
var freeGlobal = typeof global == "object" && global && global.Object === Object && global;
var freeGlobal_default = freeGlobal;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_root.js
var freeSelf = typeof self == "object" && self && self.Object === Object && self;
var root = freeGlobal_default || freeSelf || Function("return this")();
var root_default = root;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_Symbol.js
var Symbol2 = root_default.Symbol;
var Symbol_default = Symbol2;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_getRawTag.js
var objectProto = Object.prototype;
var hasOwnProperty = objectProto.hasOwnProperty;
var nativeObjectToString = objectProto.toString;
var symToStringTag = Symbol_default ? Symbol_default.toStringTag : void 0;
function getRawTag(value) {
var isOwn = hasOwnProperty.call(value, symToStringTag), tag = value[symToStringTag];
try {
value[symToStringTag] = void 0;
var unmasked = true;
} catch (e) {
}
var result = nativeObjectToString.call(value);
if (unmasked) {
if (isOwn) {
value[symToStringTag] = tag;
} else {
delete value[symToStringTag];
}
}
return result;
}
__name(getRawTag, "getRawTag");
var getRawTag_default = getRawTag;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_objectToString.js
var objectProto2 = Object.prototype;
var nativeObjectToString2 = objectProto2.toString;
function objectToString(value) {
return nativeObjectToString2.call(value);
}
__name(objectToString, "objectToString");
var objectToString_default = objectToString;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_baseGetTag.js
var nullTag = "[object Null]";
var undefinedTag = "[object Undefined]";
var symToStringTag2 = Symbol_default ? Symbol_default.toStringTag : void 0;
function baseGetTag(value) {
if (value == null) {
return value === void 0 ? undefinedTag : nullTag;
}
return symToStringTag2 && symToStringTag2 in Object(value) ? getRawTag_default(value) : objectToString_default(value);
}
__name(baseGetTag, "baseGetTag");
var baseGetTag_default = baseGetTag;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/isObjectLike.js
function isObjectLike(value) {
return value != null && typeof value == "object";
}
__name(isObjectLike, "isObjectLike");
var isObjectLike_default = isObjectLike;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/isSymbol.js
var symbolTag = "[object Symbol]";
function isSymbol(value) {
return typeof value == "symbol" || isObjectLike_default(value) && baseGetTag_default(value) == symbolTag;
}
__name(isSymbol, "isSymbol");
var isSymbol_default = isSymbol;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_arrayMap.js
function arrayMap(array, iteratee) {
var index = -1, length = array == null ? 0 : array.length, result = Array(length);
while (++index < length) {
result[index] = iteratee(array[index], index, array);
}
return result;
}
__name(arrayMap, "arrayMap");
var arrayMap_default = arrayMap;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/isArray.js
var isArray = Array.isArray;
var isArray_default = isArray;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_baseToString.js
var INFINITY = 1 / 0;
var symbolProto = Symbol_default ? Symbol_default.prototype : void 0;
var symbolToString = symbolProto ? symbolProto.toString : void 0;
function baseToString(value) {
if (typeof value == "string") {
return value;
}
if (isArray_default(value)) {
return arrayMap_default(value, baseToString) + "";
}
if (isSymbol_default(value)) {
return symbolToString ? symbolToString.call(value) : "";
}
var result = value + "";
return result == "0" && 1 / value == -INFINITY ? "-0" : result;
}
__name(baseToString, "baseToString");
var baseToString_default = baseToString;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_trimmedEndIndex.js
var reWhitespace = /\s/;
function trimmedEndIndex(string) {
var index = string.length;
while (index-- && reWhitespace.test(string.charAt(index))) {
}
return index;
}
__name(trimmedEndIndex, "trimmedEndIndex");
var trimmedEndIndex_default = trimmedEndIndex;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_baseTrim.js
var reTrimStart = /^\s+/;
function baseTrim(string) {
return string ? string.slice(0, trimmedEndIndex_default(string) + 1).replace(reTrimStart, "") : string;
}
__name(baseTrim, "baseTrim");
var baseTrim_default = baseTrim;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/isObject.js
function isObject(value) {
var type = typeof value;
return value != null && (type == "object" || type == "function");
}
__name(isObject, "isObject");
var isObject_default = isObject;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/toNumber.js
var NAN = 0 / 0;
var reIsBadHex = /^[-+]0x[0-9a-f]+$/i;
var reIsBinary = /^0b[01]+$/i;
var reIsOctal = /^0o[0-7]+$/i;
var freeParseInt = parseInt;
function toNumber(value) {
if (typeof value == "number") {
return value;
}
if (isSymbol_default(value)) {
return NAN;
}
if (isObject_default(value)) {
var other = typeof value.valueOf == "function" ? value.valueOf() : value;
value = isObject_default(other) ? other + "" : other;
}
if (typeof value != "string") {
return value === 0 ? value : +value;
}
value = baseTrim_default(value);
var isBinary = reIsBinary.test(value);
return isBinary || reIsOctal.test(value) ? freeParseInt(value.slice(2), isBinary ? 2 : 8) : reIsBadHex.test(value) ? NAN : +value;
}
__name(toNumber, "toNumber");
var toNumber_default = toNumber;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/toFinite.js
var INFINITY2 = 1 / 0;
var MAX_INTEGER = 17976931348623157e292;
function toFinite(value) {
if (!value) {
return value === 0 ? value : 0;
}
value = toNumber_default(value);
if (value === INFINITY2 || value === -INFINITY2) {
var sign = value < 0 ? -1 : 1;
return sign * MAX_INTEGER;
}
return value === value ? value : 0;
}
__name(toFinite, "toFinite");
var toFinite_default = toFinite;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/toInteger.js
function toInteger(value) {
var result = toFinite_default(value), remainder = result % 1;
return result === result ? remainder ? result - remainder : result : 0;
}
__name(toInteger, "toInteger");
var toInteger_default = toInteger;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/identity.js
function identity(value) {
return value;
}
__name(identity, "identity");
var identity_default = identity;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/isFunction.js
var asyncTag = "[object AsyncFunction]";
var funcTag = "[object Function]";
var genTag = "[object GeneratorFunction]";
var proxyTag = "[object Proxy]";
function isFunction(value) {
if (!isObject_default(value)) {
return false;
}
var tag = baseGetTag_default(value);
return tag == funcTag || tag == genTag || tag == asyncTag || tag == proxyTag;
}
__name(isFunction, "isFunction");
var isFunction_default = isFunction;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_coreJsData.js
var coreJsData = root_default["__core-js_shared__"];
var coreJsData_default = coreJsData;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_isMasked.js
var maskSrcKey = (function() {
var uid = /[^.]+$/.exec(coreJsData_default && coreJsData_default.keys && coreJsData_default.keys.IE_PROTO || "");
return uid ? "Symbol(src)_1." + uid : "";
})();
function isMasked(func) {
return !!maskSrcKey && maskSrcKey in func;
}
__name(isMasked, "isMasked");
var isMasked_default = isMasked;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_toSource.js
var funcProto = Function.prototype;
var funcToString = funcProto.toString;
function toSource(func) {
if (func != null) {
try {
return funcToString.call(func);
} catch (e) {
}
try {
return func + "";
} catch (e) {
}
}
return "";
}
__name(toSource, "toSource");
var toSource_default = toSource;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_baseIsNative.js
var reRegExpChar = /[\\^$.*+?()[\]{}|]/g;
var reIsHostCtor = /^\[object .+?Constructor\]$/;
var funcProto2 = Function.prototype;
var objectProto3 = Object.prototype;
var funcToString2 = funcProto2.toString;
var hasOwnProperty2 = objectProto3.hasOwnProperty;
var reIsNative = RegExp(
"^" + funcToString2.call(hasOwnProperty2).replace(reRegExpChar, "\\$&").replace(/hasOwnProperty|(function).*?(?=\\\()| for .+?(?=\\\])/g, "$1.*?") + "$"
);
function baseIsNative(value) {
if (!isObject_default(value) || isMasked_default(value)) {
return false;
}
var pattern = isFunction_default(value) ? reIsNative : reIsHostCtor;
return pattern.test(toSource_default(value));
}
__name(baseIsNative, "baseIsNative");
var baseIsNative_default = baseIsNative;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_getValue.js
function getValue(object, key) {
return object == null ? void 0 : object[key];
}
__name(getValue, "getValue");
var getValue_default = getValue;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_getNative.js
function getNative(object, key) {
var value = getValue_default(object, key);
return baseIsNative_default(value) ? value : void 0;
}
__name(getNative, "getNative");
var getNative_default = getNative;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_WeakMap.js
var WeakMap = getNative_default(root_default, "WeakMap");
var WeakMap_default = WeakMap;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_baseCreate.js
var objectCreate = Object.create;
var baseCreate = /* @__PURE__ */ (function() {
function object() {
}
__name(object, "object");
return function(proto) {
if (!isObject_default(proto)) {
return {};
}
if (objectCreate) {
return objectCreate(proto);
}
object.prototype = proto;
var result = new object();
object.prototype = void 0;
return result;
};
})();
var baseCreate_default = baseCreate;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_apply.js
function apply(func, thisArg, args) {
switch (args.length) {
case 0:
return func.call(thisArg);
case 1:
return func.call(thisArg, args[0]);
case 2:
return func.call(thisArg, args[0], args[1]);
case 3:
return func.call(thisArg, args[0], args[1], args[2]);
}
return func.apply(thisArg, args);
}
__name(apply, "apply");
var apply_default = apply;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/noop.js
function noop() {
}
__name(noop, "noop");
var noop_default = noop;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_copyArray.js
function copyArray(source, array) {
var index = -1, length = source.length;
array || (array = Array(length));
while (++index < length) {
array[index] = source[index];
}
return array;
}
__name(copyArray, "copyArray");
var copyArray_default = copyArray;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_shortOut.js
var HOT_COUNT = 800;
var HOT_SPAN = 16;
var nativeNow = Date.now;
function shortOut(func) {
var count = 0, lastCalled = 0;
return function() {
var stamp = nativeNow(), remaining = HOT_SPAN - (stamp - lastCalled);
lastCalled = stamp;
if (remaining > 0) {
if (++count >= HOT_COUNT) {
return arguments[0];
}
} else {
count = 0;
}
return func.apply(void 0, arguments);
};
}
__name(shortOut, "shortOut");
var shortOut_default = shortOut;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/constant.js
function constant(value) {
return function() {
return value;
};
}
__name(constant, "constant");
var constant_default = constant;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_defineProperty.js
var defineProperty = (function() {
try {
var func = getNative_default(Object, "defineProperty");
func({}, "", {});
return func;
} catch (e) {
}
})();
var defineProperty_default = defineProperty;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_baseSetToString.js
var baseSetToString = !defineProperty_default ? identity_default : function(func, string) {
return defineProperty_default(func, "toString", {
"configurable": true,
"enumerable": false,
"value": constant_default(string),
"writable": true
});
};
var baseSetToString_default = baseSetToString;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_setToString.js
var setToString = shortOut_default(baseSetToString_default);
var setToString_default = setToString;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_arrayEach.js
function arrayEach(array, iteratee) {
var index = -1, length = array == null ? 0 : array.length;
while (++index < length) {
if (iteratee(array[index], index, array) === false) {
break;
}
}
return array;
}
__name(arrayEach, "arrayEach");
var arrayEach_default = arrayEach;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_baseFindIndex.js
function baseFindIndex(array, predicate, fromIndex, fromRight) {
var length = array.length, index = fromIndex + (fromRight ? 1 : -1);
while (fromRight ? index-- : ++index < length) {
if (predicate(array[index], index, array)) {
return index;
}
}
return -1;
}
__name(baseFindIndex, "baseFindIndex");
var baseFindIndex_default = baseFindIndex;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_baseIsNaN.js
function baseIsNaN(value) {
return value !== value;
}
__name(baseIsNaN, "baseIsNaN");
var baseIsNaN_default = baseIsNaN;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_strictIndexOf.js
function strictIndexOf(array, value, fromIndex) {
var index = fromIndex - 1, length = array.length;
while (++index < length) {
if (array[index] === value) {
return index;
}
}
return -1;
}
__name(strictIndexOf, "strictIndexOf");
var strictIndexOf_default = strictIndexOf;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_baseIndexOf.js
function baseIndexOf(array, value, fromIndex) {
return value === value ? strictIndexOf_default(array, value, fromIndex) : baseFindIndex_default(array, baseIsNaN_default, fromIndex);
}
__name(baseIndexOf, "baseIndexOf");
var baseIndexOf_default = baseIndexOf;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_arrayIncludes.js
function arrayIncludes(array, value) {
var length = array == null ? 0 : array.length;
return !!length && baseIndexOf_default(array, value, 0) > -1;
}
__name(arrayIncludes, "arrayIncludes");
var arrayIncludes_default = arrayIncludes;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_isIndex.js
var MAX_SAFE_INTEGER = 9007199254740991;
var reIsUint = /^(?:0|[1-9]\d*)$/;
function isIndex(value, length) {
var type = typeof value;
length = length == null ? MAX_SAFE_INTEGER : length;
return !!length && (type == "number" || type != "symbol" && reIsUint.test(value)) && (value > -1 && value % 1 == 0 && value < length);
}
__name(isIndex, "isIndex");
var isIndex_default = isIndex;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_baseAssignValue.js
function baseAssignValue(object, key, value) {
if (key == "__proto__" && defineProperty_default) {
defineProperty_default(object, key, {
"configurable": true,
"enumerable": true,
"value": value,
"writable": true
});
} else {
object[key] = value;
}
}
__name(baseAssignValue, "baseAssignValue");
var baseAssignValue_default = baseAssignValue;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/eq.js
function eq(value, other) {
return value === other || value !== value && other !== other;
}
__name(eq, "eq");
var eq_default = eq;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_assignValue.js
var objectProto4 = Object.prototype;
var hasOwnProperty3 = objectProto4.hasOwnProperty;
function assignValue(object, key, value) {
var objValue = object[key];
if (!(hasOwnProperty3.call(object, key) && eq_default(objValue, value)) || value === void 0 && !(key in object)) {
baseAssignValue_default(object, key, value);
}
}
__name(assignValue, "assignValue");
var assignValue_default = assignValue;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_copyObject.js
function copyObject(source, props, object, customizer) {
var isNew = !object;
object || (object = {});
var index = -1, length = props.length;
while (++index < length) {
var key = props[index];
var newValue = customizer ? customizer(object[key], source[key], key, object, source) : void 0;
if (newValue === void 0) {
newValue = source[key];
}
if (isNew) {
baseAssignValue_default(object, key, newValue);
} else {
assignValue_default(object, key, newValue);
}
}
return object;
}
__name(copyObject, "copyObject");
var copyObject_default = copyObject;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_overRest.js
var nativeMax = Math.max;
function overRest(func, start, transform) {
start = nativeMax(start === void 0 ? func.length - 1 : start, 0);
return function() {
var args = arguments, index = -1, length = nativeMax(args.length - start, 0), array = Array(length);
while (++index < length) {
array[index] = args[start + index];
}
index = -1;
var otherArgs = Array(start + 1);
while (++index < start) {
otherArgs[index] = args[index];
}
otherArgs[start] = transform(array);
return apply_default(func, this, otherArgs);
};
}
__name(overRest, "overRest");
var overRest_default = overRest;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_baseRest.js
function baseRest(func, start) {
return setToString_default(overRest_default(func, start, identity_default), func + "");
}
__name(baseRest, "baseRest");
var baseRest_default = baseRest;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/isLength.js
var MAX_SAFE_INTEGER2 = 9007199254740991;
function isLength(value) {
return typeof value == "number" && value > -1 && value % 1 == 0 && value <= MAX_SAFE_INTEGER2;
}
__name(isLength, "isLength");
var isLength_default = isLength;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/isArrayLike.js
function isArrayLike(value) {
return value != null && isLength_default(value.length) && !isFunction_default(value);
}
__name(isArrayLike, "isArrayLike");
var isArrayLike_default = isArrayLike;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_isIterateeCall.js
function isIterateeCall(value, index, object) {
if (!isObject_default(object)) {
return false;
}
var type = typeof index;
if (type == "number" ? isArrayLike_default(object) && isIndex_default(index, object.length) : type == "string" && index in object) {
return eq_default(object[index], value);
}
return false;
}
__name(isIterateeCall, "isIterateeCall");
var isIterateeCall_default = isIterateeCall;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_createAssigner.js
function createAssigner(assigner) {
return baseRest_default(function(object, sources) {
var index = -1, length = sources.length, customizer = length > 1 ? sources[length - 1] : void 0, guard = length > 2 ? sources[2] : void 0;
customizer = assigner.length > 3 && typeof customizer == "function" ? (length--, customizer) : void 0;
if (guard && isIterateeCall_default(sources[0], sources[1], guard)) {
customizer = length < 3 ? void 0 : customizer;
length = 1;
}
object = Object(object);
while (++index < length) {
var source = sources[index];
if (source) {
assigner(object, source, index, customizer);
}
}
return object;
});
}
__name(createAssigner, "createAssigner");
var createAssigner_default = createAssigner;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_isPrototype.js
var objectProto5 = Object.prototype;
function isPrototype(value) {
var Ctor = value && value.constructor, proto = typeof Ctor == "function" && Ctor.prototype || objectProto5;
return value === proto;
}
__name(isPrototype, "isPrototype");
var isPrototype_default = isPrototype;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_baseTimes.js
function baseTimes(n, iteratee) {
var index = -1, result = Array(n);
while (++index < n) {
result[index] = iteratee(index);
}
return result;
}
__name(baseTimes, "baseTimes");
var baseTimes_default = baseTimes;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_baseIsArguments.js
var argsTag = "[object Arguments]";
function baseIsArguments(value) {
return isObjectLike_default(value) && baseGetTag_default(value) == argsTag;
}
__name(baseIsArguments, "baseIsArguments");
var baseIsArguments_default = baseIsArguments;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/isArguments.js
var objectProto6 = Object.prototype;
var hasOwnProperty4 = objectProto6.hasOwnProperty;
var propertyIsEnumerable = objectProto6.propertyIsEnumerable;
var isArguments = baseIsArguments_default(/* @__PURE__ */ (function() {
return arguments;
})()) ? baseIsArguments_default : function(value) {
return isObjectLike_default(value) && hasOwnProperty4.call(value, "callee") && !propertyIsEnumerable.call(value, "callee");
};
var isArguments_default = isArguments;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/stubFalse.js
function stubFalse() {
return false;
}
__name(stubFalse, "stubFalse");
var stubFalse_default = stubFalse;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/isBuffer.js
var freeExports = typeof exports == "object" && exports && !exports.nodeType && exports;
var freeModule = freeExports && typeof module == "object" && module && !module.nodeType && module;
var moduleExports = freeModule && freeModule.exports === freeExports;
var Buffer2 = moduleExports ? root_default.Buffer : void 0;
var nativeIsBuffer = Buffer2 ? Buffer2.isBuffer : void 0;
var isBuffer = nativeIsBuffer || stubFalse_default;
var isBuffer_default = isBuffer;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_baseIsTypedArray.js
var argsTag2 = "[object Arguments]";
var arrayTag = "[object Array]";
var boolTag = "[object Boolean]";
var dateTag = "[object Date]";
var errorTag = "[object Error]";
var funcTag2 = "[object Function]";
var mapTag = "[object Map]";
var numberTag = "[object Number]";
var objectTag = "[object Object]";
var regexpTag = "[object RegExp]";
var setTag = "[object Set]";
var stringTag = "[object String]";
var weakMapTag = "[object WeakMap]";
var arrayBufferTag = "[object ArrayBuffer]";
var dataViewTag = "[object DataView]";
var float32Tag = "[object Float32Array]";
var float64Tag = "[object Float64Array]";
var int8Tag = "[object Int8Array]";
var int16Tag = "[object Int16Array]";
var int32Tag = "[object Int32Array]";
var uint8Tag = "[object Uint8Array]";
var uint8ClampedTag = "[object Uint8ClampedArray]";
var uint16Tag = "[object Uint16Array]";
var uint32Tag = "[object Uint32Array]";
var typedArrayTags = {};
typedArrayTags[float32Tag] = typedArrayTags[float64Tag] = typedArrayTags[int8Tag] = typedArrayTags[int16Tag] = typedArrayTags[int32Tag] = typedArrayTags[uint8Tag] = typedArrayTags[uint8ClampedTag] = typedArrayTags[uint16Tag] = typedArrayTags[uint32Tag] = true;
typedArrayTags[argsTag2] = typedArrayTags[arrayTag] = typedArrayTags[arrayBufferTag] = typedArrayTags[boolTag] = typedArrayTags[dataViewTag] = typedArrayTags[dateTag] = typedArrayTags[errorTag] = typedArrayTags[funcTag2] = typedArrayTags[mapTag] = typedArrayTags[numberTag] = typedArrayTags[objectTag] = typedArrayTags[regexpTag] = typedArrayTags[setTag] = typedArrayTags[stringTag] = typedArrayTags[weakMapTag] = false;
function baseIsTypedArray(value) {
return isObjectLike_default(value) && isLength_default(value.length) && !!typedArrayTags[baseGetTag_default(value)];
}
__name(baseIsTypedArray, "baseIsTypedArray");
var baseIsTypedArray_default = baseIsTypedArray;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_baseUnary.js
function baseUnary(func) {
return function(value) {
return func(value);
};
}
__name(baseUnary, "baseUnary");
var baseUnary_default = baseUnary;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_nodeUtil.js
var freeExports2 = typeof exports == "object" && exports && !exports.nodeType && exports;
var freeModule2 = freeExports2 && typeof module == "object" && module && !module.nodeType && module;
var moduleExports2 = freeModule2 && freeModule2.exports === freeExports2;
var freeProcess = moduleExports2 && freeGlobal_default.process;
var nodeUtil = (function() {
try {
var types = freeModule2 && freeModule2.require && freeModule2.require("util").types;
if (types) {
return types;
}
return freeProcess && freeProcess.binding && freeProcess.binding("util");
} catch (e) {
}
})();
var nodeUtil_default = nodeUtil;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/isTypedArray.js
var nodeIsTypedArray = nodeUtil_default && nodeUtil_default.isTypedArray;
var isTypedArray = nodeIsTypedArray ? baseUnary_default(nodeIsTypedArray) : baseIsTypedArray_default;
var isTypedArray_default = isTypedArray;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_arrayLikeKeys.js
var objectProto7 = Object.prototype;
var hasOwnProperty5 = objectProto7.hasOwnProperty;
function arrayLikeKeys(value, inherited) {
var isArr = isArray_default(value), isArg = !isArr && isArguments_default(value), isBuff = !isArr && !isArg && isBuffer_default(value), isType2 = !isArr && !isArg && !isBuff && isTypedArray_default(value), skipIndexes = isArr || isArg || isBuff || isType2, result = skipIndexes ? baseTimes_default(value.length, String) : [], length = result.length;
for (var key in value) {
if ((inherited || hasOwnProperty5.call(value, key)) && !(skipIndexes && // Safari 9 has enumerable `arguments.length` in strict mode.
(key == "length" || // Node.js 0.10 has enumerable non-index properties on buffers.
isBuff && (key == "offset" || key == "parent") || // PhantomJS 2 has enumerable non-index properties on typed arrays.
isType2 && (key == "buffer" || key == "byteLength" || key == "byteOffset") || // Skip index properties.
isIndex_default(key, length)))) {
result.push(key);
}
}
return result;
}
__name(arrayLikeKeys, "arrayLikeKeys");
var arrayLikeKeys_default = arrayLikeKeys;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_overArg.js
function overArg(func, transform) {
return function(arg) {
return func(transform(arg));
};
}
__name(overArg, "overArg");
var overArg_default = overArg;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_nativeKeys.js
var nativeKeys = overArg_default(Object.keys, Object);
var nativeKeys_default = nativeKeys;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_baseKeys.js
var objectProto8 = Object.prototype;
var hasOwnProperty6 = objectProto8.hasOwnProperty;
function baseKeys(object) {
if (!isPrototype_default(object)) {
return nativeKeys_default(object);
}
var result = [];
for (var key in Object(object)) {
if (hasOwnProperty6.call(object, key) && key != "constructor") {
result.push(key);
}
}
return result;
}
__name(baseKeys, "baseKeys");
var baseKeys_default = baseKeys;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/keys.js
function keys(object) {
return isArrayLike_default(object) ? arrayLikeKeys_default(object) : baseKeys_default(object);
}
__name(keys, "keys");
var keys_default = keys;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/assign.js
var objectProto9 = Object.prototype;
var hasOwnProperty7 = objectProto9.hasOwnProperty;
var assign = createAssigner_default(function(object, source) {
if (isPrototype_default(source) || isArrayLike_default(source)) {
copyObject_default(source, keys_default(source), object);
return;
}
for (var key in source) {
if (hasOwnProperty7.call(source, key)) {
assignValue_default(object, key, source[key]);
}
}
});
var assign_default = assign;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_nativeKeysIn.js
function nativeKeysIn(object) {
var result = [];
if (object != null) {
for (var key in Object(object)) {
result.push(key);
}
}
return result;
}
__name(nativeKeysIn, "nativeKeysIn");
var nativeKeysIn_default = nativeKeysIn;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_baseKeysIn.js
var objectProto10 = Object.prototype;
var hasOwnProperty8 = objectProto10.hasOwnProperty;
function baseKeysIn(object) {
if (!isObject_default(object)) {
return nativeKeysIn_default(object);
}
var isProto = isPrototype_default(object), result = [];
for (var key in object) {
if (!(key == "constructor" && (isProto || !hasOwnProperty8.call(object, key)))) {
result.push(key);
}
}
return result;
}
__name(baseKeysIn, "baseKeysIn");
var baseKeysIn_default = baseKeysIn;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/keysIn.js
function keysIn(object) {
return isArrayLike_default(object) ? arrayLikeKeys_default(object, true) : baseKeysIn_default(object);
}
__name(keysIn, "keysIn");
var keysIn_default = keysIn;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_isKey.js
var reIsDeepProp = /\.|\[(?:[^[\]]*|(["'])(?:(?!\1)[^\\]|\\.)*?\1)\]/;
var reIsPlainProp = /^\w*$/;
function isKey(value, object) {
if (isArray_default(value)) {
return false;
}
var type = typeof value;
if (type == "number" || type == "symbol" || type == "boolean" || value == null || isSymbol_default(value)) {
return true;
}
return reIsPlainProp.test(value) || !reIsDeepProp.test(value) || object != null && value in Object(object);
}
__name(isKey, "isKey");
var isKey_default = isKey;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_nativeCreate.js
var nativeCreate = getNative_default(Object, "create");
var nativeCreate_default = nativeCreate;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_hashClear.js
function hashClear() {
this.__data__ = nativeCreate_default ? nativeCreate_default(null) : {};
this.size = 0;
}
__name(hashClear, "hashClear");
var hashClear_default = hashClear;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_hashDelete.js
function hashDelete(key) {
var result = this.has(key) && delete this.__data__[key];
this.size -= result ? 1 : 0;
return result;
}
__name(hashDelete, "hashDelete");
var hashDelete_default = hashDelete;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_hashGet.js
var HASH_UNDEFINED = "__lodash_hash_undefined__";
var objectProto11 = Object.prototype;
var hasOwnProperty9 = objectProto11.hasOwnProperty;
function hashGet(key) {
var data = this.__data__;
if (nativeCreate_default) {
var result = data[key];
return result === HASH_UNDEFINED ? void 0 : result;
}
return hasOwnProperty9.call(data, key) ? data[key] : void 0;
}
__name(hashGet, "hashGet");
var hashGet_default = hashGet;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_hashHas.js
var objectProto12 = Object.prototype;
var hasOwnProperty10 = objectProto12.hasOwnProperty;
function hashHas(key) {
var data = this.__data__;
return nativeCreate_default ? data[key] !== void 0 : hasOwnProperty10.call(data, key);
}
__name(hashHas, "hashHas");
var hashHas_default = hashHas;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_hashSet.js
var HASH_UNDEFINED2 = "__lodash_hash_undefined__";
function hashSet(key, value) {
var data = this.__data__;
this.size += this.has(key) ? 0 : 1;
data[key] = nativeCreate_default && value === void 0 ? HASH_UNDEFINED2 : value;
return this;
}
__name(hashSet, "hashSet");
var hashSet_default = hashSet;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_Hash.js
function Hash(entries) {
var index = -1, length = entries == null ? 0 : entries.length;
this.clear();
while (++index < length) {
var entry = entries[index];
this.set(entry[0], entry[1]);
}
}
__name(Hash, "Hash");
Hash.prototype.clear = hashClear_default;
Hash.prototype["delete"] = hashDelete_default;
Hash.prototype.get = hashGet_default;
Hash.prototype.has = hashHas_default;
Hash.prototype.set = hashSet_default;
var Hash_default = Hash;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_listCacheClear.js
function listCacheClear() {
this.__data__ = [];
this.size = 0;
}
__name(listCacheClear, "listCacheClear");
var listCacheClear_default = listCacheClear;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_assocIndexOf.js
function assocIndexOf(array, key) {
var length = array.length;
while (length--) {
if (eq_default(array[length][0], key)) {
return length;
}
}
return -1;
}
__name(assocIndexOf, "assocIndexOf");
var assocIndexOf_default = assocIndexOf;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_listCacheDelete.js
var arrayProto = Array.prototype;
var splice = arrayProto.splice;
function listCacheDelete(key) {
var data = this.__data__, index = assocIndexOf_default(data, key);
if (index < 0) {
return false;
}
var lastIndex = data.length - 1;
if (index == lastIndex) {
data.pop();
} else {
splice.call(data, index, 1);
}
--this.size;
return true;
}
__name(listCacheDelete, "listCacheDelete");
var listCacheDelete_default = listCacheDelete;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_listCacheGet.js
function listCacheGet(key) {
var data = this.__data__, index = assocIndexOf_default(data, key);
return index < 0 ? void 0 : data[index][1];
}
__name(listCacheGet, "listCacheGet");
var listCacheGet_default = listCacheGet;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_listCacheHas.js
function listCacheHas(key) {
return assocIndexOf_default(this.__data__, key) > -1;
}
__name(listCacheHas, "listCacheHas");
var listCacheHas_default = listCacheHas;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_listCacheSet.js
function listCacheSet(key, value) {
var data = this.__data__, index = assocIndexOf_default(data, key);
if (index < 0) {
++this.size;
data.push([key, value]);
} else {
data[index][1] = value;
}
return this;
}
__name(listCacheSet, "listCacheSet");
var listCacheSet_default = listCacheSet;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_ListCache.js
function ListCache(entries) {
var index = -1, length = entries == null ? 0 : entries.length;
this.clear();
while (++index < length) {
var entry = entries[index];
this.set(entry[0], entry[1]);
}
}
__name(ListCache, "ListCache");
ListCache.prototype.clear = listCacheClear_default;
ListCache.prototype["delete"] = listCacheDelete_default;
ListCache.prototype.get = listCacheGet_default;
ListCache.prototype.has = listCacheHas_default;
ListCache.prototype.set = listCacheSet_default;
var ListCache_default = ListCache;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_Map.js
var Map2 = getNative_default(root_default, "Map");
var Map_default = Map2;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_mapCacheClear.js
function mapCacheClear() {
this.size = 0;
this.__data__ = {
"hash": new Hash_default(),
"map": new (Map_default || ListCache_default)(),
"string": new Hash_default()
};
}
__name(mapCacheClear, "mapCacheClear");
var mapCacheClear_default = mapCacheClear;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_isKeyable.js
function isKeyable(value) {
var type = typeof value;
return type == "string" || type == "number" || type == "symbol" || type == "boolean" ? value !== "__proto__" : value === null;
}
__name(isKeyable, "isKeyable");
var isKeyable_default = isKeyable;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_getMapData.js
function getMapData(map2, key) {
var data = map2.__data__;
return isKeyable_default(key) ? data[typeof key == "string" ? "string" : "hash"] : data.map;
}
__name(getMapData, "getMapData");
var getMapData_default = getMapData;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_mapCacheDelete.js
function mapCacheDelete(key) {
var result = getMapData_default(this, key)["delete"](key);
this.size -= result ? 1 : 0;
return result;
}
__name(mapCacheDelete, "mapCacheDelete");
var mapCacheDelete_default = mapCacheDelete;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_mapCacheGet.js
function mapCacheGet(key) {
return getMapData_default(this, key).get(key);
}
__name(mapCacheGet, "mapCacheGet");
var mapCacheGet_default = mapCacheGet;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_mapCacheHas.js
function mapCacheHas(key) {
return getMapData_default(this, key).has(key);
}
__name(mapCacheHas, "mapCacheHas");
var mapCacheHas_default = mapCacheHas;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_mapCacheSet.js
function mapCacheSet(key, value) {
var data = getMapData_default(this, key), size = data.size;
data.set(key, value);
this.size += data.size == size ? 0 : 1;
return this;
}
__name(mapCacheSet, "mapCacheSet");
var mapCacheSet_default = mapCacheSet;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_MapCache.js
function MapCache(entries) {
var index = -1, length = entries == null ? 0 : entries.length;
this.clear();
while (++index < length) {
var entry = entries[index];
this.set(entry[0], entry[1]);
}
}
__name(MapCache, "MapCache");
MapCache.prototype.clear = mapCacheClear_default;
MapCache.prototype["delete"] = mapCacheDelete_default;
MapCache.prototype.get = mapCacheGet_default;
MapCache.prototype.has = mapCacheHas_default;
MapCache.prototype.set = mapCacheSet_default;
var MapCache_default = MapCache;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/memoize.js
var FUNC_ERROR_TEXT = "Expected a function";
function memoize(func, resolver) {
if (typeof func != "function" || resolver != null && typeof resolver != "function") {
throw new TypeError(FUNC_ERROR_TEXT);
}
var memoized = /* @__PURE__ */ __name(function() {
var args = arguments, key = resolver ? resolver.apply(this, args) : args[0], cache = memoized.cache;
if (cache.has(key)) {
return cache.get(key);
}
var result = func.apply(this, args);
memoized.cache = cache.set(key, result) || cache;
return result;
}, "memoized");
memoized.cache = new (memoize.Cache || MapCache_default)();
return memoized;
}
__name(memoize, "memoize");
memoize.Cache = MapCache_default;
var memoize_default = memoize;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_memoizeCapped.js
var MAX_MEMOIZE_SIZE = 500;
function memoizeCapped(func) {
var result = memoize_default(func, function(key) {
if (cache.size === MAX_MEMOIZE_SIZE) {
cache.clear();
}
return key;
});
var cache = result.cache;
return result;
}
__name(memoizeCapped, "memoizeCapped");
var memoizeCapped_default = memoizeCapped;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_stringToPath.js
var rePropName = /[^.[\]]+|\[(?:(-?\d+(?:\.\d+)?)|(["'])((?:(?!\2)[^\\]|\\.)*?)\2)\]|(?=(?:\.|\[\])(?:\.|\[\]|$))/g;
var reEscapeChar = /\\(\\)?/g;
var stringToPath = memoizeCapped_default(function(string) {
var result = [];
if (string.charCodeAt(0) === 46) {
result.push("");
}
string.replace(rePropName, function(match, number, quote, subString) {
result.push(quote ? subString.replace(reEscapeChar, "$1") : number || match);
});
return result;
});
var stringToPath_default = stringToPath;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/toString.js
function toString2(value) {
return value == null ? "" : baseToString_default(value);
}
__name(toString2, "toString");
var toString_default = toString2;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_castPath.js
function castPath(value, object) {
if (isArray_default(value)) {
return value;
}
return isKey_default(value, object) ? [value] : stringToPath_default(toString_default(value));
}
__name(castPath, "castPath");
var castPath_default = castPath;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_toKey.js
var INFINITY3 = 1 / 0;
function toKey(value) {
if (typeof value == "string" || isSymbol_default(value)) {
return value;
}
var result = value + "";
return result == "0" && 1 / value == -INFINITY3 ? "-0" : result;
}
__name(toKey, "toKey");
var toKey_default = toKey;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_baseGet.js
function baseGet(object, path) {
path = castPath_default(path, object);
var index = 0, length = path.length;
while (object != null && index < length) {
object = object[toKey_default(path[index++])];
}
return index && index == length ? object : void 0;
}
__name(baseGet, "baseGet");
var baseGet_default = baseGet;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/get.js
function get(object, path, defaultValue) {
var result = object == null ? void 0 : baseGet_default(object, path);
return result === void 0 ? defaultValue : result;
}
__name(get, "get");
var get_default = get;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_arrayPush.js
function arrayPush(array, values2) {
var index = -1, length = values2.length, offset = array.length;
while (++index < length) {
array[offset + index] = values2[index];
}
return array;
}
__name(arrayPush, "arrayPush");
var arrayPush_default = arrayPush;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_isFlattenable.js
var spreadableSymbol = Symbol_default ? Symbol_default.isConcatSpreadable : void 0;
function isFlattenable(value) {
return isArray_default(value) || isArguments_default(value) || !!(spreadableSymbol && value && value[spreadableSymbol]);
}
__name(isFlattenable, "isFlattenable");
var isFlattenable_default = isFlattenable;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_baseFlatten.js
function baseFlatten(array, depth, predicate, isStrict, result) {
var index = -1, length = array.length;
predicate || (predicate = isFlattenable_default);
result || (result = []);
while (++index < length) {
var value = array[index];
if (depth > 0 && predicate(value)) {
if (depth > 1) {
baseFlatten(value, depth - 1, predicate, isStrict, result);
} else {
arrayPush_default(result, value);
}
} else if (!isStrict) {
result[result.length] = value;
}
}
return result;
}
__name(baseFlatten, "baseFlatten");
var baseFlatten_default = baseFlatten;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/flatten.js
function flatten(array) {
var length = array == null ? 0 : array.length;
return length ? baseFlatten_default(array, 1) : [];
}
__name(flatten, "flatten");
var flatten_default = flatten;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_getPrototype.js
var getPrototype = overArg_default(Object.getPrototypeOf, Object);
var getPrototype_default = getPrototype;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_baseSlice.js
function baseSlice(array, start, end) {
var index = -1, length = array.length;
if (start < 0) {
start = -start > length ? 0 : length + start;
}
end = end > length ? length : end;
if (end < 0) {
end += length;
}
length = start > end ? 0 : end - start >>> 0;
start >>>= 0;
var result = Array(length);
while (++index < length) {
result[index] = array[index + start];
}
return result;
}
__name(baseSlice, "baseSlice");
var baseSlice_default = baseSlice;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_arrayReduce.js
function arrayReduce(array, iteratee, accumulator, initAccum) {
var index = -1, length = array == null ? 0 : array.length;
if (initAccum && length) {
accumulator = array[++index];
}
while (++index < length) {
accumulator = iteratee(accumulator, array[index], index, array);
}
return accumulator;
}
__name(arrayReduce, "arrayReduce");
var arrayReduce_default = arrayReduce;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_stackClear.js
function stackClear() {
this.__data__ = new ListCache_default();
this.size = 0;
}
__name(stackClear, "stackClear");
var stackClear_default = stackClear;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_stackDelete.js
function stackDelete(key) {
var data = this.__data__, result = data["delete"](key);
this.size = data.size;
return result;
}
__name(stackDelete, "stackDelete");
var stackDelete_default = stackDelete;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_stackGet.js
function stackGet(key) {
return this.__data__.get(key);
}
__name(stackGet, "stackGet");
var stackGet_default = stackGet;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_stackHas.js
function stackHas(key) {
return this.__data__.has(key);
}
__name(stackHas, "stackHas");
var stackHas_default = stackHas;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_stackSet.js
var LARGE_ARRAY_SIZE = 200;
function stackSet(key, value) {
var data = this.__data__;
if (data instanceof ListCache_default) {
var pairs = data.__data__;
if (!Map_default || pairs.length < LARGE_ARRAY_SIZE - 1) {
pairs.push([key, value]);
this.size = ++data.size;
return this;
}
data = this.__data__ = new MapCache_default(pairs);
}
data.set(key, value);
this.size = data.size;
return this;
}
__name(stackSet, "stackSet");
var stackSet_default = stackSet;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_Stack.js
function Stack(entries) {
var data = this.__data__ = new ListCache_default(entries);
this.size = data.size;
}
__name(Stack, "Stack");
Stack.prototype.clear = stackClear_default;
Stack.prototype["delete"] = stackDelete_default;
Stack.prototype.get = stackGet_default;
Stack.prototype.has = stackHas_default;
Stack.prototype.set = stackSet_default;
var Stack_default = Stack;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_baseAssign.js
function baseAssign(object, source) {
return object && copyObject_default(source, keys_default(source), object);
}
__name(baseAssign, "baseAssign");
var baseAssign_default = baseAssign;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_baseAssignIn.js
function baseAssignIn(object, source) {
return object && copyObject_default(source, keysIn_default(source), object);
}
__name(baseAssignIn, "baseAssignIn");
var baseAssignIn_default = baseAssignIn;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_cloneBuffer.js
var freeExports3 = typeof exports == "object" && exports && !exports.nodeType && exports;
var freeModule3 = freeExports3 && typeof module == "object" && module && !module.nodeType && module;
var moduleExports3 = freeModule3 && freeModule3.exports === freeExports3;
var Buffer3 = moduleExports3 ? root_default.Buffer : void 0;
var allocUnsafe = Buffer3 ? Buffer3.allocUnsafe : void 0;
function cloneBuffer(buffer, isDeep) {
if (isDeep) {
return buffer.slice();
}
var length = buffer.length, result = allocUnsafe ? allocUnsafe(length) : new buffer.constructor(length);
buffer.copy(result);
return result;
}
__name(cloneBuffer, "cloneBuffer");
var cloneBuffer_default = cloneBuffer;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_arrayFilter.js
function arrayFilter(array, predicate) {
var index = -1, length = array == null ? 0 : array.length, resIndex = 0, result = [];
while (++index < length) {
var value = array[index];
if (predicate(value, index, array)) {
result[resIndex++] = value;
}
}
return result;
}
__name(arrayFilter, "arrayFilter");
var arrayFilter_default = arrayFilter;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/stubArray.js
function stubArray() {
return [];
}
__name(stubArray, "stubArray");
var stubArray_default = stubArray;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_getSymbols.js
var objectProto13 = Object.prototype;
var propertyIsEnumerable2 = objectProto13.propertyIsEnumerable;
var nativeGetSymbols = Object.getOwnPropertySymbols;
var getSymbols = !nativeGetSymbols ? stubArray_default : function(object) {
if (object == null) {
return [];
}
object = Object(object);
return arrayFilter_default(nativeGetSymbols(object), function(symbol) {
return propertyIsEnumerable2.call(object, symbol);
});
};
var getSymbols_default = getSymbols;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_copySymbols.js
function copySymbols(source, object) {
return copyObject_default(source, getSymbols_default(source), object);
}
__name(copySymbols, "copySymbols");
var copySymbols_default = copySymbols;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_getSymbolsIn.js
var nativeGetSymbols2 = Object.getOwnPropertySymbols;
var getSymbolsIn = !nativeGetSymbols2 ? stubArray_default : function(object) {
var result = [];
while (object) {
arrayPush_default(result, getSymbols_default(object));
object = getPrototype_default(object);
}
return result;
};
var getSymbolsIn_default = getSymbolsIn;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_copySymbolsIn.js
function copySymbolsIn(source, object) {
return copyObject_default(source, getSymbolsIn_default(source), object);
}
__name(copySymbolsIn, "copySymbolsIn");
var copySymbolsIn_default = copySymbolsIn;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_baseGetAllKeys.js
function baseGetAllKeys(object, keysFunc, symbolsFunc) {
var result = keysFunc(object);
return isArray_default(object) ? result : arrayPush_default(result, symbolsFunc(object));
}
__name(baseGetAllKeys, "baseGetAllKeys");
var baseGetAllKeys_default = baseGetAllKeys;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_getAllKeys.js
function getAllKeys(object) {
return baseGetAllKeys_default(object, keys_default, getSymbols_default);
}
__name(getAllKeys, "getAllKeys");
var getAllKeys_default = getAllKeys;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_getAllKeysIn.js
function getAllKeysIn(object) {
return baseGetAllKeys_default(object, keysIn_default, getSymbolsIn_default);
}
__name(getAllKeysIn, "getAllKeysIn");
var getAllKeysIn_default = getAllKeysIn;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_DataView.js
var DataView = getNative_default(root_default, "DataView");
var DataView_default = DataView;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_Promise.js
var Promise2 = getNative_default(root_default, "Promise");
var Promise_default = Promise2;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_Set.js
var Set2 = getNative_default(root_default, "Set");
var Set_default = Set2;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_getTag.js
var mapTag2 = "[object Map]";
var objectTag2 = "[object Object]";
var promiseTag = "[object Promise]";
var setTag2 = "[object Set]";
var weakMapTag2 = "[object WeakMap]";
var dataViewTag2 = "[object DataView]";
var dataViewCtorString = toSource_default(DataView_default);
var mapCtorString = toSource_default(Map_default);
var promiseCtorString = toSource_default(Promise_default);
var setCtorString = toSource_default(Set_default);
var weakMapCtorString = toSource_default(WeakMap_default);
var getTag = baseGetTag_default;
if (DataView_default && getTag(new DataView_default(new ArrayBuffer(1))) != dataViewTag2 || Map_default && getTag(new Map_default()) != mapTag2 || Promise_default && getTag(Promise_default.resolve()) != promiseTag || Set_default && getTag(new Set_default()) != setTag2 || WeakMap_default && getTag(new WeakMap_default()) != weakMapTag2) {
getTag = /* @__PURE__ */ __name(function(value) {
var result = baseGetTag_default(value), Ctor = result == objectTag2 ? value.constructor : void 0, ctorString = Ctor ? toSource_default(Ctor) : "";
if (ctorString) {
switch (ctorString) {
case dataViewCtorString:
return dataViewTag2;
case mapCtorString:
return mapTag2;
case promiseCtorString:
return promiseTag;
case setCtorString:
return setTag2;
case weakMapCtorString:
return weakMapTag2;
}
}
return result;
}, "getTag");
}
var getTag_default = getTag;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_initCloneArray.js
var objectProto14 = Object.prototype;
var hasOwnProperty11 = objectProto14.hasOwnProperty;
function initCloneArray(array) {
var length = array.length, result = new array.constructor(length);
if (length && typeof array[0] == "string" && hasOwnProperty11.call(array, "index")) {
result.index = array.index;
result.input = array.input;
}
return result;
}
__name(initCloneArray, "initCloneArray");
var initCloneArray_default = initCloneArray;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_Uint8Array.js
var Uint8Array2 = root_default.Uint8Array;
var Uint8Array_default = Uint8Array2;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_cloneArrayBuffer.js
function cloneArrayBuffer(arrayBuffer) {
var result = new arrayBuffer.constructor(arrayBuffer.byteLength);
new Uint8Array_default(result).set(new Uint8Array_default(arrayBuffer));
return result;
}
__name(cloneArrayBuffer, "cloneArrayBuffer");
var cloneArrayBuffer_default = cloneArrayBuffer;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_cloneDataView.js
function cloneDataView(dataView, isDeep) {
var buffer = isDeep ? cloneArrayBuffer_default(dataView.buffer) : dataView.buffer;
return new dataView.constructor(buffer, dataView.byteOffset, dataView.byteLength);
}
__name(cloneDataView, "cloneDataView");
var cloneDataView_default = cloneDataView;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_cloneRegExp.js
var reFlags = /\w*$/;
function cloneRegExp(regexp) {
var result = new regexp.constructor(regexp.source, reFlags.exec(regexp));
result.lastIndex = regexp.lastIndex;
return result;
}
__name(cloneRegExp, "cloneRegExp");
var cloneRegExp_default = cloneRegExp;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_cloneSymbol.js
var symbolProto2 = Symbol_default ? Symbol_default.prototype : void 0;
var symbolValueOf = symbolProto2 ? symbolProto2.valueOf : void 0;
function cloneSymbol(symbol) {
return symbolValueOf ? Object(symbolValueOf.call(symbol)) : {};
}
__name(cloneSymbol, "cloneSymbol");
var cloneSymbol_default = cloneSymbol;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_cloneTypedArray.js
function cloneTypedArray(typedArray, isDeep) {
var buffer = isDeep ? cloneArrayBuffer_default(typedArray.buffer) : typedArray.buffer;
return new typedArray.constructor(buffer, typedArray.byteOffset, typedArray.length);
}
__name(cloneTypedArray, "cloneTypedArray");
var cloneTypedArray_default = cloneTypedArray;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_initCloneByTag.js
var boolTag2 = "[object Boolean]";
var dateTag2 = "[object Date]";
var mapTag3 = "[object Map]";
var numberTag2 = "[object Number]";
var regexpTag2 = "[object RegExp]";
var setTag3 = "[object Set]";
var stringTag2 = "[object String]";
var symbolTag2 = "[object Symbol]";
var arrayBufferTag2 = "[object ArrayBuffer]";
var dataViewTag3 = "[object DataView]";
var float32Tag2 = "[object Float32Array]";
var float64Tag2 = "[object Float64Array]";
var int8Tag2 = "[object Int8Array]";
var int16Tag2 = "[object Int16Array]";
var int32Tag2 = "[object Int32Array]";
var uint8Tag2 = "[object Uint8Array]";
var uint8ClampedTag2 = "[object Uint8ClampedArray]";
var uint16Tag2 = "[object Uint16Array]";
var uint32Tag2 = "[object Uint32Array]";
function initCloneByTag(object, tag, isDeep) {
var Ctor = object.constructor;
switch (tag) {
case arrayBufferTag2:
return cloneArrayBuffer_default(object);
case boolTag2:
case dateTag2:
return new Ctor(+object);
case dataViewTag3:
return cloneDataView_default(object, isDeep);
case float32Tag2:
case float64Tag2:
case int8Tag2:
case int16Tag2:
case int32Tag2:
case uint8Tag2:
case uint8ClampedTag2:
case uint16Tag2:
case uint32Tag2:
return cloneTypedArray_default(object, isDeep);
case mapTag3:
return new Ctor();
case numberTag2:
case stringTag2:
return new Ctor(object);
case regexpTag2:
return cloneRegExp_default(object);
case setTag3:
return new Ctor();
case symbolTag2:
return cloneSymbol_default(object);
}
}
__name(initCloneByTag, "initCloneByTag");
var initCloneByTag_default = initCloneByTag;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_initCloneObject.js
function initCloneObject(object) {
return typeof object.constructor == "function" && !isPrototype_default(object) ? baseCreate_default(getPrototype_default(object)) : {};
}
__name(initCloneObject, "initCloneObject");
var initCloneObject_default = initCloneObject;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_baseIsMap.js
var mapTag4 = "[object Map]";
function baseIsMap(value) {
return isObjectLike_default(value) && getTag_default(value) == mapTag4;
}
__name(baseIsMap, "baseIsMap");
var baseIsMap_default = baseIsMap;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/isMap.js
var nodeIsMap = nodeUtil_default && nodeUtil_default.isMap;
var isMap = nodeIsMap ? baseUnary_default(nodeIsMap) : baseIsMap_default;
var isMap_default = isMap;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_baseIsSet.js
var setTag4 = "[object Set]";
function baseIsSet(value) {
return isObjectLike_default(value) && getTag_default(value) == setTag4;
}
__name(baseIsSet, "baseIsSet");
var baseIsSet_default = baseIsSet;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/isSet.js
var nodeIsSet = nodeUtil_default && nodeUtil_default.isSet;
var isSet = nodeIsSet ? baseUnary_default(nodeIsSet) : baseIsSet_default;
var isSet_default = isSet;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_baseClone.js
var CLONE_DEEP_FLAG = 1;
var CLONE_FLAT_FLAG = 2;
var CLONE_SYMBOLS_FLAG = 4;
var argsTag3 = "[object Arguments]";
var arrayTag2 = "[object Array]";
var boolTag3 = "[object Boolean]";
var dateTag3 = "[object Date]";
var errorTag2 = "[object Error]";
var funcTag3 = "[object Function]";
var genTag2 = "[object GeneratorFunction]";
var mapTag5 = "[object Map]";
var numberTag3 = "[object Number]";
var objectTag3 = "[object Object]";
var regexpTag3 = "[object RegExp]";
var setTag5 = "[object Set]";
var stringTag3 = "[object String]";
var symbolTag3 = "[object Symbol]";
var weakMapTag3 = "[object WeakMap]";
var arrayBufferTag3 = "[object ArrayBuffer]";
var dataViewTag4 = "[object DataView]";
var float32Tag3 = "[object Float32Array]";
var float64Tag3 = "[object Float64Array]";
var int8Tag3 = "[object Int8Array]";
var int16Tag3 = "[object Int16Array]";
var int32Tag3 = "[object Int32Array]";
var uint8Tag3 = "[object Uint8Array]";
var uint8ClampedTag3 = "[object Uint8ClampedArray]";
var uint16Tag3 = "[object Uint16Array]";
var uint32Tag3 = "[object Uint32Array]";
var cloneableTags = {};
cloneableTags[argsTag3] = cloneableTags[arrayTag2] = cloneableTags[arrayBufferTag3] = cloneableTags[dataViewTag4] = cloneableTags[boolTag3] = cloneableTags[dateTag3] = cloneableTags[float32Tag3] = cloneableTags[float64Tag3] = cloneableTags[int8Tag3] = cloneableTags[int16Tag3] = cloneableTags[int32Tag3] = cloneableTags[mapTag5] = cloneableTags[numberTag3] = cloneableTags[objectTag3] = cloneableTags[regexpTag3] = cloneableTags[setTag5] = cloneableTags[stringTag3] = cloneableTags[symbolTag3] = cloneableTags[uint8Tag3] = cloneableTags[uint8ClampedTag3] = cloneableTags[uint16Tag3] = cloneableTags[uint32Tag3] = true;
cloneableTags[errorTag2] = cloneableTags[funcTag3] = cloneableTags[weakMapTag3] = false;
function baseClone(value, bitmask, customizer, key, object, stack) {
var result, isDeep = bitmask & CLONE_DEEP_FLAG, isFlat = bitmask & CLONE_FLAT_FLAG, isFull = bitmask & CLONE_SYMBOLS_FLAG;
if (customizer) {
result = object ? customizer(value, key, object, stack) : customizer(value);
}
if (result !== void 0) {
return result;
}
if (!isObject_default(value)) {
return value;
}
var isArr = isArray_default(value);
if (isArr) {
result = initCloneArray_default(value);
if (!isDeep) {
return copyArray_default(value, result);
}
} else {
var tag = getTag_default(value), isFunc = tag == funcTag3 || tag == genTag2;
if (isBuffer_default(value)) {
return cloneBuffer_default(value, isDeep);
}
if (tag == objectTag3 || tag == argsTag3 || isFunc && !object) {
result = isFlat || isFunc ? {} : initCloneObject_default(value);
if (!isDeep) {
return isFlat ? copySymbolsIn_default(value, baseAssignIn_default(result, value)) : copySymbols_default(value, baseAssign_default(result, value));
}
} else {
if (!cloneableTags[tag]) {
return object ? value : {};
}
result = initCloneByTag_default(value, tag, isDeep);
}
}
stack || (stack = new Stack_default());
var stacked = stack.get(value);
if (stacked) {
return stacked;
}
stack.set(value, result);
if (isSet_default(value)) {
value.forEach(function(subValue) {
result.add(baseClone(subValue, bitmask, customizer, subValue, value, stack));
});
} else if (isMap_default(value)) {
value.forEach(function(subValue, key2) {
result.set(key2, baseClone(subValue, bitmask, customizer, key2, value, stack));
});
}
var keysFunc = isFull ? isFlat ? getAllKeysIn_default : getAllKeys_default : isFlat ? keysIn_default : keys_default;
var props = isArr ? void 0 : keysFunc(value);
arrayEach_default(props || value, function(subValue, key2) {
if (props) {
key2 = subValue;
subValue = value[key2];
}
assignValue_default(result, key2, baseClone(subValue, bitmask, customizer, key2, value, stack));
});
return result;
}
__name(baseClone, "baseClone");
var baseClone_default = baseClone;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/clone.js
var CLONE_SYMBOLS_FLAG2 = 4;
function clone(value) {
return baseClone_default(value, CLONE_SYMBOLS_FLAG2);
}
__name(clone, "clone");
var clone_default = clone;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/compact.js
function compact(array) {
var index = -1, length = array == null ? 0 : array.length, resIndex = 0, result = [];
while (++index < length) {
var value = array[index];
if (value) {
result[resIndex++] = value;
}
}
return result;
}
__name(compact, "compact");
var compact_default = compact;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_setCacheAdd.js
var HASH_UNDEFINED3 = "__lodash_hash_undefined__";
function setCacheAdd(value) {
this.__data__.set(value, HASH_UNDEFINED3);
return this;
}
__name(setCacheAdd, "setCacheAdd");
var setCacheAdd_default = setCacheAdd;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_setCacheHas.js
function setCacheHas(value) {
return this.__data__.has(value);
}
__name(setCacheHas, "setCacheHas");
var setCacheHas_default = setCacheHas;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_SetCache.js
function SetCache(values2) {
var index = -1, length = values2 == null ? 0 : values2.length;
this.__data__ = new MapCache_default();
while (++index < length) {
this.add(values2[index]);
}
}
__name(SetCache, "SetCache");
SetCache.prototype.add = SetCache.prototype.push = setCacheAdd_default;
SetCache.prototype.has = setCacheHas_default;
var SetCache_default = SetCache;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_arraySome.js
function arraySome(array, predicate) {
var index = -1, length = array == null ? 0 : array.length;
while (++index < length) {
if (predicate(array[index], index, array)) {
return true;
}
}
return false;
}
__name(arraySome, "arraySome");
var arraySome_default = arraySome;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_cacheHas.js
function cacheHas(cache, key) {
return cache.has(key);
}
__name(cacheHas, "cacheHas");
var cacheHas_default = cacheHas;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_equalArrays.js
var COMPARE_PARTIAL_FLAG = 1;
var COMPARE_UNORDERED_FLAG = 2;
function equalArrays(array, other, bitmask, customizer, equalFunc, stack) {
var isPartial = bitmask & COMPARE_PARTIAL_FLAG, arrLength = array.length, othLength = other.length;
if (arrLength != othLength && !(isPartial && othLength > arrLength)) {
return false;
}
var arrStacked = stack.get(array);
var othStacked = stack.get(other);
if (arrStacked && othStacked) {
return arrStacked == other && othStacked == array;
}
var index = -1, result = true, seen = bitmask & COMPARE_UNORDERED_FLAG ? new SetCache_default() : void 0;
stack.set(array, other);
stack.set(other, array);
while (++index < arrLength) {
var arrValue = array[index], othValue = other[index];
if (customizer) {
var compared = isPartial ? customizer(othValue, arrValue, index, other, array, stack) : customizer(arrValue, othValue, index, array, other, stack);
}
if (compared !== void 0) {
if (compared) {
continue;
}
result = false;
break;
}
if (seen) {
if (!arraySome_default(other, function(othValue2, othIndex) {
if (!cacheHas_default(seen, othIndex) && (arrValue === othValue2 || equalFunc(arrValue, othValue2, bitmask, customizer, stack))) {
return seen.push(othIndex);
}
})) {
result = false;
break;
}
} else if (!(arrValue === othValue || equalFunc(arrValue, othValue, bitmask, customizer, stack))) {
result = false;
break;
}
}
stack["delete"](array);
stack["delete"](other);
return result;
}
__name(equalArrays, "equalArrays");
var equalArrays_default = equalArrays;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_mapToArray.js
function mapToArray(map2) {
var index = -1, result = Array(map2.size);
map2.forEach(function(value, key) {
result[++index] = [key, value];
});
return result;
}
__name(mapToArray, "mapToArray");
var mapToArray_default = mapToArray;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_setToArray.js
function setToArray(set) {
var index = -1, result = Array(set.size);
set.forEach(function(value) {
result[++index] = value;
});
return result;
}
__name(setToArray, "setToArray");
var setToArray_default = setToArray;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_equalByTag.js
var COMPARE_PARTIAL_FLAG2 = 1;
var COMPARE_UNORDERED_FLAG2 = 2;
var boolTag4 = "[object Boolean]";
var dateTag4 = "[object Date]";
var errorTag3 = "[object Error]";
var mapTag6 = "[object Map]";
var numberTag4 = "[object Number]";
var regexpTag4 = "[object RegExp]";
var setTag6 = "[object Set]";
var stringTag4 = "[object String]";
var symbolTag4 = "[object Symbol]";
var arrayBufferTag4 = "[object ArrayBuffer]";
var dataViewTag5 = "[object DataView]";
var symbolProto3 = Symbol_default ? Symbol_default.prototype : void 0;
var symbolValueOf2 = symbolProto3 ? symbolProto3.valueOf : void 0;
function equalByTag(object, other, tag, bitmask, customizer, equalFunc, stack) {
switch (tag) {
case dataViewTag5:
if (object.byteLength != other.byteLength || object.byteOffset != other.byteOffset) {
return false;
}
object = object.buffer;
other = other.buffer;
case arrayBufferTag4:
if (object.byteLength != other.byteLength || !equalFunc(new Uint8Array_default(object), new Uint8Array_default(other))) {
return false;
}
return true;
case boolTag4:
case dateTag4:
case numberTag4:
return eq_default(+object, +other);
case errorTag3:
return object.name == other.name && object.message == other.message;
case regexpTag4:
case stringTag4:
return object == other + "";
case mapTag6:
var convert = mapToArray_default;
case setTag6:
var isPartial = bitmask & COMPARE_PARTIAL_FLAG2;
convert || (convert = setToArray_default);
if (object.size != other.size && !isPartial) {
return false;
}
var stacked = stack.get(object);
if (stacked) {
return stacked == other;
}
bitmask |= COMPARE_UNORDERED_FLAG2;
stack.set(object, other);
var result = equalArrays_default(convert(object), convert(other), bitmask, customizer, equalFunc, stack);
stack["delete"](object);
return result;
case symbolTag4:
if (symbolValueOf2) {
return symbolValueOf2.call(object) == symbolValueOf2.call(other);
}
}
return false;
}
__name(equalByTag, "equalByTag");
var equalByTag_default = equalByTag;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_equalObjects.js
var COMPARE_PARTIAL_FLAG3 = 1;
var objectProto15 = Object.prototype;
var hasOwnProperty12 = objectProto15.hasOwnProperty;
function equalObjects(object, other, bitmask, customizer, equalFunc, stack) {
var isPartial = bitmask & COMPARE_PARTIAL_FLAG3, objProps = getAllKeys_default(object), objLength = objProps.length, othProps = getAllKeys_default(other), othLength = othProps.length;
if (objLength != othLength && !isPartial) {
return false;
}
var index = objLength;
while (index--) {
var key = objProps[index];
if (!(isPartial ? key in other : hasOwnProperty12.call(other, key))) {
return false;
}
}
var objStacked = stack.get(object);
var othStacked = stack.get(other);
if (objStacked && othStacked) {
return objStacked == other && othStacked == object;
}
var result = true;
stack.set(object, other);
stack.set(other, object);
var skipCtor = isPartial;
while (++index < objLength) {
key = objProps[index];
var objValue = object[key], othValue = other[key];
if (customizer) {
var compared = isPartial ? customizer(othValue, objValue, key, other, object, stack) : customizer(objValue, othValue, key, object, other, stack);
}
if (!(compared === void 0 ? objValue === othValue || equalFunc(objValue, othValue, bitmask, customizer, stack) : compared)) {
result = false;
break;
}
skipCtor || (skipCtor = key == "constructor");
}
if (result && !skipCtor) {
var objCtor = object.constructor, othCtor = other.constructor;
if (objCtor != othCtor && ("constructor" in object && "constructor" in other) && !(typeof objCtor == "function" && objCtor instanceof objCtor && typeof othCtor == "function" && othCtor instanceof othCtor)) {
result = false;
}
}
stack["delete"](object);
stack["delete"](other);
return result;
}
__name(equalObjects, "equalObjects");
var equalObjects_default = equalObjects;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_baseIsEqualDeep.js
var COMPARE_PARTIAL_FLAG4 = 1;
var argsTag4 = "[object Arguments]";
var arrayTag3 = "[object Array]";
var objectTag4 = "[object Object]";
var objectProto16 = Object.prototype;
var hasOwnProperty13 = objectProto16.hasOwnProperty;
function baseIsEqualDeep(object, other, bitmask, customizer, equalFunc, stack) {
var objIsArr = isArray_default(object), othIsArr = isArray_default(other), objTag = objIsArr ? arrayTag3 : getTag_default(object), othTag = othIsArr ? arrayTag3 : getTag_default(other);
objTag = objTag == argsTag4 ? objectTag4 : objTag;
othTag = othTag == argsTag4 ? objectTag4 : othTag;
var objIsObj = objTag == objectTag4, othIsObj = othTag == objectTag4, isSameTag = objTag == othTag;
if (isSameTag && isBuffer_default(object)) {
if (!isBuffer_default(other)) {
return false;
}
objIsArr = true;
objIsObj = false;
}
if (isSameTag && !objIsObj) {
stack || (stack = new Stack_default());
return objIsArr || isTypedArray_default(object) ? equalArrays_default(object, other, bitmask, customizer, equalFunc, stack) : equalByTag_default(object, other, objTag, bitmask, customizer, equalFunc, stack);
}
if (!(bitmask & COMPARE_PARTIAL_FLAG4)) {
var objIsWrapped = objIsObj && hasOwnProperty13.call(object, "__wrapped__"), othIsWrapped = othIsObj && hasOwnProperty13.call(other, "__wrapped__");
if (objIsWrapped || othIsWrapped) {
var objUnwrapped = objIsWrapped ? object.value() : object, othUnwrapped = othIsWrapped ? other.value() : other;
stack || (stack = new Stack_default());
return equalFunc(objUnwrapped, othUnwrapped, bitmask, customizer, stack);
}
}
if (!isSameTag) {
return false;
}
stack || (stack = new Stack_default());
return equalObjects_default(object, other, bitmask, customizer, equalFunc, stack);
}
__name(baseIsEqualDeep, "baseIsEqualDeep");
var baseIsEqualDeep_default = baseIsEqualDeep;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_baseIsEqual.js
function baseIsEqual(value, other, bitmask, customizer, stack) {
if (value === other) {
return true;
}
if (value == null || other == null || !isObjectLike_default(value) && !isObjectLike_default(other)) {
return value !== value && other !== other;
}
return baseIsEqualDeep_default(value, other, bitmask, customizer, baseIsEqual, stack);
}
__name(baseIsEqual, "baseIsEqual");
var baseIsEqual_default = baseIsEqual;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_baseIsMatch.js
var COMPARE_PARTIAL_FLAG5 = 1;
var COMPARE_UNORDERED_FLAG3 = 2;
function baseIsMatch(object, source, matchData, customizer) {
var index = matchData.length, length = index, noCustomizer = !customizer;
if (object == null) {
return !length;
}
object = Object(object);
while (index--) {
var data = matchData[index];
if (noCustomizer && data[2] ? data[1] !== object[data[0]] : !(data[0] in object)) {
return false;
}
}
while (++index < length) {
data = matchData[index];
var key = data[0], objValue = object[key], srcValue = data[1];
if (noCustomizer && data[2]) {
if (objValue === void 0 && !(key in object)) {
return false;
}
} else {
var stack = new Stack_default();
if (customizer) {
var result = customizer(objValue, srcValue, key, object, source, stack);
}
if (!(result === void 0 ? baseIsEqual_default(srcValue, objValue, COMPARE_PARTIAL_FLAG5 | COMPARE_UNORDERED_FLAG3, customizer, stack) : result)) {
return false;
}
}
}
return true;
}
__name(baseIsMatch, "baseIsMatch");
var baseIsMatch_default = baseIsMatch;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_isStrictComparable.js
function isStrictComparable(value) {
return value === value && !isObject_default(value);
}
__name(isStrictComparable, "isStrictComparable");
var isStrictComparable_default = isStrictComparable;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_getMatchData.js
function getMatchData(object) {
var result = keys_default(object), length = result.length;
while (length--) {
var key = result[length], value = object[key];
result[length] = [key, value, isStrictComparable_default(value)];
}
return result;
}
__name(getMatchData, "getMatchData");
var getMatchData_default = getMatchData;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_matchesStrictComparable.js
function matchesStrictComparable(key, srcValue) {
return function(object) {
if (object == null) {
return false;
}
return object[key] === srcValue && (srcValue !== void 0 || key in Object(object));
};
}
__name(matchesStrictComparable, "matchesStrictComparable");
var matchesStrictComparable_default = matchesStrictComparable;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_baseMatches.js
function baseMatches(source) {
var matchData = getMatchData_default(source);
if (matchData.length == 1 && matchData[0][2]) {
return matchesStrictComparable_default(matchData[0][0], matchData[0][1]);
}
return function(object) {
return object === source || baseIsMatch_default(object, source, matchData);
};
}
__name(baseMatches, "baseMatches");
var baseMatches_default = baseMatches;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_baseHasIn.js
function baseHasIn(object, key) {
return object != null && key in Object(object);
}
__name(baseHasIn, "baseHasIn");
var baseHasIn_default = baseHasIn;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_hasPath.js
function hasPath(object, path, hasFunc) {
path = castPath_default(path, object);
var index = -1, length = path.length, result = false;
while (++index < length) {
var key = toKey_default(path[index]);
if (!(result = object != null && hasFunc(object, key))) {
break;
}
object = object[key];
}
if (result || ++index != length) {
return result;
}
length = object == null ? 0 : object.length;
return !!length && isLength_default(length) && isIndex_default(key, length) && (isArray_default(object) || isArguments_default(object));
}
__name(hasPath, "hasPath");
var hasPath_default = hasPath;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/hasIn.js
function hasIn(object, path) {
return object != null && hasPath_default(object, path, baseHasIn_default);
}
__name(hasIn, "hasIn");
var hasIn_default = hasIn;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_baseMatchesProperty.js
var COMPARE_PARTIAL_FLAG6 = 1;
var COMPARE_UNORDERED_FLAG4 = 2;
function baseMatchesProperty(path, srcValue) {
if (isKey_default(path) && isStrictComparable_default(srcValue)) {
return matchesStrictComparable_default(toKey_default(path), srcValue);
}
return function(object) {
var objValue = get_default(object, path);
return objValue === void 0 && objValue === srcValue ? hasIn_default(object, path) : baseIsEqual_default(srcValue, objValue, COMPARE_PARTIAL_FLAG6 | COMPARE_UNORDERED_FLAG4);
};
}
__name(baseMatchesProperty, "baseMatchesProperty");
var baseMatchesProperty_default = baseMatchesProperty;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_baseProperty.js
function baseProperty(key) {
return function(object) {
return object == null ? void 0 : object[key];
};
}
__name(baseProperty, "baseProperty");
var baseProperty_default = baseProperty;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_basePropertyDeep.js
function basePropertyDeep(path) {
return function(object) {
return baseGet_default(object, path);
};
}
__name(basePropertyDeep, "basePropertyDeep");
var basePropertyDeep_default = basePropertyDeep;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/property.js
function property(path) {
return isKey_default(path) ? baseProperty_default(toKey_default(path)) : basePropertyDeep_default(path);
}
__name(property, "property");
var property_default = property;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_baseIteratee.js
function baseIteratee(value) {
if (typeof value == "function") {
return value;
}
if (value == null) {
return identity_default;
}
if (typeof value == "object") {
return isArray_default(value) ? baseMatchesProperty_default(value[0], value[1]) : baseMatches_default(value);
}
return property_default(value);
}
__name(baseIteratee, "baseIteratee");
var baseIteratee_default = baseIteratee;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_arrayAggregator.js
function arrayAggregator(array, setter, iteratee, accumulator) {
var index = -1, length = array == null ? 0 : array.length;
while (++index < length) {
var value = array[index];
setter(accumulator, value, iteratee(value), array);
}
return accumulator;
}
__name(arrayAggregator, "arrayAggregator");
var arrayAggregator_default = arrayAggregator;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_createBaseFor.js
function createBaseFor(fromRight) {
return function(object, iteratee, keysFunc) {
var index = -1, iterable = Object(object), props = keysFunc(object), length = props.length;
while (length--) {
var key = props[fromRight ? length : ++index];
if (iteratee(iterable[key], key, iterable) === false) {
break;
}
}
return object;
};
}
__name(createBaseFor, "createBaseFor");
var createBaseFor_default = createBaseFor;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_baseFor.js
var baseFor = createBaseFor_default();
var baseFor_default = baseFor;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_baseForOwn.js
function baseForOwn(object, iteratee) {
return object && baseFor_default(object, iteratee, keys_default);
}
__name(baseForOwn, "baseForOwn");
var baseForOwn_default = baseForOwn;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_createBaseEach.js
function createBaseEach(eachFunc, fromRight) {
return function(collection, iteratee) {
if (collection == null) {
return collection;
}
if (!isArrayLike_default(collection)) {
return eachFunc(collection, iteratee);
}
var length = collection.length, index = fromRight ? length : -1, iterable = Object(collection);
while (fromRight ? index-- : ++index < length) {
if (iteratee(iterable[index], index, iterable) === false) {
break;
}
}
return collection;
};
}
__name(createBaseEach, "createBaseEach");
var createBaseEach_default = createBaseEach;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_baseEach.js
var baseEach = createBaseEach_default(baseForOwn_default);
var baseEach_default = baseEach;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_baseAggregator.js
function baseAggregator(collection, setter, iteratee, accumulator) {
baseEach_default(collection, function(value, key, collection2) {
setter(accumulator, value, iteratee(value), collection2);
});
return accumulator;
}
__name(baseAggregator, "baseAggregator");
var baseAggregator_default = baseAggregator;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_createAggregator.js
function createAggregator(setter, initializer) {
return function(collection, iteratee) {
var func = isArray_default(collection) ? arrayAggregator_default : baseAggregator_default, accumulator = initializer ? initializer() : {};
return func(collection, setter, baseIteratee_default(iteratee, 2), accumulator);
};
}
__name(createAggregator, "createAggregator");
var createAggregator_default = createAggregator;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/defaults.js
var objectProto17 = Object.prototype;
var hasOwnProperty14 = objectProto17.hasOwnProperty;
var defaults = baseRest_default(function(object, sources) {
object = Object(object);
var index = -1;
var length = sources.length;
var guard = length > 2 ? sources[2] : void 0;
if (guard && isIterateeCall_default(sources[0], sources[1], guard)) {
length = 1;
}
while (++index < length) {
var source = sources[index];
var props = keysIn_default(source);
var propsIndex = -1;
var propsLength = props.length;
while (++propsIndex < propsLength) {
var key = props[propsIndex];
var value = object[key];
if (value === void 0 || eq_default(value, objectProto17[key]) && !hasOwnProperty14.call(object, key)) {
object[key] = source[key];
}
}
}
return object;
});
var defaults_default = defaults;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/isArrayLikeObject.js
function isArrayLikeObject(value) {
return isObjectLike_default(value) && isArrayLike_default(value);
}
__name(isArrayLikeObject, "isArrayLikeObject");
var isArrayLikeObject_default = isArrayLikeObject;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_arrayIncludesWith.js
function arrayIncludesWith(array, value, comparator) {
var index = -1, length = array == null ? 0 : array.length;
while (++index < length) {
if (comparator(value, array[index])) {
return true;
}
}
return false;
}
__name(arrayIncludesWith, "arrayIncludesWith");
var arrayIncludesWith_default = arrayIncludesWith;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_baseDifference.js
var LARGE_ARRAY_SIZE2 = 200;
function baseDifference(array, values2, iteratee, comparator) {
var index = -1, includes2 = arrayIncludes_default, isCommon = true, length = array.length, result = [], valuesLength = values2.length;
if (!length) {
return result;
}
if (iteratee) {
values2 = arrayMap_default(values2, baseUnary_default(iteratee));
}
if (comparator) {
includes2 = arrayIncludesWith_default;
isCommon = false;
} else if (values2.length >= LARGE_ARRAY_SIZE2) {
includes2 = cacheHas_default;
isCommon = false;
values2 = new SetCache_default(values2);
}
outer:
while (++index < length) {
var value = array[index], computed = iteratee == null ? value : iteratee(value);
value = comparator || value !== 0 ? value : 0;
if (isCommon && computed === computed) {
var valuesIndex = valuesLength;
while (valuesIndex--) {
if (values2[valuesIndex] === computed) {
continue outer;
}
}
result.push(value);
} else if (!includes2(values2, computed, comparator)) {
result.push(value);
}
}
return result;
}
__name(baseDifference, "baseDifference");
var baseDifference_default = baseDifference;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/difference.js
var difference = baseRest_default(function(array, values2) {
return isArrayLikeObject_default(array) ? baseDifference_default(array, baseFlatten_default(values2, 1, isArrayLikeObject_default, true)) : [];
});
var difference_default = difference;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/last.js
function last(array) {
var length = array == null ? 0 : array.length;
return length ? array[length - 1] : void 0;
}
__name(last, "last");
var last_default = last;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/drop.js
function drop(array, n, guard) {
var length = array == null ? 0 : array.length;
if (!length) {
return [];
}
n = guard || n === void 0 ? 1 : toInteger_default(n);
return baseSlice_default(array, n < 0 ? 0 : n, length);
}
__name(drop, "drop");
var drop_default = drop;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/dropRight.js
function dropRight(array, n, guard) {
var length = array == null ? 0 : array.length;
if (!length) {
return [];
}
n = guard || n === void 0 ? 1 : toInteger_default(n);
n = length - n;
return baseSlice_default(array, 0, n < 0 ? 0 : n);
}
__name(dropRight, "dropRight");
var dropRight_default = dropRight;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_castFunction.js
function castFunction(value) {
return typeof value == "function" ? value : identity_default;
}
__name(castFunction, "castFunction");
var castFunction_default = castFunction;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/forEach.js
function forEach(collection, iteratee) {
var func = isArray_default(collection) ? arrayEach_default : baseEach_default;
return func(collection, castFunction_default(iteratee));
}
__name(forEach, "forEach");
var forEach_default = forEach;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_arrayEvery.js
function arrayEvery(array, predicate) {
var index = -1, length = array == null ? 0 : array.length;
while (++index < length) {
if (!predicate(array[index], index, array)) {
return false;
}
}
return true;
}
__name(arrayEvery, "arrayEvery");
var arrayEvery_default = arrayEvery;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_baseEvery.js
function baseEvery(collection, predicate) {
var result = true;
baseEach_default(collection, function(value, index, collection2) {
result = !!predicate(value, index, collection2);
return result;
});
return result;
}
__name(baseEvery, "baseEvery");
var baseEvery_default = baseEvery;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/every.js
function every(collection, predicate, guard) {
var func = isArray_default(collection) ? arrayEvery_default : baseEvery_default;
if (guard && isIterateeCall_default(collection, predicate, guard)) {
predicate = void 0;
}
return func(collection, baseIteratee_default(predicate, 3));
}
__name(every, "every");
var every_default = every;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_baseFilter.js
function baseFilter(collection, predicate) {
var result = [];
baseEach_default(collection, function(value, index, collection2) {
if (predicate(value, index, collection2)) {
result.push(value);
}
});
return result;
}
__name(baseFilter, "baseFilter");
var baseFilter_default = baseFilter;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/filter.js
function filter(collection, predicate) {
var func = isArray_default(collection) ? arrayFilter_default : baseFilter_default;
return func(collection, baseIteratee_default(predicate, 3));
}
__name(filter, "filter");
var filter_default = filter;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_createFind.js
function createFind(findIndexFunc) {
return function(collection, predicate, fromIndex) {
var iterable = Object(collection);
if (!isArrayLike_default(collection)) {
var iteratee = baseIteratee_default(predicate, 3);
collection = keys_default(collection);
predicate = /* @__PURE__ */ __name(function(key) {
return iteratee(iterable[key], key, iterable);
}, "predicate");
}
var index = findIndexFunc(collection, predicate, fromIndex);
return index > -1 ? iterable[iteratee ? collection[index] : index] : void 0;
};
}
__name(createFind, "createFind");
var createFind_default = createFind;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/findIndex.js
var nativeMax2 = Math.max;
function findIndex(array, predicate, fromIndex) {
var length = array == null ? 0 : array.length;
if (!length) {
return -1;
}
var index = fromIndex == null ? 0 : toInteger_default(fromIndex);
if (index < 0) {
index = nativeMax2(length + index, 0);
}
return baseFindIndex_default(array, baseIteratee_default(predicate, 3), index);
}
__name(findIndex, "findIndex");
var findIndex_default = findIndex;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/find.js
var find = createFind_default(findIndex_default);
var find_default = find;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/head.js
function head(array) {
return array && array.length ? array[0] : void 0;
}
__name(head, "head");
var head_default = head;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_baseMap.js
function baseMap(collection, iteratee) {
var index = -1, result = isArrayLike_default(collection) ? Array(collection.length) : [];
baseEach_default(collection, function(value, key, collection2) {
result[++index] = iteratee(value, key, collection2);
});
return result;
}
__name(baseMap, "baseMap");
var baseMap_default = baseMap;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/map.js
function map(collection, iteratee) {
var func = isArray_default(collection) ? arrayMap_default : baseMap_default;
return func(collection, baseIteratee_default(iteratee, 3));
}
__name(map, "map");
var map_default = map;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/flatMap.js
function flatMap(collection, iteratee) {
return baseFlatten_default(map_default(collection, iteratee), 1);
}
__name(flatMap, "flatMap");
var flatMap_default = flatMap;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/groupBy.js
var objectProto18 = Object.prototype;
var hasOwnProperty15 = objectProto18.hasOwnProperty;
var groupBy = createAggregator_default(function(result, value, key) {
if (hasOwnProperty15.call(result, key)) {
result[key].push(value);
} else {
baseAssignValue_default(result, key, [value]);
}
});
var groupBy_default = groupBy;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_baseHas.js
var objectProto19 = Object.prototype;
var hasOwnProperty16 = objectProto19.hasOwnProperty;
function baseHas(object, key) {
return object != null && hasOwnProperty16.call(object, key);
}
__name(baseHas, "baseHas");
var baseHas_default = baseHas;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/has.js
function has(object, path) {
return object != null && hasPath_default(object, path, baseHas_default);
}
__name(has, "has");
var has_default = has;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/isString.js
var stringTag5 = "[object String]";
function isString(value) {
return typeof value == "string" || !isArray_default(value) && isObjectLike_default(value) && baseGetTag_default(value) == stringTag5;
}
__name(isString, "isString");
var isString_default = isString;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_baseValues.js
function baseValues(object, props) {
return arrayMap_default(props, function(key) {
return object[key];
});
}
__name(baseValues, "baseValues");
var baseValues_default = baseValues;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/values.js
function values(object) {
return object == null ? [] : baseValues_default(object, keys_default(object));
}
__name(values, "values");
var values_default = values;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/includes.js
var nativeMax3 = Math.max;
function includes(collection, value, fromIndex, guard) {
collection = isArrayLike_default(collection) ? collection : values_default(collection);
fromIndex = fromIndex && !guard ? toInteger_default(fromIndex) : 0;
var length = collection.length;
if (fromIndex < 0) {
fromIndex = nativeMax3(length + fromIndex, 0);
}
return isString_default(collection) ? fromIndex <= length && collection.indexOf(value, fromIndex) > -1 : !!length && baseIndexOf_default(collection, value, fromIndex) > -1;
}
__name(includes, "includes");
var includes_default = includes;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/indexOf.js
var nativeMax4 = Math.max;
function indexOf(array, value, fromIndex) {
var length = array == null ? 0 : array.length;
if (!length) {
return -1;
}
var index = fromIndex == null ? 0 : toInteger_default(fromIndex);
if (index < 0) {
index = nativeMax4(length + index, 0);
}
return baseIndexOf_default(array, value, index);
}
__name(indexOf, "indexOf");
var indexOf_default = indexOf;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/isEmpty.js
var mapTag7 = "[object Map]";
var setTag7 = "[object Set]";
var objectProto20 = Object.prototype;
var hasOwnProperty17 = objectProto20.hasOwnProperty;
function isEmpty(value) {
if (value == null) {
return true;
}
if (isArrayLike_default(value) && (isArray_default(value) || typeof value == "string" || typeof value.splice == "function" || isBuffer_default(value) || isTypedArray_default(value) || isArguments_default(value))) {
return !value.length;
}
var tag = getTag_default(value);
if (tag == mapTag7 || tag == setTag7) {
return !value.size;
}
if (isPrototype_default(value)) {
return !baseKeys_default(value).length;
}
for (var key in value) {
if (hasOwnProperty17.call(value, key)) {
return false;
}
}
return true;
}
__name(isEmpty, "isEmpty");
var isEmpty_default = isEmpty;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_baseIsRegExp.js
var regexpTag5 = "[object RegExp]";
function baseIsRegExp(value) {
return isObjectLike_default(value) && baseGetTag_default(value) == regexpTag5;
}
__name(baseIsRegExp, "baseIsRegExp");
var baseIsRegExp_default = baseIsRegExp;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/isRegExp.js
var nodeIsRegExp = nodeUtil_default && nodeUtil_default.isRegExp;
var isRegExp = nodeIsRegExp ? baseUnary_default(nodeIsRegExp) : baseIsRegExp_default;
var isRegExp_default = isRegExp;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/isUndefined.js
function isUndefined(value) {
return value === void 0;
}
__name(isUndefined, "isUndefined");
var isUndefined_default = isUndefined;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_baseLt.js
function baseLt(value, other) {
return value < other;
}
__name(baseLt, "baseLt");
var baseLt_default = baseLt;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_baseExtremum.js
function baseExtremum(array, iteratee, comparator) {
var index = -1, length = array.length;
while (++index < length) {
var value = array[index], current = iteratee(value);
if (current != null && (computed === void 0 ? current === current && !isSymbol_default(current) : comparator(current, computed))) {
var computed = current, result = value;
}
}
return result;
}
__name(baseExtremum, "baseExtremum");
var baseExtremum_default = baseExtremum;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/min.js
function min(array) {
return array && array.length ? baseExtremum_default(array, identity_default, baseLt_default) : void 0;
}
__name(min, "min");
var min_default = min;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/negate.js
var FUNC_ERROR_TEXT2 = "Expected a function";
function negate(predicate) {
if (typeof predicate != "function") {
throw new TypeError(FUNC_ERROR_TEXT2);
}
return function() {
var args = arguments;
switch (args.length) {
case 0:
return !predicate.call(this);
case 1:
return !predicate.call(this, args[0]);
case 2:
return !predicate.call(this, args[0], args[1]);
case 3:
return !predicate.call(this, args[0], args[1], args[2]);
}
return !predicate.apply(this, args);
};
}
__name(negate, "negate");
var negate_default = negate;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_baseSet.js
function baseSet(object, path, value, customizer) {
if (!isObject_default(object)) {
return object;
}
path = castPath_default(path, object);
var index = -1, length = path.length, lastIndex = length - 1, nested = object;
while (nested != null && ++index < length) {
var key = toKey_default(path[index]), newValue = value;
if (key === "__proto__" || key === "constructor" || key === "prototype") {
return object;
}
if (index != lastIndex) {
var objValue = nested[key];
newValue = customizer ? customizer(objValue, key, nested) : void 0;
if (newValue === void 0) {
newValue = isObject_default(objValue) ? objValue : isIndex_default(path[index + 1]) ? [] : {};
}
}
assignValue_default(nested, key, newValue);
nested = nested[key];
}
return object;
}
__name(baseSet, "baseSet");
var baseSet_default = baseSet;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_basePickBy.js
function basePickBy(object, paths, predicate) {
var index = -1, length = paths.length, result = {};
while (++index < length) {
var path = paths[index], value = baseGet_default(object, path);
if (predicate(value, path)) {
baseSet_default(result, castPath_default(path, object), value);
}
}
return result;
}
__name(basePickBy, "basePickBy");
var basePickBy_default = basePickBy;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/pickBy.js
function pickBy(object, predicate) {
if (object == null) {
return {};
}
var props = arrayMap_default(getAllKeysIn_default(object), function(prop) {
return [prop];
});
predicate = baseIteratee_default(predicate);
return basePickBy_default(object, props, function(value, path) {
return predicate(value, path[0]);
});
}
__name(pickBy, "pickBy");
var pickBy_default = pickBy;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_baseReduce.js
function baseReduce(collection, iteratee, accumulator, initAccum, eachFunc) {
eachFunc(collection, function(value, index, collection2) {
accumulator = initAccum ? (initAccum = false, value) : iteratee(accumulator, value, index, collection2);
});
return accumulator;
}
__name(baseReduce, "baseReduce");
var baseReduce_default = baseReduce;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/reduce.js
function reduce(collection, iteratee, accumulator) {
var func = isArray_default(collection) ? arrayReduce_default : baseReduce_default, initAccum = arguments.length < 3;
return func(collection, baseIteratee_default(iteratee, 4), accumulator, initAccum, baseEach_default);
}
__name(reduce, "reduce");
var reduce_default = reduce;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/reject.js
function reject(collection, predicate) {
var func = isArray_default(collection) ? arrayFilter_default : baseFilter_default;
return func(collection, negate_default(baseIteratee_default(predicate, 3)));
}
__name(reject, "reject");
var reject_default = reject;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_baseSome.js
function baseSome(collection, predicate) {
var result;
baseEach_default(collection, function(value, index, collection2) {
result = predicate(value, index, collection2);
return !result;
});
return !!result;
}
__name(baseSome, "baseSome");
var baseSome_default = baseSome;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/some.js
function some(collection, predicate, guard) {
var func = isArray_default(collection) ? arraySome_default : baseSome_default;
if (guard && isIterateeCall_default(collection, predicate, guard)) {
predicate = void 0;
}
return func(collection, baseIteratee_default(predicate, 3));
}
__name(some, "some");
var some_default = some;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_createSet.js
var INFINITY4 = 1 / 0;
var createSet = !(Set_default && 1 / setToArray_default(new Set_default([, -0]))[1] == INFINITY4) ? noop_default : function(values2) {
return new Set_default(values2);
};
var createSet_default = createSet;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/_baseUniq.js
var LARGE_ARRAY_SIZE3 = 200;
function baseUniq(array, iteratee, comparator) {
var index = -1, includes2 = arrayIncludes_default, length = array.length, isCommon = true, result = [], seen = result;
if (comparator) {
isCommon = false;
includes2 = arrayIncludesWith_default;
} else if (length >= LARGE_ARRAY_SIZE3) {
var set = iteratee ? null : createSet_default(array);
if (set) {
return setToArray_default(set);
}
isCommon = false;
includes2 = cacheHas_default;
seen = new SetCache_default();
} else {
seen = iteratee ? [] : result;
}
outer:
while (++index < length) {
var value = array[index], computed = iteratee ? iteratee(value) : value;
value = comparator || value !== 0 ? value : 0;
if (isCommon && computed === computed) {
var seenIndex = seen.length;
while (seenIndex--) {
if (seen[seenIndex] === computed) {
continue outer;
}
}
if (iteratee) {
seen.push(computed);
}
result.push(value);
} else if (!includes2(seen, computed, comparator)) {
if (seen !== result) {
seen.push(computed);
}
result.push(value);
}
}
return result;
}
__name(baseUniq, "baseUniq");
var baseUniq_default = baseUniq;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/uniq.js
function uniq(array) {
return array && array.length ? baseUniq_default(array) : [];
}
__name(uniq, "uniq");
var uniq_default = uniq;
// ../../node_modules/.pnpm/lodash-es@4.17.23/node_modules/lodash-es/uniqBy.js
function uniqBy(array, iteratee) {
return array && array.length ? baseUniq_default(array, baseIteratee_default(iteratee, 2)) : [];
}
__name(uniqBy, "uniqBy");
var uniqBy_default = uniqBy;
// ../../node_modules/.pnpm/@chevrotain+utils@11.1.1/node_modules/@chevrotain/utils/lib/src/print.js
function PRINT_ERROR(msg) {
if (console && console.error) {
console.error(`Error: ${msg}`);
}
}
__name(PRINT_ERROR, "PRINT_ERROR");
function PRINT_WARNING(msg) {
if (console && console.warn) {
console.warn(`Warning: ${msg}`);
}
}
__name(PRINT_WARNING, "PRINT_WARNING");
// ../../node_modules/.pnpm/@chevrotain+utils@11.1.1/node_modules/@chevrotain/utils/lib/src/timer.js
function timer(func) {
const start = (/* @__PURE__ */ new Date()).getTime();
const val = func();
const end = (/* @__PURE__ */ new Date()).getTime();
const total = end - start;
return { time: total, value: val };
}
__name(timer, "timer");
// ../../node_modules/.pnpm/@chevrotain+utils@11.1.1/node_modules/@chevrotain/utils/lib/src/to-fast-properties.js
function toFastProperties(toBecomeFast) {
function FakeConstructor() {
}
__name(FakeConstructor, "FakeConstructor");
FakeConstructor.prototype = toBecomeFast;
const fakeInstance = new FakeConstructor();
function fakeAccess() {
return typeof fakeInstance.bar;
}
__name(fakeAccess, "fakeAccess");
fakeAccess();
fakeAccess();
if (1)
return toBecomeFast;
(0, eval)(toBecomeFast);
}
__name(toFastProperties, "toFastProperties");
// ../../node_modules/.pnpm/@chevrotain+gast@11.1.1/node_modules/@chevrotain/gast/lib/src/model.js
function tokenLabel(tokType) {
if (hasTokenLabel(tokType)) {
return tokType.LABEL;
} else {
return tokType.name;
}
}
__name(tokenLabel, "tokenLabel");
function hasTokenLabel(obj) {
return isString_default(obj.LABEL) && obj.LABEL !== "";
}
__name(hasTokenLabel, "hasTokenLabel");
var AbstractProduction = class {
static {
__name(this, "AbstractProduction");
}
get definition() {
return this._definition;
}
set definition(value) {
this._definition = value;
}
constructor(_definition) {
this._definition = _definition;
}
accept(visitor2) {
visitor2.visit(this);
forEach_default(this.definition, (prod) => {
prod.accept(visitor2);
});
}
};
var NonTerminal = class extends AbstractProduction {
static {
__name(this, "NonTerminal");
}
constructor(options) {
super([]);
this.idx = 1;
assign_default(this, pickBy_default(options, (v) => v !== void 0));
}
set definition(definition) {
}
get definition() {
if (this.referencedRule !== void 0) {
return this.referencedRule.definition;
}
return [];
}
accept(visitor2) {
visitor2.visit(this);
}
};
var Rule = class extends AbstractProduction {
static {
__name(this, "Rule");
}
constructor(options) {
super(options.definition);
this.orgText = "";
assign_default(this, pickBy_default(options, (v) => v !== void 0));
}
};
var Alternative = class extends AbstractProduction {
static {
__name(this, "Alternative");
}
constructor(options) {
super(options.definition);
this.ignoreAmbiguities = false;
assign_default(this, pickBy_default(options, (v) => v !== void 0));
}
};
var Option = class extends AbstractProduction {
static {
__name(this, "Option");
}
constructor(options) {
super(options.definition);
this.idx = 1;
assign_default(this, pickBy_default(options, (v) => v !== void 0));
}
};
var RepetitionMandatory = class extends AbstractProduction {
static {
__name(this, "RepetitionMandatory");
}
constructor(options) {
super(options.definition);
this.idx = 1;
assign_default(this, pickBy_default(options, (v) => v !== void 0));
}
};
var RepetitionMandatoryWithSeparator = class extends AbstractProduction {
static {
__name(this, "RepetitionMandatoryWithSeparator");
}
constructor(options) {
super(options.definition);
this.idx = 1;
assign_default(this, pickBy_default(options, (v) => v !== void 0));
}
};
var Repetition = class extends AbstractProduction {
static {
__name(this, "Repetition");
}
constructor(options) {
super(options.definition);
this.idx = 1;
assign_default(this, pickBy_default(options, (v) => v !== void 0));
}
};
var RepetitionWithSeparator = class extends AbstractProduction {
static {
__name(this, "RepetitionWithSeparator");
}
constructor(options) {
super(options.definition);
this.idx = 1;
assign_default(this, pickBy_default(options, (v) => v !== void 0));
}
};
var Alternation = class extends AbstractProduction {
static {
__name(this, "Alternation");
}
get definition() {
return this._definition;
}
set definition(value) {
this._definition = value;
}
constructor(options) {
super(options.definition);
this.idx = 1;
this.ignoreAmbiguities = false;
this.hasPredicates = false;
assign_default(this, pickBy_default(options, (v) => v !== void 0));
}
};
var Terminal = class {
static {
__name(this, "Terminal");
}
constructor(options) {
this.idx = 1;
assign_default(this, pickBy_default(options, (v) => v !== void 0));
}
accept(visitor2) {
visitor2.visit(this);
}
};
function serializeGrammar(topRules) {
return map_default(topRules, serializeProduction);
}
__name(serializeGrammar, "serializeGrammar");
function serializeProduction(node) {
function convertDefinition(definition) {
return map_default(definition, serializeProduction);
}
__name(convertDefinition, "convertDefinition");
if (node instanceof NonTerminal) {
const serializedNonTerminal = {
type: "NonTerminal",
name: node.nonTerminalName,
idx: node.idx
};
if (isString_default(node.label)) {
serializedNonTerminal.label = node.label;
}
return serializedNonTerminal;
} else if (node instanceof Alternative) {
return {
type: "Alternative",
definition: convertDefinition(node.definition)
};
} else if (node instanceof Option) {
return {
type: "Option",
idx: node.idx,
definition: convertDefinition(node.definition)
};
} else if (node instanceof RepetitionMandatory) {
return {
type: "RepetitionMandatory",
idx: node.idx,
definition: convertDefinition(node.definition)
};
} else if (node instanceof RepetitionMandatoryWithSeparator) {
return {
type: "RepetitionMandatoryWithSeparator",
idx: node.idx,
separator: serializeProduction(new Terminal({ terminalType: node.separator })),
definition: convertDefinition(node.definition)
};
} else if (node instanceof RepetitionWithSeparator) {
return {
type: "RepetitionWithSeparator",
idx: node.idx,
separator: serializeProduction(new Terminal({ terminalType: node.separator })),
definition: convertDefinition(node.definition)
};
} else if (node instanceof Repetition) {
return {
type: "Repetition",
idx: node.idx,
definition: convertDefinition(node.definition)
};
} else if (node instanceof Alternation) {
return {
type: "Alternation",
idx: node.idx,
definition: convertDefinition(node.definition)
};
} else if (node instanceof Terminal) {
const serializedTerminal = {
type: "Terminal",
name: node.terminalType.name,
label: tokenLabel(node.terminalType),
idx: node.idx
};
if (isString_default(node.label)) {
serializedTerminal.terminalLabel = node.label;
}
const pattern = node.terminalType.PATTERN;
if (node.terminalType.PATTERN) {
serializedTerminal.pattern = isRegExp_default(pattern) ? pattern.source : pattern;
}
return serializedTerminal;
} else if (node instanceof Rule) {
return {
type: "Rule",
name: node.name,
orgText: node.orgText,
definition: convertDefinition(node.definition)
};
} else {
throw Error("non exhaustive match");
}
}
__name(serializeProduction, "serializeProduction");
// ../../node_modules/.pnpm/@chevrotain+gast@11.1.1/node_modules/@chevrotain/gast/lib/src/visitor.js
var GAstVisitor = class {
static {
__name(this, "GAstVisitor");
}
visit(node) {
const nodeAny = node;
switch (nodeAny.constructor) {
case NonTerminal:
return this.visitNonTerminal(nodeAny);
case Alternative:
return this.visitAlternative(nodeAny);
case Option:
return this.visitOption(nodeAny);
case RepetitionMandatory:
return this.visitRepetitionMandatory(nodeAny);
case RepetitionMandatoryWithSeparator:
return this.visitRepetitionMandatoryWithSeparator(nodeAny);
case RepetitionWithSeparator:
return this.visitRepetitionWithSeparator(nodeAny);
case Repetition:
return this.visitRepetition(nodeAny);
case Alternation:
return this.visitAlternation(nodeAny);
case Terminal:
return this.visitTerminal(nodeAny);
case Rule:
return this.visitRule(nodeAny);
/* c8 ignore next 2 */
default:
throw Error("non exhaustive match");
}
}
/* c8 ignore next */
visitNonTerminal(node) {
}
/* c8 ignore next */
visitAlternative(node) {
}
/* c8 ignore next */
visitOption(node) {
}
/* c8 ignore next */
visitRepetition(node) {
}
/* c8 ignore next */
visitRepetitionMandatory(node) {
}
/* c8 ignore next 3 */
visitRepetitionMandatoryWithSeparator(node) {
}
/* c8 ignore next */
visitRepetitionWithSeparator(node) {
}
/* c8 ignore next */
visitAlternation(node) {
}
/* c8 ignore next */
visitTerminal(node) {
}
/* c8 ignore next */
visitRule(node) {
}
};
// ../../node_modules/.pnpm/@chevrotain+gast@11.1.1/node_modules/@chevrotain/gast/lib/src/helpers.js
function isSequenceProd(prod) {
return prod instanceof Alternative || prod instanceof Option || prod instanceof Repetition || prod instanceof RepetitionMandatory || prod instanceof RepetitionMandatoryWithSeparator || prod instanceof RepetitionWithSeparator || prod instanceof Terminal || prod instanceof Rule;
}
__name(isSequenceProd, "isSequenceProd");
function isOptionalProd(prod, alreadyVisited = []) {
const isDirectlyOptional = prod instanceof Option || prod instanceof Repetition || prod instanceof RepetitionWithSeparator;
if (isDirectlyOptional) {
return true;
}
if (prod instanceof Alternation) {
return some_default(prod.definition, (subProd) => {
return isOptionalProd(subProd, alreadyVisited);
});
} else if (prod instanceof NonTerminal && includes_default(alreadyVisited, prod)) {
return false;
} else if (prod instanceof AbstractProduction) {
if (prod instanceof NonTerminal) {
alreadyVisited.push(prod);
}
return every_default(prod.definition, (subProd) => {
return isOptionalProd(subProd, alreadyVisited);
});
} else {
return false;
}
}
__name(isOptionalProd, "isOptionalProd");
function isBranchingProd(prod) {
return prod instanceof Alternation;
}
__name(isBranchingProd, "isBranchingProd");
function getProductionDslName(prod) {
if (prod instanceof NonTerminal) {
return "SUBRULE";
} else if (prod instanceof Option) {
return "OPTION";
} else if (prod instanceof Alternation) {
return "OR";
} else if (prod instanceof RepetitionMandatory) {
return "AT_LEAST_ONE";
} else if (prod instanceof RepetitionMandatoryWithSeparator) {
return "AT_LEAST_ONE_SEP";
} else if (prod instanceof RepetitionWithSeparator) {
return "MANY_SEP";
} else if (prod instanceof Repetition) {
return "MANY";
} else if (prod instanceof Terminal) {
return "CONSUME";
} else {
throw Error("non exhaustive match");
}
}
__name(getProductionDslName, "getProductionDslName");
// ../../node_modules/.pnpm/chevrotain@11.1.1/node_modules/chevrotain/lib/src/parse/grammar/rest.js
var RestWalker = class {
static {
__name(this, "RestWalker");
}
walk(prod, prevRest = []) {
forEach_default(prod.definition, (subProd, index) => {
const currRest = drop_default(prod.definition, index + 1);
if (subProd instanceof NonTerminal) {
this.walkProdRef(subProd, currRest, prevRest);
} else if (subProd instanceof Terminal) {
this.walkTerminal(subProd, currRest, prevRest);
} else if (subProd instanceof Alternative) {
this.walkFlat(subProd, currRest, prevRest);
} else if (subProd instanceof Option) {
this.walkOption(subProd, currRest, prevRest);
} else if (subProd instanceof RepetitionMandatory) {
this.walkAtLeastOne(subProd, currRest, prevRest);
} else if (subProd instanceof RepetitionMandatoryWithSeparator) {
this.walkAtLeastOneSep(subProd, currRest, prevRest);
} else if (subProd instanceof RepetitionWithSeparator) {
this.walkManySep(subProd, currRest, prevRest);
} else if (subProd instanceof Repetition) {
this.walkMany(subProd, currRest, prevRest);
} else if (subProd instanceof Alternation) {
this.walkOr(subProd, currRest, prevRest);
} else {
throw Error("non exhaustive match");
}
});
}
walkTerminal(terminal, currRest, prevRest) {
}
walkProdRef(refProd, currRest, prevRest) {
}
walkFlat(flatProd, currRest, prevRest) {
const fullOrRest = currRest.concat(prevRest);
this.walk(flatProd, fullOrRest);
}
walkOption(optionProd, currRest, prevRest) {
const fullOrRest = currRest.concat(prevRest);
this.walk(optionProd, fullOrRest);
}
walkAtLeastOne(atLeastOneProd, currRest, prevRest) {
const fullAtLeastOneRest = [
new Option({ definition: atLeastOneProd.definition })
].concat(currRest, prevRest);
this.walk(atLeastOneProd, fullAtLeastOneRest);
}
walkAtLeastOneSep(atLeastOneSepProd, currRest, prevRest) {
const fullAtLeastOneSepRest = restForRepetitionWithSeparator(atLeastOneSepProd, currRest, prevRest);
this.walk(atLeastOneSepProd, fullAtLeastOneSepRest);
}
walkMany(manyProd, currRest, prevRest) {
const fullManyRest = [
new Option({ definition: manyProd.definition })
].concat(currRest, prevRest);
this.walk(manyProd, fullManyRest);
}
walkManySep(manySepProd, currRest, prevRest) {
const fullManySepRest = restForRepetitionWithSeparator(manySepProd, currRest, prevRest);
this.walk(manySepProd, fullManySepRest);
}
walkOr(orProd, currRest, prevRest) {
const fullOrRest = currRest.concat(prevRest);
forEach_default(orProd.definition, (alt) => {
const prodWrapper = new Alternative({ definition: [alt] });
this.walk(prodWrapper, fullOrRest);
});
}
};
function restForRepetitionWithSeparator(repSepProd, currRest, prevRest) {
const repSepRest = [
new Option({
definition: [
new Terminal({ terminalType: repSepProd.separator })
].concat(repSepProd.definition)
})
];
const fullRepSepRest = repSepRest.concat(currRest, prevRest);
return fullRepSepRest;
}
__name(restForRepetitionWithSeparator, "restForRepetitionWithSeparator");
// ../../node_modules/.pnpm/chevrotain@11.1.1/node_modules/chevrotain/lib/src/parse/grammar/first.js
function first(prod) {
if (prod instanceof NonTerminal) {
return first(prod.referencedRule);
} else if (prod instanceof Terminal) {
return firstForTerminal(prod);
} else if (isSequenceProd(prod)) {
return firstForSequence(prod);
} else if (isBranchingProd(prod)) {
return firstForBranching(prod);
} else {
throw Error("non exhaustive match");
}
}
__name(first, "first");
function firstForSequence(prod) {
let firstSet = [];
const seq = prod.definition;
let nextSubProdIdx = 0;
let hasInnerProdsRemaining = seq.length > nextSubProdIdx;
let currSubProd;
let isLastInnerProdOptional = true;
while (hasInnerProdsRemaining && isLastInnerProdOptional) {
currSubProd = seq[nextSubProdIdx];
isLastInnerProdOptional = isOptionalProd(currSubProd);
firstSet = firstSet.concat(first(currSubProd));
nextSubProdIdx = nextSubProdIdx + 1;
hasInnerProdsRemaining = seq.length > nextSubProdIdx;
}
return uniq_default(firstSet);
}
__name(firstForSequence, "firstForSequence");
function firstForBranching(prod) {
const allAlternativesFirsts = map_default(prod.definition, (innerProd) => {
return first(innerProd);
});
return uniq_default(flatten_default(allAlternativesFirsts));
}
__name(firstForBranching, "firstForBranching");
function firstForTerminal(terminal) {
return [terminal.terminalType];
}
__name(firstForTerminal, "firstForTerminal");
// ../../node_modules/.pnpm/chevrotain@11.1.1/node_modules/chevrotain/lib/src/parse/constants.js
var IN = "_~IN~_";
// ../../node_modules/.pnpm/chevrotain@11.1.1/node_modules/chevrotain/lib/src/parse/grammar/follow.js
var ResyncFollowsWalker = class extends RestWalker {
static {
__name(this, "ResyncFollowsWalker");
}
constructor(topProd) {
super();
this.topProd = topProd;
this.follows = {};
}
startWalking() {
this.walk(this.topProd);
return this.follows;
}
walkTerminal(terminal, currRest, prevRest) {
}
walkProdRef(refProd, currRest, prevRest) {
const followName = buildBetweenProdsFollowPrefix(refProd.referencedRule, refProd.idx) + this.topProd.name;
const fullRest = currRest.concat(prevRest);
const restProd = new Alternative({ definition: fullRest });
const t_in_topProd_follows = first(restProd);
this.follows[followName] = t_in_topProd_follows;
}
};
function computeAllProdsFollows(topProductions) {
const reSyncFollows = {};
forEach_default(topProductions, (topProd) => {
const currRefsFollow = new ResyncFollowsWalker(topProd).startWalking();
assign_default(reSyncFollows, currRefsFollow);
});
return reSyncFollows;
}
__name(computeAllProdsFollows, "computeAllProdsFollows");
function buildBetweenProdsFollowPrefix(inner, occurenceInParent) {
return inner.name + occurenceInParent + IN;
}
__name(buildBetweenProdsFollowPrefix, "buildBetweenProdsFollowPrefix");
// ../../node_modules/.pnpm/chevrotain@11.1.1/node_modules/chevrotain/lib/src/scan/reg_exp_parser.js
var regExpAstCache = {};
var regExpParser = new RegExpParser();
function getRegExpAst(regExp) {
const regExpStr = regExp.toString();
if (regExpAstCache.hasOwnProperty(regExpStr)) {
return regExpAstCache[regExpStr];
} else {
const regExpAst = regExpParser.pattern(regExpStr);
regExpAstCache[regExpStr] = regExpAst;
return regExpAst;
}
}
__name(getRegExpAst, "getRegExpAst");
function clearRegExpParserCache() {
regExpAstCache = {};
}
__name(clearRegExpParserCache, "clearRegExpParserCache");
// ../../node_modules/.pnpm/chevrotain@11.1.1/node_modules/chevrotain/lib/src/scan/reg_exp.js
var complementErrorMessage = "Complement Sets are not supported for first char optimization";
var failedOptimizationPrefixMsg = 'Unable to use "first char" lexer optimizations:\n';
function getOptimizedStartCodesIndices(regExp, ensureOptimizations = false) {
try {
const ast = getRegExpAst(regExp);
const firstChars = firstCharOptimizedIndices(ast.value, {}, ast.flags.ignoreCase);
return firstChars;
} catch (e) {
if (e.message === complementErrorMessage) {
if (ensureOptimizations) {
PRINT_WARNING(`${failedOptimizationPrefixMsg} Unable to optimize: < ${regExp.toString()} >
Complement Sets cannot be automatically optimized.
This will disable the lexer's first char optimizations.
See: https://chevrotain.io/docs/guide/resolving_lexer_errors.html#COMPLEMENT for details.`);
}
} else {
let msgSuffix = "";
if (ensureOptimizations) {
msgSuffix = "\n This will disable the lexer's first char optimizations.\n See: https://chevrotain.io/docs/guide/resolving_lexer_errors.html#REGEXP_PARSING for details.";
}
PRINT_ERROR(`${failedOptimizationPrefixMsg}
Failed parsing: < ${regExp.toString()} >
Using the @chevrotain/regexp-to-ast library
Please open an issue at: https://github.com/chevrotain/chevrotain/issues` + msgSuffix);
}
}
return [];
}
__name(getOptimizedStartCodesIndices, "getOptimizedStartCodesIndices");
function firstCharOptimizedIndices(ast, result, ignoreCase) {
switch (ast.type) {
case "Disjunction":
for (let i = 0; i < ast.value.length; i++) {
firstCharOptimizedIndices(ast.value[i], result, ignoreCase);
}
break;
case "Alternative":
const terms = ast.value;
for (let i = 0; i < terms.length; i++) {
const term = terms[i];
switch (term.type) {
case "EndAnchor":
// A group back reference cannot affect potential starting char.
// because if a back reference is the first production than automatically
// the group being referenced has had to come BEFORE so its codes have already been added
case "GroupBackReference":
// assertions do not affect potential starting codes
case "Lookahead":
case "NegativeLookahead":
case "Lookbehind":
case "NegativeLookbehind":
case "StartAnchor":
case "WordBoundary":
case "NonWordBoundary":
continue;
}
const atom2 = term;
switch (atom2.type) {
case "Character":
addOptimizedIdxToResult(atom2.value, result, ignoreCase);
break;
case "Set":
if (atom2.complement === true) {
throw Error(complementErrorMessage);
}
forEach_default(atom2.value, (code) => {
if (typeof code === "number") {
addOptimizedIdxToResult(code, result, ignoreCase);
} else {
const range = code;
if (ignoreCase === true) {
for (let rangeCode = range.from; rangeCode <= range.to; rangeCode++) {
addOptimizedIdxToResult(rangeCode, result, ignoreCase);
}
} else {
for (let rangeCode = range.from; rangeCode <= range.to && rangeCode < minOptimizationVal; rangeCode++) {
addOptimizedIdxToResult(rangeCode, result, ignoreCase);
}
if (range.to >= minOptimizationVal) {
const minUnOptVal = range.from >= minOptimizationVal ? range.from : minOptimizationVal;
const maxUnOptVal = range.to;
const minOptIdx = charCodeToOptimizedIndex(minUnOptVal);
const maxOptIdx = charCodeToOptimizedIndex(maxUnOptVal);
for (let currOptIdx = minOptIdx; currOptIdx <= maxOptIdx; currOptIdx++) {
result[currOptIdx] = currOptIdx;
}
}
}
}
});
break;
case "Group":
firstCharOptimizedIndices(atom2.value, result, ignoreCase);
break;
/* istanbul ignore next */
default:
throw Error("Non Exhaustive Match");
}
const isOptionalQuantifier = atom2.quantifier !== void 0 && atom2.quantifier.atLeast === 0;
if (
// A group may be optional due to empty contents /(?:)/
// or if everything inside it is optional /((a)?)/
atom2.type === "Group" && isWholeOptional(atom2) === false || // If this term is not a group it may only be optional if it has an optional quantifier
atom2.type !== "Group" && isOptionalQuantifier === false
) {
break;
}
}
break;
/* istanbul ignore next */
default:
throw Error("non exhaustive match!");
}
return values_default(result);
}
__name(firstCharOptimizedIndices, "firstCharOptimizedIndices");
function addOptimizedIdxToResult(code, result, ignoreCase) {
const optimizedCharIdx = charCodeToOptimizedIndex(code);
result[optimizedCharIdx] = optimizedCharIdx;
if (ignoreCase === true) {
handleIgnoreCase(code, result);
}
}
__name(addOptimizedIdxToResult, "addOptimizedIdxToResult");
function handleIgnoreCase(code, result) {
const char = String.fromCharCode(code);
const upperChar = char.toUpperCase();
if (upperChar !== char) {
const optimizedCharIdx = charCodeToOptimizedIndex(upperChar.charCodeAt(0));
result[optimizedCharIdx] = optimizedCharIdx;
} else {
const lowerChar = char.toLowerCase();
if (lowerChar !== char) {
const optimizedCharIdx = charCodeToOptimizedIndex(lowerChar.charCodeAt(0));
result[optimizedCharIdx] = optimizedCharIdx;
}
}
}
__name(handleIgnoreCase, "handleIgnoreCase");
function findCode(setNode, targetCharCodes) {
return find_default(setNode.value, (codeOrRange) => {
if (typeof codeOrRange === "number") {
return includes_default(targetCharCodes, codeOrRange);
} else {
const range = codeOrRange;
return find_default(targetCharCodes, (targetCode) => range.from <= targetCode && targetCode <= range.to) !== void 0;
}
});
}
__name(findCode, "findCode");
function isWholeOptional(ast) {
const quantifier = ast.quantifier;
if (quantifier && quantifier.atLeast === 0) {
return true;
}
if (!ast.value) {
return false;
}
return isArray_default(ast.value) ? every_default(ast.value, isWholeOptional) : isWholeOptional(ast.value);
}
__name(isWholeOptional, "isWholeOptional");
var CharCodeFinder = class extends BaseRegExpVisitor {
static {
__name(this, "CharCodeFinder");
}
constructor(targetCharCodes) {
super();
this.targetCharCodes = targetCharCodes;
this.found = false;
}
visitChildren(node) {
if (this.found === true) {
return;
}
switch (node.type) {
case "Lookahead":
this.visitLookahead(node);
return;
case "NegativeLookahead":
this.visitNegativeLookahead(node);
return;
case "Lookbehind":
this.visitLookbehind(node);
return;
case "NegativeLookbehind":
this.visitNegativeLookbehind(node);
return;
}
super.visitChildren(node);
}
visitCharacter(node) {
if (includes_default(this.targetCharCodes, node.value)) {
this.found = true;
}
}
visitSet(node) {
if (node.complement) {
if (findCode(node, this.targetCharCodes) === void 0) {
this.found = true;
}
} else {
if (findCode(node, this.targetCharCodes) !== void 0) {
this.found = true;
}
}
}
};
function canMatchCharCode(charCodes, pattern) {
if (pattern instanceof RegExp) {
const ast = getRegExpAst(pattern);
const charCodeFinder = new CharCodeFinder(charCodes);
charCodeFinder.visit(ast);
return charCodeFinder.found;
} else {
return find_default(pattern, (char) => {
return includes_default(charCodes, char.charCodeAt(0));
}) !== void 0;
}
}
__name(canMatchCharCode, "canMatchCharCode");
// ../../node_modules/.pnpm/chevrotain@11.1.1/node_modules/chevrotain/lib/src/scan/lexer.js
var PATTERN = "PATTERN";
var DEFAULT_MODE = "defaultMode";
var MODES = "modes";
var SUPPORT_STICKY = typeof new RegExp("(?:)").sticky === "boolean";
function analyzeTokenTypes(tokenTypes, options) {
options = defaults_default(options, {
useSticky: SUPPORT_STICKY,
debug: false,
safeMode: false,
positionTracking: "full",
lineTerminatorCharacters: ["\r", "\n"],
tracer: /* @__PURE__ */ __name((msg, action) => action(), "tracer")
});
const tracer = options.tracer;
tracer("initCharCodeToOptimizedIndexMap", () => {
initCharCodeToOptimizedIndexMap();
});
let onlyRelevantTypes;
tracer("Reject Lexer.NA", () => {
onlyRelevantTypes = reject_default(tokenTypes, (currType) => {
return currType[PATTERN] === Lexer.NA;
});
});
let hasCustom = false;
let allTransformedPatterns;
tracer("Transform Patterns", () => {
hasCustom = false;
allTransformedPatterns = map_default(onlyRelevantTypes, (currType) => {
const currPattern = currType[PATTERN];
if (isRegExp_default(currPattern)) {
const regExpSource = currPattern.source;
if (regExpSource.length === 1 && // only these regExp meta characters which can appear in a length one regExp
regExpSource !== "^" && regExpSource !== "$" && regExpSource !== "." && !currPattern.ignoreCase) {
return regExpSource;
} else if (regExpSource.length === 2 && regExpSource[0] === "\\" && // not a meta character
!includes_default([
"d",
"D",
"s",
"S",
"t",
"r",
"n",
"t",
"0",
"c",
"b",
"B",
"f",
"v",
"w",
"W"
], regExpSource[1])) {
return regExpSource[1];
} else {
return options.useSticky ? addStickyFlag(currPattern) : addStartOfInput(currPattern);
}
} else if (isFunction_default(currPattern)) {
hasCustom = true;
return { exec: currPattern };
} else if (typeof currPattern === "object") {
hasCustom = true;
return currPattern;
} else if (typeof currPattern === "string") {
if (currPattern.length === 1) {
return currPattern;
} else {
const escapedRegExpString = currPattern.replace(/[\\^$.*+?()[\]{}|]/g, "\\$&");
const wrappedRegExp = new RegExp(escapedRegExpString);
return options.useSticky ? addStickyFlag(wrappedRegExp) : addStartOfInput(wrappedRegExp);
}
} else {
throw Error("non exhaustive match");
}
});
});
let patternIdxToType;
let patternIdxToGroup;
let patternIdxToLongerAltIdxArr;
let patternIdxToPushMode;
let patternIdxToPopMode;
tracer("misc mapping", () => {
patternIdxToType = map_default(onlyRelevantTypes, (currType) => currType.tokenTypeIdx);
patternIdxToGroup = map_default(onlyRelevantTypes, (clazz) => {
const groupName = clazz.GROUP;
if (groupName === Lexer.SKIPPED) {
return void 0;
} else if (isString_default(groupName)) {
return groupName;
} else if (isUndefined_default(groupName)) {
return false;
} else {
throw Error("non exhaustive match");
}
});
patternIdxToLongerAltIdxArr = map_default(onlyRelevantTypes, (clazz) => {
const longerAltType = clazz.LONGER_ALT;
if (longerAltType) {
const longerAltIdxArr = isArray_default(longerAltType) ? map_default(longerAltType, (type) => indexOf_default(onlyRelevantTypes, type)) : [indexOf_default(onlyRelevantTypes, longerAltType)];
return longerAltIdxArr;
}
});
patternIdxToPushMode = map_default(onlyRelevantTypes, (clazz) => clazz.PUSH_MODE);
patternIdxToPopMode = map_default(onlyRelevantTypes, (clazz) => has_default(clazz, "POP_MODE"));
});
let patternIdxToCanLineTerminator;
tracer("Line Terminator Handling", () => {
const lineTerminatorCharCodes = getCharCodes(options.lineTerminatorCharacters);
patternIdxToCanLineTerminator = map_default(onlyRelevantTypes, (tokType) => false);
if (options.positionTracking !== "onlyOffset") {
patternIdxToCanLineTerminator = map_default(onlyRelevantTypes, (tokType) => {
if (has_default(tokType, "LINE_BREAKS")) {
return !!tokType.LINE_BREAKS;
} else {
return checkLineBreaksIssues(tokType, lineTerminatorCharCodes) === false && canMatchCharCode(lineTerminatorCharCodes, tokType.PATTERN);
}
});
}
});
let patternIdxToIsCustom;
let patternIdxToShort;
let emptyGroups;
let patternIdxToConfig;
tracer("Misc Mapping #2", () => {
patternIdxToIsCustom = map_default(onlyRelevantTypes, isCustomPattern);
patternIdxToShort = map_default(allTransformedPatterns, isShortPattern);
emptyGroups = reduce_default(onlyRelevantTypes, (acc, clazz) => {
const groupName = clazz.GROUP;
if (isString_default(groupName) && !(groupName === Lexer.SKIPPED)) {
acc[groupName] = [];
}
return acc;
}, {});
patternIdxToConfig = map_default(allTransformedPatterns, (x, idx) => {
return {
pattern: allTransformedPatterns[idx],
longerAlt: patternIdxToLongerAltIdxArr[idx],
canLineTerminator: patternIdxToCanLineTerminator[idx],
isCustom: patternIdxToIsCustom[idx],
short: patternIdxToShort[idx],
group: patternIdxToGroup[idx],
push: patternIdxToPushMode[idx],
pop: patternIdxToPopMode[idx],
tokenTypeIdx: patternIdxToType[idx],
tokenType: onlyRelevantTypes[idx]
};
});
});
let canBeOptimized = true;
let charCodeToPatternIdxToConfig = [];
if (!options.safeMode) {
tracer("First Char Optimization", () => {
charCodeToPatternIdxToConfig = reduce_default(onlyRelevantTypes, (result, currTokType, idx) => {
if (typeof currTokType.PATTERN === "string") {
const charCode = currTokType.PATTERN.charCodeAt(0);
const optimizedIdx = charCodeToOptimizedIndex(charCode);
addToMapOfArrays(result, optimizedIdx, patternIdxToConfig[idx]);
} else if (isArray_default(currTokType.START_CHARS_HINT)) {
let lastOptimizedIdx;
forEach_default(currTokType.START_CHARS_HINT, (charOrInt) => {
const charCode = typeof charOrInt === "string" ? charOrInt.charCodeAt(0) : charOrInt;
const currOptimizedIdx = charCodeToOptimizedIndex(charCode);
if (lastOptimizedIdx !== currOptimizedIdx) {
lastOptimizedIdx = currOptimizedIdx;
addToMapOfArrays(result, currOptimizedIdx, patternIdxToConfig[idx]);
}
});
} else if (isRegExp_default(currTokType.PATTERN)) {
if (currTokType.PATTERN.unicode) {
canBeOptimized = false;
if (options.ensureOptimizations) {
PRINT_ERROR(`${failedOptimizationPrefixMsg} Unable to analyze < ${currTokType.PATTERN.toString()} > pattern.
The regexp unicode flag is not currently supported by the regexp-to-ast library.
This will disable the lexer's first char optimizations.
For details See: https://chevrotain.io/docs/guide/resolving_lexer_errors.html#UNICODE_OPTIMIZE`);
}
} else {
const optimizedCodes = getOptimizedStartCodesIndices(currTokType.PATTERN, options.ensureOptimizations);
if (isEmpty_default(optimizedCodes)) {
canBeOptimized = false;
}
forEach_default(optimizedCodes, (code) => {
addToMapOfArrays(result, code, patternIdxToConfig[idx]);
});
}
} else {
if (options.ensureOptimizations) {
PRINT_ERROR(`${failedOptimizationPrefixMsg} TokenType: <${currTokType.name}> is using a custom token pattern without providing <start_chars_hint> parameter.
This will disable the lexer's first char optimizations.
For details See: https://chevrotain.io/docs/guide/resolving_lexer_errors.html#CUSTOM_OPTIMIZE`);
}
canBeOptimized = false;
}
return result;
}, []);
});
}
return {
emptyGroups,
patternIdxToConfig,
charCodeToPatternIdxToConfig,
hasCustom,
canBeOptimized
};
}
__name(analyzeTokenTypes, "analyzeTokenTypes");
function validatePatterns(tokenTypes, validModesNames) {
let errors = [];
const missingResult = findMissingPatterns(tokenTypes);
errors = errors.concat(missingResult.errors);
const invalidResult = findInvalidPatterns(missingResult.valid);
const validTokenTypes = invalidResult.valid;
errors = errors.concat(invalidResult.errors);
errors = errors.concat(validateRegExpPattern(validTokenTypes));
errors = errors.concat(findInvalidGroupType(validTokenTypes));
errors = errors.concat(findModesThatDoNotExist(validTokenTypes, validModesNames));
errors = errors.concat(findUnreachablePatterns(validTokenTypes));
return errors;
}
__name(validatePatterns, "validatePatterns");
function validateRegExpPattern(tokenTypes) {
let errors = [];
const withRegExpPatterns = filter_default(tokenTypes, (currTokType) => isRegExp_default(currTokType[PATTERN]));
errors = errors.concat(findEndOfInputAnchor(withRegExpPatterns));
errors = errors.concat(findStartOfInputAnchor(withRegExpPatterns));
errors = errors.concat(findUnsupportedFlags(withRegExpPatterns));
errors = errors.concat(findDuplicatePatterns(withRegExpPatterns));
errors = errors.concat(findEmptyMatchRegExps(withRegExpPatterns));
return errors;
}
__name(validateRegExpPattern, "validateRegExpPattern");
function findMissingPatterns(tokenTypes) {
const tokenTypesWithMissingPattern = filter_default(tokenTypes, (currType) => {
return !has_default(currType, PATTERN);
});
const errors = map_default(tokenTypesWithMissingPattern, (currType) => {
return {
message: "Token Type: ->" + currType.name + "<- missing static 'PATTERN' property",
type: LexerDefinitionErrorType.MISSING_PATTERN,
tokenTypes: [currType]
};
});
const valid = difference_default(tokenTypes, tokenTypesWithMissingPattern);
return { errors, valid };
}
__name(findMissingPatterns, "findMissingPatterns");
function findInvalidPatterns(tokenTypes) {
const tokenTypesWithInvalidPattern = filter_default(tokenTypes, (currType) => {
const pattern = currType[PATTERN];
return !isRegExp_default(pattern) && !isFunction_default(pattern) && !has_default(pattern, "exec") && !isString_default(pattern);
});
const errors = map_default(tokenTypesWithInvalidPattern, (currType) => {
return {
message: "Token Type: ->" + currType.name + "<- static 'PATTERN' can only be a RegExp, a Function matching the {CustomPatternMatcherFunc} type or an Object matching the {ICustomPattern} interface.",
type: LexerDefinitionErrorType.INVALID_PATTERN,
tokenTypes: [currType]
};
});
const valid = difference_default(tokenTypes, tokenTypesWithInvalidPattern);
return { errors, valid };
}
__name(findInvalidPatterns, "findInvalidPatterns");
var end_of_input = /[^\\][$]/;
function findEndOfInputAnchor(tokenTypes) {
class EndAnchorFinder extends BaseRegExpVisitor {
static {
__name(this, "EndAnchorFinder");
}
constructor() {
super(...arguments);
this.found = false;
}
visitEndAnchor(node) {
this.found = true;
}
}
const invalidRegex = filter_default(tokenTypes, (currType) => {
const pattern = currType.PATTERN;
try {
const regexpAst = getRegExpAst(pattern);
const endAnchorVisitor = new EndAnchorFinder();
endAnchorVisitor.visit(regexpAst);
return endAnchorVisitor.found;
} catch (e) {
return end_of_input.test(pattern.source);
}
});
const errors = map_default(invalidRegex, (currType) => {
return {
message: "Unexpected RegExp Anchor Error:\n Token Type: ->" + currType.name + "<- static 'PATTERN' cannot contain end of input anchor '$'\n See chevrotain.io/docs/guide/resolving_lexer_errors.html#ANCHORS for details.",
type: LexerDefinitionErrorType.EOI_ANCHOR_FOUND,
tokenTypes: [currType]
};
});
return errors;
}
__name(findEndOfInputAnchor, "findEndOfInputAnchor");
function findEmptyMatchRegExps(tokenTypes) {
const matchesEmptyString = filter_default(tokenTypes, (currType) => {
const pattern = currType.PATTERN;
return pattern.test("");
});
const errors = map_default(matchesEmptyString, (currType) => {
return {
message: "Token Type: ->" + currType.name + "<- static 'PATTERN' must not match an empty string",
type: LexerDefinitionErrorType.EMPTY_MATCH_PATTERN,
tokenTypes: [currType]
};
});
return errors;
}
__name(findEmptyMatchRegExps, "findEmptyMatchRegExps");
var start_of_input = /[^\\[][\^]|^\^/;
function findStartOfInputAnchor(tokenTypes) {
class StartAnchorFinder extends BaseRegExpVisitor {
static {
__name(this, "StartAnchorFinder");
}
constructor() {
super(...arguments);
this.found = false;
}
visitStartAnchor(node) {
this.found = true;
}
}
const invalidRegex = filter_default(tokenTypes, (currType) => {
const pattern = currType.PATTERN;
try {
const regexpAst = getRegExpAst(pattern);
const startAnchorVisitor = new StartAnchorFinder();
startAnchorVisitor.visit(regexpAst);
return startAnchorVisitor.found;
} catch (e) {
return start_of_input.test(pattern.source);
}
});
const errors = map_default(invalidRegex, (currType) => {
return {
message: "Unexpected RegExp Anchor Error:\n Token Type: ->" + currType.name + "<- static 'PATTERN' cannot contain start of input anchor '^'\n See https://chevrotain.io/docs/guide/resolving_lexer_errors.html#ANCHORS for details.",
type: LexerDefinitionErrorType.SOI_ANCHOR_FOUND,
tokenTypes: [currType]
};
});
return errors;
}
__name(findStartOfInputAnchor, "findStartOfInputAnchor");
function findUnsupportedFlags(tokenTypes) {
const invalidFlags = filter_default(tokenTypes, (currType) => {
const pattern = currType[PATTERN];
return pattern instanceof RegExp && (pattern.multiline || pattern.global);
});
const errors = map_default(invalidFlags, (currType) => {
return {
message: "Token Type: ->" + currType.name + "<- static 'PATTERN' may NOT contain global('g') or multiline('m')",
type: LexerDefinitionErrorType.UNSUPPORTED_FLAGS_FOUND,
tokenTypes: [currType]
};
});
return errors;
}
__name(findUnsupportedFlags, "findUnsupportedFlags");
function findDuplicatePatterns(tokenTypes) {
const found = [];
let identicalPatterns = map_default(tokenTypes, (outerType) => {
return reduce_default(tokenTypes, (result, innerType) => {
if (outerType.PATTERN.source === innerType.PATTERN.source && !includes_default(found, innerType) && innerType.PATTERN !== Lexer.NA) {
found.push(innerType);
result.push(innerType);
return result;
}
return result;
}, []);
});
identicalPatterns = compact_default(identicalPatterns);
const duplicatePatterns = filter_default(identicalPatterns, (currIdenticalSet) => {
return currIdenticalSet.length > 1;
});
const errors = map_default(duplicatePatterns, (setOfIdentical) => {
const tokenTypeNames = map_default(setOfIdentical, (currType) => {
return currType.name;
});
const dupPatternSrc = head_default(setOfIdentical).PATTERN;
return {
message: `The same RegExp pattern ->${dupPatternSrc}<-has been used in all of the following Token Types: ${tokenTypeNames.join(", ")} <-`,
type: LexerDefinitionErrorType.DUPLICATE_PATTERNS_FOUND,
tokenTypes: setOfIdentical
};
});
return errors;
}
__name(findDuplicatePatterns, "findDuplicatePatterns");
function findInvalidGroupType(tokenTypes) {
const invalidTypes = filter_default(tokenTypes, (clazz) => {
if (!has_default(clazz, "GROUP")) {
return false;
}
const group = clazz.GROUP;
return group !== Lexer.SKIPPED && group !== Lexer.NA && !isString_default(group);
});
const errors = map_default(invalidTypes, (currType) => {
return {
message: "Token Type: ->" + currType.name + "<- static 'GROUP' can only be Lexer.SKIPPED/Lexer.NA/A String",
type: LexerDefinitionErrorType.INVALID_GROUP_TYPE_FOUND,
tokenTypes: [currType]
};
});
return errors;
}
__name(findInvalidGroupType, "findInvalidGroupType");
function findModesThatDoNotExist(tokenTypes, validModes) {
const invalidModes = filter_default(tokenTypes, (clazz) => {
return clazz.PUSH_MODE !== void 0 && !includes_default(validModes, clazz.PUSH_MODE);
});
const errors = map_default(invalidModes, (tokType) => {
const msg = `Token Type: ->${tokType.name}<- static 'PUSH_MODE' value cannot refer to a Lexer Mode ->${tokType.PUSH_MODE}<-which does not exist`;
return {
message: msg,
type: LexerDefinitionErrorType.PUSH_MODE_DOES_NOT_EXIST,
tokenTypes: [tokType]
};
});
return errors;
}
__name(findModesThatDoNotExist, "findModesThatDoNotExist");
function findUnreachablePatterns(tokenTypes) {
const errors = [];
const canBeTested = reduce_default(tokenTypes, (result, tokType, idx) => {
const pattern = tokType.PATTERN;
if (pattern === Lexer.NA) {
return result;
}
if (isString_default(pattern)) {
result.push({ str: pattern, idx, tokenType: tokType });
} else if (isRegExp_default(pattern) && noMetaChar(pattern)) {
result.push({ str: pattern.source, idx, tokenType: tokType });
}
return result;
}, []);
forEach_default(tokenTypes, (aTokType, aIdx) => {
forEach_default(canBeTested, ({ str: bStr, idx: bIdx, tokenType: bTokType }) => {
if (aIdx < bIdx && tryToMatchStrToPattern(bStr, aTokType.PATTERN)) {
const msg = `Token: ->${bTokType.name}<- can never be matched.
Because it appears AFTER the Token Type ->${aTokType.name}<-in the lexer's definition.
See https://chevrotain.io/docs/guide/resolving_lexer_errors.html#UNREACHABLE`;
errors.push({
message: msg,
type: LexerDefinitionErrorType.UNREACHABLE_PATTERN,
tokenTypes: [aTokType, bTokType]
});
}
});
});
return errors;
}
__name(findUnreachablePatterns, "findUnreachablePatterns");
function tryToMatchStrToPattern(str, pattern) {
if (isRegExp_default(pattern)) {
if (usesLookAheadOrBehind(pattern)) {
return false;
}
const regExpArray = pattern.exec(str);
return regExpArray !== null && regExpArray.index === 0;
} else if (isFunction_default(pattern)) {
return pattern(str, 0, [], {});
} else if (has_default(pattern, "exec")) {
return pattern.exec(str, 0, [], {});
} else if (typeof pattern === "string") {
return pattern === str;
} else {
throw Error("non exhaustive match");
}
}
__name(tryToMatchStrToPattern, "tryToMatchStrToPattern");
function noMetaChar(regExp) {
const metaChars = [
".",
"\\",
"[",
"]",
"|",
"^",
"$",
"(",
")",
"?",
"*",
"+",
"{"
];
return find_default(metaChars, (char) => regExp.source.indexOf(char) !== -1) === void 0;
}
__name(noMetaChar, "noMetaChar");
function usesLookAheadOrBehind(regExp) {
return /(\(\?=)|(\(\?!)|(\(\?<=)|(\(\?<!)/.test(regExp.source);
}
__name(usesLookAheadOrBehind, "usesLookAheadOrBehind");
function addStartOfInput(pattern) {
const flags = pattern.ignoreCase ? "i" : "";
return new RegExp(`^(?:${pattern.source})`, flags);
}
__name(addStartOfInput, "addStartOfInput");
function addStickyFlag(pattern) {
const flags = pattern.ignoreCase ? "iy" : "y";
return new RegExp(`${pattern.source}`, flags);
}
__name(addStickyFlag, "addStickyFlag");
function performRuntimeChecks(lexerDefinition, trackLines, lineTerminatorCharacters) {
const errors = [];
if (!has_default(lexerDefinition, DEFAULT_MODE)) {
errors.push({
message: "A MultiMode Lexer cannot be initialized without a <" + DEFAULT_MODE + "> property in its definition\n",
type: LexerDefinitionErrorType.MULTI_MODE_LEXER_WITHOUT_DEFAULT_MODE
});
}
if (!has_default(lexerDefinition, MODES)) {
errors.push({
message: "A MultiMode Lexer cannot be initialized without a <" + MODES + "> property in its definition\n",
type: LexerDefinitionErrorType.MULTI_MODE_LEXER_WITHOUT_MODES_PROPERTY
});
}
if (has_default(lexerDefinition, MODES) && has_default(lexerDefinition, DEFAULT_MODE) && !has_default(lexerDefinition.modes, lexerDefinition.defaultMode)) {
errors.push({
message: `A MultiMode Lexer cannot be initialized with a ${DEFAULT_MODE}: <${lexerDefinition.defaultMode}>which does not exist
`,
type: LexerDefinitionErrorType.MULTI_MODE_LEXER_DEFAULT_MODE_VALUE_DOES_NOT_EXIST
});
}
if (has_default(lexerDefinition, MODES)) {
forEach_default(lexerDefinition.modes, (currModeValue, currModeName) => {
forEach_default(currModeValue, (currTokType, currIdx) => {
if (isUndefined_default(currTokType)) {
errors.push({
message: `A Lexer cannot be initialized using an undefined Token Type. Mode:<${currModeName}> at index: <${currIdx}>
`,
type: LexerDefinitionErrorType.LEXER_DEFINITION_CANNOT_CONTAIN_UNDEFINED
});
} else if (has_default(currTokType, "LONGER_ALT")) {
const longerAlt = isArray_default(currTokType.LONGER_ALT) ? currTokType.LONGER_ALT : [currTokType.LONGER_ALT];
forEach_default(longerAlt, (currLongerAlt) => {
if (!isUndefined_default(currLongerAlt) && !includes_default(currModeValue, currLongerAlt)) {
errors.push({
message: `A MultiMode Lexer cannot be initialized with a longer_alt <${currLongerAlt.name}> on token <${currTokType.name}> outside of mode <${currModeName}>
`,
type: LexerDefinitionErrorType.MULTI_MODE_LEXER_LONGER_ALT_NOT_IN_CURRENT_MODE
});
}
});
}
});
});
}
return errors;
}
__name(performRuntimeChecks, "performRuntimeChecks");
function performWarningRuntimeChecks(lexerDefinition, trackLines, lineTerminatorCharacters) {
const warnings = [];
let hasAnyLineBreak = false;
const allTokenTypes = compact_default(flatten_default(values_default(lexerDefinition.modes)));
const concreteTokenTypes = reject_default(allTokenTypes, (currType) => currType[PATTERN] === Lexer.NA);
const terminatorCharCodes = getCharCodes(lineTerminatorCharacters);
if (trackLines) {
forEach_default(concreteTokenTypes, (tokType) => {
const currIssue = checkLineBreaksIssues(tokType, terminatorCharCodes);
if (currIssue !== false) {
const message = buildLineBreakIssueMessage(tokType, currIssue);
const warningDescriptor = {
message,
type: currIssue.issue,
tokenType: tokType
};
warnings.push(warningDescriptor);
} else {
if (has_default(tokType, "LINE_BREAKS")) {
if (tokType.LINE_BREAKS === true) {
hasAnyLineBreak = true;
}
} else {
if (canMatchCharCode(terminatorCharCodes, tokType.PATTERN)) {
hasAnyLineBreak = true;
}
}
}
});
}
if (trackLines && !hasAnyLineBreak) {
warnings.push({
message: "Warning: No LINE_BREAKS Found.\n This Lexer has been defined to track line and column information,\n But none of the Token Types can be identified as matching a line terminator.\n See https://chevrotain.io/docs/guide/resolving_lexer_errors.html#LINE_BREAKS \n for details.",
type: LexerDefinitionErrorType.NO_LINE_BREAKS_FLAGS
});
}
return warnings;
}
__name(performWarningRuntimeChecks, "performWarningRuntimeChecks");
function cloneEmptyGroups(emptyGroups) {
const clonedResult = {};
const groupKeys = keys_default(emptyGroups);
forEach_default(groupKeys, (currKey) => {
const currGroupValue = emptyGroups[currKey];
if (isArray_default(currGroupValue)) {
clonedResult[currKey] = [];
} else {
throw Error("non exhaustive match");
}
});
return clonedResult;
}
__name(cloneEmptyGroups, "cloneEmptyGroups");
function isCustomPattern(tokenType) {
const pattern = tokenType.PATTERN;
if (isRegExp_default(pattern)) {
return false;
} else if (isFunction_default(pattern)) {
return true;
} else if (has_default(pattern, "exec")) {
return true;
} else if (isString_default(pattern)) {
return false;
} else {
throw Error("non exhaustive match");
}
}
__name(isCustomPattern, "isCustomPattern");
function isShortPattern(pattern) {
if (isString_default(pattern) && pattern.length === 1) {
return pattern.charCodeAt(0);
} else {
return false;
}
}
__name(isShortPattern, "isShortPattern");
var LineTerminatorOptimizedTester = {
// implements /\n|\r\n?/g.test
test: /* @__PURE__ */ __name(function(text) {
const len = text.length;
for (let i = this.lastIndex; i < len; i++) {
const c = text.charCodeAt(i);
if (c === 10) {
this.lastIndex = i + 1;
return true;
} else if (c === 13) {
if (text.charCodeAt(i + 1) === 10) {
this.lastIndex = i + 2;
} else {
this.lastIndex = i + 1;
}
return true;
}
}
return false;
}, "test"),
lastIndex: 0
};
function checkLineBreaksIssues(tokType, lineTerminatorCharCodes) {
if (has_default(tokType, "LINE_BREAKS")) {
return false;
} else {
if (isRegExp_default(tokType.PATTERN)) {
try {
canMatchCharCode(lineTerminatorCharCodes, tokType.PATTERN);
} catch (e) {
return {
issue: LexerDefinitionErrorType.IDENTIFY_TERMINATOR,
errMsg: e.message
};
}
return false;
} else if (isString_default(tokType.PATTERN)) {
return false;
} else if (isCustomPattern(tokType)) {
return { issue: LexerDefinitionErrorType.CUSTOM_LINE_BREAK };
} else {
throw Error("non exhaustive match");
}
}
}
__name(checkLineBreaksIssues, "checkLineBreaksIssues");
function buildLineBreakIssueMessage(tokType, details) {
if (details.issue === LexerDefinitionErrorType.IDENTIFY_TERMINATOR) {
return `Warning: unable to identify line terminator usage in pattern.
The problem is in the <${tokType.name}> Token Type
Root cause: ${details.errMsg}.
For details See: https://chevrotain.io/docs/guide/resolving_lexer_errors.html#IDENTIFY_TERMINATOR`;
} else if (details.issue === LexerDefinitionErrorType.CUSTOM_LINE_BREAK) {
return `Warning: A Custom Token Pattern should specify the <line_breaks> option.
The problem is in the <${tokType.name}> Token Type
For details See: https://chevrotain.io/docs/guide/resolving_lexer_errors.html#CUSTOM_LINE_BREAK`;
} else {
throw Error("non exhaustive match");
}
}
__name(buildLineBreakIssueMessage, "buildLineBreakIssueMessage");
function getCharCodes(charsOrCodes) {
const charCodes = map_default(charsOrCodes, (numOrString) => {
if (isString_default(numOrString)) {
return numOrString.charCodeAt(0);
} else {
return numOrString;
}
});
return charCodes;
}
__name(getCharCodes, "getCharCodes");
function addToMapOfArrays(map2, key, value) {
if (map2[key] === void 0) {
map2[key] = [value];
} else {
map2[key].push(value);
}
}
__name(addToMapOfArrays, "addToMapOfArrays");
var minOptimizationVal = 256;
var charCodeToOptimizedIdxMap = [];
function charCodeToOptimizedIndex(charCode) {
return charCode < minOptimizationVal ? charCode : charCodeToOptimizedIdxMap[charCode];
}
__name(charCodeToOptimizedIndex, "charCodeToOptimizedIndex");
function initCharCodeToOptimizedIndexMap() {
if (isEmpty_default(charCodeToOptimizedIdxMap)) {
charCodeToOptimizedIdxMap = new Array(65536);
for (let i = 0; i < 65536; i++) {
charCodeToOptimizedIdxMap[i] = i > 255 ? 255 + ~~(i / 255) : i;
}
}
}
__name(initCharCodeToOptimizedIndexMap, "initCharCodeToOptimizedIndexMap");
// ../../node_modules/.pnpm/chevrotain@11.1.1/node_modules/chevrotain/lib/src/scan/tokens.js
function tokenStructuredMatcher(tokInstance, tokConstructor) {
const instanceType = tokInstance.tokenTypeIdx;
if (instanceType === tokConstructor.tokenTypeIdx) {
return true;
} else {
return tokConstructor.isParent === true && tokConstructor.categoryMatchesMap[instanceType] === true;
}
}
__name(tokenStructuredMatcher, "tokenStructuredMatcher");
function tokenStructuredMatcherNoCategories(token, tokType) {
return token.tokenTypeIdx === tokType.tokenTypeIdx;
}
__name(tokenStructuredMatcherNoCategories, "tokenStructuredMatcherNoCategories");
var tokenShortNameIdx = 1;
var tokenIdxToClass = {};
function augmentTokenTypes(tokenTypes) {
const tokenTypesAndParents = expandCategories(tokenTypes);
assignTokenDefaultProps(tokenTypesAndParents);
assignCategoriesMapProp(tokenTypesAndParents);
assignCategoriesTokensProp(tokenTypesAndParents);
forEach_default(tokenTypesAndParents, (tokType) => {
tokType.isParent = tokType.categoryMatches.length > 0;
});
}
__name(augmentTokenTypes, "augmentTokenTypes");
function expandCategories(tokenTypes) {
let result = clone_default(tokenTypes);
let categories = tokenTypes;
let searching = true;
while (searching) {
categories = compact_default(flatten_default(map_default(categories, (currTokType) => currTokType.CATEGORIES)));
const newCategories = difference_default(categories, result);
result = result.concat(newCategories);
if (isEmpty_default(newCategories)) {
searching = false;
} else {
categories = newCategories;
}
}
return result;
}
__name(expandCategories, "expandCategories");
function assignTokenDefaultProps(tokenTypes) {
forEach_default(tokenTypes, (currTokType) => {
if (!hasShortKeyProperty(currTokType)) {
tokenIdxToClass[tokenShortNameIdx] = currTokType;
currTokType.tokenTypeIdx = tokenShortNameIdx++;
}
if (hasCategoriesProperty(currTokType) && !isArray_default(currTokType.CATEGORIES)) {
currTokType.CATEGORIES = [currTokType.CATEGORIES];
}
if (!hasCategoriesProperty(currTokType)) {
currTokType.CATEGORIES = [];
}
if (!hasExtendingTokensTypesProperty(currTokType)) {
currTokType.categoryMatches = [];
}
if (!hasExtendingTokensTypesMapProperty(currTokType)) {
currTokType.categoryMatchesMap = {};
}
});
}
__name(assignTokenDefaultProps, "assignTokenDefaultProps");
function assignCategoriesTokensProp(tokenTypes) {
forEach_default(tokenTypes, (currTokType) => {
currTokType.categoryMatches = [];
forEach_default(currTokType.categoryMatchesMap, (val, key) => {
currTokType.categoryMatches.push(tokenIdxToClass[key].tokenTypeIdx);
});
});
}
__name(assignCategoriesTokensProp, "assignCategoriesTokensProp");
function assignCategoriesMapProp(tokenTypes) {
forEach_default(tokenTypes, (currTokType) => {
singleAssignCategoriesToksMap([], currTokType);
});
}
__name(assignCategoriesMapProp, "assignCategoriesMapProp");
function singleAssignCategoriesToksMap(path, nextNode) {
forEach_default(path, (pathNode) => {
nextNode.categoryMatchesMap[pathNode.tokenTypeIdx] = true;
});
forEach_default(nextNode.CATEGORIES, (nextCategory) => {
const newPath = path.concat(nextNode);
if (!includes_default(newPath, nextCategory)) {
singleAssignCategoriesToksMap(newPath, nextCategory);
}
});
}
__name(singleAssignCategoriesToksMap, "singleAssignCategoriesToksMap");
function hasShortKeyProperty(tokType) {
return has_default(tokType, "tokenTypeIdx");
}
__name(hasShortKeyProperty, "hasShortKeyProperty");
function hasCategoriesProperty(tokType) {
return has_default(tokType, "CATEGORIES");
}
__name(hasCategoriesProperty, "hasCategoriesProperty");
function hasExtendingTokensTypesProperty(tokType) {
return has_default(tokType, "categoryMatches");
}
__name(hasExtendingTokensTypesProperty, "hasExtendingTokensTypesProperty");
function hasExtendingTokensTypesMapProperty(tokType) {
return has_default(tokType, "categoryMatchesMap");
}
__name(hasExtendingTokensTypesMapProperty, "hasExtendingTokensTypesMapProperty");
function isTokenType(tokType) {
return has_default(tokType, "tokenTypeIdx");
}
__name(isTokenType, "isTokenType");
// ../../node_modules/.pnpm/chevrotain@11.1.1/node_modules/chevrotain/lib/src/scan/lexer_errors_public.js
var defaultLexerErrorProvider = {
buildUnableToPopLexerModeMessage(token) {
return `Unable to pop Lexer Mode after encountering Token ->${token.image}<- The Mode Stack is empty`;
},
buildUnexpectedCharactersMessage(fullText, startOffset, length, line, column, mode) {
return `unexpected character: ->${fullText.charAt(startOffset)}<- at offset: ${startOffset}, skipped ${length} characters.`;
}
};
// ../../node_modules/.pnpm/chevrotain@11.1.1/node_modules/chevrotain/lib/src/scan/lexer_public.js
var LexerDefinitionErrorType;
(function(LexerDefinitionErrorType2) {
LexerDefinitionErrorType2[LexerDefinitionErrorType2["MISSING_PATTERN"] = 0] = "MISSING_PATTERN";
LexerDefinitionErrorType2[LexerDefinitionErrorType2["INVALID_PATTERN"] = 1] = "INVALID_PATTERN";
LexerDefinitionErrorType2[LexerDefinitionErrorType2["EOI_ANCHOR_FOUND"] = 2] = "EOI_ANCHOR_FOUND";
LexerDefinitionErrorType2[LexerDefinitionErrorType2["UNSUPPORTED_FLAGS_FOUND"] = 3] = "UNSUPPORTED_FLAGS_FOUND";
LexerDefinitionErrorType2[LexerDefinitionErrorType2["DUPLICATE_PATTERNS_FOUND"] = 4] = "DUPLICATE_PATTERNS_FOUND";
LexerDefinitionErrorType2[LexerDefinitionErrorType2["INVALID_GROUP_TYPE_FOUND"] = 5] = "INVALID_GROUP_TYPE_FOUND";
LexerDefinitionErrorType2[LexerDefinitionErrorType2["PUSH_MODE_DOES_NOT_EXIST"] = 6] = "PUSH_MODE_DOES_NOT_EXIST";
LexerDefinitionErrorType2[LexerDefinitionErrorType2["MULTI_MODE_LEXER_WITHOUT_DEFAULT_MODE"] = 7] = "MULTI_MODE_LEXER_WITHOUT_DEFAULT_MODE";
LexerDefinitionErrorType2[LexerDefinitionErrorType2["MULTI_MODE_LEXER_WITHOUT_MODES_PROPERTY"] = 8] = "MULTI_MODE_LEXER_WITHOUT_MODES_PROPERTY";
LexerDefinitionErrorType2[LexerDefinitionErrorType2["MULTI_MODE_LEXER_DEFAULT_MODE_VALUE_DOES_NOT_EXIST"] = 9] = "MULTI_MODE_LEXER_DEFAULT_MODE_VALUE_DOES_NOT_EXIST";
LexerDefinitionErrorType2[LexerDefinitionErrorType2["LEXER_DEFINITION_CANNOT_CONTAIN_UNDEFINED"] = 10] = "LEXER_DEFINITION_CANNOT_CONTAIN_UNDEFINED";
LexerDefinitionErrorType2[LexerDefinitionErrorType2["SOI_ANCHOR_FOUND"] = 11] = "SOI_ANCHOR_FOUND";
LexerDefinitionErrorType2[LexerDefinitionErrorType2["EMPTY_MATCH_PATTERN"] = 12] = "EMPTY_MATCH_PATTERN";
LexerDefinitionErrorType2[LexerDefinitionErrorType2["NO_LINE_BREAKS_FLAGS"] = 13] = "NO_LINE_BREAKS_FLAGS";
LexerDefinitionErrorType2[LexerDefinitionErrorType2["UNREACHABLE_PATTERN"] = 14] = "UNREACHABLE_PATTERN";
LexerDefinitionErrorType2[LexerDefinitionErrorType2["IDENTIFY_TERMINATOR"] = 15] = "IDENTIFY_TERMINATOR";
LexerDefinitionErrorType2[LexerDefinitionErrorType2["CUSTOM_LINE_BREAK"] = 16] = "CUSTOM_LINE_BREAK";
LexerDefinitionErrorType2[LexerDefinitionErrorType2["MULTI_MODE_LEXER_LONGER_ALT_NOT_IN_CURRENT_MODE"] = 17] = "MULTI_MODE_LEXER_LONGER_ALT_NOT_IN_CURRENT_MODE";
})(LexerDefinitionErrorType || (LexerDefinitionErrorType = {}));
var DEFAULT_LEXER_CONFIG = {
deferDefinitionErrorsHandling: false,
positionTracking: "full",
lineTerminatorsPattern: /\n|\r\n?/g,
lineTerminatorCharacters: ["\n", "\r"],
ensureOptimizations: false,
safeMode: false,
errorMessageProvider: defaultLexerErrorProvider,
traceInitPerf: false,
skipValidations: false,
recoveryEnabled: true
};
Object.freeze(DEFAULT_LEXER_CONFIG);
var Lexer = class {
static {
__name(this, "Lexer");
}
constructor(lexerDefinition, config = DEFAULT_LEXER_CONFIG) {
this.lexerDefinition = lexerDefinition;
this.lexerDefinitionErrors = [];
this.lexerDefinitionWarning = [];
this.patternIdxToConfig = {};
this.charCodeToPatternIdxToConfig = {};
this.modes = [];
this.emptyGroups = {};
this.trackStartLines = true;
this.trackEndLines = true;
this.hasCustom = false;
this.canModeBeOptimized = {};
this.TRACE_INIT = (phaseDesc, phaseImpl) => {
if (this.traceInitPerf === true) {
this.traceInitIndent++;
const indent = new Array(this.traceInitIndent + 1).join(" ");
if (this.traceInitIndent < this.traceInitMaxIdent) {
console.log(`${indent}--> <${phaseDesc}>`);
}
const { time, value } = timer(phaseImpl);
const traceMethod = time > 10 ? console.warn : console.log;
if (this.traceInitIndent < this.traceInitMaxIdent) {
traceMethod(`${indent}<-- <${phaseDesc}> time: ${time}ms`);
}
this.traceInitIndent--;
return value;
} else {
return phaseImpl();
}
};
if (typeof config === "boolean") {
throw Error("The second argument to the Lexer constructor is now an ILexerConfig Object.\na boolean 2nd argument is no longer supported");
}
this.config = assign_default({}, DEFAULT_LEXER_CONFIG, config);
const traceInitVal = this.config.traceInitPerf;
if (traceInitVal === true) {
this.traceInitMaxIdent = Infinity;
this.traceInitPerf = true;
} else if (typeof traceInitVal === "number") {
this.traceInitMaxIdent = traceInitVal;
this.traceInitPerf = true;
}
this.traceInitIndent = -1;
this.TRACE_INIT("Lexer Constructor", () => {
let actualDefinition;
let hasOnlySingleMode = true;
this.TRACE_INIT("Lexer Config handling", () => {
if (this.config.lineTerminatorsPattern === DEFAULT_LEXER_CONFIG.lineTerminatorsPattern) {
this.config.lineTerminatorsPattern = LineTerminatorOptimizedTester;
} else {
if (this.config.lineTerminatorCharacters === DEFAULT_LEXER_CONFIG.lineTerminatorCharacters) {
throw Error("Error: Missing <lineTerminatorCharacters> property on the Lexer config.\n For details See: https://chevrotain.io/docs/guide/resolving_lexer_errors.html#MISSING_LINE_TERM_CHARS");
}
}
if (config.safeMode && config.ensureOptimizations) {
throw Error('"safeMode" and "ensureOptimizations" flags are mutually exclusive.');
}
this.trackStartLines = /full|onlyStart/i.test(this.config.positionTracking);
this.trackEndLines = /full/i.test(this.config.positionTracking);
if (isArray_default(lexerDefinition)) {
actualDefinition = {
modes: { defaultMode: clone_default(lexerDefinition) },
defaultMode: DEFAULT_MODE
};
} else {
hasOnlySingleMode = false;
actualDefinition = clone_default(lexerDefinition);
}
});
if (this.config.skipValidations === false) {
this.TRACE_INIT("performRuntimeChecks", () => {
this.lexerDefinitionErrors = this.lexerDefinitionErrors.concat(performRuntimeChecks(actualDefinition, this.trackStartLines, this.config.lineTerminatorCharacters));
});
this.TRACE_INIT("performWarningRuntimeChecks", () => {
this.lexerDefinitionWarning = this.lexerDefinitionWarning.concat(performWarningRuntimeChecks(actualDefinition, this.trackStartLines, this.config.lineTerminatorCharacters));
});
}
actualDefinition.modes = actualDefinition.modes ? actualDefinition.modes : {};
forEach_default(actualDefinition.modes, (currModeValue, currModeName) => {
actualDefinition.modes[currModeName] = reject_default(currModeValue, (currTokType) => isUndefined_default(currTokType));
});
const allModeNames = keys_default(actualDefinition.modes);
forEach_default(actualDefinition.modes, (currModDef, currModName) => {
this.TRACE_INIT(`Mode: <${currModName}> processing`, () => {
this.modes.push(currModName);
if (this.config.skipValidations === false) {
this.TRACE_INIT(`validatePatterns`, () => {
this.lexerDefinitionErrors = this.lexerDefinitionErrors.concat(validatePatterns(currModDef, allModeNames));
});
}
if (isEmpty_default(this.lexerDefinitionErrors)) {
augmentTokenTypes(currModDef);
let currAnalyzeResult;
this.TRACE_INIT(`analyzeTokenTypes`, () => {
currAnalyzeResult = analyzeTokenTypes(currModDef, {
lineTerminatorCharacters: this.config.lineTerminatorCharacters,
positionTracking: config.positionTracking,
ensureOptimizations: config.ensureOptimizations,
safeMode: config.safeMode,
tracer: this.TRACE_INIT
});
});
this.patternIdxToConfig[currModName] = currAnalyzeResult.patternIdxToConfig;
this.charCodeToPatternIdxToConfig[currModName] = currAnalyzeResult.charCodeToPatternIdxToConfig;
this.emptyGroups = assign_default({}, this.emptyGroups, currAnalyzeResult.emptyGroups);
this.hasCustom = currAnalyzeResult.hasCustom || this.hasCustom;
this.canModeBeOptimized[currModName] = currAnalyzeResult.canBeOptimized;
}
});
});
this.defaultMode = actualDefinition.defaultMode;
if (!isEmpty_default(this.lexerDefinitionErrors) && !this.config.deferDefinitionErrorsHandling) {
const allErrMessages = map_default(this.lexerDefinitionErrors, (error) => {
return error.message;
});
const allErrMessagesString = allErrMessages.join("-----------------------\n");
throw new Error("Errors detected in definition of Lexer:\n" + allErrMessagesString);
}
forEach_default(this.lexerDefinitionWarning, (warningDescriptor) => {
PRINT_WARNING(warningDescriptor.message);
});
this.TRACE_INIT("Choosing sub-methods implementations", () => {
if (SUPPORT_STICKY) {
this.chopInput = identity_default;
this.match = this.matchWithTest;
} else {
this.updateLastIndex = noop_default;
this.match = this.matchWithExec;
}
if (hasOnlySingleMode) {
this.handleModes = noop_default;
}
if (this.trackStartLines === false) {
this.computeNewColumn = identity_default;
}
if (this.trackEndLines === false) {
this.updateTokenEndLineColumnLocation = noop_default;
}
if (/full/i.test(this.config.positionTracking)) {
this.createTokenInstance = this.createFullToken;
} else if (/onlyStart/i.test(this.config.positionTracking)) {
this.createTokenInstance = this.createStartOnlyToken;
} else if (/onlyOffset/i.test(this.config.positionTracking)) {
this.createTokenInstance = this.createOffsetOnlyToken;
} else {
throw Error(`Invalid <positionTracking> config option: "${this.config.positionTracking}"`);
}
if (this.hasCustom) {
this.addToken = this.addTokenUsingPush;
this.handlePayload = this.handlePayloadWithCustom;
} else {
this.addToken = this.addTokenUsingMemberAccess;
this.handlePayload = this.handlePayloadNoCustom;
}
});
this.TRACE_INIT("Failed Optimization Warnings", () => {
const unOptimizedModes = reduce_default(this.canModeBeOptimized, (cannotBeOptimized, canBeOptimized, modeName) => {
if (canBeOptimized === false) {
cannotBeOptimized.push(modeName);
}
return cannotBeOptimized;
}, []);
if (config.ensureOptimizations && !isEmpty_default(unOptimizedModes)) {
throw Error(`Lexer Modes: < ${unOptimizedModes.join(", ")} > cannot be optimized.
Disable the "ensureOptimizations" lexer config flag to silently ignore this and run the lexer in an un-optimized mode.
Or inspect the console log for details on how to resolve these issues.`);
}
});
this.TRACE_INIT("clearRegExpParserCache", () => {
clearRegExpParserCache();
});
this.TRACE_INIT("toFastProperties", () => {
toFastProperties(this);
});
});
}
tokenize(text, initialMode = this.defaultMode) {
if (!isEmpty_default(this.lexerDefinitionErrors)) {
const allErrMessages = map_default(this.lexerDefinitionErrors, (error) => {
return error.message;
});
const allErrMessagesString = allErrMessages.join("-----------------------\n");
throw new Error("Unable to Tokenize because Errors detected in definition of Lexer:\n" + allErrMessagesString);
}
return this.tokenizeInternal(text, initialMode);
}
// There is quite a bit of duplication between this and "tokenizeInternalLazy"
// This is intentional due to performance considerations.
// this method also used quite a bit of `!` none null assertions because it is too optimized
// for `tsc` to always understand it is "safe"
tokenizeInternal(text, initialMode) {
let i, j, k, matchAltImage, longerAlt, matchedImage, payload, altPayload, imageLength, group, tokType, newToken, errLength, droppedChar, msg, match;
const orgText = text;
const orgLength = orgText.length;
let offset = 0;
let matchedTokensIndex = 0;
const guessedNumberOfTokens = this.hasCustom ? 0 : Math.floor(text.length / 10);
const matchedTokens = new Array(guessedNumberOfTokens);
const errors = [];
let line = this.trackStartLines ? 1 : void 0;
let column = this.trackStartLines ? 1 : void 0;
const groups = cloneEmptyGroups(this.emptyGroups);
const trackLines = this.trackStartLines;
const lineTerminatorPattern = this.config.lineTerminatorsPattern;
let currModePatternsLength = 0;
let patternIdxToConfig = [];
let currCharCodeToPatternIdxToConfig = [];
const modeStack = [];
const emptyArray = [];
Object.freeze(emptyArray);
let getPossiblePatterns;
function getPossiblePatternsSlow() {
return patternIdxToConfig;
}
__name(getPossiblePatternsSlow, "getPossiblePatternsSlow");
function getPossiblePatternsOptimized(charCode) {
const optimizedCharIdx = charCodeToOptimizedIndex(charCode);
const possiblePatterns = currCharCodeToPatternIdxToConfig[optimizedCharIdx];
if (possiblePatterns === void 0) {
return emptyArray;
} else {
return possiblePatterns;
}
}
__name(getPossiblePatternsOptimized, "getPossiblePatternsOptimized");
const pop_mode = /* @__PURE__ */ __name((popToken) => {
if (modeStack.length === 1 && // if we have both a POP_MODE and a PUSH_MODE this is in-fact a "transition"
// So no error should occur.
popToken.tokenType.PUSH_MODE === void 0) {
const msg2 = this.config.errorMessageProvider.buildUnableToPopLexerModeMessage(popToken);
errors.push({
offset: popToken.startOffset,
line: popToken.startLine,
column: popToken.startColumn,
length: popToken.image.length,
message: msg2
});
} else {
modeStack.pop();
const newMode = last_default(modeStack);
patternIdxToConfig = this.patternIdxToConfig[newMode];
currCharCodeToPatternIdxToConfig = this.charCodeToPatternIdxToConfig[newMode];
currModePatternsLength = patternIdxToConfig.length;
const modeCanBeOptimized = this.canModeBeOptimized[newMode] && this.config.safeMode === false;
if (currCharCodeToPatternIdxToConfig && modeCanBeOptimized) {
getPossiblePatterns = getPossiblePatternsOptimized;
} else {
getPossiblePatterns = getPossiblePatternsSlow;
}
}
}, "pop_mode");
function push_mode(newMode) {
modeStack.push(newMode);
currCharCodeToPatternIdxToConfig = this.charCodeToPatternIdxToConfig[newMode];
patternIdxToConfig = this.patternIdxToConfig[newMode];
currModePatternsLength = patternIdxToConfig.length;
currModePatternsLength = patternIdxToConfig.length;
const modeCanBeOptimized = this.canModeBeOptimized[newMode] && this.config.safeMode === false;
if (currCharCodeToPatternIdxToConfig && modeCanBeOptimized) {
getPossiblePatterns = getPossiblePatternsOptimized;
} else {
getPossiblePatterns = getPossiblePatternsSlow;
}
}
__name(push_mode, "push_mode");
push_mode.call(this, initialMode);
let currConfig;
const recoveryEnabled = this.config.recoveryEnabled;
while (offset < orgLength) {
matchedImage = null;
const nextCharCode = orgText.charCodeAt(offset);
const chosenPatternIdxToConfig = getPossiblePatterns(nextCharCode);
const chosenPatternsLength = chosenPatternIdxToConfig.length;
for (i = 0; i < chosenPatternsLength; i++) {
currConfig = chosenPatternIdxToConfig[i];
const currPattern = currConfig.pattern;
payload = null;
const singleCharCode = currConfig.short;
if (singleCharCode !== false) {
if (nextCharCode === singleCharCode) {
matchedImage = currPattern;
}
} else if (currConfig.isCustom === true) {
match = currPattern.exec(orgText, offset, matchedTokens, groups);
if (match !== null) {
matchedImage = match[0];
if (match.payload !== void 0) {
payload = match.payload;
}
} else {
matchedImage = null;
}
} else {
this.updateLastIndex(currPattern, offset);
matchedImage = this.match(currPattern, text, offset);
}
if (matchedImage !== null) {
longerAlt = currConfig.longerAlt;
if (longerAlt !== void 0) {
const longerAltLength = longerAlt.length;
for (k = 0; k < longerAltLength; k++) {
const longerAltConfig = patternIdxToConfig[longerAlt[k]];
const longerAltPattern = longerAltConfig.pattern;
altPayload = null;
if (longerAltConfig.isCustom === true) {
match = longerAltPattern.exec(orgText, offset, matchedTokens, groups);
if (match !== null) {
matchAltImage = match[0];
if (match.payload !== void 0) {
altPayload = match.payload;
}
} else {
matchAltImage = null;
}
} else {
this.updateLastIndex(longerAltPattern, offset);
matchAltImage = this.match(longerAltPattern, text, offset);
}
if (matchAltImage && matchAltImage.length > matchedImage.length) {
matchedImage = matchAltImage;
payload = altPayload;
currConfig = longerAltConfig;
break;
}
}
}
break;
}
}
if (matchedImage !== null) {
imageLength = matchedImage.length;
group = currConfig.group;
if (group !== void 0) {
tokType = currConfig.tokenTypeIdx;
newToken = this.createTokenInstance(matchedImage, offset, tokType, currConfig.tokenType, line, column, imageLength);
this.handlePayload(newToken, payload);
if (group === false) {
matchedTokensIndex = this.addToken(matchedTokens, matchedTokensIndex, newToken);
} else {
groups[group].push(newToken);
}
}
text = this.chopInput(text, imageLength);
offset = offset + imageLength;
column = this.computeNewColumn(column, imageLength);
if (trackLines === true && currConfig.canLineTerminator === true) {
let numOfLTsInMatch = 0;
let foundTerminator;
let lastLTEndOffset;
lineTerminatorPattern.lastIndex = 0;
do {
foundTerminator = lineTerminatorPattern.test(matchedImage);
if (foundTerminator === true) {
lastLTEndOffset = lineTerminatorPattern.lastIndex - 1;
numOfLTsInMatch++;
}
} while (foundTerminator === true);
if (numOfLTsInMatch !== 0) {
line = line + numOfLTsInMatch;
column = imageLength - lastLTEndOffset;
this.updateTokenEndLineColumnLocation(newToken, group, lastLTEndOffset, numOfLTsInMatch, line, column, imageLength);
}
}
this.handleModes(currConfig, pop_mode, push_mode, newToken);
} else {
const errorStartOffset = offset;
const errorLine = line;
const errorColumn = column;
let foundResyncPoint = recoveryEnabled === false;
while (foundResyncPoint === false && offset < orgLength) {
text = this.chopInput(text, 1);
offset++;
for (j = 0; j < currModePatternsLength; j++) {
const currConfig2 = patternIdxToConfig[j];
const currPattern = currConfig2.pattern;
const singleCharCode = currConfig2.short;
if (singleCharCode !== false) {
if (orgText.charCodeAt(offset) === singleCharCode) {
foundResyncPoint = true;
}
} else if (currConfig2.isCustom === true) {
foundResyncPoint = currPattern.exec(orgText, offset, matchedTokens, groups) !== null;
} else {
this.updateLastIndex(currPattern, offset);
foundResyncPoint = currPattern.exec(text) !== null;
}
if (foundResyncPoint === true) {
break;
}
}
}
errLength = offset - errorStartOffset;
column = this.computeNewColumn(column, errLength);
msg = this.config.errorMessageProvider.buildUnexpectedCharactersMessage(orgText, errorStartOffset, errLength, errorLine, errorColumn, last_default(modeStack));
errors.push({
offset: errorStartOffset,
line: errorLine,
column: errorColumn,
length: errLength,
message: msg
});
if (recoveryEnabled === false) {
break;
}
}
}
if (!this.hasCustom) {
matchedTokens.length = matchedTokensIndex;
}
return {
tokens: matchedTokens,
groups,
errors
};
}
handleModes(config, pop_mode, push_mode, newToken) {
if (config.pop === true) {
const pushMode = config.push;
pop_mode(newToken);
if (pushMode !== void 0) {
push_mode.call(this, pushMode);
}
} else if (config.push !== void 0) {
push_mode.call(this, config.push);
}
}
chopInput(text, length) {
return text.substring(length);
}
updateLastIndex(regExp, newLastIndex) {
regExp.lastIndex = newLastIndex;
}
// TODO: decrease this under 600 characters? inspect stripping comments option in TSC compiler
updateTokenEndLineColumnLocation(newToken, group, lastLTIdx, numOfLTsInMatch, line, column, imageLength) {
let lastCharIsLT, fixForEndingInLT;
if (group !== void 0) {
lastCharIsLT = lastLTIdx === imageLength - 1;
fixForEndingInLT = lastCharIsLT ? -1 : 0;
if (!(numOfLTsInMatch === 1 && lastCharIsLT === true)) {
newToken.endLine = line + fixForEndingInLT;
newToken.endColumn = column - 1 + -fixForEndingInLT;
}
}
}
computeNewColumn(oldColumn, imageLength) {
return oldColumn + imageLength;
}
createOffsetOnlyToken(image, startOffset, tokenTypeIdx, tokenType) {
return {
image,
startOffset,
tokenTypeIdx,
tokenType
};
}
createStartOnlyToken(image, startOffset, tokenTypeIdx, tokenType, startLine, startColumn) {
return {
image,
startOffset,
startLine,
startColumn,
tokenTypeIdx,
tokenType
};
}
createFullToken(image, startOffset, tokenTypeIdx, tokenType, startLine, startColumn, imageLength) {
return {
image,
startOffset,
endOffset: startOffset + imageLength - 1,
startLine,
endLine: startLine,
startColumn,
endColumn: startColumn + imageLength - 1,
tokenTypeIdx,
tokenType
};
}
addTokenUsingPush(tokenVector, index, tokenToAdd) {
tokenVector.push(tokenToAdd);
return index;
}
addTokenUsingMemberAccess(tokenVector, index, tokenToAdd) {
tokenVector[index] = tokenToAdd;
index++;
return index;
}
handlePayloadNoCustom(token, payload) {
}
handlePayloadWithCustom(token, payload) {
if (payload !== null) {
token.payload = payload;
}
}
matchWithTest(pattern, text, offset) {
const found = pattern.test(text);
if (found === true) {
return text.substring(offset, pattern.lastIndex);
}
return null;
}
matchWithExec(pattern, text) {
const regExpArray = pattern.exec(text);
return regExpArray !== null ? regExpArray[0] : null;
}
};
Lexer.SKIPPED = "This marks a skipped Token pattern, this means each token identified by it will be consumed and then thrown into oblivion, this can be used to for example to completely ignore whitespace.";
Lexer.NA = /NOT_APPLICABLE/;
// ../../node_modules/.pnpm/chevrotain@11.1.1/node_modules/chevrotain/lib/src/scan/tokens_public.js
function tokenLabel2(tokType) {
if (hasTokenLabel2(tokType)) {
return tokType.LABEL;
} else {
return tokType.name;
}
}
__name(tokenLabel2, "tokenLabel");
function hasTokenLabel2(obj) {
return isString_default(obj.LABEL) && obj.LABEL !== "";
}
__name(hasTokenLabel2, "hasTokenLabel");
var PARENT = "parent";
var CATEGORIES = "categories";
var LABEL = "label";
var GROUP = "group";
var PUSH_MODE = "push_mode";
var POP_MODE = "pop_mode";
var LONGER_ALT = "longer_alt";
var LINE_BREAKS = "line_breaks";
var START_CHARS_HINT = "start_chars_hint";
function createToken(config) {
return createTokenInternal(config);
}
__name(createToken, "createToken");
function createTokenInternal(config) {
const pattern = config.pattern;
const tokenType = {};
tokenType.name = config.name;
if (!isUndefined_default(pattern)) {
tokenType.PATTERN = pattern;
}
if (has_default(config, PARENT)) {
throw "The parent property is no longer supported.\nSee: https://github.com/chevrotain/chevrotain/issues/564#issuecomment-349062346 for details.";
}
if (has_default(config, CATEGORIES)) {
tokenType.CATEGORIES = config[CATEGORIES];
}
augmentTokenTypes([tokenType]);
if (has_default(config, LABEL)) {
tokenType.LABEL = config[LABEL];
}
if (has_default(config, GROUP)) {
tokenType.GROUP = config[GROUP];
}
if (has_default(config, POP_MODE)) {
tokenType.POP_MODE = config[POP_MODE];
}
if (has_default(config, PUSH_MODE)) {
tokenType.PUSH_MODE = config[PUSH_MODE];
}
if (has_default(config, LONGER_ALT)) {
tokenType.LONGER_ALT = config[LONGER_ALT];
}
if (has_default(config, LINE_BREAKS)) {
tokenType.LINE_BREAKS = config[LINE_BREAKS];
}
if (has_default(config, START_CHARS_HINT)) {
tokenType.START_CHARS_HINT = config[START_CHARS_HINT];
}
return tokenType;
}
__name(createTokenInternal, "createTokenInternal");
var EOF = createToken({ name: "EOF", pattern: Lexer.NA });
augmentTokenTypes([EOF]);
function createTokenInstance(tokType, image, startOffset, endOffset, startLine, endLine, startColumn, endColumn) {
return {
image,
startOffset,
endOffset,
startLine,
endLine,
startColumn,
endColumn,
tokenTypeIdx: tokType.tokenTypeIdx,
tokenType: tokType
};
}
__name(createTokenInstance, "createTokenInstance");
function tokenMatcher(token, tokType) {
return tokenStructuredMatcher(token, tokType);
}
__name(tokenMatcher, "tokenMatcher");
// ../../node_modules/.pnpm/chevrotain@11.1.1/node_modules/chevrotain/lib/src/parse/errors_public.js
var defaultParserErrorProvider = {
buildMismatchTokenMessage({ expected, actual, previous, ruleName }) {
const hasLabel = hasTokenLabel2(expected);
const expectedMsg = hasLabel ? `--> ${tokenLabel2(expected)} <--` : `token of type --> ${expected.name} <--`;
const msg = `Expecting ${expectedMsg} but found --> '${actual.image}' <--`;
return msg;
},
buildNotAllInputParsedMessage({ firstRedundant, ruleName }) {
return "Redundant input, expecting EOF but found: " + firstRedundant.image;
},
buildNoViableAltMessage({ expectedPathsPerAlt, actual, previous, customUserDescription, ruleName }) {
const errPrefix = "Expecting: ";
const actualText = head_default(actual).image;
const errSuffix = "\nbut found: '" + actualText + "'";
if (customUserDescription) {
return errPrefix + customUserDescription + errSuffix;
} else {
const allLookAheadPaths = reduce_default(expectedPathsPerAlt, (result, currAltPaths) => result.concat(currAltPaths), []);
const nextValidTokenSequences = map_default(allLookAheadPaths, (currPath) => `[${map_default(currPath, (currTokenType) => tokenLabel2(currTokenType)).join(", ")}]`);
const nextValidSequenceItems = map_default(nextValidTokenSequences, (itemMsg, idx) => ` ${idx + 1}. ${itemMsg}`);
const calculatedDescription = `one of these possible Token sequences:
${nextValidSequenceItems.join("\n")}`;
return errPrefix + calculatedDescription + errSuffix;
}
},
buildEarlyExitMessage({ expectedIterationPaths, actual, customUserDescription, ruleName }) {
const errPrefix = "Expecting: ";
const actualText = head_default(actual).image;
const errSuffix = "\nbut found: '" + actualText + "'";
if (customUserDescription) {
return errPrefix + customUserDescription + errSuffix;
} else {
const nextValidTokenSequences = map_default(expectedIterationPaths, (currPath) => `[${map_default(currPath, (currTokenType) => tokenLabel2(currTokenType)).join(",")}]`);
const calculatedDescription = `expecting at least one iteration which starts with one of these possible Token sequences::
<${nextValidTokenSequences.join(" ,")}>`;
return errPrefix + calculatedDescription + errSuffix;
}
}
};
Object.freeze(defaultParserErrorProvider);
var defaultGrammarResolverErrorProvider = {
buildRuleNotFoundError(topLevelRule, undefinedRule) {
const msg = "Invalid grammar, reference to a rule which is not defined: ->" + undefinedRule.nonTerminalName + "<-\ninside top level rule: ->" + topLevelRule.name + "<-";
return msg;
}
};
var defaultGrammarValidatorErrorProvider = {
buildDuplicateFoundError(topLevelRule, duplicateProds) {
function getExtraProductionArgument2(prod) {
if (prod instanceof Terminal) {
return prod.terminalType.name;
} else if (prod instanceof NonTerminal) {
return prod.nonTerminalName;
} else {
return "";
}
}
__name(getExtraProductionArgument2, "getExtraProductionArgument");
const topLevelName = topLevelRule.name;
const duplicateProd = head_default(duplicateProds);
const index = duplicateProd.idx;
const dslName = getProductionDslName(duplicateProd);
const extraArgument = getExtraProductionArgument2(duplicateProd);
const hasExplicitIndex = index > 0;
let msg = `->${dslName}${hasExplicitIndex ? index : ""}<- ${extraArgument ? `with argument: ->${extraArgument}<-` : ""}
appears more than once (${duplicateProds.length} times) in the top level rule: ->${topLevelName}<-.
For further details see: https://chevrotain.io/docs/FAQ.html#NUMERICAL_SUFFIXES
`;
msg = msg.replace(/[ \t]+/g, " ");
msg = msg.replace(/\s\s+/g, "\n");
return msg;
},
buildNamespaceConflictError(rule) {
const errMsg = `Namespace conflict found in grammar.
The grammar has both a Terminal(Token) and a Non-Terminal(Rule) named: <${rule.name}>.
To resolve this make sure each Terminal and Non-Terminal names are unique
This is easy to accomplish by using the convention that Terminal names start with an uppercase letter
and Non-Terminal names start with a lower case letter.`;
return errMsg;
},
buildAlternationPrefixAmbiguityError(options) {
const pathMsg = map_default(options.prefixPath, (currTok) => tokenLabel2(currTok)).join(", ");
const occurrence = options.alternation.idx === 0 ? "" : options.alternation.idx;
const errMsg = `Ambiguous alternatives: <${options.ambiguityIndices.join(" ,")}> due to common lookahead prefix
in <OR${occurrence}> inside <${options.topLevelRule.name}> Rule,
<${pathMsg}> may appears as a prefix path in all these alternatives.
See: https://chevrotain.io/docs/guide/resolving_grammar_errors.html#COMMON_PREFIX
For Further details.`;
return errMsg;
},
buildAlternationAmbiguityError(options) {
const pathMsg = map_default(options.prefixPath, (currtok) => tokenLabel2(currtok)).join(", ");
const occurrence = options.alternation.idx === 0 ? "" : options.alternation.idx;
let currMessage = `Ambiguous Alternatives Detected: <${options.ambiguityIndices.join(" ,")}> in <OR${occurrence}> inside <${options.topLevelRule.name}> Rule,
<${pathMsg}> may appears as a prefix path in all these alternatives.
`;
currMessage = currMessage + `See: https://chevrotain.io/docs/guide/resolving_grammar_errors.html#AMBIGUOUS_ALTERNATIVES
For Further details.`;
return currMessage;
},
buildEmptyRepetitionError(options) {
let dslName = getProductionDslName(options.repetition);
if (options.repetition.idx !== 0) {
dslName += options.repetition.idx;
}
const errMsg = `The repetition <${dslName}> within Rule <${options.topLevelRule.name}> can never consume any tokens.
This could lead to an infinite loop.`;
return errMsg;
},
// TODO: remove - `errors_public` from nyc.config.js exclude
// once this method is fully removed from this file
buildTokenNameError(options) {
return "deprecated";
},
buildEmptyAlternationError(options) {
const errMsg = `Ambiguous empty alternative: <${options.emptyChoiceIdx + 1}> in <OR${options.alternation.idx}> inside <${options.topLevelRule.name}> Rule.
Only the last alternative may be an empty alternative.`;
return errMsg;
},
buildTooManyAlternativesError(options) {
const errMsg = `An Alternation cannot have more than 256 alternatives:
<OR${options.alternation.idx}> inside <${options.topLevelRule.name}> Rule.
has ${options.alternation.definition.length + 1} alternatives.`;
return errMsg;
},
buildLeftRecursionError(options) {
const ruleName = options.topLevelRule.name;
const pathNames = map_default(options.leftRecursionPath, (currRule) => currRule.name);
const leftRecursivePath = `${ruleName} --> ${pathNames.concat([ruleName]).join(" --> ")}`;
const errMsg = `Left Recursion found in grammar.
rule: <${ruleName}> can be invoked from itself (directly or indirectly)
without consuming any Tokens. The grammar path that causes this is:
${leftRecursivePath}
To fix this refactor your grammar to remove the left recursion.
see: https://en.wikipedia.org/wiki/LL_parser#Left_factoring.`;
return errMsg;
},
// TODO: remove - `errors_public` from nyc.config.js exclude
// once this method is fully removed from this file
buildInvalidRuleNameError(options) {
return "deprecated";
},
buildDuplicateRuleNameError(options) {
let ruleName;
if (options.topLevelRule instanceof Rule) {
ruleName = options.topLevelRule.name;
} else {
ruleName = options.topLevelRule;
}
const errMsg = `Duplicate definition, rule: ->${ruleName}<- is already defined in the grammar: ->${options.grammarName}<-`;
return errMsg;
}
};
// ../../node_modules/.pnpm/chevrotain@11.1.1/node_modules/chevrotain/lib/src/parse/grammar/resolver.js
function resolveGrammar(topLevels, errMsgProvider) {
const refResolver = new GastRefResolverVisitor(topLevels, errMsgProvider);
refResolver.resolveRefs();
return refResolver.errors;
}
__name(resolveGrammar, "resolveGrammar");
var GastRefResolverVisitor = class extends GAstVisitor {
static {
__name(this, "GastRefResolverVisitor");
}
constructor(nameToTopRule, errMsgProvider) {
super();
this.nameToTopRule = nameToTopRule;
this.errMsgProvider = errMsgProvider;
this.errors = [];
}
resolveRefs() {
forEach_default(values_default(this.nameToTopRule), (prod) => {
this.currTopLevel = prod;
prod.accept(this);
});
}
visitNonTerminal(node) {
const ref = this.nameToTopRule[node.nonTerminalName];
if (!ref) {
const msg = this.errMsgProvider.buildRuleNotFoundError(this.currTopLevel, node);
this.errors.push({
message: msg,
type: ParserDefinitionErrorType.UNRESOLVED_SUBRULE_REF,
ruleName: this.currTopLevel.name,
unresolvedRefName: node.nonTerminalName
});
} else {
node.referencedRule = ref;
}
}
};
// ../../node_modules/.pnpm/chevrotain@11.1.1/node_modules/chevrotain/lib/src/parse/grammar/interpreter.js
var AbstractNextPossibleTokensWalker = class extends RestWalker {
static {
__name(this, "AbstractNextPossibleTokensWalker");
}
constructor(topProd, path) {
super();
this.topProd = topProd;
this.path = path;
this.possibleTokTypes = [];
this.nextProductionName = "";
this.nextProductionOccurrence = 0;
this.found = false;
this.isAtEndOfPath = false;
}
startWalking() {
this.found = false;
if (this.path.ruleStack[0] !== this.topProd.name) {
throw Error("The path does not start with the walker's top Rule!");
}
this.ruleStack = clone_default(this.path.ruleStack).reverse();
this.occurrenceStack = clone_default(this.path.occurrenceStack).reverse();
this.ruleStack.pop();
this.occurrenceStack.pop();
this.updateExpectedNext();
this.walk(this.topProd);
return this.possibleTokTypes;
}
walk(prod, prevRest = []) {
if (!this.found) {
super.walk(prod, prevRest);
}
}
walkProdRef(refProd, currRest, prevRest) {
if (refProd.referencedRule.name === this.nextProductionName && refProd.idx === this.nextProductionOccurrence) {
const fullRest = currRest.concat(prevRest);
this.updateExpectedNext();
this.walk(refProd.referencedRule, fullRest);
}
}
updateExpectedNext() {
if (isEmpty_default(this.ruleStack)) {
this.nextProductionName = "";
this.nextProductionOccurrence = 0;
this.isAtEndOfPath = true;
} else {
this.nextProductionName = this.ruleStack.pop();
this.nextProductionOccurrence = this.occurrenceStack.pop();
}
}
};
var NextAfterTokenWalker = class extends AbstractNextPossibleTokensWalker {
static {
__name(this, "NextAfterTokenWalker");
}
constructor(topProd, path) {
super(topProd, path);
this.path = path;
this.nextTerminalName = "";
this.nextTerminalOccurrence = 0;
this.nextTerminalName = this.path.lastTok.name;
this.nextTerminalOccurrence = this.path.lastTokOccurrence;
}
walkTerminal(terminal, currRest, prevRest) {
if (this.isAtEndOfPath && terminal.terminalType.name === this.nextTerminalName && terminal.idx === this.nextTerminalOccurrence && !this.found) {
const fullRest = currRest.concat(prevRest);
const restProd = new Alternative({ definition: fullRest });
this.possibleTokTypes = first(restProd);
this.found = true;
}
}
};
var AbstractNextTerminalAfterProductionWalker = class extends RestWalker {
static {
__name(this, "AbstractNextTerminalAfterProductionWalker");
}
constructor(topRule, occurrence) {
super();
this.topRule = topRule;
this.occurrence = occurrence;
this.result = {
token: void 0,
occurrence: void 0,
isEndOfRule: void 0
};
}
startWalking() {
this.walk(this.topRule);
return this.result;
}
};
var NextTerminalAfterManyWalker = class extends AbstractNextTerminalAfterProductionWalker {
static {
__name(this, "NextTerminalAfterManyWalker");
}
walkMany(manyProd, currRest, prevRest) {
if (manyProd.idx === this.occurrence) {
const firstAfterMany = head_default(currRest.concat(prevRest));
this.result.isEndOfRule = firstAfterMany === void 0;
if (firstAfterMany instanceof Terminal) {
this.result.token = firstAfterMany.terminalType;
this.result.occurrence = firstAfterMany.idx;
}
} else {
super.walkMany(manyProd, currRest, prevRest);
}
}
};
var NextTerminalAfterManySepWalker = class extends AbstractNextTerminalAfterProductionWalker {
static {
__name(this, "NextTerminalAfterManySepWalker");
}
walkManySep(manySepProd, currRest, prevRest) {
if (manySepProd.idx === this.occurrence) {
const firstAfterManySep = head_default(currRest.concat(prevRest));
this.result.isEndOfRule = firstAfterManySep === void 0;
if (firstAfterManySep instanceof Terminal) {
this.result.token = firstAfterManySep.terminalType;
this.result.occurrence = firstAfterManySep.idx;
}
} else {
super.walkManySep(manySepProd, currRest, prevRest);
}
}
};
var NextTerminalAfterAtLeastOneWalker = class extends AbstractNextTerminalAfterProductionWalker {
static {
__name(this, "NextTerminalAfterAtLeastOneWalker");
}
walkAtLeastOne(atLeastOneProd, currRest, prevRest) {
if (atLeastOneProd.idx === this.occurrence) {
const firstAfterAtLeastOne = head_default(currRest.concat(prevRest));
this.result.isEndOfRule = firstAfterAtLeastOne === void 0;
if (firstAfterAtLeastOne instanceof Terminal) {
this.result.token = firstAfterAtLeastOne.terminalType;
this.result.occurrence = firstAfterAtLeastOne.idx;
}
} else {
super.walkAtLeastOne(atLeastOneProd, currRest, prevRest);
}
}
};
var NextTerminalAfterAtLeastOneSepWalker = class extends AbstractNextTerminalAfterProductionWalker {
static {
__name(this, "NextTerminalAfterAtLeastOneSepWalker");
}
walkAtLeastOneSep(atleastOneSepProd, currRest, prevRest) {
if (atleastOneSepProd.idx === this.occurrence) {
const firstAfterfirstAfterAtLeastOneSep = head_default(currRest.concat(prevRest));
this.result.isEndOfRule = firstAfterfirstAfterAtLeastOneSep === void 0;
if (firstAfterfirstAfterAtLeastOneSep instanceof Terminal) {
this.result.token = firstAfterfirstAfterAtLeastOneSep.terminalType;
this.result.occurrence = firstAfterfirstAfterAtLeastOneSep.idx;
}
} else {
super.walkAtLeastOneSep(atleastOneSepProd, currRest, prevRest);
}
}
};
function possiblePathsFrom(targetDef, maxLength, currPath = []) {
currPath = clone_default(currPath);
let result = [];
let i = 0;
function remainingPathWith(nextDef) {
return nextDef.concat(drop_default(targetDef, i + 1));
}
__name(remainingPathWith, "remainingPathWith");
function getAlternativesForProd(definition) {
const alternatives = possiblePathsFrom(remainingPathWith(definition), maxLength, currPath);
return result.concat(alternatives);
}
__name(getAlternativesForProd, "getAlternativesForProd");
while (currPath.length < maxLength && i < targetDef.length) {
const prod = targetDef[i];
if (prod instanceof Alternative) {
return getAlternativesForProd(prod.definition);
} else if (prod instanceof NonTerminal) {
return getAlternativesForProd(prod.definition);
} else if (prod instanceof Option) {
result = getAlternativesForProd(prod.definition);
} else if (prod instanceof RepetitionMandatory) {
const newDef = prod.definition.concat([
new Repetition({
definition: prod.definition
})
]);
return getAlternativesForProd(newDef);
} else if (prod instanceof RepetitionMandatoryWithSeparator) {
const newDef = [
new Alternative({ definition: prod.definition }),
new Repetition({
definition: [new Terminal({ terminalType: prod.separator })].concat(prod.definition)
})
];
return getAlternativesForProd(newDef);
} else if (prod instanceof RepetitionWithSeparator) {
const newDef = prod.definition.concat([
new Repetition({
definition: [new Terminal({ terminalType: prod.separator })].concat(prod.definition)
})
]);
result = getAlternativesForProd(newDef);
} else if (prod instanceof Repetition) {
const newDef = prod.definition.concat([
new Repetition({
definition: prod.definition
})
]);
result = getAlternativesForProd(newDef);
} else if (prod instanceof Alternation) {
forEach_default(prod.definition, (currAlt) => {
if (isEmpty_default(currAlt.definition) === false) {
result = getAlternativesForProd(currAlt.definition);
}
});
return result;
} else if (prod instanceof Terminal) {
currPath.push(prod.terminalType);
} else {
throw Error("non exhaustive match");
}
i++;
}
result.push({
partialPath: currPath,
suffixDef: drop_default(targetDef, i)
});
return result;
}
__name(possiblePathsFrom, "possiblePathsFrom");
function nextPossibleTokensAfter(initialDef, tokenVector, tokMatcher, maxLookAhead) {
const EXIT_NON_TERMINAL = "EXIT_NONE_TERMINAL";
const EXIT_NON_TERMINAL_ARR = [EXIT_NON_TERMINAL];
const EXIT_ALTERNATIVE = "EXIT_ALTERNATIVE";
let foundCompletePath = false;
const tokenVectorLength = tokenVector.length;
const minimalAlternativesIndex = tokenVectorLength - maxLookAhead - 1;
const result = [];
const possiblePaths = [];
possiblePaths.push({
idx: -1,
def: initialDef,
ruleStack: [],
occurrenceStack: []
});
while (!isEmpty_default(possiblePaths)) {
const currPath = possiblePaths.pop();
if (currPath === EXIT_ALTERNATIVE) {
if (foundCompletePath && last_default(possiblePaths).idx <= minimalAlternativesIndex) {
possiblePaths.pop();
}
continue;
}
const currDef = currPath.def;
const currIdx = currPath.idx;
const currRuleStack = currPath.ruleStack;
const currOccurrenceStack = currPath.occurrenceStack;
if (isEmpty_default(currDef)) {
continue;
}
const prod = currDef[0];
if (prod === EXIT_NON_TERMINAL) {
const nextPath = {
idx: currIdx,
def: drop_default(currDef),
ruleStack: dropRight_default(currRuleStack),
occurrenceStack: dropRight_default(currOccurrenceStack)
};
possiblePaths.push(nextPath);
} else if (prod instanceof Terminal) {
if (currIdx < tokenVectorLength - 1) {
const nextIdx = currIdx + 1;
const actualToken = tokenVector[nextIdx];
if (tokMatcher(actualToken, prod.terminalType)) {
const nextPath = {
idx: nextIdx,
def: drop_default(currDef),
ruleStack: currRuleStack,
occurrenceStack: currOccurrenceStack
};
possiblePaths.push(nextPath);
}
} else if (currIdx === tokenVectorLength - 1) {
result.push({
nextTokenType: prod.terminalType,
nextTokenOccurrence: prod.idx,
ruleStack: currRuleStack,
occurrenceStack: currOccurrenceStack
});
foundCompletePath = true;
} else {
throw Error("non exhaustive match");
}
} else if (prod instanceof NonTerminal) {
const newRuleStack = clone_default(currRuleStack);
newRuleStack.push(prod.nonTerminalName);
const newOccurrenceStack = clone_default(currOccurrenceStack);
newOccurrenceStack.push(prod.idx);
const nextPath = {
idx: currIdx,
def: prod.definition.concat(EXIT_NON_TERMINAL_ARR, drop_default(currDef)),
ruleStack: newRuleStack,
occurrenceStack: newOccurrenceStack
};
possiblePaths.push(nextPath);
} else if (prod instanceof Option) {
const nextPathWithout = {
idx: currIdx,
def: drop_default(currDef),
ruleStack: currRuleStack,
occurrenceStack: currOccurrenceStack
};
possiblePaths.push(nextPathWithout);
possiblePaths.push(EXIT_ALTERNATIVE);
const nextPathWith = {
idx: currIdx,
def: prod.definition.concat(drop_default(currDef)),
ruleStack: currRuleStack,
occurrenceStack: currOccurrenceStack
};
possiblePaths.push(nextPathWith);
} else if (prod instanceof RepetitionMandatory) {
const secondIteration = new Repetition({
definition: prod.definition,
idx: prod.idx
});
const nextDef = prod.definition.concat([secondIteration], drop_default(currDef));
const nextPath = {
idx: currIdx,
def: nextDef,
ruleStack: currRuleStack,
occurrenceStack: currOccurrenceStack
};
possiblePaths.push(nextPath);
} else if (prod instanceof RepetitionMandatoryWithSeparator) {
const separatorGast = new Terminal({
terminalType: prod.separator
});
const secondIteration = new Repetition({
definition: [separatorGast].concat(prod.definition),
idx: prod.idx
});
const nextDef = prod.definition.concat([secondIteration], drop_default(currDef));
const nextPath = {
idx: currIdx,
def: nextDef,
ruleStack: currRuleStack,
occurrenceStack: currOccurrenceStack
};
possiblePaths.push(nextPath);
} else if (prod instanceof RepetitionWithSeparator) {
const nextPathWithout = {
idx: currIdx,
def: drop_default(currDef),
ruleStack: currRuleStack,
occurrenceStack: currOccurrenceStack
};
possiblePaths.push(nextPathWithout);
possiblePaths.push(EXIT_ALTERNATIVE);
const separatorGast = new Terminal({
terminalType: prod.separator
});
const nthRepetition = new Repetition({
definition: [separatorGast].concat(prod.definition),
idx: prod.idx
});
const nextDef = prod.definition.concat([nthRepetition], drop_default(currDef));
const nextPathWith = {
idx: currIdx,
def: nextDef,
ruleStack: currRuleStack,
occurrenceStack: currOccurrenceStack
};
possiblePaths.push(nextPathWith);
} else if (prod instanceof Repetition) {
const nextPathWithout = {
idx: currIdx,
def: drop_default(currDef),
ruleStack: currRuleStack,
occurrenceStack: currOccurrenceStack
};
possiblePaths.push(nextPathWithout);
possiblePaths.push(EXIT_ALTERNATIVE);
const nthRepetition = new Repetition({
definition: prod.definition,
idx: prod.idx
});
const nextDef = prod.definition.concat([nthRepetition], drop_default(currDef));
const nextPathWith = {
idx: currIdx,
def: nextDef,
ruleStack: currRuleStack,
occurrenceStack: currOccurrenceStack
};
possiblePaths.push(nextPathWith);
} else if (prod instanceof Alternation) {
for (let i = prod.definition.length - 1; i >= 0; i--) {
const currAlt = prod.definition[i];
const currAltPath = {
idx: currIdx,
def: currAlt.definition.concat(drop_default(currDef)),
ruleStack: currRuleStack,
occurrenceStack: currOccurrenceStack
};
possiblePaths.push(currAltPath);
possiblePaths.push(EXIT_ALTERNATIVE);
}
} else if (prod instanceof Alternative) {
possiblePaths.push({
idx: currIdx,
def: prod.definition.concat(drop_default(currDef)),
ruleStack: currRuleStack,
occurrenceStack: currOccurrenceStack
});
} else if (prod instanceof Rule) {
possiblePaths.push(expandTopLevelRule(prod, currIdx, currRuleStack, currOccurrenceStack));
} else {
throw Error("non exhaustive match");
}
}
return result;
}
__name(nextPossibleTokensAfter, "nextPossibleTokensAfter");
function expandTopLevelRule(topRule, currIdx, currRuleStack, currOccurrenceStack) {
const newRuleStack = clone_default(currRuleStack);
newRuleStack.push(topRule.name);
const newCurrOccurrenceStack = clone_default(currOccurrenceStack);
newCurrOccurrenceStack.push(1);
return {
idx: currIdx,
def: topRule.definition,
ruleStack: newRuleStack,
occurrenceStack: newCurrOccurrenceStack
};
}
__name(expandTopLevelRule, "expandTopLevelRule");
// ../../node_modules/.pnpm/chevrotain@11.1.1/node_modules/chevrotain/lib/src/parse/grammar/lookahead.js
var PROD_TYPE;
(function(PROD_TYPE2) {
PROD_TYPE2[PROD_TYPE2["OPTION"] = 0] = "OPTION";
PROD_TYPE2[PROD_TYPE2["REPETITION"] = 1] = "REPETITION";
PROD_TYPE2[PROD_TYPE2["REPETITION_MANDATORY"] = 2] = "REPETITION_MANDATORY";
PROD_TYPE2[PROD_TYPE2["REPETITION_MANDATORY_WITH_SEPARATOR"] = 3] = "REPETITION_MANDATORY_WITH_SEPARATOR";
PROD_TYPE2[PROD_TYPE2["REPETITION_WITH_SEPARATOR"] = 4] = "REPETITION_WITH_SEPARATOR";
PROD_TYPE2[PROD_TYPE2["ALTERNATION"] = 5] = "ALTERNATION";
})(PROD_TYPE || (PROD_TYPE = {}));
function getProdType(prod) {
if (prod instanceof Option || prod === "Option") {
return PROD_TYPE.OPTION;
} else if (prod instanceof Repetition || prod === "Repetition") {
return PROD_TYPE.REPETITION;
} else if (prod instanceof RepetitionMandatory || prod === "RepetitionMandatory") {
return PROD_TYPE.REPETITION_MANDATORY;
} else if (prod instanceof RepetitionMandatoryWithSeparator || prod === "RepetitionMandatoryWithSeparator") {
return PROD_TYPE.REPETITION_MANDATORY_WITH_SEPARATOR;
} else if (prod instanceof RepetitionWithSeparator || prod === "RepetitionWithSeparator") {
return PROD_TYPE.REPETITION_WITH_SEPARATOR;
} else if (prod instanceof Alternation || prod === "Alternation") {
return PROD_TYPE.ALTERNATION;
} else {
throw Error("non exhaustive match");
}
}
__name(getProdType, "getProdType");
function getLookaheadPaths(options) {
const { occurrence, rule, prodType, maxLookahead } = options;
const type = getProdType(prodType);
if (type === PROD_TYPE.ALTERNATION) {
return getLookaheadPathsForOr(occurrence, rule, maxLookahead);
} else {
return getLookaheadPathsForOptionalProd(occurrence, rule, type, maxLookahead);
}
}
__name(getLookaheadPaths, "getLookaheadPaths");
function buildLookaheadFuncForOr(occurrence, ruleGrammar, maxLookahead, hasPredicates, dynamicTokensEnabled, laFuncBuilder) {
const lookAheadPaths = getLookaheadPathsForOr(occurrence, ruleGrammar, maxLookahead);
const tokenMatcher2 = areTokenCategoriesNotUsed(lookAheadPaths) ? tokenStructuredMatcherNoCategories : tokenStructuredMatcher;
return laFuncBuilder(lookAheadPaths, hasPredicates, tokenMatcher2, dynamicTokensEnabled);
}
__name(buildLookaheadFuncForOr, "buildLookaheadFuncForOr");
function buildLookaheadFuncForOptionalProd(occurrence, ruleGrammar, k, dynamicTokensEnabled, prodType, lookaheadBuilder) {
const lookAheadPaths = getLookaheadPathsForOptionalProd(occurrence, ruleGrammar, prodType, k);
const tokenMatcher2 = areTokenCategoriesNotUsed(lookAheadPaths) ? tokenStructuredMatcherNoCategories : tokenStructuredMatcher;
return lookaheadBuilder(lookAheadPaths[0], tokenMatcher2, dynamicTokensEnabled);
}
__name(buildLookaheadFuncForOptionalProd, "buildLookaheadFuncForOptionalProd");
function buildAlternativesLookAheadFunc(alts, hasPredicates, tokenMatcher2, dynamicTokensEnabled) {
const numOfAlts = alts.length;
const areAllOneTokenLookahead = every_default(alts, (currAlt) => {
return every_default(currAlt, (currPath) => {
return currPath.length === 1;
});
});
if (hasPredicates) {
return function(orAlts) {
const predicates = map_default(orAlts, (currAlt) => currAlt.GATE);
for (let t = 0; t < numOfAlts; t++) {
const currAlt = alts[t];
const currNumOfPaths = currAlt.length;
const currPredicate = predicates[t];
if (currPredicate !== void 0 && currPredicate.call(this) === false) {
continue;
}
nextPath: for (let j = 0; j < currNumOfPaths; j++) {
const currPath = currAlt[j];
const currPathLength = currPath.length;
for (let i = 0; i < currPathLength; i++) {
const nextToken = this.LA(i + 1);
if (tokenMatcher2(nextToken, currPath[i]) === false) {
continue nextPath;
}
}
return t;
}
}
return void 0;
};
} else if (areAllOneTokenLookahead && !dynamicTokensEnabled) {
const singleTokenAlts = map_default(alts, (currAlt) => {
return flatten_default(currAlt);
});
const choiceToAlt = reduce_default(singleTokenAlts, (result, currAlt, idx) => {
forEach_default(currAlt, (currTokType) => {
if (!has_default(result, currTokType.tokenTypeIdx)) {
result[currTokType.tokenTypeIdx] = idx;
}
forEach_default(currTokType.categoryMatches, (currExtendingType) => {
if (!has_default(result, currExtendingType)) {
result[currExtendingType] = idx;
}
});
});
return result;
}, {});
return function() {
const nextToken = this.LA(1);
return choiceToAlt[nextToken.tokenTypeIdx];
};
} else {
return function() {
for (let t = 0; t < numOfAlts; t++) {
const currAlt = alts[t];
const currNumOfPaths = currAlt.length;
nextPath: for (let j = 0; j < currNumOfPaths; j++) {
const currPath = currAlt[j];
const currPathLength = currPath.length;
for (let i = 0; i < currPathLength; i++) {
const nextToken = this.LA(i + 1);
if (tokenMatcher2(nextToken, currPath[i]) === false) {
continue nextPath;
}
}
return t;
}
}
return void 0;
};
}
}
__name(buildAlternativesLookAheadFunc, "buildAlternativesLookAheadFunc");
function buildSingleAlternativeLookaheadFunction(alt, tokenMatcher2, dynamicTokensEnabled) {
const areAllOneTokenLookahead = every_default(alt, (currPath) => {
return currPath.length === 1;
});
const numOfPaths = alt.length;
if (areAllOneTokenLookahead && !dynamicTokensEnabled) {
const singleTokensTypes = flatten_default(alt);
if (singleTokensTypes.length === 1 && isEmpty_default(singleTokensTypes[0].categoryMatches)) {
const expectedTokenType = singleTokensTypes[0];
const expectedTokenUniqueKey = expectedTokenType.tokenTypeIdx;
return function() {
return this.LA(1).tokenTypeIdx === expectedTokenUniqueKey;
};
} else {
const choiceToAlt = reduce_default(singleTokensTypes, (result, currTokType, idx) => {
result[currTokType.tokenTypeIdx] = true;
forEach_default(currTokType.categoryMatches, (currExtendingType) => {
result[currExtendingType] = true;
});
return result;
}, []);
return function() {
const nextToken = this.LA(1);
return choiceToAlt[nextToken.tokenTypeIdx] === true;
};
}
} else {
return function() {
nextPath: for (let j = 0; j < numOfPaths; j++) {
const currPath = alt[j];
const currPathLength = currPath.length;
for (let i = 0; i < currPathLength; i++) {
const nextToken = this.LA(i + 1);
if (tokenMatcher2(nextToken, currPath[i]) === false) {
continue nextPath;
}
}
return true;
}
return false;
};
}
}
__name(buildSingleAlternativeLookaheadFunction, "buildSingleAlternativeLookaheadFunction");
var RestDefinitionFinderWalker = class extends RestWalker {
static {
__name(this, "RestDefinitionFinderWalker");
}
constructor(topProd, targetOccurrence, targetProdType) {
super();
this.topProd = topProd;
this.targetOccurrence = targetOccurrence;
this.targetProdType = targetProdType;
}
startWalking() {
this.walk(this.topProd);
return this.restDef;
}
checkIsTarget(node, expectedProdType, currRest, prevRest) {
if (node.idx === this.targetOccurrence && this.targetProdType === expectedProdType) {
this.restDef = currRest.concat(prevRest);
return true;
}
return false;
}
walkOption(optionProd, currRest, prevRest) {
if (!this.checkIsTarget(optionProd, PROD_TYPE.OPTION, currRest, prevRest)) {
super.walkOption(optionProd, currRest, prevRest);
}
}
walkAtLeastOne(atLeastOneProd, currRest, prevRest) {
if (!this.checkIsTarget(atLeastOneProd, PROD_TYPE.REPETITION_MANDATORY, currRest, prevRest)) {
super.walkOption(atLeastOneProd, currRest, prevRest);
}
}
walkAtLeastOneSep(atLeastOneSepProd, currRest, prevRest) {
if (!this.checkIsTarget(atLeastOneSepProd, PROD_TYPE.REPETITION_MANDATORY_WITH_SEPARATOR, currRest, prevRest)) {
super.walkOption(atLeastOneSepProd, currRest, prevRest);
}
}
walkMany(manyProd, currRest, prevRest) {
if (!this.checkIsTarget(manyProd, PROD_TYPE.REPETITION, currRest, prevRest)) {
super.walkOption(manyProd, currRest, prevRest);
}
}
walkManySep(manySepProd, currRest, prevRest) {
if (!this.checkIsTarget(manySepProd, PROD_TYPE.REPETITION_WITH_SEPARATOR, currRest, prevRest)) {
super.walkOption(manySepProd, currRest, prevRest);
}
}
};
var InsideDefinitionFinderVisitor = class extends GAstVisitor {
static {
__name(this, "InsideDefinitionFinderVisitor");
}
constructor(targetOccurrence, targetProdType, targetRef) {
super();
this.targetOccurrence = targetOccurrence;
this.targetProdType = targetProdType;
this.targetRef = targetRef;
this.result = [];
}
checkIsTarget(node, expectedProdName) {
if (node.idx === this.targetOccurrence && this.targetProdType === expectedProdName && (this.targetRef === void 0 || node === this.targetRef)) {
this.result = node.definition;
}
}
visitOption(node) {
this.checkIsTarget(node, PROD_TYPE.OPTION);
}
visitRepetition(node) {
this.checkIsTarget(node, PROD_TYPE.REPETITION);
}
visitRepetitionMandatory(node) {
this.checkIsTarget(node, PROD_TYPE.REPETITION_MANDATORY);
}
visitRepetitionMandatoryWithSeparator(node) {
this.checkIsTarget(node, PROD_TYPE.REPETITION_MANDATORY_WITH_SEPARATOR);
}
visitRepetitionWithSeparator(node) {
this.checkIsTarget(node, PROD_TYPE.REPETITION_WITH_SEPARATOR);
}
visitAlternation(node) {
this.checkIsTarget(node, PROD_TYPE.ALTERNATION);
}
};
function initializeArrayOfArrays(size) {
const result = new Array(size);
for (let i = 0; i < size; i++) {
result[i] = [];
}
return result;
}
__name(initializeArrayOfArrays, "initializeArrayOfArrays");
function pathToHashKeys(path) {
let keys2 = [""];
for (let i = 0; i < path.length; i++) {
const tokType = path[i];
const longerKeys = [];
for (let j = 0; j < keys2.length; j++) {
const currShorterKey = keys2[j];
longerKeys.push(currShorterKey + "_" + tokType.tokenTypeIdx);
for (let t = 0; t < tokType.categoryMatches.length; t++) {
const categoriesKeySuffix = "_" + tokType.categoryMatches[t];
longerKeys.push(currShorterKey + categoriesKeySuffix);
}
}
keys2 = longerKeys;
}
return keys2;
}
__name(pathToHashKeys, "pathToHashKeys");
function isUniquePrefixHash(altKnownPathsKeys, searchPathKeys, idx) {
for (let currAltIdx = 0; currAltIdx < altKnownPathsKeys.length; currAltIdx++) {
if (currAltIdx === idx) {
continue;
}
const otherAltKnownPathsKeys = altKnownPathsKeys[currAltIdx];
for (let searchIdx = 0; searchIdx < searchPathKeys.length; searchIdx++) {
const searchKey = searchPathKeys[searchIdx];
if (otherAltKnownPathsKeys[searchKey] === true) {
return false;
}
}
}
return true;
}
__name(isUniquePrefixHash, "isUniquePrefixHash");
function lookAheadSequenceFromAlternatives(altsDefs, k) {
const partialAlts = map_default(altsDefs, (currAlt) => possiblePathsFrom([currAlt], 1));
const finalResult = initializeArrayOfArrays(partialAlts.length);
const altsHashes = map_default(partialAlts, (currAltPaths) => {
const dict = {};
forEach_default(currAltPaths, (item) => {
const keys2 = pathToHashKeys(item.partialPath);
forEach_default(keys2, (currKey) => {
dict[currKey] = true;
});
});
return dict;
});
let newData = partialAlts;
for (let pathLength = 1; pathLength <= k; pathLength++) {
const currDataset = newData;
newData = initializeArrayOfArrays(currDataset.length);
for (let altIdx = 0; altIdx < currDataset.length; altIdx++) {
const currAltPathsAndSuffixes = currDataset[altIdx];
for (let currPathIdx = 0; currPathIdx < currAltPathsAndSuffixes.length; currPathIdx++) {
const currPathPrefix = currAltPathsAndSuffixes[currPathIdx].partialPath;
const suffixDef = currAltPathsAndSuffixes[currPathIdx].suffixDef;
const prefixKeys = pathToHashKeys(currPathPrefix);
const isUnique = isUniquePrefixHash(altsHashes, prefixKeys, altIdx);
if (isUnique || isEmpty_default(suffixDef) || currPathPrefix.length === k) {
const currAltResult = finalResult[altIdx];
if (containsPath(currAltResult, currPathPrefix) === false) {
currAltResult.push(currPathPrefix);
for (let j = 0; j < prefixKeys.length; j++) {
const currKey = prefixKeys[j];
altsHashes[altIdx][currKey] = true;
}
}
} else {
const newPartialPathsAndSuffixes = possiblePathsFrom(suffixDef, pathLength + 1, currPathPrefix);
newData[altIdx] = newData[altIdx].concat(newPartialPathsAndSuffixes);
forEach_default(newPartialPathsAndSuffixes, (item) => {
const prefixKeys2 = pathToHashKeys(item.partialPath);
forEach_default(prefixKeys2, (key) => {
altsHashes[altIdx][key] = true;
});
});
}
}
}
}
return finalResult;
}
__name(lookAheadSequenceFromAlternatives, "lookAheadSequenceFromAlternatives");
function getLookaheadPathsForOr(occurrence, ruleGrammar, k, orProd) {
const visitor2 = new InsideDefinitionFinderVisitor(occurrence, PROD_TYPE.ALTERNATION, orProd);
ruleGrammar.accept(visitor2);
return lookAheadSequenceFromAlternatives(visitor2.result, k);
}
__name(getLookaheadPathsForOr, "getLookaheadPathsForOr");
function getLookaheadPathsForOptionalProd(occurrence, ruleGrammar, prodType, k) {
const insideDefVisitor = new InsideDefinitionFinderVisitor(occurrence, prodType);
ruleGrammar.accept(insideDefVisitor);
const insideDef = insideDefVisitor.result;
const afterDefWalker = new RestDefinitionFinderWalker(ruleGrammar, occurrence, prodType);
const afterDef = afterDefWalker.startWalking();
const insideFlat = new Alternative({ definition: insideDef });
const afterFlat = new Alternative({ definition: afterDef });
return lookAheadSequenceFromAlternatives([insideFlat, afterFlat], k);
}
__name(getLookaheadPathsForOptionalProd, "getLookaheadPathsForOptionalProd");
function containsPath(alternative, searchPath) {
compareOtherPath: for (let i = 0; i < alternative.length; i++) {
const otherPath = alternative[i];
if (otherPath.length !== searchPath.length) {
continue;
}
for (let j = 0; j < otherPath.length; j++) {
const searchTok = searchPath[j];
const otherTok = otherPath[j];
const matchingTokens = searchTok === otherTok || otherTok.categoryMatchesMap[searchTok.tokenTypeIdx] !== void 0;
if (matchingTokens === false) {
continue compareOtherPath;
}
}
return true;
}
return false;
}
__name(containsPath, "containsPath");
function isStrictPrefixOfPath(prefix, other) {
return prefix.length < other.length && every_default(prefix, (tokType, idx) => {
const otherTokType = other[idx];
return tokType === otherTokType || otherTokType.categoryMatchesMap[tokType.tokenTypeIdx];
});
}
__name(isStrictPrefixOfPath, "isStrictPrefixOfPath");
function areTokenCategoriesNotUsed(lookAheadPaths) {
return every_default(lookAheadPaths, (singleAltPaths) => every_default(singleAltPaths, (singlePath) => every_default(singlePath, (token) => isEmpty_default(token.categoryMatches))));
}
__name(areTokenCategoriesNotUsed, "areTokenCategoriesNotUsed");
// ../../node_modules/.pnpm/chevrotain@11.1.1/node_modules/chevrotain/lib/src/parse/grammar/checks.js
function validateLookahead(options) {
const lookaheadValidationErrorMessages = options.lookaheadStrategy.validate({
rules: options.rules,
tokenTypes: options.tokenTypes,
grammarName: options.grammarName
});
return map_default(lookaheadValidationErrorMessages, (errorMessage) => Object.assign({ type: ParserDefinitionErrorType.CUSTOM_LOOKAHEAD_VALIDATION }, errorMessage));
}
__name(validateLookahead, "validateLookahead");
function validateGrammar(topLevels, tokenTypes, errMsgProvider, grammarName) {
const duplicateErrors = flatMap_default(topLevels, (currTopLevel) => validateDuplicateProductions(currTopLevel, errMsgProvider));
const termsNamespaceConflictErrors = checkTerminalAndNoneTerminalsNameSpace(topLevels, tokenTypes, errMsgProvider);
const tooManyAltsErrors = flatMap_default(topLevels, (curRule) => validateTooManyAlts(curRule, errMsgProvider));
const duplicateRulesError = flatMap_default(topLevels, (curRule) => validateRuleDoesNotAlreadyExist(curRule, topLevels, grammarName, errMsgProvider));
return duplicateErrors.concat(termsNamespaceConflictErrors, tooManyAltsErrors, duplicateRulesError);
}
__name(validateGrammar, "validateGrammar");
function validateDuplicateProductions(topLevelRule, errMsgProvider) {
const collectorVisitor2 = new OccurrenceValidationCollector();
topLevelRule.accept(collectorVisitor2);
const allRuleProductions = collectorVisitor2.allProductions;
const productionGroups = groupBy_default(allRuleProductions, identifyProductionForDuplicates);
const duplicates = pickBy_default(productionGroups, (currGroup) => {
return currGroup.length > 1;
});
const errors = map_default(values_default(duplicates), (currDuplicates) => {
const firstProd = head_default(currDuplicates);
const msg = errMsgProvider.buildDuplicateFoundError(topLevelRule, currDuplicates);
const dslName = getProductionDslName(firstProd);
const defError = {
message: msg,
type: ParserDefinitionErrorType.DUPLICATE_PRODUCTIONS,
ruleName: topLevelRule.name,
dslName,
occurrence: firstProd.idx
};
const param = getExtraProductionArgument(firstProd);
if (param) {
defError.parameter = param;
}
return defError;
});
return errors;
}
__name(validateDuplicateProductions, "validateDuplicateProductions");
function identifyProductionForDuplicates(prod) {
return `${getProductionDslName(prod)}_#_${prod.idx}_#_${getExtraProductionArgument(prod)}`;
}
__name(identifyProductionForDuplicates, "identifyProductionForDuplicates");
function getExtraProductionArgument(prod) {
if (prod instanceof Terminal) {
return prod.terminalType.name;
} else if (prod instanceof NonTerminal) {
return prod.nonTerminalName;
} else {
return "";
}
}
__name(getExtraProductionArgument, "getExtraProductionArgument");
var OccurrenceValidationCollector = class extends GAstVisitor {
static {
__name(this, "OccurrenceValidationCollector");
}
constructor() {
super(...arguments);
this.allProductions = [];
}
visitNonTerminal(subrule) {
this.allProductions.push(subrule);
}
visitOption(option2) {
this.allProductions.push(option2);
}
visitRepetitionWithSeparator(manySep) {
this.allProductions.push(manySep);
}
visitRepetitionMandatory(atLeastOne) {
this.allProductions.push(atLeastOne);
}
visitRepetitionMandatoryWithSeparator(atLeastOneSep) {
this.allProductions.push(atLeastOneSep);
}
visitRepetition(many) {
this.allProductions.push(many);
}
visitAlternation(or) {
this.allProductions.push(or);
}
visitTerminal(terminal) {
this.allProductions.push(terminal);
}
};
function validateRuleDoesNotAlreadyExist(rule, allRules, className, errMsgProvider) {
const errors = [];
const occurrences = reduce_default(allRules, (result, curRule) => {
if (curRule.name === rule.name) {
return result + 1;
}
return result;
}, 0);
if (occurrences > 1) {
const errMsg = errMsgProvider.buildDuplicateRuleNameError({
topLevelRule: rule,
grammarName: className
});
errors.push({
message: errMsg,
type: ParserDefinitionErrorType.DUPLICATE_RULE_NAME,
ruleName: rule.name
});
}
return errors;
}
__name(validateRuleDoesNotAlreadyExist, "validateRuleDoesNotAlreadyExist");
function validateRuleIsOverridden(ruleName, definedRulesNames, className) {
const errors = [];
let errMsg;
if (!includes_default(definedRulesNames, ruleName)) {
errMsg = `Invalid rule override, rule: ->${ruleName}<- cannot be overridden in the grammar: ->${className}<-as it is not defined in any of the super grammars `;
errors.push({
message: errMsg,
type: ParserDefinitionErrorType.INVALID_RULE_OVERRIDE,
ruleName
});
}
return errors;
}
__name(validateRuleIsOverridden, "validateRuleIsOverridden");
function validateNoLeftRecursion(topRule, currRule, errMsgProvider, path = []) {
const errors = [];
const nextNonTerminals = getFirstNoneTerminal(currRule.definition);
if (isEmpty_default(nextNonTerminals)) {
return [];
} else {
const ruleName = topRule.name;
const foundLeftRecursion = includes_default(nextNonTerminals, topRule);
if (foundLeftRecursion) {
errors.push({
message: errMsgProvider.buildLeftRecursionError({
topLevelRule: topRule,
leftRecursionPath: path
}),
type: ParserDefinitionErrorType.LEFT_RECURSION,
ruleName
});
}
const validNextSteps = difference_default(nextNonTerminals, path.concat([topRule]));
const errorsFromNextSteps = flatMap_default(validNextSteps, (currRefRule) => {
const newPath = clone_default(path);
newPath.push(currRefRule);
return validateNoLeftRecursion(topRule, currRefRule, errMsgProvider, newPath);
});
return errors.concat(errorsFromNextSteps);
}
}
__name(validateNoLeftRecursion, "validateNoLeftRecursion");
function getFirstNoneTerminal(definition) {
let result = [];
if (isEmpty_default(definition)) {
return result;
}
const firstProd = head_default(definition);
if (firstProd instanceof NonTerminal) {
result.push(firstProd.referencedRule);
} else if (firstProd instanceof Alternative || firstProd instanceof Option || firstProd instanceof RepetitionMandatory || firstProd instanceof RepetitionMandatoryWithSeparator || firstProd instanceof RepetitionWithSeparator || firstProd instanceof Repetition) {
result = result.concat(getFirstNoneTerminal(firstProd.definition));
} else if (firstProd instanceof Alternation) {
result = flatten_default(map_default(firstProd.definition, (currSubDef) => getFirstNoneTerminal(currSubDef.definition)));
} else if (firstProd instanceof Terminal) {
} else {
throw Error("non exhaustive match");
}
const isFirstOptional = isOptionalProd(firstProd);
const hasMore = definition.length > 1;
if (isFirstOptional && hasMore) {
const rest = drop_default(definition);
return result.concat(getFirstNoneTerminal(rest));
} else {
return result;
}
}
__name(getFirstNoneTerminal, "getFirstNoneTerminal");
var OrCollector = class extends GAstVisitor {
static {
__name(this, "OrCollector");
}
constructor() {
super(...arguments);
this.alternations = [];
}
visitAlternation(node) {
this.alternations.push(node);
}
};
function validateEmptyOrAlternative(topLevelRule, errMsgProvider) {
const orCollector = new OrCollector();
topLevelRule.accept(orCollector);
const ors = orCollector.alternations;
const errors = flatMap_default(ors, (currOr) => {
const exceptLast = dropRight_default(currOr.definition);
return flatMap_default(exceptLast, (currAlternative, currAltIdx) => {
const possibleFirstInAlt = nextPossibleTokensAfter([currAlternative], [], tokenStructuredMatcher, 1);
if (isEmpty_default(possibleFirstInAlt)) {
return [
{
message: errMsgProvider.buildEmptyAlternationError({
topLevelRule,
alternation: currOr,
emptyChoiceIdx: currAltIdx
}),
type: ParserDefinitionErrorType.NONE_LAST_EMPTY_ALT,
ruleName: topLevelRule.name,
occurrence: currOr.idx,
alternative: currAltIdx + 1
}
];
} else {
return [];
}
});
});
return errors;
}
__name(validateEmptyOrAlternative, "validateEmptyOrAlternative");
function validateAmbiguousAlternationAlternatives(topLevelRule, globalMaxLookahead, errMsgProvider) {
const orCollector = new OrCollector();
topLevelRule.accept(orCollector);
let ors = orCollector.alternations;
ors = reject_default(ors, (currOr) => currOr.ignoreAmbiguities === true);
const errors = flatMap_default(ors, (currOr) => {
const currOccurrence = currOr.idx;
const actualMaxLookahead = currOr.maxLookahead || globalMaxLookahead;
const alternatives = getLookaheadPathsForOr(currOccurrence, topLevelRule, actualMaxLookahead, currOr);
const altsAmbiguityErrors = checkAlternativesAmbiguities(alternatives, currOr, topLevelRule, errMsgProvider);
const altsPrefixAmbiguityErrors = checkPrefixAlternativesAmbiguities(alternatives, currOr, topLevelRule, errMsgProvider);
return altsAmbiguityErrors.concat(altsPrefixAmbiguityErrors);
});
return errors;
}
__name(validateAmbiguousAlternationAlternatives, "validateAmbiguousAlternationAlternatives");
var RepetitionCollector = class extends GAstVisitor {
static {
__name(this, "RepetitionCollector");
}
constructor() {
super(...arguments);
this.allProductions = [];
}
visitRepetitionWithSeparator(manySep) {
this.allProductions.push(manySep);
}
visitRepetitionMandatory(atLeastOne) {
this.allProductions.push(atLeastOne);
}
visitRepetitionMandatoryWithSeparator(atLeastOneSep) {
this.allProductions.push(atLeastOneSep);
}
visitRepetition(many) {
this.allProductions.push(many);
}
};
function validateTooManyAlts(topLevelRule, errMsgProvider) {
const orCollector = new OrCollector();
topLevelRule.accept(orCollector);
const ors = orCollector.alternations;
const errors = flatMap_default(ors, (currOr) => {
if (currOr.definition.length > 255) {
return [
{
message: errMsgProvider.buildTooManyAlternativesError({
topLevelRule,
alternation: currOr
}),
type: ParserDefinitionErrorType.TOO_MANY_ALTS,
ruleName: topLevelRule.name,
occurrence: currOr.idx
}
];
} else {
return [];
}
});
return errors;
}
__name(validateTooManyAlts, "validateTooManyAlts");
function validateSomeNonEmptyLookaheadPath(topLevelRules, maxLookahead, errMsgProvider) {
const errors = [];
forEach_default(topLevelRules, (currTopRule) => {
const collectorVisitor2 = new RepetitionCollector();
currTopRule.accept(collectorVisitor2);
const allRuleProductions = collectorVisitor2.allProductions;
forEach_default(allRuleProductions, (currProd) => {
const prodType = getProdType(currProd);
const actualMaxLookahead = currProd.maxLookahead || maxLookahead;
const currOccurrence = currProd.idx;
const paths = getLookaheadPathsForOptionalProd(currOccurrence, currTopRule, prodType, actualMaxLookahead);
const pathsInsideProduction = paths[0];
if (isEmpty_default(flatten_default(pathsInsideProduction))) {
const errMsg = errMsgProvider.buildEmptyRepetitionError({
topLevelRule: currTopRule,
repetition: currProd
});
errors.push({
message: errMsg,
type: ParserDefinitionErrorType.NO_NON_EMPTY_LOOKAHEAD,
ruleName: currTopRule.name
});
}
});
});
return errors;
}
__name(validateSomeNonEmptyLookaheadPath, "validateSomeNonEmptyLookaheadPath");
function checkAlternativesAmbiguities(alternatives, alternation2, rule, errMsgProvider) {
const foundAmbiguousPaths = [];
const identicalAmbiguities = reduce_default(alternatives, (result, currAlt, currAltIdx) => {
if (alternation2.definition[currAltIdx].ignoreAmbiguities === true) {
return result;
}
forEach_default(currAlt, (currPath) => {
const altsCurrPathAppearsIn = [currAltIdx];
forEach_default(alternatives, (currOtherAlt, currOtherAltIdx) => {
if (currAltIdx !== currOtherAltIdx && containsPath(currOtherAlt, currPath) && // ignore (skip) ambiguities with this "other" alternative
alternation2.definition[currOtherAltIdx].ignoreAmbiguities !== true) {
altsCurrPathAppearsIn.push(currOtherAltIdx);
}
});
if (altsCurrPathAppearsIn.length > 1 && !containsPath(foundAmbiguousPaths, currPath)) {
foundAmbiguousPaths.push(currPath);
result.push({
alts: altsCurrPathAppearsIn,
path: currPath
});
}
});
return result;
}, []);
const currErrors = map_default(identicalAmbiguities, (currAmbDescriptor) => {
const ambgIndices = map_default(currAmbDescriptor.alts, (currAltIdx) => currAltIdx + 1);
const currMessage = errMsgProvider.buildAlternationAmbiguityError({
topLevelRule: rule,
alternation: alternation2,
ambiguityIndices: ambgIndices,
prefixPath: currAmbDescriptor.path
});
return {
message: currMessage,
type: ParserDefinitionErrorType.AMBIGUOUS_ALTS,
ruleName: rule.name,
occurrence: alternation2.idx,
alternatives: currAmbDescriptor.alts
};
});
return currErrors;
}
__name(checkAlternativesAmbiguities, "checkAlternativesAmbiguities");
function checkPrefixAlternativesAmbiguities(alternatives, alternation2, rule, errMsgProvider) {
const pathsAndIndices = reduce_default(alternatives, (result, currAlt, idx) => {
const currPathsAndIdx = map_default(currAlt, (currPath) => {
return { idx, path: currPath };
});
return result.concat(currPathsAndIdx);
}, []);
const errors = compact_default(flatMap_default(pathsAndIndices, (currPathAndIdx) => {
const alternativeGast = alternation2.definition[currPathAndIdx.idx];
if (alternativeGast.ignoreAmbiguities === true) {
return [];
}
const targetIdx = currPathAndIdx.idx;
const targetPath = currPathAndIdx.path;
const prefixAmbiguitiesPathsAndIndices = filter_default(pathsAndIndices, (searchPathAndIdx) => {
return (
// ignore (skip) ambiguities with this "other" alternative
alternation2.definition[searchPathAndIdx.idx].ignoreAmbiguities !== true && searchPathAndIdx.idx < targetIdx && // checking for strict prefix because identical lookaheads
// will be be detected using a different validation.
isStrictPrefixOfPath(searchPathAndIdx.path, targetPath)
);
});
const currPathPrefixErrors = map_default(prefixAmbiguitiesPathsAndIndices, (currAmbPathAndIdx) => {
const ambgIndices = [currAmbPathAndIdx.idx + 1, targetIdx + 1];
const occurrence = alternation2.idx === 0 ? "" : alternation2.idx;
const message = errMsgProvider.buildAlternationPrefixAmbiguityError({
topLevelRule: rule,
alternation: alternation2,
ambiguityIndices: ambgIndices,
prefixPath: currAmbPathAndIdx.path
});
return {
message,
type: ParserDefinitionErrorType.AMBIGUOUS_PREFIX_ALTS,
ruleName: rule.name,
occurrence,
alternatives: ambgIndices
};
});
return currPathPrefixErrors;
}));
return errors;
}
__name(checkPrefixAlternativesAmbiguities, "checkPrefixAlternativesAmbiguities");
function checkTerminalAndNoneTerminalsNameSpace(topLevels, tokenTypes, errMsgProvider) {
const errors = [];
const tokenNames = map_default(tokenTypes, (currToken) => currToken.name);
forEach_default(topLevels, (currRule) => {
const currRuleName = currRule.name;
if (includes_default(tokenNames, currRuleName)) {
const errMsg = errMsgProvider.buildNamespaceConflictError(currRule);
errors.push({
message: errMsg,
type: ParserDefinitionErrorType.CONFLICT_TOKENS_RULES_NAMESPACE,
ruleName: currRuleName
});
}
});
return errors;
}
__name(checkTerminalAndNoneTerminalsNameSpace, "checkTerminalAndNoneTerminalsNameSpace");
// ../../node_modules/.pnpm/chevrotain@11.1.1/node_modules/chevrotain/lib/src/parse/grammar/gast/gast_resolver_public.js
function resolveGrammar2(options) {
const actualOptions = defaults_default(options, {
errMsgProvider: defaultGrammarResolverErrorProvider
});
const topRulesTable = {};
forEach_default(options.rules, (rule) => {
topRulesTable[rule.name] = rule;
});
return resolveGrammar(topRulesTable, actualOptions.errMsgProvider);
}
__name(resolveGrammar2, "resolveGrammar");
function validateGrammar2(options) {
options = defaults_default(options, {
errMsgProvider: defaultGrammarValidatorErrorProvider
});
return validateGrammar(options.rules, options.tokenTypes, options.errMsgProvider, options.grammarName);
}
__name(validateGrammar2, "validateGrammar");
// ../../node_modules/.pnpm/chevrotain@11.1.1/node_modules/chevrotain/lib/src/parse/exceptions_public.js
var MISMATCHED_TOKEN_EXCEPTION = "MismatchedTokenException";
var NO_VIABLE_ALT_EXCEPTION = "NoViableAltException";
var EARLY_EXIT_EXCEPTION = "EarlyExitException";
var NOT_ALL_INPUT_PARSED_EXCEPTION = "NotAllInputParsedException";
var RECOGNITION_EXCEPTION_NAMES = [
MISMATCHED_TOKEN_EXCEPTION,
NO_VIABLE_ALT_EXCEPTION,
EARLY_EXIT_EXCEPTION,
NOT_ALL_INPUT_PARSED_EXCEPTION
];
Object.freeze(RECOGNITION_EXCEPTION_NAMES);
function isRecognitionException(error) {
return includes_default(RECOGNITION_EXCEPTION_NAMES, error.name);
}
__name(isRecognitionException, "isRecognitionException");
var RecognitionException = class extends Error {
static {
__name(this, "RecognitionException");
}
constructor(message, token) {
super(message);
this.token = token;
this.resyncedTokens = [];
Object.setPrototypeOf(this, new.target.prototype);
if (Error.captureStackTrace) {
Error.captureStackTrace(this, this.constructor);
}
}
};
var MismatchedTokenException = class extends RecognitionException {
static {
__name(this, "MismatchedTokenException");
}
constructor(message, token, previousToken) {
super(message, token);
this.previousToken = previousToken;
this.name = MISMATCHED_TOKEN_EXCEPTION;
}
};
var NoViableAltException = class extends RecognitionException {
static {
__name(this, "NoViableAltException");
}
constructor(message, token, previousToken) {
super(message, token);
this.previousToken = previousToken;
this.name = NO_VIABLE_ALT_EXCEPTION;
}
};
var NotAllInputParsedException = class extends RecognitionException {
static {
__name(this, "NotAllInputParsedException");
}
constructor(message, token) {
super(message, token);
this.name = NOT_ALL_INPUT_PARSED_EXCEPTION;
}
};
var EarlyExitException = class extends RecognitionException {
static {
__name(this, "EarlyExitException");
}
constructor(message, token, previousToken) {
super(message, token);
this.previousToken = previousToken;
this.name = EARLY_EXIT_EXCEPTION;
}
};
// ../../node_modules/.pnpm/chevrotain@11.1.1/node_modules/chevrotain/lib/src/parse/parser/traits/recoverable.js
var EOF_FOLLOW_KEY = {};
var IN_RULE_RECOVERY_EXCEPTION = "InRuleRecoveryException";
var InRuleRecoveryException = class extends Error {
static {
__name(this, "InRuleRecoveryException");
}
constructor(message) {
super(message);
this.name = IN_RULE_RECOVERY_EXCEPTION;
}
};
var Recoverable = class {
static {
__name(this, "Recoverable");
}
initRecoverable(config) {
this.firstAfterRepMap = {};
this.resyncFollows = {};
this.recoveryEnabled = has_default(config, "recoveryEnabled") ? config.recoveryEnabled : DEFAULT_PARSER_CONFIG.recoveryEnabled;
if (this.recoveryEnabled) {
this.attemptInRepetitionRecovery = attemptInRepetitionRecovery;
}
}
getTokenToInsert(tokType) {
const tokToInsert = createTokenInstance(tokType, "", NaN, NaN, NaN, NaN, NaN, NaN);
tokToInsert.isInsertedInRecovery = true;
return tokToInsert;
}
canTokenTypeBeInsertedInRecovery(tokType) {
return true;
}
canTokenTypeBeDeletedInRecovery(tokType) {
return true;
}
tryInRepetitionRecovery(grammarRule, grammarRuleArgs, lookAheadFunc, expectedTokType) {
const reSyncTokType = this.findReSyncTokenType();
const savedLexerState = this.exportLexerState();
const resyncedTokens = [];
let passedResyncPoint = false;
const nextTokenWithoutResync = this.LA(1);
let currToken = this.LA(1);
const generateErrorMessage = /* @__PURE__ */ __name(() => {
const previousToken = this.LA(0);
const msg = this.errorMessageProvider.buildMismatchTokenMessage({
expected: expectedTokType,
actual: nextTokenWithoutResync,
previous: previousToken,
ruleName: this.getCurrRuleFullName()
});
const error = new MismatchedTokenException(msg, nextTokenWithoutResync, this.LA(0));
error.resyncedTokens = dropRight_default(resyncedTokens);
this.SAVE_ERROR(error);
}, "generateErrorMessage");
while (!passedResyncPoint) {
if (this.tokenMatcher(currToken, expectedTokType)) {
generateErrorMessage();
return;
} else if (lookAheadFunc.call(this)) {
generateErrorMessage();
grammarRule.apply(this, grammarRuleArgs);
return;
} else if (this.tokenMatcher(currToken, reSyncTokType)) {
passedResyncPoint = true;
} else {
currToken = this.SKIP_TOKEN();
this.addToResyncTokens(currToken, resyncedTokens);
}
}
this.importLexerState(savedLexerState);
}
shouldInRepetitionRecoveryBeTried(expectTokAfterLastMatch, nextTokIdx, notStuck) {
if (notStuck === false) {
return false;
}
if (this.tokenMatcher(this.LA(1), expectTokAfterLastMatch)) {
return false;
}
if (this.isBackTracking()) {
return false;
}
if (this.canPerformInRuleRecovery(expectTokAfterLastMatch, this.getFollowsForInRuleRecovery(expectTokAfterLastMatch, nextTokIdx))) {
return false;
}
return true;
}
// Error Recovery functionality
getFollowsForInRuleRecovery(tokType, tokIdxInRule) {
const grammarPath = this.getCurrentGrammarPath(tokType, tokIdxInRule);
const follows = this.getNextPossibleTokenTypes(grammarPath);
return follows;
}
tryInRuleRecovery(expectedTokType, follows) {
if (this.canRecoverWithSingleTokenInsertion(expectedTokType, follows)) {
const tokToInsert = this.getTokenToInsert(expectedTokType);
return tokToInsert;
}
if (this.canRecoverWithSingleTokenDeletion(expectedTokType)) {
const nextTok = this.SKIP_TOKEN();
this.consumeToken();
return nextTok;
}
throw new InRuleRecoveryException("sad sad panda");
}
canPerformInRuleRecovery(expectedToken, follows) {
return this.canRecoverWithSingleTokenInsertion(expectedToken, follows) || this.canRecoverWithSingleTokenDeletion(expectedToken);
}
canRecoverWithSingleTokenInsertion(expectedTokType, follows) {
if (!this.canTokenTypeBeInsertedInRecovery(expectedTokType)) {
return false;
}
if (isEmpty_default(follows)) {
return false;
}
const mismatchedTok = this.LA(1);
const isMisMatchedTokInFollows = find_default(follows, (possibleFollowsTokType) => {
return this.tokenMatcher(mismatchedTok, possibleFollowsTokType);
}) !== void 0;
return isMisMatchedTokInFollows;
}
canRecoverWithSingleTokenDeletion(expectedTokType) {
if (!this.canTokenTypeBeDeletedInRecovery(expectedTokType)) {
return false;
}
const isNextTokenWhatIsExpected = this.tokenMatcher(this.LA(2), expectedTokType);
return isNextTokenWhatIsExpected;
}
isInCurrentRuleReSyncSet(tokenTypeIdx) {
const followKey = this.getCurrFollowKey();
const currentRuleReSyncSet = this.getFollowSetFromFollowKey(followKey);
return includes_default(currentRuleReSyncSet, tokenTypeIdx);
}
findReSyncTokenType() {
const allPossibleReSyncTokTypes = this.flattenFollowSet();
let nextToken = this.LA(1);
let k = 2;
while (true) {
const foundMatch = find_default(allPossibleReSyncTokTypes, (resyncTokType) => {
const canMatch = tokenMatcher(nextToken, resyncTokType);
return canMatch;
});
if (foundMatch !== void 0) {
return foundMatch;
}
nextToken = this.LA(k);
k++;
}
}
getCurrFollowKey() {
if (this.RULE_STACK.length === 1) {
return EOF_FOLLOW_KEY;
}
const currRuleShortName = this.getLastExplicitRuleShortName();
const currRuleIdx = this.getLastExplicitRuleOccurrenceIndex();
const prevRuleShortName = this.getPreviousExplicitRuleShortName();
return {
ruleName: this.shortRuleNameToFullName(currRuleShortName),
idxInCallingRule: currRuleIdx,
inRule: this.shortRuleNameToFullName(prevRuleShortName)
};
}
buildFullFollowKeyStack() {
const explicitRuleStack = this.RULE_STACK;
const explicitOccurrenceStack = this.RULE_OCCURRENCE_STACK;
return map_default(explicitRuleStack, (ruleName, idx) => {
if (idx === 0) {
return EOF_FOLLOW_KEY;
}
return {
ruleName: this.shortRuleNameToFullName(ruleName),
idxInCallingRule: explicitOccurrenceStack[idx],
inRule: this.shortRuleNameToFullName(explicitRuleStack[idx - 1])
};
});
}
flattenFollowSet() {
const followStack = map_default(this.buildFullFollowKeyStack(), (currKey) => {
return this.getFollowSetFromFollowKey(currKey);
});
return flatten_default(followStack);
}
getFollowSetFromFollowKey(followKey) {
if (followKey === EOF_FOLLOW_KEY) {
return [EOF];
}
const followName = followKey.ruleName + followKey.idxInCallingRule + IN + followKey.inRule;
return this.resyncFollows[followName];
}
// It does not make any sense to include a virtual EOF token in the list of resynced tokens
// as EOF does not really exist and thus does not contain any useful information (line/column numbers)
addToResyncTokens(token, resyncTokens) {
if (!this.tokenMatcher(token, EOF)) {
resyncTokens.push(token);
}
return resyncTokens;
}
reSyncTo(tokType) {
const resyncedTokens = [];
let nextTok = this.LA(1);
while (this.tokenMatcher(nextTok, tokType) === false) {
nextTok = this.SKIP_TOKEN();
this.addToResyncTokens(nextTok, resyncedTokens);
}
return dropRight_default(resyncedTokens);
}
attemptInRepetitionRecovery(prodFunc, args, lookaheadFunc, dslMethodIdx, prodOccurrence, nextToksWalker, notStuck) {
}
getCurrentGrammarPath(tokType, tokIdxInRule) {
const pathRuleStack = this.getHumanReadableRuleStack();
const pathOccurrenceStack = clone_default(this.RULE_OCCURRENCE_STACK);
const grammarPath = {
ruleStack: pathRuleStack,
occurrenceStack: pathOccurrenceStack,
lastTok: tokType,
lastTokOccurrence: tokIdxInRule
};
return grammarPath;
}
getHumanReadableRuleStack() {
return map_default(this.RULE_STACK, (currShortName) => this.shortRuleNameToFullName(currShortName));
}
};
function attemptInRepetitionRecovery(prodFunc, args, lookaheadFunc, dslMethodIdx, prodOccurrence, nextToksWalker, notStuck) {
const key = this.getKeyForAutomaticLookahead(dslMethodIdx, prodOccurrence);
let firstAfterRepInfo = this.firstAfterRepMap[key];
if (firstAfterRepInfo === void 0) {
const currRuleName = this.getCurrRuleFullName();
const ruleGrammar = this.getGAstProductions()[currRuleName];
const walker = new nextToksWalker(ruleGrammar, prodOccurrence);
firstAfterRepInfo = walker.startWalking();
this.firstAfterRepMap[key] = firstAfterRepInfo;
}
let expectTokAfterLastMatch = firstAfterRepInfo.token;
let nextTokIdx = firstAfterRepInfo.occurrence;
const isEndOfRule = firstAfterRepInfo.isEndOfRule;
if (this.RULE_STACK.length === 1 && isEndOfRule && expectTokAfterLastMatch === void 0) {
expectTokAfterLastMatch = EOF;
nextTokIdx = 1;
}
if (expectTokAfterLastMatch === void 0 || nextTokIdx === void 0) {
return;
}
if (this.shouldInRepetitionRecoveryBeTried(expectTokAfterLastMatch, nextTokIdx, notStuck)) {
this.tryInRepetitionRecovery(prodFunc, args, lookaheadFunc, expectTokAfterLastMatch);
}
}
__name(attemptInRepetitionRecovery, "attemptInRepetitionRecovery");
// ../../node_modules/.pnpm/chevrotain@11.1.1/node_modules/chevrotain/lib/src/parse/grammar/keys.js
var BITS_FOR_METHOD_TYPE = 4;
var BITS_FOR_OCCURRENCE_IDX = 8;
var BITS_FOR_ALT_IDX = 8;
var OR_IDX = 1 << BITS_FOR_OCCURRENCE_IDX;
var OPTION_IDX = 2 << BITS_FOR_OCCURRENCE_IDX;
var MANY_IDX = 3 << BITS_FOR_OCCURRENCE_IDX;
var AT_LEAST_ONE_IDX = 4 << BITS_FOR_OCCURRENCE_IDX;
var MANY_SEP_IDX = 5 << BITS_FOR_OCCURRENCE_IDX;
var AT_LEAST_ONE_SEP_IDX = 6 << BITS_FOR_OCCURRENCE_IDX;
function getKeyForAutomaticLookahead(ruleIdx, dslMethodIdx, occurrence) {
return occurrence | dslMethodIdx | ruleIdx;
}
__name(getKeyForAutomaticLookahead, "getKeyForAutomaticLookahead");
var BITS_START_FOR_ALT_IDX = 32 - BITS_FOR_ALT_IDX;
// ../../node_modules/.pnpm/chevrotain@11.1.1/node_modules/chevrotain/lib/src/parse/grammar/llk_lookahead.js
var LLkLookaheadStrategy = class {
static {
__name(this, "LLkLookaheadStrategy");
}
constructor(options) {
var _a;
this.maxLookahead = (_a = options === null || options === void 0 ? void 0 : options.maxLookahead) !== null && _a !== void 0 ? _a : DEFAULT_PARSER_CONFIG.maxLookahead;
}
validate(options) {
const leftRecursionErrors = this.validateNoLeftRecursion(options.rules);
if (isEmpty_default(leftRecursionErrors)) {
const emptyAltErrors = this.validateEmptyOrAlternatives(options.rules);
const ambiguousAltsErrors = this.validateAmbiguousAlternationAlternatives(options.rules, this.maxLookahead);
const emptyRepetitionErrors = this.validateSomeNonEmptyLookaheadPath(options.rules, this.maxLookahead);
const allErrors = [
...leftRecursionErrors,
...emptyAltErrors,
...ambiguousAltsErrors,
...emptyRepetitionErrors
];
return allErrors;
}
return leftRecursionErrors;
}
validateNoLeftRecursion(rules) {
return flatMap_default(rules, (currTopRule) => validateNoLeftRecursion(currTopRule, currTopRule, defaultGrammarValidatorErrorProvider));
}
validateEmptyOrAlternatives(rules) {
return flatMap_default(rules, (currTopRule) => validateEmptyOrAlternative(currTopRule, defaultGrammarValidatorErrorProvider));
}
validateAmbiguousAlternationAlternatives(rules, maxLookahead) {
return flatMap_default(rules, (currTopRule) => validateAmbiguousAlternationAlternatives(currTopRule, maxLookahead, defaultGrammarValidatorErrorProvider));
}
validateSomeNonEmptyLookaheadPath(rules, maxLookahead) {
return validateSomeNonEmptyLookaheadPath(rules, maxLookahead, defaultGrammarValidatorErrorProvider);
}
buildLookaheadForAlternation(options) {
return buildLookaheadFuncForOr(options.prodOccurrence, options.rule, options.maxLookahead, options.hasPredicates, options.dynamicTokensEnabled, buildAlternativesLookAheadFunc);
}
buildLookaheadForOptional(options) {
return buildLookaheadFuncForOptionalProd(options.prodOccurrence, options.rule, options.maxLookahead, options.dynamicTokensEnabled, getProdType(options.prodType), buildSingleAlternativeLookaheadFunction);
}
};
// ../../node_modules/.pnpm/chevrotain@11.1.1/node_modules/chevrotain/lib/src/parse/parser/traits/looksahead.js
var LooksAhead = class {
static {
__name(this, "LooksAhead");
}
initLooksAhead(config) {
this.dynamicTokensEnabled = has_default(config, "dynamicTokensEnabled") ? config.dynamicTokensEnabled : DEFAULT_PARSER_CONFIG.dynamicTokensEnabled;
this.maxLookahead = has_default(config, "maxLookahead") ? config.maxLookahead : DEFAULT_PARSER_CONFIG.maxLookahead;
this.lookaheadStrategy = has_default(config, "lookaheadStrategy") ? config.lookaheadStrategy : new LLkLookaheadStrategy({ maxLookahead: this.maxLookahead });
this.lookAheadFuncsCache = /* @__PURE__ */ new Map();
}
preComputeLookaheadFunctions(rules) {
forEach_default(rules, (currRule) => {
this.TRACE_INIT(`${currRule.name} Rule Lookahead`, () => {
const { alternation: alternation2, repetition: repetition2, option: option2, repetitionMandatory: repetitionMandatory2, repetitionMandatoryWithSeparator, repetitionWithSeparator } = collectMethods(currRule);
forEach_default(alternation2, (currProd) => {
const prodIdx = currProd.idx === 0 ? "" : currProd.idx;
this.TRACE_INIT(`${getProductionDslName(currProd)}${prodIdx}`, () => {
const laFunc = this.lookaheadStrategy.buildLookaheadForAlternation({
prodOccurrence: currProd.idx,
rule: currRule,
maxLookahead: currProd.maxLookahead || this.maxLookahead,
hasPredicates: currProd.hasPredicates,
dynamicTokensEnabled: this.dynamicTokensEnabled
});
const key = getKeyForAutomaticLookahead(this.fullRuleNameToShort[currRule.name], OR_IDX, currProd.idx);
this.setLaFuncCache(key, laFunc);
});
});
forEach_default(repetition2, (currProd) => {
this.computeLookaheadFunc(currRule, currProd.idx, MANY_IDX, "Repetition", currProd.maxLookahead, getProductionDslName(currProd));
});
forEach_default(option2, (currProd) => {
this.computeLookaheadFunc(currRule, currProd.idx, OPTION_IDX, "Option", currProd.maxLookahead, getProductionDslName(currProd));
});
forEach_default(repetitionMandatory2, (currProd) => {
this.computeLookaheadFunc(currRule, currProd.idx, AT_LEAST_ONE_IDX, "RepetitionMandatory", currProd.maxLookahead, getProductionDslName(currProd));
});
forEach_default(repetitionMandatoryWithSeparator, (currProd) => {
this.computeLookaheadFunc(currRule, currProd.idx, AT_LEAST_ONE_SEP_IDX, "RepetitionMandatoryWithSeparator", currProd.maxLookahead, getProductionDslName(currProd));
});
forEach_default(repetitionWithSeparator, (currProd) => {
this.computeLookaheadFunc(currRule, currProd.idx, MANY_SEP_IDX, "RepetitionWithSeparator", currProd.maxLookahead, getProductionDslName(currProd));
});
});
});
}
computeLookaheadFunc(rule, prodOccurrence, prodKey, prodType, prodMaxLookahead, dslMethodName) {
this.TRACE_INIT(`${dslMethodName}${prodOccurrence === 0 ? "" : prodOccurrence}`, () => {
const laFunc = this.lookaheadStrategy.buildLookaheadForOptional({
prodOccurrence,
rule,
maxLookahead: prodMaxLookahead || this.maxLookahead,
dynamicTokensEnabled: this.dynamicTokensEnabled,
prodType
});
const key = getKeyForAutomaticLookahead(this.fullRuleNameToShort[rule.name], prodKey, prodOccurrence);
this.setLaFuncCache(key, laFunc);
});
}
// this actually returns a number, but it is always used as a string (object prop key)
getKeyForAutomaticLookahead(dslMethodIdx, occurrence) {
const currRuleShortName = this.getLastExplicitRuleShortName();
return getKeyForAutomaticLookahead(currRuleShortName, dslMethodIdx, occurrence);
}
getLaFuncFromCache(key) {
return this.lookAheadFuncsCache.get(key);
}
/* istanbul ignore next */
setLaFuncCache(key, value) {
this.lookAheadFuncsCache.set(key, value);
}
};
var DslMethodsCollectorVisitor = class extends GAstVisitor {
static {
__name(this, "DslMethodsCollectorVisitor");
}
constructor() {
super(...arguments);
this.dslMethods = {
option: [],
alternation: [],
repetition: [],
repetitionWithSeparator: [],
repetitionMandatory: [],
repetitionMandatoryWithSeparator: []
};
}
reset() {
this.dslMethods = {
option: [],
alternation: [],
repetition: [],
repetitionWithSeparator: [],
repetitionMandatory: [],
repetitionMandatoryWithSeparator: []
};
}
visitOption(option2) {
this.dslMethods.option.push(option2);
}
visitRepetitionWithSeparator(manySep) {
this.dslMethods.repetitionWithSeparator.push(manySep);
}
visitRepetitionMandatory(atLeastOne) {
this.dslMethods.repetitionMandatory.push(atLeastOne);
}
visitRepetitionMandatoryWithSeparator(atLeastOneSep) {
this.dslMethods.repetitionMandatoryWithSeparator.push(atLeastOneSep);
}
visitRepetition(many) {
this.dslMethods.repetition.push(many);
}
visitAlternation(or) {
this.dslMethods.alternation.push(or);
}
};
var collectorVisitor = new DslMethodsCollectorVisitor();
function collectMethods(rule) {
collectorVisitor.reset();
rule.accept(collectorVisitor);
const dslMethods = collectorVisitor.dslMethods;
collectorVisitor.reset();
return dslMethods;
}
__name(collectMethods, "collectMethods");
// ../../node_modules/.pnpm/chevrotain@11.1.1/node_modules/chevrotain/lib/src/parse/cst/cst.js
function setNodeLocationOnlyOffset(currNodeLocation, newLocationInfo) {
if (isNaN(currNodeLocation.startOffset) === true) {
currNodeLocation.startOffset = newLocationInfo.startOffset;
currNodeLocation.endOffset = newLocationInfo.endOffset;
} else if (currNodeLocation.endOffset < newLocationInfo.endOffset === true) {
currNodeLocation.endOffset = newLocationInfo.endOffset;
}
}
__name(setNodeLocationOnlyOffset, "setNodeLocationOnlyOffset");
function setNodeLocationFull(currNodeLocation, newLocationInfo) {
if (isNaN(currNodeLocation.startOffset) === true) {
currNodeLocation.startOffset = newLocationInfo.startOffset;
currNodeLocation.startColumn = newLocationInfo.startColumn;
currNodeLocation.startLine = newLocationInfo.startLine;
currNodeLocation.endOffset = newLocationInfo.endOffset;
currNodeLocation.endColumn = newLocationInfo.endColumn;
currNodeLocation.endLine = newLocationInfo.endLine;
} else if (currNodeLocation.endOffset < newLocationInfo.endOffset === true) {
currNodeLocation.endOffset = newLocationInfo.endOffset;
currNodeLocation.endColumn = newLocationInfo.endColumn;
currNodeLocation.endLine = newLocationInfo.endLine;
}
}
__name(setNodeLocationFull, "setNodeLocationFull");
function addTerminalToCst(node, token, tokenTypeName) {
if (node.children[tokenTypeName] === void 0) {
node.children[tokenTypeName] = [token];
} else {
node.children[tokenTypeName].push(token);
}
}
__name(addTerminalToCst, "addTerminalToCst");
function addNoneTerminalToCst(node, ruleName, ruleResult) {
if (node.children[ruleName] === void 0) {
node.children[ruleName] = [ruleResult];
} else {
node.children[ruleName].push(ruleResult);
}
}
__name(addNoneTerminalToCst, "addNoneTerminalToCst");
// ../../node_modules/.pnpm/chevrotain@11.1.1/node_modules/chevrotain/lib/src/lang/lang_extensions.js
var NAME = "name";
function defineNameProp(obj, nameValue) {
Object.defineProperty(obj, NAME, {
enumerable: false,
configurable: true,
writable: false,
value: nameValue
});
}
__name(defineNameProp, "defineNameProp");
// ../../node_modules/.pnpm/chevrotain@11.1.1/node_modules/chevrotain/lib/src/parse/cst/cst_visitor.js
function defaultVisit(ctx, param) {
const childrenNames = keys_default(ctx);
const childrenNamesLength = childrenNames.length;
for (let i = 0; i < childrenNamesLength; i++) {
const currChildName = childrenNames[i];
const currChildArray = ctx[currChildName];
const currChildArrayLength = currChildArray.length;
for (let j = 0; j < currChildArrayLength; j++) {
const currChild = currChildArray[j];
if (currChild.tokenTypeIdx === void 0) {
this[currChild.name](currChild.children, param);
}
}
}
}
__name(defaultVisit, "defaultVisit");
function createBaseSemanticVisitorConstructor(grammarName, ruleNames) {
const derivedConstructor = /* @__PURE__ */ __name(function() {
}, "derivedConstructor");
defineNameProp(derivedConstructor, grammarName + "BaseSemantics");
const semanticProto = {
visit: /* @__PURE__ */ __name(function(cstNode, param) {
if (isArray_default(cstNode)) {
cstNode = cstNode[0];
}
if (isUndefined_default(cstNode)) {
return void 0;
}
return this[cstNode.name](cstNode.children, param);
}, "visit"),
validateVisitor: /* @__PURE__ */ __name(function() {
const semanticDefinitionErrors = validateVisitor(this, ruleNames);
if (!isEmpty_default(semanticDefinitionErrors)) {
const errorMessages = map_default(semanticDefinitionErrors, (currDefError) => currDefError.msg);
throw Error(`Errors Detected in CST Visitor <${this.constructor.name}>:
${errorMessages.join("\n\n").replace(/\n/g, "\n ")}`);
}
}, "validateVisitor")
};
derivedConstructor.prototype = semanticProto;
derivedConstructor.prototype.constructor = derivedConstructor;
derivedConstructor._RULE_NAMES = ruleNames;
return derivedConstructor;
}
__name(createBaseSemanticVisitorConstructor, "createBaseSemanticVisitorConstructor");
function createBaseVisitorConstructorWithDefaults(grammarName, ruleNames, baseConstructor) {
const derivedConstructor = /* @__PURE__ */ __name(function() {
}, "derivedConstructor");
defineNameProp(derivedConstructor, grammarName + "BaseSemanticsWithDefaults");
const withDefaultsProto = Object.create(baseConstructor.prototype);
forEach_default(ruleNames, (ruleName) => {
withDefaultsProto[ruleName] = defaultVisit;
});
derivedConstructor.prototype = withDefaultsProto;
derivedConstructor.prototype.constructor = derivedConstructor;
return derivedConstructor;
}
__name(createBaseVisitorConstructorWithDefaults, "createBaseVisitorConstructorWithDefaults");
var CstVisitorDefinitionError;
(function(CstVisitorDefinitionError2) {
CstVisitorDefinitionError2[CstVisitorDefinitionError2["REDUNDANT_METHOD"] = 0] = "REDUNDANT_METHOD";
CstVisitorDefinitionError2[CstVisitorDefinitionError2["MISSING_METHOD"] = 1] = "MISSING_METHOD";
})(CstVisitorDefinitionError || (CstVisitorDefinitionError = {}));
function validateVisitor(visitorInstance, ruleNames) {
const missingErrors = validateMissingCstMethods(visitorInstance, ruleNames);
return missingErrors;
}
__name(validateVisitor, "validateVisitor");
function validateMissingCstMethods(visitorInstance, ruleNames) {
const missingRuleNames = filter_default(ruleNames, (currRuleName) => {
return isFunction_default(visitorInstance[currRuleName]) === false;
});
const errors = map_default(missingRuleNames, (currRuleName) => {
return {
msg: `Missing visitor method: <${currRuleName}> on ${visitorInstance.constructor.name} CST Visitor.`,
type: CstVisitorDefinitionError.MISSING_METHOD,
methodName: currRuleName
};
});
return compact_default(errors);
}
__name(validateMissingCstMethods, "validateMissingCstMethods");
// ../../node_modules/.pnpm/chevrotain@11.1.1/node_modules/chevrotain/lib/src/parse/parser/traits/tree_builder.js
var TreeBuilder = class {
static {
__name(this, "TreeBuilder");
}
initTreeBuilder(config) {
this.CST_STACK = [];
this.outputCst = config.outputCst;
this.nodeLocationTracking = has_default(config, "nodeLocationTracking") ? config.nodeLocationTracking : DEFAULT_PARSER_CONFIG.nodeLocationTracking;
if (!this.outputCst) {
this.cstInvocationStateUpdate = noop_default;
this.cstFinallyStateUpdate = noop_default;
this.cstPostTerminal = noop_default;
this.cstPostNonTerminal = noop_default;
this.cstPostRule = noop_default;
} else {
if (/full/i.test(this.nodeLocationTracking)) {
if (this.recoveryEnabled) {
this.setNodeLocationFromToken = setNodeLocationFull;
this.setNodeLocationFromNode = setNodeLocationFull;
this.cstPostRule = noop_default;
this.setInitialNodeLocation = this.setInitialNodeLocationFullRecovery;
} else {
this.setNodeLocationFromToken = noop_default;
this.setNodeLocationFromNode = noop_default;
this.cstPostRule = this.cstPostRuleFull;
this.setInitialNodeLocation = this.setInitialNodeLocationFullRegular;
}
} else if (/onlyOffset/i.test(this.nodeLocationTracking)) {
if (this.recoveryEnabled) {
this.setNodeLocationFromToken = setNodeLocationOnlyOffset;
this.setNodeLocationFromNode = setNodeLocationOnlyOffset;
this.cstPostRule = noop_default;
this.setInitialNodeLocation = this.setInitialNodeLocationOnlyOffsetRecovery;
} else {
this.setNodeLocationFromToken = noop_default;
this.setNodeLocationFromNode = noop_default;
this.cstPostRule = this.cstPostRuleOnlyOffset;
this.setInitialNodeLocation = this.setInitialNodeLocationOnlyOffsetRegular;
}
} else if (/none/i.test(this.nodeLocationTracking)) {
this.setNodeLocationFromToken = noop_default;
this.setNodeLocationFromNode = noop_default;
this.cstPostRule = noop_default;
this.setInitialNodeLocation = noop_default;
} else {
throw Error(`Invalid <nodeLocationTracking> config option: "${config.nodeLocationTracking}"`);
}
}
}
setInitialNodeLocationOnlyOffsetRecovery(cstNode) {
cstNode.location = {
startOffset: NaN,
endOffset: NaN
};
}
setInitialNodeLocationOnlyOffsetRegular(cstNode) {
cstNode.location = {
// without error recovery the starting Location of a new CstNode is guaranteed
// To be the next Token's startOffset (for valid inputs).
// For invalid inputs there won't be any CSTOutput so this potential
// inaccuracy does not matter
startOffset: this.LA(1).startOffset,
endOffset: NaN
};
}
setInitialNodeLocationFullRecovery(cstNode) {
cstNode.location = {
startOffset: NaN,
startLine: NaN,
startColumn: NaN,
endOffset: NaN,
endLine: NaN,
endColumn: NaN
};
}
/**
* @see setInitialNodeLocationOnlyOffsetRegular for explanation why this work
* @param cstNode
*/
setInitialNodeLocationFullRegular(cstNode) {
const nextToken = this.LA(1);
cstNode.location = {
startOffset: nextToken.startOffset,
startLine: nextToken.startLine,
startColumn: nextToken.startColumn,
endOffset: NaN,
endLine: NaN,
endColumn: NaN
};
}
cstInvocationStateUpdate(fullRuleName) {
const cstNode = {
name: fullRuleName,
children: /* @__PURE__ */ Object.create(null)
};
this.setInitialNodeLocation(cstNode);
this.CST_STACK.push(cstNode);
}
cstFinallyStateUpdate() {
this.CST_STACK.pop();
}
cstPostRuleFull(ruleCstNode) {
const prevToken = this.LA(0);
const loc = ruleCstNode.location;
if (loc.startOffset <= prevToken.startOffset === true) {
loc.endOffset = prevToken.endOffset;
loc.endLine = prevToken.endLine;
loc.endColumn = prevToken.endColumn;
} else {
loc.startOffset = NaN;
loc.startLine = NaN;
loc.startColumn = NaN;
}
}
cstPostRuleOnlyOffset(ruleCstNode) {
const prevToken = this.LA(0);
const loc = ruleCstNode.location;
if (loc.startOffset <= prevToken.startOffset === true) {
loc.endOffset = prevToken.endOffset;
} else {
loc.startOffset = NaN;
}
}
cstPostTerminal(key, consumedToken) {
const rootCst = this.CST_STACK[this.CST_STACK.length - 1];
addTerminalToCst(rootCst, consumedToken, key);
this.setNodeLocationFromToken(rootCst.location, consumedToken);
}
cstPostNonTerminal(ruleCstResult, ruleName) {
const preCstNode = this.CST_STACK[this.CST_STACK.length - 1];
addNoneTerminalToCst(preCstNode, ruleName, ruleCstResult);
this.setNodeLocationFromNode(preCstNode.location, ruleCstResult.location);
}
getBaseCstVisitorConstructor() {
if (isUndefined_default(this.baseCstVisitorConstructor)) {
const newBaseCstVisitorConstructor = createBaseSemanticVisitorConstructor(this.className, keys_default(this.gastProductionsCache));
this.baseCstVisitorConstructor = newBaseCstVisitorConstructor;
return newBaseCstVisitorConstructor;
}
return this.baseCstVisitorConstructor;
}
getBaseCstVisitorConstructorWithDefaults() {
if (isUndefined_default(this.baseCstVisitorWithDefaultsConstructor)) {
const newConstructor = createBaseVisitorConstructorWithDefaults(this.className, keys_default(this.gastProductionsCache), this.getBaseCstVisitorConstructor());
this.baseCstVisitorWithDefaultsConstructor = newConstructor;
return newConstructor;
}
return this.baseCstVisitorWithDefaultsConstructor;
}
getLastExplicitRuleShortName() {
const ruleStack = this.RULE_STACK;
return ruleStack[ruleStack.length - 1];
}
getPreviousExplicitRuleShortName() {
const ruleStack = this.RULE_STACK;
return ruleStack[ruleStack.length - 2];
}
getLastExplicitRuleOccurrenceIndex() {
const occurrenceStack = this.RULE_OCCURRENCE_STACK;
return occurrenceStack[occurrenceStack.length - 1];
}
};
// ../../node_modules/.pnpm/chevrotain@11.1.1/node_modules/chevrotain/lib/src/parse/parser/traits/lexer_adapter.js
var LexerAdapter = class {
static {
__name(this, "LexerAdapter");
}
initLexerAdapter() {
this.tokVector = [];
this.tokVectorLength = 0;
this.currIdx = -1;
}
set input(newInput) {
if (this.selfAnalysisDone !== true) {
throw Error(`Missing <performSelfAnalysis> invocation at the end of the Parser's constructor.`);
}
this.reset();
this.tokVector = newInput;
this.tokVectorLength = newInput.length;
}
get input() {
return this.tokVector;
}
// skips a token and returns the next token
SKIP_TOKEN() {
if (this.currIdx <= this.tokVector.length - 2) {
this.consumeToken();
return this.LA(1);
} else {
return END_OF_FILE;
}
}
// Lexer (accessing Token vector) related methods which can be overridden to implement lazy lexers
// or lexers dependent on parser context.
LA(howMuch) {
const soughtIdx = this.currIdx + howMuch;
if (soughtIdx < 0 || this.tokVectorLength <= soughtIdx) {
return END_OF_FILE;
} else {
return this.tokVector[soughtIdx];
}
}
consumeToken() {
this.currIdx++;
}
exportLexerState() {
return this.currIdx;
}
importLexerState(newState2) {
this.currIdx = newState2;
}
resetLexerState() {
this.currIdx = -1;
}
moveToTerminatedState() {
this.currIdx = this.tokVector.length - 1;
}
getLexerPosition() {
return this.exportLexerState();
}
};
// ../../node_modules/.pnpm/chevrotain@11.1.1/node_modules/chevrotain/lib/src/parse/parser/traits/recognizer_api.js
var RecognizerApi = class {
static {
__name(this, "RecognizerApi");
}
ACTION(impl) {
return impl.call(this);
}
consume(idx, tokType, options) {
return this.consumeInternal(tokType, idx, options);
}
subrule(idx, ruleToCall, options) {
return this.subruleInternal(ruleToCall, idx, options);
}
option(idx, actionORMethodDef) {
return this.optionInternal(actionORMethodDef, idx);
}
or(idx, altsOrOpts) {
return this.orInternal(altsOrOpts, idx);
}
many(idx, actionORMethodDef) {
return this.manyInternal(idx, actionORMethodDef);
}
atLeastOne(idx, actionORMethodDef) {
return this.atLeastOneInternal(idx, actionORMethodDef);
}
CONSUME(tokType, options) {
return this.consumeInternal(tokType, 0, options);
}
CONSUME1(tokType, options) {
return this.consumeInternal(tokType, 1, options);
}
CONSUME2(tokType, options) {
return this.consumeInternal(tokType, 2, options);
}
CONSUME3(tokType, options) {
return this.consumeInternal(tokType, 3, options);
}
CONSUME4(tokType, options) {
return this.consumeInternal(tokType, 4, options);
}
CONSUME5(tokType, options) {
return this.consumeInternal(tokType, 5, options);
}
CONSUME6(tokType, options) {
return this.consumeInternal(tokType, 6, options);
}
CONSUME7(tokType, options) {
return this.consumeInternal(tokType, 7, options);
}
CONSUME8(tokType, options) {
return this.consumeInternal(tokType, 8, options);
}
CONSUME9(tokType, options) {
return this.consumeInternal(tokType, 9, options);
}
SUBRULE(ruleToCall, options) {
return this.subruleInternal(ruleToCall, 0, options);
}
SUBRULE1(ruleToCall, options) {
return this.subruleInternal(ruleToCall, 1, options);
}
SUBRULE2(ruleToCall, options) {
return this.subruleInternal(ruleToCall, 2, options);
}
SUBRULE3(ruleToCall, options) {
return this.subruleInternal(ruleToCall, 3, options);
}
SUBRULE4(ruleToCall, options) {
return this.subruleInternal(ruleToCall, 4, options);
}
SUBRULE5(ruleToCall, options) {
return this.subruleInternal(ruleToCall, 5, options);
}
SUBRULE6(ruleToCall, options) {
return this.subruleInternal(ruleToCall, 6, options);
}
SUBRULE7(ruleToCall, options) {
return this.subruleInternal(ruleToCall, 7, options);
}
SUBRULE8(ruleToCall, options) {
return this.subruleInternal(ruleToCall, 8, options);
}
SUBRULE9(ruleToCall, options) {
return this.subruleInternal(ruleToCall, 9, options);
}
OPTION(actionORMethodDef) {
return this.optionInternal(actionORMethodDef, 0);
}
OPTION1(actionORMethodDef) {
return this.optionInternal(actionORMethodDef, 1);
}
OPTION2(actionORMethodDef) {
return this.optionInternal(actionORMethodDef, 2);
}
OPTION3(actionORMethodDef) {
return this.optionInternal(actionORMethodDef, 3);
}
OPTION4(actionORMethodDef) {
return this.optionInternal(actionORMethodDef, 4);
}
OPTION5(actionORMethodDef) {
return this.optionInternal(actionORMethodDef, 5);
}
OPTION6(actionORMethodDef) {
return this.optionInternal(actionORMethodDef, 6);
}
OPTION7(actionORMethodDef) {
return this.optionInternal(actionORMethodDef, 7);
}
OPTION8(actionORMethodDef) {
return this.optionInternal(actionORMethodDef, 8);
}
OPTION9(actionORMethodDef) {
return this.optionInternal(actionORMethodDef, 9);
}
OR(altsOrOpts) {
return this.orInternal(altsOrOpts, 0);
}
OR1(altsOrOpts) {
return this.orInternal(altsOrOpts, 1);
}
OR2(altsOrOpts) {
return this.orInternal(altsOrOpts, 2);
}
OR3(altsOrOpts) {
return this.orInternal(altsOrOpts, 3);
}
OR4(altsOrOpts) {
return this.orInternal(altsOrOpts, 4);
}
OR5(altsOrOpts) {
return this.orInternal(altsOrOpts, 5);
}
OR6(altsOrOpts) {
return this.orInternal(altsOrOpts, 6);
}
OR7(altsOrOpts) {
return this.orInternal(altsOrOpts, 7);
}
OR8(altsOrOpts) {
return this.orInternal(altsOrOpts, 8);
}
OR9(altsOrOpts) {
return this.orInternal(altsOrOpts, 9);
}
MANY(actionORMethodDef) {
this.manyInternal(0, actionORMethodDef);
}
MANY1(actionORMethodDef) {
this.manyInternal(1, actionORMethodDef);
}
MANY2(actionORMethodDef) {
this.manyInternal(2, actionORMethodDef);
}
MANY3(actionORMethodDef) {
this.manyInternal(3, actionORMethodDef);
}
MANY4(actionORMethodDef) {
this.manyInternal(4, actionORMethodDef);
}
MANY5(actionORMethodDef) {
this.manyInternal(5, actionORMethodDef);
}
MANY6(actionORMethodDef) {
this.manyInternal(6, actionORMethodDef);
}
MANY7(actionORMethodDef) {
this.manyInternal(7, actionORMethodDef);
}
MANY8(actionORMethodDef) {
this.manyInternal(8, actionORMethodDef);
}
MANY9(actionORMethodDef) {
this.manyInternal(9, actionORMethodDef);
}
MANY_SEP(options) {
this.manySepFirstInternal(0, options);
}
MANY_SEP1(options) {
this.manySepFirstInternal(1, options);
}
MANY_SEP2(options) {
this.manySepFirstInternal(2, options);
}
MANY_SEP3(options) {
this.manySepFirstInternal(3, options);
}
MANY_SEP4(options) {
this.manySepFirstInternal(4, options);
}
MANY_SEP5(options) {
this.manySepFirstInternal(5, options);
}
MANY_SEP6(options) {
this.manySepFirstInternal(6, options);
}
MANY_SEP7(options) {
this.manySepFirstInternal(7, options);
}
MANY_SEP8(options) {
this.manySepFirstInternal(8, options);
}
MANY_SEP9(options) {
this.manySepFirstInternal(9, options);
}
AT_LEAST_ONE(actionORMethodDef) {
this.atLeastOneInternal(0, actionORMethodDef);
}
AT_LEAST_ONE1(actionORMethodDef) {
return this.atLeastOneInternal(1, actionORMethodDef);
}
AT_LEAST_ONE2(actionORMethodDef) {
this.atLeastOneInternal(2, actionORMethodDef);
}
AT_LEAST_ONE3(actionORMethodDef) {
this.atLeastOneInternal(3, actionORMethodDef);
}
AT_LEAST_ONE4(actionORMethodDef) {
this.atLeastOneInternal(4, actionORMethodDef);
}
AT_LEAST_ONE5(actionORMethodDef) {
this.atLeastOneInternal(5, actionORMethodDef);
}
AT_LEAST_ONE6(actionORMethodDef) {
this.atLeastOneInternal(6, actionORMethodDef);
}
AT_LEAST_ONE7(actionORMethodDef) {
this.atLeastOneInternal(7, actionORMethodDef);
}
AT_LEAST_ONE8(actionORMethodDef) {
this.atLeastOneInternal(8, actionORMethodDef);
}
AT_LEAST_ONE9(actionORMethodDef) {
this.atLeastOneInternal(9, actionORMethodDef);
}
AT_LEAST_ONE_SEP(options) {
this.atLeastOneSepFirstInternal(0, options);
}
AT_LEAST_ONE_SEP1(options) {
this.atLeastOneSepFirstInternal(1, options);
}
AT_LEAST_ONE_SEP2(options) {
this.atLeastOneSepFirstInternal(2, options);
}
AT_LEAST_ONE_SEP3(options) {
this.atLeastOneSepFirstInternal(3, options);
}
AT_LEAST_ONE_SEP4(options) {
this.atLeastOneSepFirstInternal(4, options);
}
AT_LEAST_ONE_SEP5(options) {
this.atLeastOneSepFirstInternal(5, options);
}
AT_LEAST_ONE_SEP6(options) {
this.atLeastOneSepFirstInternal(6, options);
}
AT_LEAST_ONE_SEP7(options) {
this.atLeastOneSepFirstInternal(7, options);
}
AT_LEAST_ONE_SEP8(options) {
this.atLeastOneSepFirstInternal(8, options);
}
AT_LEAST_ONE_SEP9(options) {
this.atLeastOneSepFirstInternal(9, options);
}
RULE(name, implementation, config = DEFAULT_RULE_CONFIG) {
if (includes_default(this.definedRulesNames, name)) {
const errMsg = defaultGrammarValidatorErrorProvider.buildDuplicateRuleNameError({
topLevelRule: name,
grammarName: this.className
});
const error = {
message: errMsg,
type: ParserDefinitionErrorType.DUPLICATE_RULE_NAME,
ruleName: name
};
this.definitionErrors.push(error);
}
this.definedRulesNames.push(name);
const ruleImplementation = this.defineRule(name, implementation, config);
this[name] = ruleImplementation;
return ruleImplementation;
}
OVERRIDE_RULE(name, impl, config = DEFAULT_RULE_CONFIG) {
const ruleErrors = validateRuleIsOverridden(name, this.definedRulesNames, this.className);
this.definitionErrors = this.definitionErrors.concat(ruleErrors);
const ruleImplementation = this.defineRule(name, impl, config);
this[name] = ruleImplementation;
return ruleImplementation;
}
BACKTRACK(grammarRule, args) {
return function() {
this.isBackTrackingStack.push(1);
const orgState = this.saveRecogState();
try {
grammarRule.apply(this, args);
return true;
} catch (e) {
if (isRecognitionException(e)) {
return false;
} else {
throw e;
}
} finally {
this.reloadRecogState(orgState);
this.isBackTrackingStack.pop();
}
};
}
// GAST export APIs
getGAstProductions() {
return this.gastProductionsCache;
}
getSerializedGastProductions() {
return serializeGrammar(values_default(this.gastProductionsCache));
}
};
// ../../node_modules/.pnpm/chevrotain@11.1.1/node_modules/chevrotain/lib/src/parse/parser/traits/recognizer_engine.js
var RecognizerEngine = class {
static {
__name(this, "RecognizerEngine");
}
initRecognizerEngine(tokenVocabulary, config) {
this.className = this.constructor.name;
this.shortRuleNameToFull = {};
this.fullRuleNameToShort = {};
this.ruleShortNameIdx = 256;
this.tokenMatcher = tokenStructuredMatcherNoCategories;
this.subruleIdx = 0;
this.definedRulesNames = [];
this.tokensMap = {};
this.isBackTrackingStack = [];
this.RULE_STACK = [];
this.RULE_OCCURRENCE_STACK = [];
this.gastProductionsCache = {};
if (has_default(config, "serializedGrammar")) {
throw Error("The Parser's configuration can no longer contain a <serializedGrammar> property.\n See: https://chevrotain.io/docs/changes/BREAKING_CHANGES.html#_6-0-0\n For Further details.");
}
if (isArray_default(tokenVocabulary)) {
if (isEmpty_default(tokenVocabulary)) {
throw Error("A Token Vocabulary cannot be empty.\n Note that the first argument for the parser constructor\n is no longer a Token vector (since v4.0).");
}
if (typeof tokenVocabulary[0].startOffset === "number") {
throw Error("The Parser constructor no longer accepts a token vector as the first argument.\n See: https://chevrotain.io/docs/changes/BREAKING_CHANGES.html#_4-0-0\n For Further details.");
}
}
if (isArray_default(tokenVocabulary)) {
this.tokensMap = reduce_default(tokenVocabulary, (acc, tokType) => {
acc[tokType.name] = tokType;
return acc;
}, {});
} else if (has_default(tokenVocabulary, "modes") && every_default(flatten_default(values_default(tokenVocabulary.modes)), isTokenType)) {
const allTokenTypes2 = flatten_default(values_default(tokenVocabulary.modes));
const uniqueTokens = uniq_default(allTokenTypes2);
this.tokensMap = reduce_default(uniqueTokens, (acc, tokType) => {
acc[tokType.name] = tokType;
return acc;
}, {});
} else if (isObject_default(tokenVocabulary)) {
this.tokensMap = clone_default(tokenVocabulary);
} else {
throw new Error("<tokensDictionary> argument must be An Array of Token constructors, A dictionary of Token constructors or an IMultiModeLexerDefinition");
}
this.tokensMap["EOF"] = EOF;
const allTokenTypes = has_default(tokenVocabulary, "modes") ? flatten_default(values_default(tokenVocabulary.modes)) : values_default(tokenVocabulary);
const noTokenCategoriesUsed = every_default(allTokenTypes, (tokenConstructor) => isEmpty_default(tokenConstructor.categoryMatches));
this.tokenMatcher = noTokenCategoriesUsed ? tokenStructuredMatcherNoCategories : tokenStructuredMatcher;
augmentTokenTypes(values_default(this.tokensMap));
}
defineRule(ruleName, impl, config) {
if (this.selfAnalysisDone) {
throw Error(`Grammar rule <${ruleName}> may not be defined after the 'performSelfAnalysis' method has been called'
Make sure that all grammar rule definitions are done before 'performSelfAnalysis' is called.`);
}
const resyncEnabled = has_default(config, "resyncEnabled") ? config.resyncEnabled : DEFAULT_RULE_CONFIG.resyncEnabled;
const recoveryValueFunc = has_default(config, "recoveryValueFunc") ? config.recoveryValueFunc : DEFAULT_RULE_CONFIG.recoveryValueFunc;
const shortName = this.ruleShortNameIdx << BITS_FOR_METHOD_TYPE + BITS_FOR_OCCURRENCE_IDX;
this.ruleShortNameIdx++;
this.shortRuleNameToFull[shortName] = ruleName;
this.fullRuleNameToShort[ruleName] = shortName;
let invokeRuleWithTry;
if (this.outputCst === true) {
invokeRuleWithTry = /* @__PURE__ */ __name(function invokeRuleWithTry2(...args) {
try {
this.ruleInvocationStateUpdate(shortName, ruleName, this.subruleIdx);
impl.apply(this, args);
const cst = this.CST_STACK[this.CST_STACK.length - 1];
this.cstPostRule(cst);
return cst;
} catch (e) {
return this.invokeRuleCatch(e, resyncEnabled, recoveryValueFunc);
} finally {
this.ruleFinallyStateUpdate();
}
}, "invokeRuleWithTry");
} else {
invokeRuleWithTry = /* @__PURE__ */ __name(function invokeRuleWithTryCst(...args) {
try {
this.ruleInvocationStateUpdate(shortName, ruleName, this.subruleIdx);
return impl.apply(this, args);
} catch (e) {
return this.invokeRuleCatch(e, resyncEnabled, recoveryValueFunc);
} finally {
this.ruleFinallyStateUpdate();
}
}, "invokeRuleWithTryCst");
}
const wrappedGrammarRule = Object.assign(invokeRuleWithTry, { ruleName, originalGrammarAction: impl });
return wrappedGrammarRule;
}
invokeRuleCatch(e, resyncEnabledConfig, recoveryValueFunc) {
const isFirstInvokedRule = this.RULE_STACK.length === 1;
const reSyncEnabled = resyncEnabledConfig && !this.isBackTracking() && this.recoveryEnabled;
if (isRecognitionException(e)) {
const recogError = e;
if (reSyncEnabled) {
const reSyncTokType = this.findReSyncTokenType();
if (this.isInCurrentRuleReSyncSet(reSyncTokType)) {
recogError.resyncedTokens = this.reSyncTo(reSyncTokType);
if (this.outputCst) {
const partialCstResult = this.CST_STACK[this.CST_STACK.length - 1];
partialCstResult.recoveredNode = true;
return partialCstResult;
} else {
return recoveryValueFunc(e);
}
} else {
if (this.outputCst) {
const partialCstResult = this.CST_STACK[this.CST_STACK.length - 1];
partialCstResult.recoveredNode = true;
recogError.partialCstResult = partialCstResult;
}
throw recogError;
}
} else if (isFirstInvokedRule) {
this.moveToTerminatedState();
return recoveryValueFunc(e);
} else {
throw recogError;
}
} else {
throw e;
}
}
// Implementation of parsing DSL
optionInternal(actionORMethodDef, occurrence) {
const key = this.getKeyForAutomaticLookahead(OPTION_IDX, occurrence);
return this.optionInternalLogic(actionORMethodDef, occurrence, key);
}
optionInternalLogic(actionORMethodDef, occurrence, key) {
let lookAheadFunc = this.getLaFuncFromCache(key);
let action;
if (typeof actionORMethodDef !== "function") {
action = actionORMethodDef.DEF;
const predicate = actionORMethodDef.GATE;
if (predicate !== void 0) {
const orgLookaheadFunction = lookAheadFunc;
lookAheadFunc = /* @__PURE__ */ __name(() => {
return predicate.call(this) && orgLookaheadFunction.call(this);
}, "lookAheadFunc");
}
} else {
action = actionORMethodDef;
}
if (lookAheadFunc.call(this) === true) {
return action.call(this);
}
return void 0;
}
atLeastOneInternal(prodOccurrence, actionORMethodDef) {
const laKey = this.getKeyForAutomaticLookahead(AT_LEAST_ONE_IDX, prodOccurrence);
return this.atLeastOneInternalLogic(prodOccurrence, actionORMethodDef, laKey);
}
atLeastOneInternalLogic(prodOccurrence, actionORMethodDef, key) {
let lookAheadFunc = this.getLaFuncFromCache(key);
let action;
if (typeof actionORMethodDef !== "function") {
action = actionORMethodDef.DEF;
const predicate = actionORMethodDef.GATE;
if (predicate !== void 0) {
const orgLookaheadFunction = lookAheadFunc;
lookAheadFunc = /* @__PURE__ */ __name(() => {
return predicate.call(this) && orgLookaheadFunction.call(this);
}, "lookAheadFunc");
}
} else {
action = actionORMethodDef;
}
if (lookAheadFunc.call(this) === true) {
let notStuck = this.doSingleRepetition(action);
while (lookAheadFunc.call(this) === true && notStuck === true) {
notStuck = this.doSingleRepetition(action);
}
} else {
throw this.raiseEarlyExitException(prodOccurrence, PROD_TYPE.REPETITION_MANDATORY, actionORMethodDef.ERR_MSG);
}
this.attemptInRepetitionRecovery(this.atLeastOneInternal, [prodOccurrence, actionORMethodDef], lookAheadFunc, AT_LEAST_ONE_IDX, prodOccurrence, NextTerminalAfterAtLeastOneWalker);
}
atLeastOneSepFirstInternal(prodOccurrence, options) {
const laKey = this.getKeyForAutomaticLookahead(AT_LEAST_ONE_SEP_IDX, prodOccurrence);
this.atLeastOneSepFirstInternalLogic(prodOccurrence, options, laKey);
}
atLeastOneSepFirstInternalLogic(prodOccurrence, options, key) {
const action = options.DEF;
const separator = options.SEP;
const firstIterationLookaheadFunc = this.getLaFuncFromCache(key);
if (firstIterationLookaheadFunc.call(this) === true) {
action.call(this);
const separatorLookAheadFunc = /* @__PURE__ */ __name(() => {
return this.tokenMatcher(this.LA(1), separator);
}, "separatorLookAheadFunc");
while (this.tokenMatcher(this.LA(1), separator) === true) {
this.CONSUME(separator);
action.call(this);
}
this.attemptInRepetitionRecovery(this.repetitionSepSecondInternal, [
prodOccurrence,
separator,
separatorLookAheadFunc,
action,
NextTerminalAfterAtLeastOneSepWalker
], separatorLookAheadFunc, AT_LEAST_ONE_SEP_IDX, prodOccurrence, NextTerminalAfterAtLeastOneSepWalker);
} else {
throw this.raiseEarlyExitException(prodOccurrence, PROD_TYPE.REPETITION_MANDATORY_WITH_SEPARATOR, options.ERR_MSG);
}
}
manyInternal(prodOccurrence, actionORMethodDef) {
const laKey = this.getKeyForAutomaticLookahead(MANY_IDX, prodOccurrence);
return this.manyInternalLogic(prodOccurrence, actionORMethodDef, laKey);
}
manyInternalLogic(prodOccurrence, actionORMethodDef, key) {
let lookaheadFunction = this.getLaFuncFromCache(key);
let action;
if (typeof actionORMethodDef !== "function") {
action = actionORMethodDef.DEF;
const predicate = actionORMethodDef.GATE;
if (predicate !== void 0) {
const orgLookaheadFunction = lookaheadFunction;
lookaheadFunction = /* @__PURE__ */ __name(() => {
return predicate.call(this) && orgLookaheadFunction.call(this);
}, "lookaheadFunction");
}
} else {
action = actionORMethodDef;
}
let notStuck = true;
while (lookaheadFunction.call(this) === true && notStuck === true) {
notStuck = this.doSingleRepetition(action);
}
this.attemptInRepetitionRecovery(
this.manyInternal,
[prodOccurrence, actionORMethodDef],
lookaheadFunction,
MANY_IDX,
prodOccurrence,
NextTerminalAfterManyWalker,
// The notStuck parameter is only relevant when "attemptInRepetitionRecovery"
// is invoked from manyInternal, in the MANY_SEP case and AT_LEAST_ONE[_SEP]
// An infinite loop cannot occur as:
// - Either the lookahead is guaranteed to consume something (Single Token Separator)
// - AT_LEAST_ONE by definition is guaranteed to consume something (or error out).
notStuck
);
}
manySepFirstInternal(prodOccurrence, options) {
const laKey = this.getKeyForAutomaticLookahead(MANY_SEP_IDX, prodOccurrence);
this.manySepFirstInternalLogic(prodOccurrence, options, laKey);
}
manySepFirstInternalLogic(prodOccurrence, options, key) {
const action = options.DEF;
const separator = options.SEP;
const firstIterationLaFunc = this.getLaFuncFromCache(key);
if (firstIterationLaFunc.call(this) === true) {
action.call(this);
const separatorLookAheadFunc = /* @__PURE__ */ __name(() => {
return this.tokenMatcher(this.LA(1), separator);
}, "separatorLookAheadFunc");
while (this.tokenMatcher(this.LA(1), separator) === true) {
this.CONSUME(separator);
action.call(this);
}
this.attemptInRepetitionRecovery(this.repetitionSepSecondInternal, [
prodOccurrence,
separator,
separatorLookAheadFunc,
action,
NextTerminalAfterManySepWalker
], separatorLookAheadFunc, MANY_SEP_IDX, prodOccurrence, NextTerminalAfterManySepWalker);
}
}
repetitionSepSecondInternal(prodOccurrence, separator, separatorLookAheadFunc, action, nextTerminalAfterWalker) {
while (separatorLookAheadFunc()) {
this.CONSUME(separator);
action.call(this);
}
this.attemptInRepetitionRecovery(this.repetitionSepSecondInternal, [
prodOccurrence,
separator,
separatorLookAheadFunc,
action,
nextTerminalAfterWalker
], separatorLookAheadFunc, AT_LEAST_ONE_SEP_IDX, prodOccurrence, nextTerminalAfterWalker);
}
doSingleRepetition(action) {
const beforeIteration = this.getLexerPosition();
action.call(this);
const afterIteration = this.getLexerPosition();
return afterIteration > beforeIteration;
}
orInternal(altsOrOpts, occurrence) {
const laKey = this.getKeyForAutomaticLookahead(OR_IDX, occurrence);
const alts = isArray_default(altsOrOpts) ? altsOrOpts : altsOrOpts.DEF;
const laFunc = this.getLaFuncFromCache(laKey);
const altIdxToTake = laFunc.call(this, alts);
if (altIdxToTake !== void 0) {
const chosenAlternative = alts[altIdxToTake];
return chosenAlternative.ALT.call(this);
}
this.raiseNoAltException(occurrence, altsOrOpts.ERR_MSG);
}
ruleFinallyStateUpdate() {
this.RULE_STACK.pop();
this.RULE_OCCURRENCE_STACK.pop();
this.cstFinallyStateUpdate();
if (this.RULE_STACK.length === 0 && this.isAtEndOfInput() === false) {
const firstRedundantTok = this.LA(1);
const errMsg = this.errorMessageProvider.buildNotAllInputParsedMessage({
firstRedundant: firstRedundantTok,
ruleName: this.getCurrRuleFullName()
});
this.SAVE_ERROR(new NotAllInputParsedException(errMsg, firstRedundantTok));
}
}
subruleInternal(ruleToCall, idx, options) {
let ruleResult;
try {
const args = options !== void 0 ? options.ARGS : void 0;
this.subruleIdx = idx;
ruleResult = ruleToCall.apply(this, args);
this.cstPostNonTerminal(ruleResult, options !== void 0 && options.LABEL !== void 0 ? options.LABEL : ruleToCall.ruleName);
return ruleResult;
} catch (e) {
throw this.subruleInternalError(e, options, ruleToCall.ruleName);
}
}
subruleInternalError(e, options, ruleName) {
if (isRecognitionException(e) && e.partialCstResult !== void 0) {
this.cstPostNonTerminal(e.partialCstResult, options !== void 0 && options.LABEL !== void 0 ? options.LABEL : ruleName);
delete e.partialCstResult;
}
throw e;
}
consumeInternal(tokType, idx, options) {
let consumedToken;
try {
const nextToken = this.LA(1);
if (this.tokenMatcher(nextToken, tokType) === true) {
this.consumeToken();
consumedToken = nextToken;
} else {
this.consumeInternalError(tokType, nextToken, options);
}
} catch (eFromConsumption) {
consumedToken = this.consumeInternalRecovery(tokType, idx, eFromConsumption);
}
this.cstPostTerminal(options !== void 0 && options.LABEL !== void 0 ? options.LABEL : tokType.name, consumedToken);
return consumedToken;
}
consumeInternalError(tokType, nextToken, options) {
let msg;
const previousToken = this.LA(0);
if (options !== void 0 && options.ERR_MSG) {
msg = options.ERR_MSG;
} else {
msg = this.errorMessageProvider.buildMismatchTokenMessage({
expected: tokType,
actual: nextToken,
previous: previousToken,
ruleName: this.getCurrRuleFullName()
});
}
throw this.SAVE_ERROR(new MismatchedTokenException(msg, nextToken, previousToken));
}
consumeInternalRecovery(tokType, idx, eFromConsumption) {
if (this.recoveryEnabled && // TODO: more robust checking of the exception type. Perhaps Typescript extending expressions?
eFromConsumption.name === "MismatchedTokenException" && !this.isBackTracking()) {
const follows = this.getFollowsForInRuleRecovery(tokType, idx);
try {
return this.tryInRuleRecovery(tokType, follows);
} catch (eFromInRuleRecovery) {
if (eFromInRuleRecovery.name === IN_RULE_RECOVERY_EXCEPTION) {
throw eFromConsumption;
} else {
throw eFromInRuleRecovery;
}
}
} else {
throw eFromConsumption;
}
}
saveRecogState() {
const savedErrors = this.errors;
const savedRuleStack = clone_default(this.RULE_STACK);
return {
errors: savedErrors,
lexerState: this.exportLexerState(),
RULE_STACK: savedRuleStack,
CST_STACK: this.CST_STACK
};
}
reloadRecogState(newState2) {
this.errors = newState2.errors;
this.importLexerState(newState2.lexerState);
this.RULE_STACK = newState2.RULE_STACK;
}
ruleInvocationStateUpdate(shortName, fullName, idxInCallingRule) {
this.RULE_OCCURRENCE_STACK.push(idxInCallingRule);
this.RULE_STACK.push(shortName);
this.cstInvocationStateUpdate(fullName);
}
isBackTracking() {
return this.isBackTrackingStack.length !== 0;
}
getCurrRuleFullName() {
const shortName = this.getLastExplicitRuleShortName();
return this.shortRuleNameToFull[shortName];
}
shortRuleNameToFullName(shortName) {
return this.shortRuleNameToFull[shortName];
}
isAtEndOfInput() {
return this.tokenMatcher(this.LA(1), EOF);
}
reset() {
this.resetLexerState();
this.subruleIdx = 0;
this.isBackTrackingStack = [];
this.errors = [];
this.RULE_STACK = [];
this.CST_STACK = [];
this.RULE_OCCURRENCE_STACK = [];
}
};
// ../../node_modules/.pnpm/chevrotain@11.1.1/node_modules/chevrotain/lib/src/parse/parser/traits/error_handler.js
var ErrorHandler = class {
static {
__name(this, "ErrorHandler");
}
initErrorHandler(config) {
this._errors = [];
this.errorMessageProvider = has_default(config, "errorMessageProvider") ? config.errorMessageProvider : DEFAULT_PARSER_CONFIG.errorMessageProvider;
}
SAVE_ERROR(error) {
if (isRecognitionException(error)) {
error.context = {
ruleStack: this.getHumanReadableRuleStack(),
ruleOccurrenceStack: clone_default(this.RULE_OCCURRENCE_STACK)
};
this._errors.push(error);
return error;
} else {
throw Error("Trying to save an Error which is not a RecognitionException");
}
}
get errors() {
return clone_default(this._errors);
}
set errors(newErrors) {
this._errors = newErrors;
}
// TODO: consider caching the error message computed information
raiseEarlyExitException(occurrence, prodType, userDefinedErrMsg) {
const ruleName = this.getCurrRuleFullName();
const ruleGrammar = this.getGAstProductions()[ruleName];
const lookAheadPathsPerAlternative = getLookaheadPathsForOptionalProd(occurrence, ruleGrammar, prodType, this.maxLookahead);
const insideProdPaths = lookAheadPathsPerAlternative[0];
const actualTokens = [];
for (let i = 1; i <= this.maxLookahead; i++) {
actualTokens.push(this.LA(i));
}
const msg = this.errorMessageProvider.buildEarlyExitMessage({
expectedIterationPaths: insideProdPaths,
actual: actualTokens,
previous: this.LA(0),
customUserDescription: userDefinedErrMsg,
ruleName
});
throw this.SAVE_ERROR(new EarlyExitException(msg, this.LA(1), this.LA(0)));
}
// TODO: consider caching the error message computed information
raiseNoAltException(occurrence, errMsgTypes) {
const ruleName = this.getCurrRuleFullName();
const ruleGrammar = this.getGAstProductions()[ruleName];
const lookAheadPathsPerAlternative = getLookaheadPathsForOr(occurrence, ruleGrammar, this.maxLookahead);
const actualTokens = [];
for (let i = 1; i <= this.maxLookahead; i++) {
actualTokens.push(this.LA(i));
}
const previousToken = this.LA(0);
const errMsg = this.errorMessageProvider.buildNoViableAltMessage({
expectedPathsPerAlt: lookAheadPathsPerAlternative,
actual: actualTokens,
previous: previousToken,
customUserDescription: errMsgTypes,
ruleName: this.getCurrRuleFullName()
});
throw this.SAVE_ERROR(new NoViableAltException(errMsg, this.LA(1), previousToken));
}
};
// ../../node_modules/.pnpm/chevrotain@11.1.1/node_modules/chevrotain/lib/src/parse/parser/traits/context_assist.js
var ContentAssist = class {
static {
__name(this, "ContentAssist");
}
initContentAssist() {
}
computeContentAssist(startRuleName, precedingInput) {
const startRuleGast = this.gastProductionsCache[startRuleName];
if (isUndefined_default(startRuleGast)) {
throw Error(`Rule ->${startRuleName}<- does not exist in this grammar.`);
}
return nextPossibleTokensAfter([startRuleGast], precedingInput, this.tokenMatcher, this.maxLookahead);
}
// TODO: should this be a member method or a utility? it does not have any state or usage of 'this'...
// TODO: should this be more explicitly part of the public API?
getNextPossibleTokenTypes(grammarPath) {
const topRuleName = head_default(grammarPath.ruleStack);
const gastProductions = this.getGAstProductions();
const topProduction = gastProductions[topRuleName];
const nextPossibleTokenTypes = new NextAfterTokenWalker(topProduction, grammarPath).startWalking();
return nextPossibleTokenTypes;
}
};
// ../../node_modules/.pnpm/chevrotain@11.1.1/node_modules/chevrotain/lib/src/parse/parser/traits/gast_recorder.js
var RECORDING_NULL_OBJECT = {
description: "This Object indicates the Parser is during Recording Phase"
};
Object.freeze(RECORDING_NULL_OBJECT);
var HANDLE_SEPARATOR = true;
var MAX_METHOD_IDX = Math.pow(2, BITS_FOR_OCCURRENCE_IDX) - 1;
var RFT = createToken({ name: "RECORDING_PHASE_TOKEN", pattern: Lexer.NA });
augmentTokenTypes([RFT]);
var RECORDING_PHASE_TOKEN = createTokenInstance(
RFT,
"This IToken indicates the Parser is in Recording Phase\n See: https://chevrotain.io/docs/guide/internals.html#grammar-recording for details",
// Using "-1" instead of NaN (as in EOF) because an actual number is less likely to
// cause errors if the output of LA or CONSUME would be (incorrectly) used during the recording phase.
-1,
-1,
-1,
-1,
-1,
-1
);
Object.freeze(RECORDING_PHASE_TOKEN);
var RECORDING_PHASE_CSTNODE = {
name: "This CSTNode indicates the Parser is in Recording Phase\n See: https://chevrotain.io/docs/guide/internals.html#grammar-recording for details",
children: {}
};
var GastRecorder = class {
static {
__name(this, "GastRecorder");
}
initGastRecorder(config) {
this.recordingProdStack = [];
this.RECORDING_PHASE = false;
}
enableRecording() {
this.RECORDING_PHASE = true;
this.TRACE_INIT("Enable Recording", () => {
for (let i = 0; i < 10; i++) {
const idx = i > 0 ? i : "";
this[`CONSUME${idx}`] = function(arg1, arg2) {
return this.consumeInternalRecord(arg1, i, arg2);
};
this[`SUBRULE${idx}`] = function(arg1, arg2) {
return this.subruleInternalRecord(arg1, i, arg2);
};
this[`OPTION${idx}`] = function(arg1) {
return this.optionInternalRecord(arg1, i);
};
this[`OR${idx}`] = function(arg1) {
return this.orInternalRecord(arg1, i);
};
this[`MANY${idx}`] = function(arg1) {
this.manyInternalRecord(i, arg1);
};
this[`MANY_SEP${idx}`] = function(arg1) {
this.manySepFirstInternalRecord(i, arg1);
};
this[`AT_LEAST_ONE${idx}`] = function(arg1) {
this.atLeastOneInternalRecord(i, arg1);
};
this[`AT_LEAST_ONE_SEP${idx}`] = function(arg1) {
this.atLeastOneSepFirstInternalRecord(i, arg1);
};
}
this[`consume`] = function(idx, arg1, arg2) {
return this.consumeInternalRecord(arg1, idx, arg2);
};
this[`subrule`] = function(idx, arg1, arg2) {
return this.subruleInternalRecord(arg1, idx, arg2);
};
this[`option`] = function(idx, arg1) {
return this.optionInternalRecord(arg1, idx);
};
this[`or`] = function(idx, arg1) {
return this.orInternalRecord(arg1, idx);
};
this[`many`] = function(idx, arg1) {
this.manyInternalRecord(idx, arg1);
};
this[`atLeastOne`] = function(idx, arg1) {
this.atLeastOneInternalRecord(idx, arg1);
};
this.ACTION = this.ACTION_RECORD;
this.BACKTRACK = this.BACKTRACK_RECORD;
this.LA = this.LA_RECORD;
});
}
disableRecording() {
this.RECORDING_PHASE = false;
this.TRACE_INIT("Deleting Recording methods", () => {
const that = this;
for (let i = 0; i < 10; i++) {
const idx = i > 0 ? i : "";
delete that[`CONSUME${idx}`];
delete that[`SUBRULE${idx}`];
delete that[`OPTION${idx}`];
delete that[`OR${idx}`];
delete that[`MANY${idx}`];
delete that[`MANY_SEP${idx}`];
delete that[`AT_LEAST_ONE${idx}`];
delete that[`AT_LEAST_ONE_SEP${idx}`];
}
delete that[`consume`];
delete that[`subrule`];
delete that[`option`];
delete that[`or`];
delete that[`many`];
delete that[`atLeastOne`];
delete that.ACTION;
delete that.BACKTRACK;
delete that.LA;
});
}
// Parser methods are called inside an ACTION?
// Maybe try/catch/finally on ACTIONS while disabling the recorders state changes?
// @ts-expect-error -- noop place holder
ACTION_RECORD(impl) {
}
// Executing backtracking logic will break our recording logic assumptions
BACKTRACK_RECORD(grammarRule, args) {
return () => true;
}
// LA is part of the official API and may be used for custom lookahead logic
// by end users who may forget to wrap it in ACTION or inside a GATE
LA_RECORD(howMuch) {
return END_OF_FILE;
}
topLevelRuleRecord(name, def) {
try {
const newTopLevelRule = new Rule({ definition: [], name });
newTopLevelRule.name = name;
this.recordingProdStack.push(newTopLevelRule);
def.call(this);
this.recordingProdStack.pop();
return newTopLevelRule;
} catch (originalError) {
if (originalError.KNOWN_RECORDER_ERROR !== true) {
try {
originalError.message = originalError.message + '\n This error was thrown during the "grammar recording phase" For more info see:\n https://chevrotain.io/docs/guide/internals.html#grammar-recording';
} catch (mutabilityError) {
throw originalError;
}
}
throw originalError;
}
}
// Implementation of parsing DSL
optionInternalRecord(actionORMethodDef, occurrence) {
return recordProd.call(this, Option, actionORMethodDef, occurrence);
}
atLeastOneInternalRecord(occurrence, actionORMethodDef) {
recordProd.call(this, RepetitionMandatory, actionORMethodDef, occurrence);
}
atLeastOneSepFirstInternalRecord(occurrence, options) {
recordProd.call(this, RepetitionMandatoryWithSeparator, options, occurrence, HANDLE_SEPARATOR);
}
manyInternalRecord(occurrence, actionORMethodDef) {
recordProd.call(this, Repetition, actionORMethodDef, occurrence);
}
manySepFirstInternalRecord(occurrence, options) {
recordProd.call(this, RepetitionWithSeparator, options, occurrence, HANDLE_SEPARATOR);
}
orInternalRecord(altsOrOpts, occurrence) {
return recordOrProd.call(this, altsOrOpts, occurrence);
}
subruleInternalRecord(ruleToCall, occurrence, options) {
assertMethodIdxIsValid(occurrence);
if (!ruleToCall || has_default(ruleToCall, "ruleName") === false) {
const error = new Error(`<SUBRULE${getIdxSuffix(occurrence)}> argument is invalid expecting a Parser method reference but got: <${JSON.stringify(ruleToCall)}>
inside top level rule: <${this.recordingProdStack[0].name}>`);
error.KNOWN_RECORDER_ERROR = true;
throw error;
}
const prevProd = last_default(this.recordingProdStack);
const ruleName = ruleToCall.ruleName;
const newNoneTerminal = new NonTerminal({
idx: occurrence,
nonTerminalName: ruleName,
label: options === null || options === void 0 ? void 0 : options.LABEL,
// The resolving of the `referencedRule` property will be done once all the Rule's GASTs have been created
referencedRule: void 0
});
prevProd.definition.push(newNoneTerminal);
return this.outputCst ? RECORDING_PHASE_CSTNODE : RECORDING_NULL_OBJECT;
}
consumeInternalRecord(tokType, occurrence, options) {
assertMethodIdxIsValid(occurrence);
if (!hasShortKeyProperty(tokType)) {
const error = new Error(`<CONSUME${getIdxSuffix(occurrence)}> argument is invalid expecting a TokenType reference but got: <${JSON.stringify(tokType)}>
inside top level rule: <${this.recordingProdStack[0].name}>`);
error.KNOWN_RECORDER_ERROR = true;
throw error;
}
const prevProd = last_default(this.recordingProdStack);
const newNoneTerminal = new Terminal({
idx: occurrence,
terminalType: tokType,
label: options === null || options === void 0 ? void 0 : options.LABEL
});
prevProd.definition.push(newNoneTerminal);
return RECORDING_PHASE_TOKEN;
}
};
function recordProd(prodConstructor, mainProdArg, occurrence, handleSep = false) {
assertMethodIdxIsValid(occurrence);
const prevProd = last_default(this.recordingProdStack);
const grammarAction = isFunction_default(mainProdArg) ? mainProdArg : mainProdArg.DEF;
const newProd = new prodConstructor({ definition: [], idx: occurrence });
if (handleSep) {
newProd.separator = mainProdArg.SEP;
}
if (has_default(mainProdArg, "MAX_LOOKAHEAD")) {
newProd.maxLookahead = mainProdArg.MAX_LOOKAHEAD;
}
this.recordingProdStack.push(newProd);
grammarAction.call(this);
prevProd.definition.push(newProd);
this.recordingProdStack.pop();
return RECORDING_NULL_OBJECT;
}
__name(recordProd, "recordProd");
function recordOrProd(mainProdArg, occurrence) {
assertMethodIdxIsValid(occurrence);
const prevProd = last_default(this.recordingProdStack);
const hasOptions = isArray_default(mainProdArg) === false;
const alts = hasOptions === false ? mainProdArg : mainProdArg.DEF;
const newOrProd = new Alternation({
definition: [],
idx: occurrence,
ignoreAmbiguities: hasOptions && mainProdArg.IGNORE_AMBIGUITIES === true
});
if (has_default(mainProdArg, "MAX_LOOKAHEAD")) {
newOrProd.maxLookahead = mainProdArg.MAX_LOOKAHEAD;
}
const hasPredicates = some_default(alts, (currAlt) => isFunction_default(currAlt.GATE));
newOrProd.hasPredicates = hasPredicates;
prevProd.definition.push(newOrProd);
forEach_default(alts, (currAlt) => {
const currAltFlat = new Alternative({ definition: [] });
newOrProd.definition.push(currAltFlat);
if (has_default(currAlt, "IGNORE_AMBIGUITIES")) {
currAltFlat.ignoreAmbiguities = currAlt.IGNORE_AMBIGUITIES;
} else if (has_default(currAlt, "GATE")) {
currAltFlat.ignoreAmbiguities = true;
}
this.recordingProdStack.push(currAltFlat);
currAlt.ALT.call(this);
this.recordingProdStack.pop();
});
return RECORDING_NULL_OBJECT;
}
__name(recordOrProd, "recordOrProd");
function getIdxSuffix(idx) {
return idx === 0 ? "" : `${idx}`;
}
__name(getIdxSuffix, "getIdxSuffix");
function assertMethodIdxIsValid(idx) {
if (idx < 0 || idx > MAX_METHOD_IDX) {
const error = new Error(
// The stack trace will contain all the needed details
`Invalid DSL Method idx value: <${idx}>
Idx value must be a none negative value smaller than ${MAX_METHOD_IDX + 1}`
);
error.KNOWN_RECORDER_ERROR = true;
throw error;
}
}
__name(assertMethodIdxIsValid, "assertMethodIdxIsValid");
// ../../node_modules/.pnpm/chevrotain@11.1.1/node_modules/chevrotain/lib/src/parse/parser/traits/perf_tracer.js
var PerformanceTracer = class {
static {
__name(this, "PerformanceTracer");
}
initPerformanceTracer(config) {
if (has_default(config, "traceInitPerf")) {
const userTraceInitPerf = config.traceInitPerf;
const traceIsNumber = typeof userTraceInitPerf === "number";
this.traceInitMaxIdent = traceIsNumber ? userTraceInitPerf : Infinity;
this.traceInitPerf = traceIsNumber ? userTraceInitPerf > 0 : userTraceInitPerf;
} else {
this.traceInitMaxIdent = 0;
this.traceInitPerf = DEFAULT_PARSER_CONFIG.traceInitPerf;
}
this.traceInitIndent = -1;
}
TRACE_INIT(phaseDesc, phaseImpl) {
if (this.traceInitPerf === true) {
this.traceInitIndent++;
const indent = new Array(this.traceInitIndent + 1).join(" ");
if (this.traceInitIndent < this.traceInitMaxIdent) {
console.log(`${indent}--> <${phaseDesc}>`);
}
const { time, value } = timer(phaseImpl);
const traceMethod = time > 10 ? console.warn : console.log;
if (this.traceInitIndent < this.traceInitMaxIdent) {
traceMethod(`${indent}<-- <${phaseDesc}> time: ${time}ms`);
}
this.traceInitIndent--;
return value;
} else {
return phaseImpl();
}
}
};
// ../../node_modules/.pnpm/chevrotain@11.1.1/node_modules/chevrotain/lib/src/parse/parser/utils/apply_mixins.js
function applyMixins(derivedCtor, baseCtors) {
baseCtors.forEach((baseCtor) => {
const baseProto = baseCtor.prototype;
Object.getOwnPropertyNames(baseProto).forEach((propName) => {
if (propName === "constructor") {
return;
}
const basePropDescriptor = Object.getOwnPropertyDescriptor(baseProto, propName);
if (basePropDescriptor && (basePropDescriptor.get || basePropDescriptor.set)) {
Object.defineProperty(derivedCtor.prototype, propName, basePropDescriptor);
} else {
derivedCtor.prototype[propName] = baseCtor.prototype[propName];
}
});
});
}
__name(applyMixins, "applyMixins");
// ../../node_modules/.pnpm/chevrotain@11.1.1/node_modules/chevrotain/lib/src/parse/parser/parser.js
var END_OF_FILE = createTokenInstance(EOF, "", NaN, NaN, NaN, NaN, NaN, NaN);
Object.freeze(END_OF_FILE);
var DEFAULT_PARSER_CONFIG = Object.freeze({
recoveryEnabled: false,
maxLookahead: 3,
dynamicTokensEnabled: false,
outputCst: true,
errorMessageProvider: defaultParserErrorProvider,
nodeLocationTracking: "none",
traceInitPerf: false,
skipValidations: false
});
var DEFAULT_RULE_CONFIG = Object.freeze({
recoveryValueFunc: /* @__PURE__ */ __name(() => void 0, "recoveryValueFunc"),
resyncEnabled: true
});
var ParserDefinitionErrorType;
(function(ParserDefinitionErrorType2) {
ParserDefinitionErrorType2[ParserDefinitionErrorType2["INVALID_RULE_NAME"] = 0] = "INVALID_RULE_NAME";
ParserDefinitionErrorType2[ParserDefinitionErrorType2["DUPLICATE_RULE_NAME"] = 1] = "DUPLICATE_RULE_NAME";
ParserDefinitionErrorType2[ParserDefinitionErrorType2["INVALID_RULE_OVERRIDE"] = 2] = "INVALID_RULE_OVERRIDE";
ParserDefinitionErrorType2[ParserDefinitionErrorType2["DUPLICATE_PRODUCTIONS"] = 3] = "DUPLICATE_PRODUCTIONS";
ParserDefinitionErrorType2[ParserDefinitionErrorType2["UNRESOLVED_SUBRULE_REF"] = 4] = "UNRESOLVED_SUBRULE_REF";
ParserDefinitionErrorType2[ParserDefinitionErrorType2["LEFT_RECURSION"] = 5] = "LEFT_RECURSION";
ParserDefinitionErrorType2[ParserDefinitionErrorType2["NONE_LAST_EMPTY_ALT"] = 6] = "NONE_LAST_EMPTY_ALT";
ParserDefinitionErrorType2[ParserDefinitionErrorType2["AMBIGUOUS_ALTS"] = 7] = "AMBIGUOUS_ALTS";
ParserDefinitionErrorType2[ParserDefinitionErrorType2["CONFLICT_TOKENS_RULES_NAMESPACE"] = 8] = "CONFLICT_TOKENS_RULES_NAMESPACE";
ParserDefinitionErrorType2[ParserDefinitionErrorType2["INVALID_TOKEN_NAME"] = 9] = "INVALID_TOKEN_NAME";
ParserDefinitionErrorType2[ParserDefinitionErrorType2["NO_NON_EMPTY_LOOKAHEAD"] = 10] = "NO_NON_EMPTY_LOOKAHEAD";
ParserDefinitionErrorType2[ParserDefinitionErrorType2["AMBIGUOUS_PREFIX_ALTS"] = 11] = "AMBIGUOUS_PREFIX_ALTS";
ParserDefinitionErrorType2[ParserDefinitionErrorType2["TOO_MANY_ALTS"] = 12] = "TOO_MANY_ALTS";
ParserDefinitionErrorType2[ParserDefinitionErrorType2["CUSTOM_LOOKAHEAD_VALIDATION"] = 13] = "CUSTOM_LOOKAHEAD_VALIDATION";
})(ParserDefinitionErrorType || (ParserDefinitionErrorType = {}));
function EMPTY_ALT(value = void 0) {
return function() {
return value;
};
}
__name(EMPTY_ALT, "EMPTY_ALT");
var Parser = class _Parser {
static {
__name(this, "Parser");
}
/**
* @deprecated use the **instance** method with the same name instead
*/
static performSelfAnalysis(parserInstance) {
throw Error("The **static** `performSelfAnalysis` method has been deprecated. \nUse the **instance** method with the same name instead.");
}
performSelfAnalysis() {
this.TRACE_INIT("performSelfAnalysis", () => {
let defErrorsMsgs;
this.selfAnalysisDone = true;
const className = this.className;
this.TRACE_INIT("toFastProps", () => {
toFastProperties(this);
});
this.TRACE_INIT("Grammar Recording", () => {
try {
this.enableRecording();
forEach_default(this.definedRulesNames, (currRuleName) => {
const wrappedRule = this[currRuleName];
const originalGrammarAction = wrappedRule["originalGrammarAction"];
let recordedRuleGast;
this.TRACE_INIT(`${currRuleName} Rule`, () => {
recordedRuleGast = this.topLevelRuleRecord(currRuleName, originalGrammarAction);
});
this.gastProductionsCache[currRuleName] = recordedRuleGast;
});
} finally {
this.disableRecording();
}
});
let resolverErrors = [];
this.TRACE_INIT("Grammar Resolving", () => {
resolverErrors = resolveGrammar2({
rules: values_default(this.gastProductionsCache)
});
this.definitionErrors = this.definitionErrors.concat(resolverErrors);
});
this.TRACE_INIT("Grammar Validations", () => {
if (isEmpty_default(resolverErrors) && this.skipValidations === false) {
const validationErrors = validateGrammar2({
rules: values_default(this.gastProductionsCache),
tokenTypes: values_default(this.tokensMap),
errMsgProvider: defaultGrammarValidatorErrorProvider,
grammarName: className
});
const lookaheadValidationErrors = validateLookahead({
lookaheadStrategy: this.lookaheadStrategy,
rules: values_default(this.gastProductionsCache),
tokenTypes: values_default(this.tokensMap),
grammarName: className
});
this.definitionErrors = this.definitionErrors.concat(validationErrors, lookaheadValidationErrors);
}
});
if (isEmpty_default(this.definitionErrors)) {
if (this.recoveryEnabled) {
this.TRACE_INIT("computeAllProdsFollows", () => {
const allFollows = computeAllProdsFollows(values_default(this.gastProductionsCache));
this.resyncFollows = allFollows;
});
}
this.TRACE_INIT("ComputeLookaheadFunctions", () => {
var _a, _b;
(_b = (_a = this.lookaheadStrategy).initialize) === null || _b === void 0 ? void 0 : _b.call(_a, {
rules: values_default(this.gastProductionsCache)
});
this.preComputeLookaheadFunctions(values_default(this.gastProductionsCache));
});
}
if (!_Parser.DEFER_DEFINITION_ERRORS_HANDLING && !isEmpty_default(this.definitionErrors)) {
defErrorsMsgs = map_default(this.definitionErrors, (defError) => defError.message);
throw new Error(`Parser Definition Errors detected:
${defErrorsMsgs.join("\n-------------------------------\n")}`);
}
});
}
constructor(tokenVocabulary, config) {
this.definitionErrors = [];
this.selfAnalysisDone = false;
const that = this;
that.initErrorHandler(config);
that.initLexerAdapter();
that.initLooksAhead(config);
that.initRecognizerEngine(tokenVocabulary, config);
that.initRecoverable(config);
that.initTreeBuilder(config);
that.initContentAssist();
that.initGastRecorder(config);
that.initPerformanceTracer(config);
if (has_default(config, "ignoredIssues")) {
throw new Error("The <ignoredIssues> IParserConfig property has been deprecated.\n Please use the <IGNORE_AMBIGUITIES> flag on the relevant DSL method instead.\n See: https://chevrotain.io/docs/guide/resolving_grammar_errors.html#IGNORING_AMBIGUITIES\n For further details.");
}
this.skipValidations = has_default(config, "skipValidations") ? config.skipValidations : DEFAULT_PARSER_CONFIG.skipValidations;
}
};
Parser.DEFER_DEFINITION_ERRORS_HANDLING = false;
applyMixins(Parser, [
Recoverable,
LooksAhead,
TreeBuilder,
LexerAdapter,
RecognizerEngine,
RecognizerApi,
ErrorHandler,
ContentAssist,
GastRecorder,
PerformanceTracer
]);
var EmbeddedActionsParser = class extends Parser {
static {
__name(this, "EmbeddedActionsParser");
}
constructor(tokenVocabulary, config = DEFAULT_PARSER_CONFIG) {
const configClone = clone_default(config);
configClone.outputCst = false;
super(tokenVocabulary, configClone);
}
};
// ../../node_modules/.pnpm/chevrotain-allstar@0.3.1_chevrotain@11.1.1/node_modules/chevrotain-allstar/lib/atn.js
function buildATNKey(rule, type, occurrence) {
return `${rule.name}_${type}_${occurrence}`;
}
__name(buildATNKey, "buildATNKey");
var ATN_BASIC = 1;
var ATN_RULE_START = 2;
var ATN_PLUS_BLOCK_START = 4;
var ATN_STAR_BLOCK_START = 5;
var ATN_RULE_STOP = 7;
var ATN_BLOCK_END = 8;
var ATN_STAR_LOOP_BACK = 9;
var ATN_STAR_LOOP_ENTRY = 10;
var ATN_PLUS_LOOP_BACK = 11;
var ATN_LOOP_END = 12;
var AbstractTransition = class {
static {
__name(this, "AbstractTransition");
}
constructor(target) {
this.target = target;
}
isEpsilon() {
return false;
}
};
var AtomTransition = class extends AbstractTransition {
static {
__name(this, "AtomTransition");
}
constructor(target, tokenType) {
super(target);
this.tokenType = tokenType;
}
};
var EpsilonTransition = class extends AbstractTransition {
static {
__name(this, "EpsilonTransition");
}
constructor(target) {
super(target);
}
isEpsilon() {
return true;
}
};
var RuleTransition = class extends AbstractTransition {
static {
__name(this, "RuleTransition");
}
constructor(ruleStart, rule, followState) {
super(ruleStart);
this.rule = rule;
this.followState = followState;
}
isEpsilon() {
return true;
}
};
function createATN(rules) {
const atn = {
decisionMap: {},
decisionStates: [],
ruleToStartState: /* @__PURE__ */ new Map(),
ruleToStopState: /* @__PURE__ */ new Map(),
states: []
};
createRuleStartAndStopATNStates(atn, rules);
const ruleLength = rules.length;
for (let i = 0; i < ruleLength; i++) {
const rule = rules[i];
const ruleBlock = block(atn, rule, rule);
if (ruleBlock === void 0) {
continue;
}
buildRuleHandle(atn, rule, ruleBlock);
}
return atn;
}
__name(createATN, "createATN");
function createRuleStartAndStopATNStates(atn, rules) {
const ruleLength = rules.length;
for (let i = 0; i < ruleLength; i++) {
const rule = rules[i];
const start = newState(atn, rule, void 0, {
type: ATN_RULE_START
});
const stop = newState(atn, rule, void 0, {
type: ATN_RULE_STOP
});
start.stop = stop;
atn.ruleToStartState.set(rule, start);
atn.ruleToStopState.set(rule, stop);
}
}
__name(createRuleStartAndStopATNStates, "createRuleStartAndStopATNStates");
function atom(atn, rule, production) {
if (production instanceof Terminal) {
return tokenRef(atn, rule, production.terminalType, production);
} else if (production instanceof NonTerminal) {
return ruleRef(atn, rule, production);
} else if (production instanceof Alternation) {
return alternation(atn, rule, production);
} else if (production instanceof Option) {
return option(atn, rule, production);
} else if (production instanceof Repetition) {
return repetition(atn, rule, production);
} else if (production instanceof RepetitionWithSeparator) {
return repetitionSep(atn, rule, production);
} else if (production instanceof RepetitionMandatory) {
return repetitionMandatory(atn, rule, production);
} else if (production instanceof RepetitionMandatoryWithSeparator) {
return repetitionMandatorySep(atn, rule, production);
} else {
return block(atn, rule, production);
}
}
__name(atom, "atom");
function repetition(atn, rule, repetition2) {
const starState = newState(atn, rule, repetition2, {
type: ATN_STAR_BLOCK_START
});
defineDecisionState(atn, starState);
const handle = makeAlts(atn, rule, starState, repetition2, block(atn, rule, repetition2));
return star(atn, rule, repetition2, handle);
}
__name(repetition, "repetition");
function repetitionSep(atn, rule, repetition2) {
const starState = newState(atn, rule, repetition2, {
type: ATN_STAR_BLOCK_START
});
defineDecisionState(atn, starState);
const handle = makeAlts(atn, rule, starState, repetition2, block(atn, rule, repetition2));
const sep = tokenRef(atn, rule, repetition2.separator, repetition2);
return star(atn, rule, repetition2, handle, sep);
}
__name(repetitionSep, "repetitionSep");
function repetitionMandatory(atn, rule, repetition2) {
const plusState = newState(atn, rule, repetition2, {
type: ATN_PLUS_BLOCK_START
});
defineDecisionState(atn, plusState);
const handle = makeAlts(atn, rule, plusState, repetition2, block(atn, rule, repetition2));
return plus(atn, rule, repetition2, handle);
}
__name(repetitionMandatory, "repetitionMandatory");
function repetitionMandatorySep(atn, rule, repetition2) {
const plusState = newState(atn, rule, repetition2, {
type: ATN_PLUS_BLOCK_START
});
defineDecisionState(atn, plusState);
const handle = makeAlts(atn, rule, plusState, repetition2, block(atn, rule, repetition2));
const sep = tokenRef(atn, rule, repetition2.separator, repetition2);
return plus(atn, rule, repetition2, handle, sep);
}
__name(repetitionMandatorySep, "repetitionMandatorySep");
function alternation(atn, rule, alternation2) {
const start = newState(atn, rule, alternation2, {
type: ATN_BASIC
});
defineDecisionState(atn, start);
const alts = map_default(alternation2.definition, (e) => atom(atn, rule, e));
const handle = makeAlts(atn, rule, start, alternation2, ...alts);
return handle;
}
__name(alternation, "alternation");
function option(atn, rule, option2) {
const start = newState(atn, rule, option2, {
type: ATN_BASIC
});
defineDecisionState(atn, start);
const handle = makeAlts(atn, rule, start, option2, block(atn, rule, option2));
return optional(atn, rule, option2, handle);
}
__name(option, "option");
function block(atn, rule, block2) {
const handles = filter_default(map_default(block2.definition, (e) => atom(atn, rule, e)), (e) => e !== void 0);
if (handles.length === 1) {
return handles[0];
} else if (handles.length === 0) {
return void 0;
} else {
return makeBlock(atn, handles);
}
}
__name(block, "block");
function plus(atn, rule, plus2, handle, sep) {
const blkStart = handle.left;
const blkEnd = handle.right;
const loop = newState(atn, rule, plus2, {
type: ATN_PLUS_LOOP_BACK
});
defineDecisionState(atn, loop);
const end = newState(atn, rule, plus2, {
type: ATN_LOOP_END
});
blkStart.loopback = loop;
end.loopback = loop;
atn.decisionMap[buildATNKey(rule, sep ? "RepetitionMandatoryWithSeparator" : "RepetitionMandatory", plus2.idx)] = loop;
epsilon(blkEnd, loop);
if (sep === void 0) {
epsilon(loop, blkStart);
epsilon(loop, end);
} else {
epsilon(loop, end);
epsilon(loop, sep.left);
epsilon(sep.right, blkStart);
}
return {
left: blkStart,
right: end
};
}
__name(plus, "plus");
function star(atn, rule, star2, handle, sep) {
const start = handle.left;
const end = handle.right;
const entry = newState(atn, rule, star2, {
type: ATN_STAR_LOOP_ENTRY
});
defineDecisionState(atn, entry);
const loopEnd = newState(atn, rule, star2, {
type: ATN_LOOP_END
});
const loop = newState(atn, rule, star2, {
type: ATN_STAR_LOOP_BACK
});
entry.loopback = loop;
loopEnd.loopback = loop;
epsilon(entry, start);
epsilon(entry, loopEnd);
epsilon(end, loop);
if (sep !== void 0) {
epsilon(loop, loopEnd);
epsilon(loop, sep.left);
epsilon(sep.right, start);
} else {
epsilon(loop, entry);
}
atn.decisionMap[buildATNKey(rule, sep ? "RepetitionWithSeparator" : "Repetition", star2.idx)] = entry;
return {
left: entry,
right: loopEnd
};
}
__name(star, "star");
function optional(atn, rule, optional2, handle) {
const start = handle.left;
const end = handle.right;
epsilon(start, end);
atn.decisionMap[buildATNKey(rule, "Option", optional2.idx)] = start;
return handle;
}
__name(optional, "optional");
function defineDecisionState(atn, state) {
atn.decisionStates.push(state);
state.decision = atn.decisionStates.length - 1;
return state.decision;
}
__name(defineDecisionState, "defineDecisionState");
function makeAlts(atn, rule, start, production, ...alts) {
const end = newState(atn, rule, production, {
type: ATN_BLOCK_END,
start
});
start.end = end;
for (const alt of alts) {
if (alt !== void 0) {
epsilon(start, alt.left);
epsilon(alt.right, end);
} else {
epsilon(start, end);
}
}
const handle = {
left: start,
right: end
};
atn.decisionMap[buildATNKey(rule, getProdType2(production), production.idx)] = start;
return handle;
}
__name(makeAlts, "makeAlts");
function getProdType2(production) {
if (production instanceof Alternation) {
return "Alternation";
} else if (production instanceof Option) {
return "Option";
} else if (production instanceof Repetition) {
return "Repetition";
} else if (production instanceof RepetitionWithSeparator) {
return "RepetitionWithSeparator";
} else if (production instanceof RepetitionMandatory) {
return "RepetitionMandatory";
} else if (production instanceof RepetitionMandatoryWithSeparator) {
return "RepetitionMandatoryWithSeparator";
} else {
throw new Error("Invalid production type encountered");
}
}
__name(getProdType2, "getProdType");
function makeBlock(atn, alts) {
const altsLength = alts.length;
for (let i = 0; i < altsLength - 1; i++) {
const handle = alts[i];
let transition;
if (handle.left.transitions.length === 1) {
transition = handle.left.transitions[0];
}
const isRuleTransition = transition instanceof RuleTransition;
const ruleTransition = transition;
const next = alts[i + 1].left;
if (handle.left.type === ATN_BASIC && handle.right.type === ATN_BASIC && transition !== void 0 && (isRuleTransition && ruleTransition.followState === handle.right || transition.target === handle.right)) {
if (isRuleTransition) {
ruleTransition.followState = next;
} else {
transition.target = next;
}
removeState(atn, handle.right);
} else {
epsilon(handle.right, next);
}
}
const first2 = alts[0];
const last2 = alts[altsLength - 1];
return {
left: first2.left,
right: last2.right
};
}
__name(makeBlock, "makeBlock");
function tokenRef(atn, rule, tokenType, production) {
const left = newState(atn, rule, production, {
type: ATN_BASIC
});
const right = newState(atn, rule, production, {
type: ATN_BASIC
});
addTransition(left, new AtomTransition(right, tokenType));
return {
left,
right
};
}
__name(tokenRef, "tokenRef");
function ruleRef(atn, currentRule, nonTerminal) {
const rule = nonTerminal.referencedRule;
const start = atn.ruleToStartState.get(rule);
const left = newState(atn, currentRule, nonTerminal, {
type: ATN_BASIC
});
const right = newState(atn, currentRule, nonTerminal, {
type: ATN_BASIC
});
const call = new RuleTransition(start, rule, right);
addTransition(left, call);
return {
left,
right
};
}
__name(ruleRef, "ruleRef");
function buildRuleHandle(atn, rule, block2) {
const start = atn.ruleToStartState.get(rule);
epsilon(start, block2.left);
const stop = atn.ruleToStopState.get(rule);
epsilon(block2.right, stop);
const handle = {
left: start,
right: stop
};
return handle;
}
__name(buildRuleHandle, "buildRuleHandle");
function epsilon(a, b) {
const transition = new EpsilonTransition(b);
addTransition(a, transition);
}
__name(epsilon, "epsilon");
function newState(atn, rule, production, partial) {
const t = Object.assign({
atn,
production,
epsilonOnlyTransitions: false,
rule,
transitions: [],
nextTokenWithinRule: [],
stateNumber: atn.states.length
}, partial);
atn.states.push(t);
return t;
}
__name(newState, "newState");
function addTransition(state, transition) {
if (state.transitions.length === 0) {
state.epsilonOnlyTransitions = transition.isEpsilon();
}
state.transitions.push(transition);
}
__name(addTransition, "addTransition");
function removeState(atn, state) {
atn.states.splice(atn.states.indexOf(state), 1);
}
__name(removeState, "removeState");
// ../../node_modules/.pnpm/chevrotain-allstar@0.3.1_chevrotain@11.1.1/node_modules/chevrotain-allstar/lib/dfa.js
var DFA_ERROR = {};
var ATNConfigSet = class {
static {
__name(this, "ATNConfigSet");
}
constructor() {
this.map = {};
this.configs = [];
}
get size() {
return this.configs.length;
}
finalize() {
this.map = {};
}
add(config) {
const key = getATNConfigKey(config);
if (!(key in this.map)) {
this.map[key] = this.configs.length;
this.configs.push(config);
}
}
get elements() {
return this.configs;
}
get alts() {
return map_default(this.configs, (e) => e.alt);
}
get key() {
let value = "";
for (const k in this.map) {
value += k + ":";
}
return value;
}
};
function getATNConfigKey(config, alt = true) {
return `${alt ? `a${config.alt}` : ""}s${config.state.stateNumber}:${config.stack.map((e) => e.stateNumber.toString()).join("_")}`;
}
__name(getATNConfigKey, "getATNConfigKey");
// ../../node_modules/.pnpm/chevrotain-allstar@0.3.1_chevrotain@11.1.1/node_modules/chevrotain-allstar/lib/all-star-lookahead.js
function createDFACache(startState, decision) {
const map2 = {};
return (predicateSet) => {
const key = predicateSet.toString();
let existing = map2[key];
if (existing !== void 0) {
return existing;
} else {
existing = {
atnStartState: startState,
decision,
states: {}
};
map2[key] = existing;
return existing;
}
};
}
__name(createDFACache, "createDFACache");
var PredicateSet = class {
static {
__name(this, "PredicateSet");
}
constructor() {
this.predicates = [];
}
is(index) {
return index >= this.predicates.length || this.predicates[index];
}
set(index, value) {
this.predicates[index] = value;
}
toString() {
let value = "";
const size = this.predicates.length;
for (let i = 0; i < size; i++) {
value += this.predicates[i] === true ? "1" : "0";
}
return value;
}
};
var EMPTY_PREDICATES = new PredicateSet();
var LLStarLookaheadStrategy = class extends LLkLookaheadStrategy {
static {
__name(this, "LLStarLookaheadStrategy");
}
constructor(options) {
var _a;
super();
this.logging = (_a = options === null || options === void 0 ? void 0 : options.logging) !== null && _a !== void 0 ? _a : ((message) => console.log(message));
}
initialize(options) {
this.atn = createATN(options.rules);
this.dfas = initATNSimulator(this.atn);
}
validateAmbiguousAlternationAlternatives() {
return [];
}
validateEmptyOrAlternatives() {
return [];
}
buildLookaheadForAlternation(options) {
const { prodOccurrence, rule, hasPredicates, dynamicTokensEnabled } = options;
const dfas = this.dfas;
const logging = this.logging;
const key = buildATNKey(rule, "Alternation", prodOccurrence);
const decisionState = this.atn.decisionMap[key];
const decisionIndex = decisionState.decision;
const partialAlts = map_default(getLookaheadPaths({
maxLookahead: 1,
occurrence: prodOccurrence,
prodType: "Alternation",
rule
}), (currAlt) => map_default(currAlt, (path) => path[0]));
if (isLL1Sequence(partialAlts, false) && !dynamicTokensEnabled) {
const choiceToAlt = reduce_default(partialAlts, (result, currAlt, idx) => {
forEach_default(currAlt, (currTokType) => {
if (currTokType) {
result[currTokType.tokenTypeIdx] = idx;
forEach_default(currTokType.categoryMatches, (currExtendingType) => {
result[currExtendingType] = idx;
});
}
});
return result;
}, {});
if (hasPredicates) {
return function(orAlts) {
var _a;
const nextToken = this.LA(1);
const prediction = choiceToAlt[nextToken.tokenTypeIdx];
if (orAlts !== void 0 && prediction !== void 0) {
const gate = (_a = orAlts[prediction]) === null || _a === void 0 ? void 0 : _a.GATE;
if (gate !== void 0 && gate.call(this) === false) {
return void 0;
}
}
return prediction;
};
} else {
return function() {
const nextToken = this.LA(1);
return choiceToAlt[nextToken.tokenTypeIdx];
};
}
} else if (hasPredicates) {
return function(orAlts) {
const predicates = new PredicateSet();
const length = orAlts === void 0 ? 0 : orAlts.length;
for (let i = 0; i < length; i++) {
const gate = orAlts === null || orAlts === void 0 ? void 0 : orAlts[i].GATE;
predicates.set(i, gate === void 0 || gate.call(this));
}
const result = adaptivePredict.call(this, dfas, decisionIndex, predicates, logging);
return typeof result === "number" ? result : void 0;
};
} else {
return function() {
const result = adaptivePredict.call(this, dfas, decisionIndex, EMPTY_PREDICATES, logging);
return typeof result === "number" ? result : void 0;
};
}
}
buildLookaheadForOptional(options) {
const { prodOccurrence, rule, prodType, dynamicTokensEnabled } = options;
const dfas = this.dfas;
const logging = this.logging;
const key = buildATNKey(rule, prodType, prodOccurrence);
const decisionState = this.atn.decisionMap[key];
const decisionIndex = decisionState.decision;
const alts = map_default(getLookaheadPaths({
maxLookahead: 1,
occurrence: prodOccurrence,
prodType,
rule
}), (e) => {
return map_default(e, (g) => g[0]);
});
if (isLL1Sequence(alts) && alts[0][0] && !dynamicTokensEnabled) {
const alt = alts[0];
const singleTokensTypes = flatten_default(alt);
if (singleTokensTypes.length === 1 && isEmpty_default(singleTokensTypes[0].categoryMatches)) {
const expectedTokenType = singleTokensTypes[0];
const expectedTokenUniqueKey = expectedTokenType.tokenTypeIdx;
return function() {
return this.LA(1).tokenTypeIdx === expectedTokenUniqueKey;
};
} else {
const choiceToAlt = reduce_default(singleTokensTypes, (result, currTokType) => {
if (currTokType !== void 0) {
result[currTokType.tokenTypeIdx] = true;
forEach_default(currTokType.categoryMatches, (currExtendingType) => {
result[currExtendingType] = true;
});
}
return result;
}, {});
return function() {
const nextToken = this.LA(1);
return choiceToAlt[nextToken.tokenTypeIdx] === true;
};
}
}
return function() {
const result = adaptivePredict.call(this, dfas, decisionIndex, EMPTY_PREDICATES, logging);
return typeof result === "object" ? false : result === 0;
};
}
};
function isLL1Sequence(sequences, allowEmpty = true) {
const fullSet = /* @__PURE__ */ new Set();
for (const alt of sequences) {
const altSet = /* @__PURE__ */ new Set();
for (const tokType of alt) {
if (tokType === void 0) {
if (allowEmpty) {
break;
} else {
return false;
}
}
const indices = [tokType.tokenTypeIdx].concat(tokType.categoryMatches);
for (const index of indices) {
if (fullSet.has(index)) {
if (!altSet.has(index)) {
return false;
}
} else {
fullSet.add(index);
altSet.add(index);
}
}
}
}
return true;
}
__name(isLL1Sequence, "isLL1Sequence");
function initATNSimulator(atn) {
const decisionLength = atn.decisionStates.length;
const decisionToDFA = Array(decisionLength);
for (let i = 0; i < decisionLength; i++) {
decisionToDFA[i] = createDFACache(atn.decisionStates[i], i);
}
return decisionToDFA;
}
__name(initATNSimulator, "initATNSimulator");
function adaptivePredict(dfaCaches, decision, predicateSet, logging) {
const dfa = dfaCaches[decision](predicateSet);
let start = dfa.start;
if (start === void 0) {
const closure2 = computeStartState(dfa.atnStartState);
start = addDFAState(dfa, newDFAState(closure2));
dfa.start = start;
}
const alt = performLookahead.apply(this, [dfa, start, predicateSet, logging]);
return alt;
}
__name(adaptivePredict, "adaptivePredict");
function performLookahead(dfa, s0, predicateSet, logging) {
let previousD = s0;
let i = 1;
const path = [];
let t = this.LA(i++);
while (true) {
let d = getExistingTargetState(previousD, t);
if (d === void 0) {
d = computeLookaheadTarget.apply(this, [dfa, previousD, t, i, predicateSet, logging]);
}
if (d === DFA_ERROR) {
return buildAdaptivePredictError(path, previousD, t);
}
if (d.isAcceptState === true) {
return d.prediction;
}
previousD = d;
path.push(t);
t = this.LA(i++);
}
}
__name(performLookahead, "performLookahead");
function computeLookaheadTarget(dfa, previousD, token, lookahead, predicateSet, logging) {
const reach = computeReachSet(previousD.configs, token, predicateSet);
if (reach.size === 0) {
addDFAEdge(dfa, previousD, token, DFA_ERROR);
return DFA_ERROR;
}
let newState2 = newDFAState(reach);
const predictedAlt = getUniqueAlt(reach, predicateSet);
if (predictedAlt !== void 0) {
newState2.isAcceptState = true;
newState2.prediction = predictedAlt;
newState2.configs.uniqueAlt = predictedAlt;
} else if (hasConflictTerminatingPrediction(reach)) {
const prediction = min_default(reach.alts);
newState2.isAcceptState = true;
newState2.prediction = prediction;
newState2.configs.uniqueAlt = prediction;
reportLookaheadAmbiguity.apply(this, [dfa, lookahead, reach.alts, logging]);
}
newState2 = addDFAEdge(dfa, previousD, token, newState2);
return newState2;
}
__name(computeLookaheadTarget, "computeLookaheadTarget");
function reportLookaheadAmbiguity(dfa, lookahead, ambiguityIndices, logging) {
const prefixPath = [];
for (let i = 1; i <= lookahead; i++) {
prefixPath.push(this.LA(i).tokenType);
}
const atnState = dfa.atnStartState;
const topLevelRule = atnState.rule;
const production = atnState.production;
const message = buildAmbiguityError({
topLevelRule,
ambiguityIndices,
production,
prefixPath
});
logging(message);
}
__name(reportLookaheadAmbiguity, "reportLookaheadAmbiguity");
function buildAmbiguityError(options) {
const pathMsg = map_default(options.prefixPath, (currtok) => tokenLabel2(currtok)).join(", ");
const occurrence = options.production.idx === 0 ? "" : options.production.idx;
let currMessage = `Ambiguous Alternatives Detected: <${options.ambiguityIndices.join(", ")}> in <${getProductionDslName2(options.production)}${occurrence}> inside <${options.topLevelRule.name}> Rule,
<${pathMsg}> may appears as a prefix path in all these alternatives.
`;
currMessage = currMessage + `See: https://chevrotain.io/docs/guide/resolving_grammar_errors.html#AMBIGUOUS_ALTERNATIVES
For Further details.`;
return currMessage;
}
__name(buildAmbiguityError, "buildAmbiguityError");
function getProductionDslName2(prod) {
if (prod instanceof NonTerminal) {
return "SUBRULE";
} else if (prod instanceof Option) {
return "OPTION";
} else if (prod instanceof Alternation) {
return "OR";
} else if (prod instanceof RepetitionMandatory) {
return "AT_LEAST_ONE";
} else if (prod instanceof RepetitionMandatoryWithSeparator) {
return "AT_LEAST_ONE_SEP";
} else if (prod instanceof RepetitionWithSeparator) {
return "MANY_SEP";
} else if (prod instanceof Repetition) {
return "MANY";
} else if (prod instanceof Terminal) {
return "CONSUME";
} else {
throw Error("non exhaustive match");
}
}
__name(getProductionDslName2, "getProductionDslName");
function buildAdaptivePredictError(path, previous, current) {
const nextTransitions = flatMap_default(previous.configs.elements, (e) => e.state.transitions);
const nextTokenTypes = uniqBy_default(nextTransitions.filter((e) => e instanceof AtomTransition).map((e) => e.tokenType), (e) => e.tokenTypeIdx);
return {
actualToken: current,
possibleTokenTypes: nextTokenTypes,
tokenPath: path
};
}
__name(buildAdaptivePredictError, "buildAdaptivePredictError");
function getExistingTargetState(state, token) {
return state.edges[token.tokenTypeIdx];
}
__name(getExistingTargetState, "getExistingTargetState");
function computeReachSet(configs, token, predicateSet) {
const intermediate = new ATNConfigSet();
const skippedStopStates = [];
for (const c of configs.elements) {
if (predicateSet.is(c.alt) === false) {
continue;
}
if (c.state.type === ATN_RULE_STOP) {
skippedStopStates.push(c);
continue;
}
const transitionLength = c.state.transitions.length;
for (let i = 0; i < transitionLength; i++) {
const transition = c.state.transitions[i];
const target = getReachableTarget(transition, token);
if (target !== void 0) {
intermediate.add({
state: target,
alt: c.alt,
stack: c.stack
});
}
}
}
let reach;
if (skippedStopStates.length === 0 && intermediate.size === 1) {
reach = intermediate;
}
if (reach === void 0) {
reach = new ATNConfigSet();
for (const c of intermediate.elements) {
closure(c, reach);
}
}
if (skippedStopStates.length > 0 && !hasConfigInRuleStopState(reach)) {
for (const c of skippedStopStates) {
reach.add(c);
}
}
return reach;
}
__name(computeReachSet, "computeReachSet");
function getReachableTarget(transition, token) {
if (transition instanceof AtomTransition && tokenMatcher(token, transition.tokenType)) {
return transition.target;
}
return void 0;
}
__name(getReachableTarget, "getReachableTarget");
function getUniqueAlt(configs, predicateSet) {
let alt;
for (const c of configs.elements) {
if (predicateSet.is(c.alt) === true) {
if (alt === void 0) {
alt = c.alt;
} else if (alt !== c.alt) {
return void 0;
}
}
}
return alt;
}
__name(getUniqueAlt, "getUniqueAlt");
function newDFAState(closure2) {
return {
configs: closure2,
edges: {},
isAcceptState: false,
prediction: -1
};
}
__name(newDFAState, "newDFAState");
function addDFAEdge(dfa, from, token, to) {
to = addDFAState(dfa, to);
from.edges[token.tokenTypeIdx] = to;
return to;
}
__name(addDFAEdge, "addDFAEdge");
function addDFAState(dfa, state) {
if (state === DFA_ERROR) {
return state;
}
const mapKey = state.configs.key;
const existing = dfa.states[mapKey];
if (existing !== void 0) {
return existing;
}
state.configs.finalize();
dfa.states[mapKey] = state;
return state;
}
__name(addDFAState, "addDFAState");
function computeStartState(atnState) {
const configs = new ATNConfigSet();
const numberOfTransitions = atnState.transitions.length;
for (let i = 0; i < numberOfTransitions; i++) {
const target = atnState.transitions[i].target;
const config = {
state: target,
alt: i,
stack: []
};
closure(config, configs);
}
return configs;
}
__name(computeStartState, "computeStartState");
function closure(config, configs) {
const p = config.state;
if (p.type === ATN_RULE_STOP) {
if (config.stack.length > 0) {
const atnStack = [...config.stack];
const followState = atnStack.pop();
const followConfig = {
state: followState,
alt: config.alt,
stack: atnStack
};
closure(followConfig, configs);
} else {
configs.add(config);
}
return;
}
if (!p.epsilonOnlyTransitions) {
configs.add(config);
}
const transitionLength = p.transitions.length;
for (let i = 0; i < transitionLength; i++) {
const transition = p.transitions[i];
const c = getEpsilonTarget(config, transition);
if (c !== void 0) {
closure(c, configs);
}
}
}
__name(closure, "closure");
function getEpsilonTarget(config, transition) {
if (transition instanceof EpsilonTransition) {
return {
state: transition.target,
alt: config.alt,
stack: config.stack
};
} else if (transition instanceof RuleTransition) {
const stack = [...config.stack, transition.followState];
return {
state: transition.target,
alt: config.alt,
stack
};
}
return void 0;
}
__name(getEpsilonTarget, "getEpsilonTarget");
function hasConfigInRuleStopState(configs) {
for (const c of configs.elements) {
if (c.state.type === ATN_RULE_STOP) {
return true;
}
}
return false;
}
__name(hasConfigInRuleStopState, "hasConfigInRuleStopState");
function allConfigsInRuleStopStates(configs) {
for (const c of configs.elements) {
if (c.state.type !== ATN_RULE_STOP) {
return false;
}
}
return true;
}
__name(allConfigsInRuleStopStates, "allConfigsInRuleStopStates");
function hasConflictTerminatingPrediction(configs) {
if (allConfigsInRuleStopStates(configs)) {
return true;
}
const altSets = getConflictingAltSets(configs.elements);
const heuristic = hasConflictingAltSet(altSets) && !hasStateAssociatedWithOneAlt(altSets);
return heuristic;
}
__name(hasConflictTerminatingPrediction, "hasConflictTerminatingPrediction");
function getConflictingAltSets(configs) {
const configToAlts = /* @__PURE__ */ new Map();
for (const c of configs) {
const key = getATNConfigKey(c, false);
let alts = configToAlts.get(key);
if (alts === void 0) {
alts = {};
configToAlts.set(key, alts);
}
alts[c.alt] = true;
}
return configToAlts;
}
__name(getConflictingAltSets, "getConflictingAltSets");
function hasConflictingAltSet(altSets) {
for (const value of Array.from(altSets.values())) {
if (Object.keys(value).length > 1) {
return true;
}
}
return false;
}
__name(hasConflictingAltSet, "hasConflictingAltSet");
function hasStateAssociatedWithOneAlt(altSets) {
for (const value of Array.from(altSets.values())) {
if (Object.keys(value).length === 1) {
return true;
}
}
return false;
}
__name(hasStateAssociatedWithOneAlt, "hasStateAssociatedWithOneAlt");
// ../../node_modules/.pnpm/langium@4.2.0/node_modules/langium/lib/parser/cst-node-builder.js
init_main();
var CstNodeBuilder = class {
static {
__name(this, "CstNodeBuilder");
}
constructor() {
this.nodeStack = [];
}
get current() {
return this.nodeStack[this.nodeStack.length - 1] ?? this.rootNode;
}
buildRootNode(input) {
this.rootNode = new RootCstNodeImpl(input);
this.rootNode.root = this.rootNode;
this.nodeStack = [this.rootNode];
return this.rootNode;
}
buildCompositeNode(feature) {
const compositeNode = new CompositeCstNodeImpl();
compositeNode.grammarSource = feature;
compositeNode.root = this.rootNode;
this.current.content.push(compositeNode);
this.nodeStack.push(compositeNode);
return compositeNode;
}
buildLeafNode(token, feature) {
const leafNode = new LeafCstNodeImpl(token.startOffset, token.image.length, tokenToRange(token), token.tokenType, !feature);
leafNode.grammarSource = feature;
leafNode.root = this.rootNode;
this.current.content.push(leafNode);
return leafNode;
}
removeNode(node) {
const parent = node.container;
if (parent) {
const index = parent.content.indexOf(node);
if (index >= 0) {
parent.content.splice(index, 1);
}
}
}
addHiddenNodes(tokens) {
const nodes = [];
for (const token of tokens) {
const leafNode = new LeafCstNodeImpl(token.startOffset, token.image.length, tokenToRange(token), token.tokenType, true);
leafNode.root = this.rootNode;
nodes.push(leafNode);
}
let current = this.current;
let added = false;
if (current.content.length > 0) {
current.content.push(...nodes);
return;
}
while (current.container) {
const index = current.container.content.indexOf(current);
if (index > 0) {
current.container.content.splice(index, 0, ...nodes);
added = true;
break;
}
current = current.container;
}
if (!added) {
this.rootNode.content.unshift(...nodes);
}
}
construct(item) {
const current = this.current;
if (typeof item.$type === "string" && !item.$infix) {
this.current.astNode = item;
}
item.$cstNode = current;
const node = this.nodeStack.pop();
if (node?.content.length === 0) {
this.removeNode(node);
}
}
};
var AbstractCstNode = class {
static {
__name(this, "AbstractCstNode");
}
get hidden() {
return false;
}
get astNode() {
const node = typeof this._astNode?.$type === "string" ? this._astNode : this.container?.astNode;
if (!node) {
throw new Error("This node has no associated AST element");
}
return node;
}
set astNode(value) {
this._astNode = value;
}
get text() {
return this.root.fullText.substring(this.offset, this.end);
}
};
var LeafCstNodeImpl = class extends AbstractCstNode {
static {
__name(this, "LeafCstNodeImpl");
}
get offset() {
return this._offset;
}
get length() {
return this._length;
}
get end() {
return this._offset + this._length;
}
get hidden() {
return this._hidden;
}
get tokenType() {
return this._tokenType;
}
get range() {
return this._range;
}
constructor(offset, length, range, tokenType, hidden = false) {
super();
this._hidden = hidden;
this._offset = offset;
this._tokenType = tokenType;
this._length = length;
this._range = range;
}
};
var CompositeCstNodeImpl = class extends AbstractCstNode {
static {
__name(this, "CompositeCstNodeImpl");
}
constructor() {
super(...arguments);
this.content = new CstNodeContainer(this);
}
get offset() {
return this.firstNonHiddenNode?.offset ?? 0;
}
get length() {
return this.end - this.offset;
}
get end() {
return this.lastNonHiddenNode?.end ?? 0;
}
get range() {
const firstNode = this.firstNonHiddenNode;
const lastNode = this.lastNonHiddenNode;
if (firstNode && lastNode) {
if (this._rangeCache === void 0) {
const { range: firstRange } = firstNode;
const { range: lastRange } = lastNode;
this._rangeCache = { start: firstRange.start, end: lastRange.end.line < firstRange.start.line ? firstRange.start : lastRange.end };
}
return this._rangeCache;
} else {
return { start: Position.create(0, 0), end: Position.create(0, 0) };
}
}
get firstNonHiddenNode() {
for (const child of this.content) {
if (!child.hidden) {
return child;
}
}
return this.content[0];
}
get lastNonHiddenNode() {
for (let i = this.content.length - 1; i >= 0; i--) {
const child = this.content[i];
if (!child.hidden) {
return child;
}
}
return this.content[this.content.length - 1];
}
};
var CstNodeContainer = class _CstNodeContainer extends Array {
static {
__name(this, "CstNodeContainer");
}
constructor(parent) {
super();
this.parent = parent;
Object.setPrototypeOf(this, _CstNodeContainer.prototype);
}
push(...items) {
this.addParents(items);
return super.push(...items);
}
unshift(...items) {
this.addParents(items);
return super.unshift(...items);
}
splice(start, count, ...items) {
this.addParents(items);
return super.splice(start, count, ...items);
}
addParents(items) {
for (const item of items) {
item.container = this.parent;
}
}
};
var RootCstNodeImpl = class extends CompositeCstNodeImpl {
static {
__name(this, "RootCstNodeImpl");
}
get text() {
return this._text.substring(this.offset, this.end);
}
get fullText() {
return this._text;
}
constructor(input) {
super();
this._text = "";
this._text = input ?? "";
}
};
// ../../node_modules/.pnpm/langium@4.2.0/node_modules/langium/lib/parser/langium-parser.js
var DatatypeSymbol = Symbol("Datatype");
function isDataTypeNode(node) {
return node.$type === DatatypeSymbol;
}
__name(isDataTypeNode, "isDataTypeNode");
var ruleSuffix = "\u200B";
var withRuleSuffix = /* @__PURE__ */ __name((name) => name.endsWith(ruleSuffix) ? name : name + ruleSuffix, "withRuleSuffix");
var AbstractLangiumParser = class {
static {
__name(this, "AbstractLangiumParser");
}
constructor(services) {
this._unorderedGroups = /* @__PURE__ */ new Map();
this.allRules = /* @__PURE__ */ new Map();
this.lexer = services.parser.Lexer;
const tokens = this.lexer.definition;
const production = services.LanguageMetaData.mode === "production";
if (services.shared.profilers.LangiumProfiler?.isActive("parsing")) {
this.wrapper = new ProfilerWrapper(tokens, {
...services.parser.ParserConfig,
skipValidations: production,
errorMessageProvider: services.parser.ParserErrorMessageProvider
}, services.shared.profilers.LangiumProfiler.createTask("parsing", services.LanguageMetaData.languageId));
} else {
this.wrapper = new ChevrotainWrapper(tokens, {
...services.parser.ParserConfig,
skipValidations: production,
errorMessageProvider: services.parser.ParserErrorMessageProvider
});
}
}
alternatives(idx, choices) {
this.wrapper.wrapOr(idx, choices);
}
optional(idx, callback) {
this.wrapper.wrapOption(idx, callback);
}
many(idx, callback) {
this.wrapper.wrapMany(idx, callback);
}
atLeastOne(idx, callback) {
this.wrapper.wrapAtLeastOne(idx, callback);
}
getRule(name) {
return this.allRules.get(name);
}
isRecording() {
return this.wrapper.IS_RECORDING;
}
get unorderedGroups() {
return this._unorderedGroups;
}
getRuleStack() {
return this.wrapper.RULE_STACK;
}
finalize() {
this.wrapper.wrapSelfAnalysis();
}
};
var LangiumParser = class extends AbstractLangiumParser {
static {
__name(this, "LangiumParser");
}
get current() {
return this.stack[this.stack.length - 1];
}
constructor(services) {
super(services);
this.nodeBuilder = new CstNodeBuilder();
this.stack = [];
this.assignmentMap = /* @__PURE__ */ new Map();
this.operatorPrecedence = /* @__PURE__ */ new Map();
this.linker = services.references.Linker;
this.converter = services.parser.ValueConverter;
this.astReflection = services.shared.AstReflection;
}
rule(rule, impl) {
const type = this.computeRuleType(rule);
let infixName = void 0;
if (isInfixRule(rule)) {
infixName = rule.name;
this.registerPrecedenceMap(rule);
}
const ruleMethod = this.wrapper.DEFINE_RULE(withRuleSuffix(rule.name), this.startImplementation(type, infixName, impl).bind(this));
this.allRules.set(rule.name, ruleMethod);
if (isParserRule(rule) && rule.entry) {
this.mainRule = ruleMethod;
}
return ruleMethod;
}
registerPrecedenceMap(rule) {
const name = rule.name;
const map2 = /* @__PURE__ */ new Map();
for (let i = 0; i < rule.operators.precedences.length; i++) {
const precedence = rule.operators.precedences[i];
for (const keyword of precedence.operators) {
map2.set(keyword.value, {
precedence: i,
rightAssoc: precedence.associativity === "right"
});
}
}
this.operatorPrecedence.set(name, map2);
}
computeRuleType(rule) {
if (isInfixRule(rule)) {
return getTypeName(rule);
} else if (rule.fragment) {
return void 0;
} else if (isDataTypeRule(rule)) {
return DatatypeSymbol;
} else {
return getTypeName(rule);
}
}
parse(input, options = {}) {
this.nodeBuilder.buildRootNode(input);
const lexerResult = this.lexerResult = this.lexer.tokenize(input);
this.wrapper.input = lexerResult.tokens;
const ruleMethod = options.rule ? this.allRules.get(options.rule) : this.mainRule;
if (!ruleMethod) {
throw new Error(options.rule ? `No rule found with name '${options.rule}'` : "No main rule available.");
}
const result = this.doParse(ruleMethod);
this.nodeBuilder.addHiddenNodes(lexerResult.hidden);
this.unorderedGroups.clear();
this.lexerResult = void 0;
linkContentToContainer(result, { deep: true });
return {
value: result,
lexerErrors: lexerResult.errors,
lexerReport: lexerResult.report,
parserErrors: this.wrapper.errors
};
}
doParse(rule) {
let result = this.wrapper.rule(rule);
if (this.stack.length > 0) {
result = this.construct();
}
if (result === void 0) {
throw new Error("No result from parser");
} else if (this.stack.length > 0) {
throw new Error("Parser stack is not empty after parsing");
}
return result;
}
startImplementation($type, infixName, implementation) {
return (args) => {
const createNode = !this.isRecording() && $type !== void 0;
if (createNode) {
const node = { $type };
this.stack.push(node);
if ($type === DatatypeSymbol) {
node.value = "";
} else if (infixName !== void 0) {
node.$infixName = infixName;
}
}
implementation(args);
return createNode ? this.construct() : void 0;
};
}
extractHiddenTokens(token) {
const hiddenTokens = this.lexerResult.hidden;
if (!hiddenTokens.length) {
return [];
}
const offset = token.startOffset;
for (let i = 0; i < hiddenTokens.length; i++) {
const token2 = hiddenTokens[i];
if (token2.startOffset > offset) {
return hiddenTokens.splice(0, i);
}
}
return hiddenTokens.splice(0, hiddenTokens.length);
}
consume(idx, tokenType, feature) {
const token = this.wrapper.wrapConsume(idx, tokenType);
if (!this.isRecording() && this.isValidToken(token)) {
const hiddenTokens = this.extractHiddenTokens(token);
this.nodeBuilder.addHiddenNodes(hiddenTokens);
const leafNode = this.nodeBuilder.buildLeafNode(token, feature);
const { assignment, crossRef } = this.getAssignment(feature);
const current = this.current;
if (assignment) {
const convertedValue = isKeyword(feature) ? token.image : this.converter.convert(token.image, leafNode);
this.assign(assignment.operator, assignment.feature, convertedValue, leafNode, crossRef);
} else if (isDataTypeNode(current)) {
let text = token.image;
if (!isKeyword(feature)) {
text = this.converter.convert(text, leafNode).toString();
}
current.value += text;
}
}
}
/**
* Most consumed parser tokens are valid. However there are two cases in which they are not valid:
*
* 1. They were inserted during error recovery by the parser. These tokens don't really exist and should not be further processed
* 2. They contain invalid token ranges. This might include the special EOF token, or other tokens produced by invalid token builders.
*/
isValidToken(token) {
return !token.isInsertedInRecovery && !isNaN(token.startOffset) && typeof token.endOffset === "number" && !isNaN(token.endOffset);
}
subrule(idx, rule, fragment, feature, args) {
let cstNode;
if (!this.isRecording() && !fragment) {
cstNode = this.nodeBuilder.buildCompositeNode(feature);
}
let result;
try {
result = this.wrapper.wrapSubrule(idx, rule, args);
} finally {
if (!this.isRecording()) {
if (result === void 0 && !fragment) {
result = this.construct();
}
if (result !== void 0 && cstNode && cstNode.length > 0) {
this.performSubruleAssignment(result, feature, cstNode);
}
}
}
}
performSubruleAssignment(result, feature, cstNode) {
const { assignment, crossRef } = this.getAssignment(feature);
if (assignment) {
this.assign(assignment.operator, assignment.feature, result, cstNode, crossRef);
} else if (!assignment) {
const current = this.current;
if (isDataTypeNode(current)) {
current.value += result.toString();
} else if (typeof result === "object" && result) {
const object = this.assignWithoutOverride(result, current);
const newItem = object;
this.stack.pop();
this.stack.push(newItem);
}
}
}
action($type, action) {
if (!this.isRecording()) {
let last2 = this.current;
if (action.feature && action.operator) {
last2 = this.construct();
this.nodeBuilder.removeNode(last2.$cstNode);
const node = this.nodeBuilder.buildCompositeNode(action);
node.content.push(last2.$cstNode);
const newItem = { $type };
this.stack.push(newItem);
this.assign(action.operator, action.feature, last2, last2.$cstNode);
} else {
last2.$type = $type;
}
}
}
construct() {
if (this.isRecording()) {
return void 0;
}
const obj = this.stack.pop();
this.nodeBuilder.construct(obj);
if ("$infixName" in obj) {
return this.constructInfix(obj, this.operatorPrecedence.get(obj.$infixName));
} else if (isDataTypeNode(obj)) {
return this.converter.convert(obj.value, obj.$cstNode);
} else {
assignMandatoryProperties(this.astReflection, obj);
}
return obj;
}
constructInfix(obj, precedence) {
const parts = obj.parts;
if (!Array.isArray(parts) || parts.length === 0) {
return void 0;
}
const operators = obj.operators;
if (!Array.isArray(operators) || parts.length < 2) {
return parts[0];
}
let lowestPrecedenceIdx = 0;
let lowestPrecedenceValue = -1;
for (let i = 0; i < operators.length; i++) {
const operator = operators[i];
const opPrecedence = precedence.get(operator) ?? {
precedence: Infinity,
rightAssoc: false
};
if (opPrecedence.precedence > lowestPrecedenceValue) {
lowestPrecedenceValue = opPrecedence.precedence;
lowestPrecedenceIdx = i;
} else if (opPrecedence.precedence === lowestPrecedenceValue) {
if (!opPrecedence.rightAssoc) {
lowestPrecedenceIdx = i;
}
}
}
const leftOperators = operators.slice(0, lowestPrecedenceIdx);
const rightOperators = operators.slice(lowestPrecedenceIdx + 1);
const leftParts = parts.slice(0, lowestPrecedenceIdx + 1);
const rightParts = parts.slice(lowestPrecedenceIdx + 1);
const leftInfix = {
$infixName: obj.$infixName,
$type: obj.$type,
$cstNode: obj.$cstNode,
parts: leftParts,
operators: leftOperators
};
const rightInfix = {
$infixName: obj.$infixName,
$type: obj.$type,
$cstNode: obj.$cstNode,
parts: rightParts,
operators: rightOperators
};
const leftTree = this.constructInfix(leftInfix, precedence);
const rightTree = this.constructInfix(rightInfix, precedence);
return {
$type: obj.$type,
$cstNode: obj.$cstNode,
left: leftTree,
operator: operators[lowestPrecedenceIdx],
right: rightTree
};
}
getAssignment(feature) {
if (!this.assignmentMap.has(feature)) {
const assignment = getContainerOfType(feature, isAssignment);
this.assignmentMap.set(feature, {
assignment,
crossRef: assignment && isCrossReference(assignment.terminal) ? assignment.terminal.isMulti ? "multi" : "single" : void 0
});
}
return this.assignmentMap.get(feature);
}
assign(operator, feature, value, cstNode, crossRef) {
const obj = this.current;
let item;
if (crossRef === "single" && typeof value === "string") {
item = this.linker.buildReference(obj, feature, cstNode, value);
} else if (crossRef === "multi" && typeof value === "string") {
item = this.linker.buildMultiReference(obj, feature, cstNode, value);
} else {
item = value;
}
switch (operator) {
case "=": {
obj[feature] = item;
break;
}
case "?=": {
obj[feature] = true;
break;
}
case "+=": {
if (!Array.isArray(obj[feature])) {
obj[feature] = [];
}
obj[feature].push(item);
}
}
}
assignWithoutOverride(target, source) {
for (const [name, existingValue] of Object.entries(source)) {
const newValue = target[name];
if (newValue === void 0) {
target[name] = existingValue;
} else if (Array.isArray(newValue) && Array.isArray(existingValue)) {
existingValue.push(...newValue);
target[name] = existingValue;
}
}
const targetCstNode = target.$cstNode;
if (targetCstNode) {
targetCstNode.astNode = void 0;
target.$cstNode = void 0;
}
return target;
}
get definitionErrors() {
return this.wrapper.definitionErrors;
}
};
var AbstractParserErrorMessageProvider = class {
static {
__name(this, "AbstractParserErrorMessageProvider");
}
buildMismatchTokenMessage(options) {
return defaultParserErrorProvider.buildMismatchTokenMessage(options);
}
buildNotAllInputParsedMessage(options) {
return defaultParserErrorProvider.buildNotAllInputParsedMessage(options);
}
buildNoViableAltMessage(options) {
return defaultParserErrorProvider.buildNoViableAltMessage(options);
}
buildEarlyExitMessage(options) {
return defaultParserErrorProvider.buildEarlyExitMessage(options);
}
};
var LangiumParserErrorMessageProvider = class extends AbstractParserErrorMessageProvider {
static {
__name(this, "LangiumParserErrorMessageProvider");
}
buildMismatchTokenMessage({ expected, actual }) {
const expectedMsg = expected.LABEL ? "`" + expected.LABEL + "`" : expected.name.endsWith(":KW") ? `keyword '${expected.name.substring(0, expected.name.length - 3)}'` : `token of type '${expected.name}'`;
return `Expecting ${expectedMsg} but found \`${actual.image}\`.`;
}
buildNotAllInputParsedMessage({ firstRedundant }) {
return `Expecting end of file but found \`${firstRedundant.image}\`.`;
}
};
var LangiumCompletionParser = class extends AbstractLangiumParser {
static {
__name(this, "LangiumCompletionParser");
}
constructor() {
super(...arguments);
this.tokens = [];
this.elementStack = [];
this.lastElementStack = [];
this.nextTokenIndex = 0;
this.stackSize = 0;
}
action() {
}
construct() {
return void 0;
}
parse(input) {
this.resetState();
const tokens = this.lexer.tokenize(input, { mode: "partial" });
this.tokens = tokens.tokens;
this.wrapper.input = [...this.tokens];
this.mainRule.call(this.wrapper, {});
this.unorderedGroups.clear();
return {
tokens: this.tokens,
elementStack: [...this.lastElementStack],
tokenIndex: this.nextTokenIndex
};
}
rule(rule, impl) {
const ruleMethod = this.wrapper.DEFINE_RULE(withRuleSuffix(rule.name), this.startImplementation(impl).bind(this));
this.allRules.set(rule.name, ruleMethod);
if (rule.entry) {
this.mainRule = ruleMethod;
}
return ruleMethod;
}
resetState() {
this.elementStack = [];
this.lastElementStack = [];
this.nextTokenIndex = 0;
this.stackSize = 0;
}
startImplementation(implementation) {
return (args) => {
const size = this.keepStackSize();
try {
implementation(args);
} finally {
this.resetStackSize(size);
}
};
}
removeUnexpectedElements() {
this.elementStack.splice(this.stackSize);
}
keepStackSize() {
const size = this.elementStack.length;
this.stackSize = size;
return size;
}
resetStackSize(size) {
this.removeUnexpectedElements();
this.stackSize = size;
}
consume(idx, tokenType, feature) {
this.wrapper.wrapConsume(idx, tokenType);
if (!this.isRecording()) {
this.lastElementStack = [...this.elementStack, feature];
this.nextTokenIndex = this.currIdx + 1;
}
}
subrule(idx, rule, fragment, feature, args) {
this.before(feature);
this.wrapper.wrapSubrule(idx, rule, args);
this.after(feature);
}
before(element) {
if (!this.isRecording()) {
this.elementStack.push(element);
}
}
after(element) {
if (!this.isRecording()) {
const index = this.elementStack.lastIndexOf(element);
if (index >= 0) {
this.elementStack.splice(index);
}
}
}
get currIdx() {
return this.wrapper.currIdx;
}
};
var defaultConfig = {
recoveryEnabled: true,
nodeLocationTracking: "full",
skipValidations: true,
errorMessageProvider: new LangiumParserErrorMessageProvider()
};
var ChevrotainWrapper = class extends EmbeddedActionsParser {
static {
__name(this, "ChevrotainWrapper");
}
constructor(tokens, config) {
const useDefaultLookahead = config && "maxLookahead" in config;
super(tokens, {
...defaultConfig,
lookaheadStrategy: useDefaultLookahead ? new LLkLookaheadStrategy({ maxLookahead: config.maxLookahead }) : new LLStarLookaheadStrategy({
// If validations are skipped, don't log the lookahead warnings
logging: config.skipValidations ? () => {
} : void 0
}),
...config
});
}
get IS_RECORDING() {
return this.RECORDING_PHASE;
}
DEFINE_RULE(name, impl, config) {
return this.RULE(name, impl, config);
}
wrapSelfAnalysis() {
this.performSelfAnalysis();
}
wrapConsume(idx, tokenType) {
return this.consume(idx, tokenType, void 0);
}
wrapSubrule(idx, rule, args) {
return this.subrule(idx, rule, {
ARGS: [args]
});
}
wrapOr(idx, choices) {
this.or(idx, choices);
}
wrapOption(idx, callback) {
this.option(idx, callback);
}
wrapMany(idx, callback) {
this.many(idx, callback);
}
wrapAtLeastOne(idx, callback) {
this.atLeastOne(idx, callback);
}
rule(rule) {
return rule.call(this, {});
}
};
var ProfilerWrapper = class extends ChevrotainWrapper {
static {
__name(this, "ProfilerWrapper");
}
constructor(tokens, config, task) {
super(tokens, config);
this.task = task;
}
rule(rule) {
this.task.start();
this.task.startSubTask(this.ruleName(rule));
try {
return super.rule(rule);
} finally {
this.task.stopSubTask(this.ruleName(rule));
this.task.stop();
}
}
ruleName(rule) {
return rule.ruleName;
}
subrule(idx, ruleToCall, options) {
this.task.startSubTask(this.ruleName(ruleToCall));
try {
return super.subrule(idx, ruleToCall, options);
} finally {
this.task.stopSubTask(this.ruleName(ruleToCall));
}
}
};
// ../../node_modules/.pnpm/langium@4.2.0/node_modules/langium/lib/parser/parser-builder-base.js
function createParser(grammar, parser, tokens) {
const parserContext = {
parser,
tokens,
ruleNames: /* @__PURE__ */ new Map()
};
buildRules(parserContext, grammar);
return parser;
}
__name(createParser, "createParser");
function buildRules(parserContext, grammar) {
const reachable = getAllReachableRules(grammar, false);
const parserRules = stream(grammar.rules).filter(isParserRule).filter((rule) => reachable.has(rule));
for (const rule of parserRules) {
const ctx = {
...parserContext,
consume: 1,
optional: 1,
subrule: 1,
many: 1,
or: 1
};
parserContext.parser.rule(rule, buildElement(ctx, rule.definition));
}
const infixRules = stream(grammar.rules).filter(isInfixRule).filter((rule) => reachable.has(rule));
for (const rule of infixRules) {
parserContext.parser.rule(rule, buildInfixRule(parserContext, rule));
}
}
__name(buildRules, "buildRules");
function buildInfixRule(ctx, rule) {
const expressionRule = rule.call.rule.ref;
if (!expressionRule) {
throw new Error("Could not resolve reference to infix operator rule: " + rule.call.rule.$refText);
}
if (isTerminalRule(expressionRule)) {
throw new Error("Cannot use terminal rule in infix expression");
}
const allKeywords = rule.operators.precedences.flatMap((e) => e.operators);
const outerGroup = {
$type: "Group",
elements: []
};
const part1Assignment = {
$container: outerGroup,
$type: "Assignment",
feature: "parts",
operator: "+=",
terminal: rule.call
};
const innerGroup = {
$container: outerGroup,
$type: "Group",
elements: [],
cardinality: "*"
};
outerGroup.elements.push(part1Assignment, innerGroup);
const alternatives = {
$type: "Alternatives",
elements: allKeywords
};
const operatorAssignment = {
$container: innerGroup,
$type: "Assignment",
feature: "operators",
operator: "+=",
terminal: alternatives
};
const part2Assignment = {
...part1Assignment,
$container: innerGroup
};
innerGroup.elements.push(operatorAssignment, part2Assignment);
const tokens = allKeywords.map((e) => ctx.tokens[e.value]);
const orAlts = tokens.map((token, index) => ({
ALT: /* @__PURE__ */ __name(() => ctx.parser.consume(index, token, operatorAssignment), "ALT")
}));
let subrule;
return (args) => {
subrule ?? (subrule = getRule(ctx, expressionRule));
ctx.parser.subrule(0, subrule, false, part1Assignment, args);
ctx.parser.many(0, {
DEF: /* @__PURE__ */ __name(() => {
ctx.parser.alternatives(0, orAlts);
ctx.parser.subrule(1, subrule, false, part2Assignment, args);
}, "DEF")
});
};
}
__name(buildInfixRule, "buildInfixRule");
function buildElement(ctx, element, ignoreGuard = false) {
let method;
if (isKeyword(element)) {
method = buildKeyword(ctx, element);
} else if (isAction(element)) {
method = buildAction(ctx, element);
} else if (isAssignment(element)) {
method = buildElement(ctx, element.terminal);
} else if (isCrossReference(element)) {
method = buildCrossReference(ctx, element);
} else if (isRuleCall(element)) {
method = buildRuleCall(ctx, element);
} else if (isAlternatives(element)) {
method = buildAlternatives(ctx, element);
} else if (isUnorderedGroup(element)) {
method = buildUnorderedGroup(ctx, element);
} else if (isGroup(element)) {
method = buildGroup(ctx, element);
} else if (isEndOfFile(element)) {
const idx = ctx.consume++;
method = /* @__PURE__ */ __name(() => ctx.parser.consume(idx, EOF, element), "method");
} else {
throw new ErrorWithLocation(element.$cstNode, `Unexpected element type: ${element.$type}`);
}
return wrap(ctx, ignoreGuard ? void 0 : getGuardCondition(element), method, element.cardinality);
}
__name(buildElement, "buildElement");
function buildAction(ctx, action) {
const actionType = getTypeName(action);
return () => ctx.parser.action(actionType, action);
}
__name(buildAction, "buildAction");
function buildRuleCall(ctx, ruleCall) {
const rule = ruleCall.rule.ref;
if (isAbstractParserRule(rule)) {
const idx = ctx.subrule++;
const fragment = isParserRule(rule) && rule.fragment;
const predicate = ruleCall.arguments.length > 0 ? buildRuleCallPredicate(rule, ruleCall.arguments) : () => ({});
let subrule;
return (args) => {
subrule ?? (subrule = getRule(ctx, rule));
ctx.parser.subrule(idx, subrule, fragment, ruleCall, predicate(args));
};
} else if (isTerminalRule(rule)) {
const idx = ctx.consume++;
const method = getToken(ctx, rule.name);
return () => ctx.parser.consume(idx, method, ruleCall);
} else if (!rule) {
throw new ErrorWithLocation(ruleCall.$cstNode, `Undefined rule: ${ruleCall.rule.$refText}`);
} else {
assertUnreachable(rule);
}
}
__name(buildRuleCall, "buildRuleCall");
function buildRuleCallPredicate(rule, namedArgs) {
const hasNamedArguments = namedArgs.some((arg) => arg.calledByName);
if (hasNamedArguments) {
const namedPredicates = namedArgs.map((arg) => ({
parameterName: arg.parameter?.ref?.name,
predicate: buildPredicate(arg.value)
}));
return (args) => {
const ruleArgs = {};
for (const { parameterName, predicate } of namedPredicates) {
if (parameterName) {
ruleArgs[parameterName] = predicate(args);
}
}
return ruleArgs;
};
} else {
const predicates = namedArgs.map((arg) => buildPredicate(arg.value));
return (args) => {
const ruleArgs = {};
for (let i = 0; i < predicates.length; i++) {
if (i < rule.parameters.length) {
const parameterName = rule.parameters[i].name;
const predicate = predicates[i];
ruleArgs[parameterName] = predicate(args);
}
}
return ruleArgs;
};
}
}
__name(buildRuleCallPredicate, "buildRuleCallPredicate");
function buildPredicate(condition) {
if (isDisjunction(condition)) {
const left = buildPredicate(condition.left);
const right = buildPredicate(condition.right);
return (args) => left(args) || right(args);
} else if (isConjunction(condition)) {
const left = buildPredicate(condition.left);
const right = buildPredicate(condition.right);
return (args) => left(args) && right(args);
} else if (isNegation(condition)) {
const value = buildPredicate(condition.value);
return (args) => !value(args);
} else if (isParameterReference(condition)) {
const name = condition.parameter.ref.name;
return (args) => args !== void 0 && args[name] === true;
} else if (isBooleanLiteral(condition)) {
const value = Boolean(condition.true);
return () => value;
}
assertUnreachable(condition);
}
__name(buildPredicate, "buildPredicate");
function buildAlternatives(ctx, alternatives) {
if (alternatives.elements.length === 1) {
return buildElement(ctx, alternatives.elements[0]);
} else {
const methods = [];
for (const element of alternatives.elements) {
const predicatedMethod = {
// Since we handle the guard condition in the alternative already
// We can ignore the group guard condition inside
ALT: buildElement(ctx, element, true)
};
const guard = getGuardCondition(element);
if (guard) {
predicatedMethod.GATE = buildPredicate(guard);
}
methods.push(predicatedMethod);
}
const idx = ctx.or++;
return (args) => ctx.parser.alternatives(idx, methods.map((method) => {
const alt = {
ALT: /* @__PURE__ */ __name(() => method.ALT(args), "ALT")
};
const gate = method.GATE;
if (gate) {
alt.GATE = () => gate(args);
}
return alt;
}));
}
}
__name(buildAlternatives, "buildAlternatives");
function buildUnorderedGroup(ctx, group) {
if (group.elements.length === 1) {
return buildElement(ctx, group.elements[0]);
}
const methods = [];
for (const element of group.elements) {
const predicatedMethod = {
// Since we handle the guard condition in the alternative already
// We can ignore the group guard condition inside
ALT: buildElement(ctx, element, true)
};
const guard = getGuardCondition(element);
if (guard) {
predicatedMethod.GATE = buildPredicate(guard);
}
methods.push(predicatedMethod);
}
const orIdx = ctx.or++;
const idFunc = /* @__PURE__ */ __name((groupIdx, lParser) => {
const stackId = lParser.getRuleStack().join("-");
return `uGroup_${groupIdx}_${stackId}`;
}, "idFunc");
const alternatives = /* @__PURE__ */ __name((args) => ctx.parser.alternatives(orIdx, methods.map((method, idx) => {
const alt = { ALT: /* @__PURE__ */ __name(() => true, "ALT") };
const parser = ctx.parser;
alt.ALT = () => {
method.ALT(args);
if (!parser.isRecording()) {
const key = idFunc(orIdx, parser);
if (!parser.unorderedGroups.get(key)) {
parser.unorderedGroups.set(key, []);
}
const groupState = parser.unorderedGroups.get(key);
if (typeof groupState?.[idx] === "undefined") {
groupState[idx] = true;
}
}
};
const gate = method.GATE;
if (gate) {
alt.GATE = () => gate(args);
} else {
alt.GATE = () => {
const trackedAlternatives = parser.unorderedGroups.get(idFunc(orIdx, parser));
const allow = !trackedAlternatives?.[idx];
return allow;
};
}
return alt;
})), "alternatives");
const wrapped = wrap(ctx, getGuardCondition(group), alternatives, "*");
return (args) => {
wrapped(args);
if (!ctx.parser.isRecording()) {
ctx.parser.unorderedGroups.delete(idFunc(orIdx, ctx.parser));
}
};
}
__name(buildUnorderedGroup, "buildUnorderedGroup");
function buildGroup(ctx, group) {
const methods = group.elements.map((e) => buildElement(ctx, e));
return (args) => methods.forEach((method) => method(args));
}
__name(buildGroup, "buildGroup");
function getGuardCondition(element) {
if (isGroup(element)) {
return element.guardCondition;
}
return void 0;
}
__name(getGuardCondition, "getGuardCondition");
function buildCrossReference(ctx, crossRef, terminal = crossRef.terminal) {
if (!terminal) {
if (!crossRef.type.ref) {
throw new Error("Could not resolve reference to type: " + crossRef.type.$refText);
}
const assignment = findNameAssignment(crossRef.type.ref);
const assignTerminal = assignment?.terminal;
if (!assignTerminal) {
throw new Error("Could not find name assignment for type: " + getTypeName(crossRef.type.ref));
}
return buildCrossReference(ctx, crossRef, assignTerminal);
} else if (isRuleCall(terminal) && isParserRule(terminal.rule.ref)) {
const rule = terminal.rule.ref;
const idx = ctx.subrule++;
let subrule;
return (args) => {
subrule ?? (subrule = getRule(ctx, rule));
ctx.parser.subrule(idx, subrule, false, crossRef, args);
};
} else if (isRuleCall(terminal) && isTerminalRule(terminal.rule.ref)) {
const idx = ctx.consume++;
const terminalRule = getToken(ctx, terminal.rule.ref.name);
return () => ctx.parser.consume(idx, terminalRule, crossRef);
} else if (isKeyword(terminal)) {
const idx = ctx.consume++;
const keyword = getToken(ctx, terminal.value);
return () => ctx.parser.consume(idx, keyword, crossRef);
} else {
throw new Error("Could not build cross reference parser");
}
}
__name(buildCrossReference, "buildCrossReference");
function buildKeyword(ctx, keyword) {
const idx = ctx.consume++;
const token = ctx.tokens[keyword.value];
if (!token) {
throw new Error("Could not find token for keyword: " + keyword.value);
}
return () => ctx.parser.consume(idx, token, keyword);
}
__name(buildKeyword, "buildKeyword");
function wrap(ctx, guard, method, cardinality) {
const gate = guard && buildPredicate(guard);
if (!cardinality) {
if (gate) {
const idx = ctx.or++;
return (args) => ctx.parser.alternatives(idx, [
{
ALT: /* @__PURE__ */ __name(() => method(args), "ALT"),
GATE: /* @__PURE__ */ __name(() => gate(args), "GATE")
},
{
ALT: EMPTY_ALT(),
GATE: /* @__PURE__ */ __name(() => !gate(args), "GATE")
}
]);
} else {
return method;
}
}
if (cardinality === "*") {
const idx = ctx.many++;
return (args) => ctx.parser.many(idx, {
DEF: /* @__PURE__ */ __name(() => method(args), "DEF"),
GATE: gate ? () => gate(args) : void 0
});
} else if (cardinality === "+") {
const idx = ctx.many++;
if (gate) {
const orIdx = ctx.or++;
return (args) => ctx.parser.alternatives(orIdx, [
{
ALT: /* @__PURE__ */ __name(() => ctx.parser.atLeastOne(idx, {
DEF: /* @__PURE__ */ __name(() => method(args), "DEF")
}), "ALT"),
GATE: /* @__PURE__ */ __name(() => gate(args), "GATE")
},
{
ALT: EMPTY_ALT(),
GATE: /* @__PURE__ */ __name(() => !gate(args), "GATE")
}
]);
} else {
return (args) => ctx.parser.atLeastOne(idx, {
DEF: /* @__PURE__ */ __name(() => method(args), "DEF")
});
}
} else if (cardinality === "?") {
const idx = ctx.optional++;
return (args) => ctx.parser.optional(idx, {
DEF: /* @__PURE__ */ __name(() => method(args), "DEF"),
GATE: gate ? () => gate(args) : void 0
});
} else {
assertUnreachable(cardinality);
}
}
__name(wrap, "wrap");
function getRule(ctx, element) {
const name = getRuleName(ctx, element);
const rule = ctx.parser.getRule(name);
if (!rule)
throw new Error(`Rule "${name}" not found."`);
return rule;
}
__name(getRule, "getRule");
function getRuleName(ctx, element) {
if (isAbstractParserRule(element)) {
return element.name;
} else if (ctx.ruleNames.has(element)) {
return ctx.ruleNames.get(element);
} else {
let item = element;
let parent = item.$container;
let ruleName = element.$type;
while (!isParserRule(parent)) {
if (isGroup(parent) || isAlternatives(parent) || isUnorderedGroup(parent)) {
const index = parent.elements.indexOf(item);
ruleName = index.toString() + ":" + ruleName;
}
item = parent;
parent = parent.$container;
}
const rule = parent;
ruleName = rule.name + ":" + ruleName;
ctx.ruleNames.set(element, ruleName);
return ruleName;
}
}
__name(getRuleName, "getRuleName");
function getToken(ctx, name) {
const token = ctx.tokens[name];
if (!token)
throw new Error(`Token "${name}" not found."`);
return token;
}
__name(getToken, "getToken");
// ../../node_modules/.pnpm/langium@4.2.0/node_modules/langium/lib/parser/completion-parser-builder.js
function createCompletionParser(services) {
const grammar = services.Grammar;
const lexer = services.parser.Lexer;
const parser = new LangiumCompletionParser(services);
createParser(grammar, parser, lexer.definition);
parser.finalize();
return parser;
}
__name(createCompletionParser, "createCompletionParser");
// ../../node_modules/.pnpm/langium@4.2.0/node_modules/langium/lib/parser/langium-parser-builder.js
function createLangiumParser(services) {
const parser = prepareLangiumParser(services);
parser.finalize();
return parser;
}
__name(createLangiumParser, "createLangiumParser");
function prepareLangiumParser(services) {
const grammar = services.Grammar;
const lexer = services.parser.Lexer;
const parser = new LangiumParser(services);
return createParser(grammar, parser, lexer.definition);
}
__name(prepareLangiumParser, "prepareLangiumParser");
// ../../node_modules/.pnpm/langium@4.2.0/node_modules/langium/lib/parser/token-builder.js
var DefaultTokenBuilder = class {
static {
__name(this, "DefaultTokenBuilder");
}
constructor() {
this.diagnostics = [];
}
buildTokens(grammar, options) {
const reachableRules = stream(getAllReachableRules(grammar, false));
const terminalTokens = this.buildTerminalTokens(reachableRules);
const tokens = this.buildKeywordTokens(reachableRules, terminalTokens, options);
tokens.push(...terminalTokens);
return tokens;
}
// eslint-disable-next-line @typescript-eslint/no-unused-vars
flushLexingReport(text) {
return { diagnostics: this.popDiagnostics() };
}
popDiagnostics() {
const diagnostics = [...this.diagnostics];
this.diagnostics = [];
return diagnostics;
}
buildTerminalTokens(rules) {
return rules.filter(isTerminalRule).filter((e) => !e.fragment).map((terminal) => this.buildTerminalToken(terminal)).toArray();
}
buildTerminalToken(terminal) {
const regex = terminalRegex(terminal);
const pattern = this.requiresCustomPattern(regex) ? this.regexPatternFunction(regex) : regex;
const tokenType = {
name: terminal.name,
PATTERN: pattern
};
if (typeof pattern === "function") {
tokenType.LINE_BREAKS = true;
}
if (terminal.hidden) {
tokenType.GROUP = isWhitespace(regex) ? Lexer.SKIPPED : "hidden";
}
return tokenType;
}
requiresCustomPattern(regex) {
if (regex.flags.includes("u") || regex.flags.includes("s")) {
return true;
} else {
return false;
}
}
regexPatternFunction(regex) {
const stickyRegex = new RegExp(regex, regex.flags + "y");
return (text, offset) => {
stickyRegex.lastIndex = offset;
const execResult = stickyRegex.exec(text);
return execResult;
};
}
buildKeywordTokens(rules, terminalTokens, options) {
return rules.filter(isAbstractParserRule).flatMap((rule) => streamAllContents(rule).filter(isKeyword)).distinct((e) => e.value).toArray().sort((a, b) => b.value.length - a.value.length).map((keyword) => this.buildKeywordToken(keyword, terminalTokens, Boolean(options?.caseInsensitive)));
}
buildKeywordToken(keyword, terminalTokens, caseInsensitive) {
const keywordPattern = this.buildKeywordPattern(keyword, caseInsensitive);
const tokenType = {
name: keyword.value,
PATTERN: keywordPattern,
LONGER_ALT: this.findLongerAlt(keyword, terminalTokens)
};
if (typeof keywordPattern === "function") {
tokenType.LINE_BREAKS = true;
}
return tokenType;
}
buildKeywordPattern(keyword, caseInsensitive) {
return caseInsensitive ? new RegExp(escapeRegExp(keyword.value), "i") : keyword.value;
}
findLongerAlt(keyword, terminalTokens) {
return terminalTokens.reduce((longerAlts, token) => {
const pattern = token?.PATTERN;
if (pattern?.source && partialMatches("^" + pattern.source + "$", keyword.value)) {
longerAlts.push(token);
}
return longerAlts;
}, []);
}
};
// ../../node_modules/.pnpm/langium@4.2.0/node_modules/langium/lib/parser/value-converter.js
var DefaultValueConverter = class {
static {
__name(this, "DefaultValueConverter");
}
convert(input, cstNode) {
let feature = cstNode.grammarSource;
if (isCrossReference(feature)) {
feature = getCrossReferenceTerminal(feature);
}
if (isRuleCall(feature)) {
const rule = feature.rule.ref;
if (!rule) {
throw new Error("This cst node was not parsed by a rule.");
}
return this.runConverter(rule, input, cstNode);
}
return input;
}
// eslint-disable-next-line @typescript-eslint/no-unused-vars
runConverter(rule, input, cstNode) {
switch (rule.name.toUpperCase()) {
case "INT":
return ValueConverter.convertInt(input);
case "STRING":
return ValueConverter.convertString(input);
case "ID":
return ValueConverter.convertID(input);
}
switch (getRuleType(rule)?.toLowerCase()) {
case "number":
return ValueConverter.convertNumber(input);
case "boolean":
return ValueConverter.convertBoolean(input);
case "bigint":
return ValueConverter.convertBigint(input);
case "date":
return ValueConverter.convertDate(input);
default:
return input;
}
}
};
var ValueConverter;
(function(ValueConverter2) {
function convertString(input) {
let result = "";
for (let i = 1; i < input.length - 1; i++) {
const c = input.charAt(i);
if (c === "\\") {
const c1 = input.charAt(++i);
result += convertEscapeCharacter(c1);
} else {
result += c;
}
}
return result;
}
__name(convertString, "convertString");
ValueConverter2.convertString = convertString;
function convertEscapeCharacter(char) {
switch (char) {
case "b":
return "\b";
case "f":
return "\f";
case "n":
return "\n";
case "r":
return "\r";
case "t":
return " ";
case "v":
return "\v";
case "0":
return "\0";
default:
return char;
}
}
__name(convertEscapeCharacter, "convertEscapeCharacter");
function convertID(input) {
if (input.charAt(0) === "^") {
return input.substring(1);
} else {
return input;
}
}
__name(convertID, "convertID");
ValueConverter2.convertID = convertID;
function convertInt(input) {
return parseInt(input);
}
__name(convertInt, "convertInt");
ValueConverter2.convertInt = convertInt;
function convertBigint(input) {
return BigInt(input);
}
__name(convertBigint, "convertBigint");
ValueConverter2.convertBigint = convertBigint;
function convertDate(input) {
return new Date(input);
}
__name(convertDate, "convertDate");
ValueConverter2.convertDate = convertDate;
function convertNumber(input) {
return Number(input);
}
__name(convertNumber, "convertNumber");
ValueConverter2.convertNumber = convertNumber;
function convertBoolean(input) {
return input.toLowerCase() === "true";
}
__name(convertBoolean, "convertBoolean");
ValueConverter2.convertBoolean = convertBoolean;
})(ValueConverter || (ValueConverter = {}));
// ../../node_modules/.pnpm/langium@4.2.0/node_modules/langium/lib/utils/cancellation.js
var cancellation_exports = {};
__reExport(cancellation_exports, __toESM(require_cancellation(), 1));
// ../../node_modules/.pnpm/langium@4.2.0/node_modules/langium/lib/utils/promise-utils.js
function delayNextTick() {
return new Promise((resolve) => {
if (typeof setImmediate === "undefined") {
setTimeout(resolve, 0);
} else {
setImmediate(resolve);
}
});
}
__name(delayNextTick, "delayNextTick");
var lastTick = 0;
var globalInterruptionPeriod = 10;
function startCancelableOperation() {
lastTick = performance.now();
return new cancellation_exports.CancellationTokenSource();
}
__name(startCancelableOperation, "startCancelableOperation");
function setInterruptionPeriod(period) {
globalInterruptionPeriod = period;
}
__name(setInterruptionPeriod, "setInterruptionPeriod");
var OperationCancelled = Symbol("OperationCancelled");
function isOperationCancelled(err) {
return err === OperationCancelled;
}
__name(isOperationCancelled, "isOperationCancelled");
async function interruptAndCheck(token) {
if (token === cancellation_exports.CancellationToken.None) {
return;
}
const current = performance.now();
if (current - lastTick >= globalInterruptionPeriod) {
lastTick = current;
await delayNextTick();
lastTick = performance.now();
}
if (token.isCancellationRequested) {
throw OperationCancelled;
}
}
__name(interruptAndCheck, "interruptAndCheck");
var Deferred = class {
static {
__name(this, "Deferred");
}
constructor() {
this.promise = new Promise((resolve, reject2) => {
this.resolve = (arg) => {
resolve(arg);
return this;
};
this.reject = (err) => {
reject2(err);
return this;
};
});
}
};
// ../../node_modules/.pnpm/vscode-languageserver-textdocument@1.0.12/node_modules/vscode-languageserver-textdocument/lib/esm/main.js
var FullTextDocument2 = class _FullTextDocument {
static {
__name(this, "FullTextDocument");
}
constructor(uri, languageId, version, content) {
this._uri = uri;
this._languageId = languageId;
this._version = version;
this._content = content;
this._lineOffsets = void 0;
}
get uri() {
return this._uri;
}
get languageId() {
return this._languageId;
}
get version() {
return this._version;
}
getText(range) {
if (range) {
const start = this.offsetAt(range.start);
const end = this.offsetAt(range.end);
return this._content.substring(start, end);
}
return this._content;
}
update(changes, version) {
for (const change of changes) {
if (_FullTextDocument.isIncremental(change)) {
const range = getWellformedRange(change.range);
const startOffset = this.offsetAt(range.start);
const endOffset = this.offsetAt(range.end);
this._content = this._content.substring(0, startOffset) + change.text + this._content.substring(endOffset, this._content.length);
const startLine = Math.max(range.start.line, 0);
const endLine = Math.max(range.end.line, 0);
let lineOffsets = this._lineOffsets;
const addedLineOffsets = computeLineOffsets(change.text, false, startOffset);
if (endLine - startLine === addedLineOffsets.length) {
for (let i = 0, len = addedLineOffsets.length; i < len; i++) {
lineOffsets[i + startLine + 1] = addedLineOffsets[i];
}
} else {
if (addedLineOffsets.length < 1e4) {
lineOffsets.splice(startLine + 1, endLine - startLine, ...addedLineOffsets);
} else {
this._lineOffsets = lineOffsets = lineOffsets.slice(0, startLine + 1).concat(addedLineOffsets, lineOffsets.slice(endLine + 1));
}
}
const diff = change.text.length - (endOffset - startOffset);
if (diff !== 0) {
for (let i = startLine + 1 + addedLineOffsets.length, len = lineOffsets.length; i < len; i++) {
lineOffsets[i] = lineOffsets[i] + diff;
}
}
} else if (_FullTextDocument.isFull(change)) {
this._content = change.text;
this._lineOffsets = void 0;
} else {
throw new Error("Unknown change event received");
}
}
this._version = version;
}
getLineOffsets() {
if (this._lineOffsets === void 0) {
this._lineOffsets = computeLineOffsets(this._content, true);
}
return this._lineOffsets;
}
positionAt(offset) {
offset = Math.max(Math.min(offset, this._content.length), 0);
const lineOffsets = this.getLineOffsets();
let low = 0, high = lineOffsets.length;
if (high === 0) {
return { line: 0, character: offset };
}
while (low < high) {
const mid = Math.floor((low + high) / 2);
if (lineOffsets[mid] > offset) {
high = mid;
} else {
low = mid + 1;
}
}
const line = low - 1;
offset = this.ensureBeforeEOL(offset, lineOffsets[line]);
return { line, character: offset - lineOffsets[line] };
}
offsetAt(position) {
const lineOffsets = this.getLineOffsets();
if (position.line >= lineOffsets.length) {
return this._content.length;
} else if (position.line < 0) {
return 0;
}
const lineOffset = lineOffsets[position.line];
if (position.character <= 0) {
return lineOffset;
}
const nextLineOffset = position.line + 1 < lineOffsets.length ? lineOffsets[position.line + 1] : this._content.length;
const offset = Math.min(lineOffset + position.character, nextLineOffset);
return this.ensureBeforeEOL(offset, lineOffset);
}
ensureBeforeEOL(offset, lineOffset) {
while (offset > lineOffset && isEOL(this._content.charCodeAt(offset - 1))) {
offset--;
}
return offset;
}
get lineCount() {
return this.getLineOffsets().length;
}
static isIncremental(event) {
const candidate = event;
return candidate !== void 0 && candidate !== null && typeof candidate.text === "string" && candidate.range !== void 0 && (candidate.rangeLength === void 0 || typeof candidate.rangeLength === "number");
}
static isFull(event) {
const candidate = event;
return candidate !== void 0 && candidate !== null && typeof candidate.text === "string" && candidate.range === void 0 && candidate.rangeLength === void 0;
}
};
var TextDocument2;
(function(TextDocument3) {
function create(uri, languageId, version, content) {
return new FullTextDocument2(uri, languageId, version, content);
}
__name(create, "create");
TextDocument3.create = create;
function update(document, changes, version) {
if (document instanceof FullTextDocument2) {
document.update(changes, version);
return document;
} else {
throw new Error("TextDocument.update: document must be created by TextDocument.create");
}
}
__name(update, "update");
TextDocument3.update = update;
function applyEdits(document, edits) {
const text = document.getText();
const sortedEdits = mergeSort(edits.map(getWellformedEdit), (a, b) => {
const diff = a.range.start.line - b.range.start.line;
if (diff === 0) {
return a.range.start.character - b.range.start.character;
}
return diff;
});
let lastModifiedOffset = 0;
const spans = [];
for (const e of sortedEdits) {
const startOffset = document.offsetAt(e.range.start);
if (startOffset < lastModifiedOffset) {
throw new Error("Overlapping edit");
} else if (startOffset > lastModifiedOffset) {
spans.push(text.substring(lastModifiedOffset, startOffset));
}
if (e.newText.length) {
spans.push(e.newText);
}
lastModifiedOffset = document.offsetAt(e.range.end);
}
spans.push(text.substr(lastModifiedOffset));
return spans.join("");
}
__name(applyEdits, "applyEdits");
TextDocument3.applyEdits = applyEdits;
})(TextDocument2 || (TextDocument2 = {}));
function mergeSort(data, compare) {
if (data.length <= 1) {
return data;
}
const p = data.length / 2 | 0;
const left = data.slice(0, p);
const right = data.slice(p);
mergeSort(left, compare);
mergeSort(right, compare);
let leftIdx = 0;
let rightIdx = 0;
let i = 0;
while (leftIdx < left.length && rightIdx < right.length) {
const ret = compare(left[leftIdx], right[rightIdx]);
if (ret <= 0) {
data[i++] = left[leftIdx++];
} else {
data[i++] = right[rightIdx++];
}
}
while (leftIdx < left.length) {
data[i++] = left[leftIdx++];
}
while (rightIdx < right.length) {
data[i++] = right[rightIdx++];
}
return data;
}
__name(mergeSort, "mergeSort");
function computeLineOffsets(text, isAtLineStart, textOffset = 0) {
const result = isAtLineStart ? [textOffset] : [];
for (let i = 0; i < text.length; i++) {
const ch = text.charCodeAt(i);
if (isEOL(ch)) {
if (ch === 13 && i + 1 < text.length && text.charCodeAt(i + 1) === 10) {
i++;
}
result.push(textOffset + i + 1);
}
}
return result;
}
__name(computeLineOffsets, "computeLineOffsets");
function isEOL(char) {
return char === 13 || char === 10;
}
__name(isEOL, "isEOL");
function getWellformedRange(range) {
const start = range.start;
const end = range.end;
if (start.line > end.line || start.line === end.line && start.character > end.character) {
return { start: end, end: start };
}
return range;
}
__name(getWellformedRange, "getWellformedRange");
function getWellformedEdit(textEdit) {
const range = getWellformedRange(textEdit.range);
if (range !== textEdit.range) {
return { newText: textEdit.newText, range };
}
return textEdit;
}
__name(getWellformedEdit, "getWellformedEdit");
// ../../node_modules/.pnpm/vscode-uri@3.1.0/node_modules/vscode-uri/lib/esm/index.mjs
var LIB;
(() => {
"use strict";
var t = { 975: (t2) => {
function e2(t3) {
if ("string" != typeof t3) throw new TypeError("Path must be a string. Received " + JSON.stringify(t3));
}
__name(e2, "e");
function r2(t3, e3) {
for (var r3, n3 = "", i2 = 0, o2 = -1, s2 = 0, h2 = 0; h2 <= t3.length; ++h2) {
if (h2 < t3.length) r3 = t3.charCodeAt(h2);
else {
if (47 === r3) break;
r3 = 47;
}
if (47 === r3) {
if (o2 === h2 - 1 || 1 === s2) ;
else if (o2 !== h2 - 1 && 2 === s2) {
if (n3.length < 2 || 2 !== i2 || 46 !== n3.charCodeAt(n3.length - 1) || 46 !== n3.charCodeAt(n3.length - 2)) {
if (n3.length > 2) {
var a2 = n3.lastIndexOf("/");
if (a2 !== n3.length - 1) {
-1 === a2 ? (n3 = "", i2 = 0) : i2 = (n3 = n3.slice(0, a2)).length - 1 - n3.lastIndexOf("/"), o2 = h2, s2 = 0;
continue;
}
} else if (2 === n3.length || 1 === n3.length) {
n3 = "", i2 = 0, o2 = h2, s2 = 0;
continue;
}
}
e3 && (n3.length > 0 ? n3 += "/.." : n3 = "..", i2 = 2);
} else n3.length > 0 ? n3 += "/" + t3.slice(o2 + 1, h2) : n3 = t3.slice(o2 + 1, h2), i2 = h2 - o2 - 1;
o2 = h2, s2 = 0;
} else 46 === r3 && -1 !== s2 ? ++s2 : s2 = -1;
}
return n3;
}
__name(r2, "r");
var n2 = { resolve: /* @__PURE__ */ __name(function() {
for (var t3, n3 = "", i2 = false, o2 = arguments.length - 1; o2 >= -1 && !i2; o2--) {
var s2;
o2 >= 0 ? s2 = arguments[o2] : (void 0 === t3 && (t3 = process.cwd()), s2 = t3), e2(s2), 0 !== s2.length && (n3 = s2 + "/" + n3, i2 = 47 === s2.charCodeAt(0));
}
return n3 = r2(n3, !i2), i2 ? n3.length > 0 ? "/" + n3 : "/" : n3.length > 0 ? n3 : ".";
}, "resolve"), normalize: /* @__PURE__ */ __name(function(t3) {
if (e2(t3), 0 === t3.length) return ".";
var n3 = 47 === t3.charCodeAt(0), i2 = 47 === t3.charCodeAt(t3.length - 1);
return 0 !== (t3 = r2(t3, !n3)).length || n3 || (t3 = "."), t3.length > 0 && i2 && (t3 += "/"), n3 ? "/" + t3 : t3;
}, "normalize"), isAbsolute: /* @__PURE__ */ __name(function(t3) {
return e2(t3), t3.length > 0 && 47 === t3.charCodeAt(0);
}, "isAbsolute"), join: /* @__PURE__ */ __name(function() {
if (0 === arguments.length) return ".";
for (var t3, r3 = 0; r3 < arguments.length; ++r3) {
var i2 = arguments[r3];
e2(i2), i2.length > 0 && (void 0 === t3 ? t3 = i2 : t3 += "/" + i2);
}
return void 0 === t3 ? "." : n2.normalize(t3);
}, "join"), relative: /* @__PURE__ */ __name(function(t3, r3) {
if (e2(t3), e2(r3), t3 === r3) return "";
if ((t3 = n2.resolve(t3)) === (r3 = n2.resolve(r3))) return "";
for (var i2 = 1; i2 < t3.length && 47 === t3.charCodeAt(i2); ++i2) ;
for (var o2 = t3.length, s2 = o2 - i2, h2 = 1; h2 < r3.length && 47 === r3.charCodeAt(h2); ++h2) ;
for (var a2 = r3.length - h2, c2 = s2 < a2 ? s2 : a2, f2 = -1, u2 = 0; u2 <= c2; ++u2) {
if (u2 === c2) {
if (a2 > c2) {
if (47 === r3.charCodeAt(h2 + u2)) return r3.slice(h2 + u2 + 1);
if (0 === u2) return r3.slice(h2 + u2);
} else s2 > c2 && (47 === t3.charCodeAt(i2 + u2) ? f2 = u2 : 0 === u2 && (f2 = 0));
break;
}
var l2 = t3.charCodeAt(i2 + u2);
if (l2 !== r3.charCodeAt(h2 + u2)) break;
47 === l2 && (f2 = u2);
}
var g2 = "";
for (u2 = i2 + f2 + 1; u2 <= o2; ++u2) u2 !== o2 && 47 !== t3.charCodeAt(u2) || (0 === g2.length ? g2 += ".." : g2 += "/..");
return g2.length > 0 ? g2 + r3.slice(h2 + f2) : (h2 += f2, 47 === r3.charCodeAt(h2) && ++h2, r3.slice(h2));
}, "relative"), _makeLong: /* @__PURE__ */ __name(function(t3) {
return t3;
}, "_makeLong"), dirname: /* @__PURE__ */ __name(function(t3) {
if (e2(t3), 0 === t3.length) return ".";
for (var r3 = t3.charCodeAt(0), n3 = 47 === r3, i2 = -1, o2 = true, s2 = t3.length - 1; s2 >= 1; --s2) if (47 === (r3 = t3.charCodeAt(s2))) {
if (!o2) {
i2 = s2;
break;
}
} else o2 = false;
return -1 === i2 ? n3 ? "/" : "." : n3 && 1 === i2 ? "//" : t3.slice(0, i2);
}, "dirname"), basename: /* @__PURE__ */ __name(function(t3, r3) {
if (void 0 !== r3 && "string" != typeof r3) throw new TypeError('"ext" argument must be a string');
e2(t3);
var n3, i2 = 0, o2 = -1, s2 = true;
if (void 0 !== r3 && r3.length > 0 && r3.length <= t3.length) {
if (r3.length === t3.length && r3 === t3) return "";
var h2 = r3.length - 1, a2 = -1;
for (n3 = t3.length - 1; n3 >= 0; --n3) {
var c2 = t3.charCodeAt(n3);
if (47 === c2) {
if (!s2) {
i2 = n3 + 1;
break;
}
} else -1 === a2 && (s2 = false, a2 = n3 + 1), h2 >= 0 && (c2 === r3.charCodeAt(h2) ? -1 == --h2 && (o2 = n3) : (h2 = -1, o2 = a2));
}
return i2 === o2 ? o2 = a2 : -1 === o2 && (o2 = t3.length), t3.slice(i2, o2);
}
for (n3 = t3.length - 1; n3 >= 0; --n3) if (47 === t3.charCodeAt(n3)) {
if (!s2) {
i2 = n3 + 1;
break;
}
} else -1 === o2 && (s2 = false, o2 = n3 + 1);
return -1 === o2 ? "" : t3.slice(i2, o2);
}, "basename"), extname: /* @__PURE__ */ __name(function(t3) {
e2(t3);
for (var r3 = -1, n3 = 0, i2 = -1, o2 = true, s2 = 0, h2 = t3.length - 1; h2 >= 0; --h2) {
var a2 = t3.charCodeAt(h2);
if (47 !== a2) -1 === i2 && (o2 = false, i2 = h2 + 1), 46 === a2 ? -1 === r3 ? r3 = h2 : 1 !== s2 && (s2 = 1) : -1 !== r3 && (s2 = -1);
else if (!o2) {
n3 = h2 + 1;
break;
}
}
return -1 === r3 || -1 === i2 || 0 === s2 || 1 === s2 && r3 === i2 - 1 && r3 === n3 + 1 ? "" : t3.slice(r3, i2);
}, "extname"), format: /* @__PURE__ */ __name(function(t3) {
if (null === t3 || "object" != typeof t3) throw new TypeError('The "pathObject" argument must be of type Object. Received type ' + typeof t3);
return (function(t4, e3) {
var r3 = e3.dir || e3.root, n3 = e3.base || (e3.name || "") + (e3.ext || "");
return r3 ? r3 === e3.root ? r3 + n3 : r3 + "/" + n3 : n3;
})(0, t3);
}, "format"), parse: /* @__PURE__ */ __name(function(t3) {
e2(t3);
var r3 = { root: "", dir: "", base: "", ext: "", name: "" };
if (0 === t3.length) return r3;
var n3, i2 = t3.charCodeAt(0), o2 = 47 === i2;
o2 ? (r3.root = "/", n3 = 1) : n3 = 0;
for (var s2 = -1, h2 = 0, a2 = -1, c2 = true, f2 = t3.length - 1, u2 = 0; f2 >= n3; --f2) if (47 !== (i2 = t3.charCodeAt(f2))) -1 === a2 && (c2 = false, a2 = f2 + 1), 46 === i2 ? -1 === s2 ? s2 = f2 : 1 !== u2 && (u2 = 1) : -1 !== s2 && (u2 = -1);
else if (!c2) {
h2 = f2 + 1;
break;
}
return -1 === s2 || -1 === a2 || 0 === u2 || 1 === u2 && s2 === a2 - 1 && s2 === h2 + 1 ? -1 !== a2 && (r3.base = r3.name = 0 === h2 && o2 ? t3.slice(1, a2) : t3.slice(h2, a2)) : (0 === h2 && o2 ? (r3.name = t3.slice(1, s2), r3.base = t3.slice(1, a2)) : (r3.name = t3.slice(h2, s2), r3.base = t3.slice(h2, a2)), r3.ext = t3.slice(s2, a2)), h2 > 0 ? r3.dir = t3.slice(0, h2 - 1) : o2 && (r3.dir = "/"), r3;
}, "parse"), sep: "/", delimiter: ":", win32: null, posix: null };
n2.posix = n2, t2.exports = n2;
} }, e = {};
function r(n2) {
var i2 = e[n2];
if (void 0 !== i2) return i2.exports;
var o2 = e[n2] = { exports: {} };
return t[n2](o2, o2.exports, r), o2.exports;
}
__name(r, "r");
r.d = (t2, e2) => {
for (var n2 in e2) r.o(e2, n2) && !r.o(t2, n2) && Object.defineProperty(t2, n2, { enumerable: true, get: e2[n2] });
}, r.o = (t2, e2) => Object.prototype.hasOwnProperty.call(t2, e2), r.r = (t2) => {
"undefined" != typeof Symbol && Symbol.toStringTag && Object.defineProperty(t2, Symbol.toStringTag, { value: "Module" }), Object.defineProperty(t2, "__esModule", { value: true });
};
var n = {};
let i;
if (r.r(n), r.d(n, { URI: /* @__PURE__ */ __name(() => l, "URI"), Utils: /* @__PURE__ */ __name(() => I, "Utils") }), "object" == typeof process) i = "win32" === process.platform;
else if ("object" == typeof navigator) {
let t2 = navigator.userAgent;
i = t2.indexOf("Windows") >= 0;
}
const o = /^\w[\w\d+.-]*$/, s = /^\//, h = /^\/\//;
function a(t2, e2) {
if (!t2.scheme && e2) throw new Error(`[UriError]: Scheme is missing: {scheme: "", authority: "${t2.authority}", path: "${t2.path}", query: "${t2.query}", fragment: "${t2.fragment}"}`);
if (t2.scheme && !o.test(t2.scheme)) throw new Error("[UriError]: Scheme contains illegal characters.");
if (t2.path) {
if (t2.authority) {
if (!s.test(t2.path)) throw new Error('[UriError]: If a URI contains an authority component, then the path component must either be empty or begin with a slash ("/") character');
} else if (h.test(t2.path)) throw new Error('[UriError]: If a URI does not contain an authority component, then the path cannot begin with two slash characters ("//")');
}
}
__name(a, "a");
const c = "", f = "/", u = /^(([^:/?#]+?):)?(\/\/([^/?#]*))?([^?#]*)(\?([^#]*))?(#(.*))?/;
class l {
static {
__name(this, "l");
}
static isUri(t2) {
return t2 instanceof l || !!t2 && "string" == typeof t2.authority && "string" == typeof t2.fragment && "string" == typeof t2.path && "string" == typeof t2.query && "string" == typeof t2.scheme && "string" == typeof t2.fsPath && "function" == typeof t2.with && "function" == typeof t2.toString;
}
scheme;
authority;
path;
query;
fragment;
constructor(t2, e2, r2, n2, i2, o2 = false) {
"object" == typeof t2 ? (this.scheme = t2.scheme || c, this.authority = t2.authority || c, this.path = t2.path || c, this.query = t2.query || c, this.fragment = t2.fragment || c) : (this.scheme = /* @__PURE__ */ (function(t3, e3) {
return t3 || e3 ? t3 : "file";
})(t2, o2), this.authority = e2 || c, this.path = (function(t3, e3) {
switch (t3) {
case "https":
case "http":
case "file":
e3 ? e3[0] !== f && (e3 = f + e3) : e3 = f;
}
return e3;
})(this.scheme, r2 || c), this.query = n2 || c, this.fragment = i2 || c, a(this, o2));
}
get fsPath() {
return v(this, false);
}
with(t2) {
if (!t2) return this;
let { scheme: e2, authority: r2, path: n2, query: i2, fragment: o2 } = t2;
return void 0 === e2 ? e2 = this.scheme : null === e2 && (e2 = c), void 0 === r2 ? r2 = this.authority : null === r2 && (r2 = c), void 0 === n2 ? n2 = this.path : null === n2 && (n2 = c), void 0 === i2 ? i2 = this.query : null === i2 && (i2 = c), void 0 === o2 ? o2 = this.fragment : null === o2 && (o2 = c), e2 === this.scheme && r2 === this.authority && n2 === this.path && i2 === this.query && o2 === this.fragment ? this : new d(e2, r2, n2, i2, o2);
}
static parse(t2, e2 = false) {
const r2 = u.exec(t2);
return r2 ? new d(r2[2] || c, w(r2[4] || c), w(r2[5] || c), w(r2[7] || c), w(r2[9] || c), e2) : new d(c, c, c, c, c);
}
static file(t2) {
let e2 = c;
if (i && (t2 = t2.replace(/\\/g, f)), t2[0] === f && t2[1] === f) {
const r2 = t2.indexOf(f, 2);
-1 === r2 ? (e2 = t2.substring(2), t2 = f) : (e2 = t2.substring(2, r2), t2 = t2.substring(r2) || f);
}
return new d("file", e2, t2, c, c);
}
static from(t2) {
const e2 = new d(t2.scheme, t2.authority, t2.path, t2.query, t2.fragment);
return a(e2, true), e2;
}
toString(t2 = false) {
return b(this, t2);
}
toJSON() {
return this;
}
static revive(t2) {
if (t2) {
if (t2 instanceof l) return t2;
{
const e2 = new d(t2);
return e2._formatted = t2.external, e2._fsPath = t2._sep === g ? t2.fsPath : null, e2;
}
}
return t2;
}
}
const g = i ? 1 : void 0;
class d extends l {
static {
__name(this, "d");
}
_formatted = null;
_fsPath = null;
get fsPath() {
return this._fsPath || (this._fsPath = v(this, false)), this._fsPath;
}
toString(t2 = false) {
return t2 ? b(this, true) : (this._formatted || (this._formatted = b(this, false)), this._formatted);
}
toJSON() {
const t2 = { $mid: 1 };
return this._fsPath && (t2.fsPath = this._fsPath, t2._sep = g), this._formatted && (t2.external = this._formatted), this.path && (t2.path = this.path), this.scheme && (t2.scheme = this.scheme), this.authority && (t2.authority = this.authority), this.query && (t2.query = this.query), this.fragment && (t2.fragment = this.fragment), t2;
}
}
const p = { 58: "%3A", 47: "%2F", 63: "%3F", 35: "%23", 91: "%5B", 93: "%5D", 64: "%40", 33: "%21", 36: "%24", 38: "%26", 39: "%27", 40: "%28", 41: "%29", 42: "%2A", 43: "%2B", 44: "%2C", 59: "%3B", 61: "%3D", 32: "%20" };
function m(t2, e2, r2) {
let n2, i2 = -1;
for (let o2 = 0; o2 < t2.length; o2++) {
const s2 = t2.charCodeAt(o2);
if (s2 >= 97 && s2 <= 122 || s2 >= 65 && s2 <= 90 || s2 >= 48 && s2 <= 57 || 45 === s2 || 46 === s2 || 95 === s2 || 126 === s2 || e2 && 47 === s2 || r2 && 91 === s2 || r2 && 93 === s2 || r2 && 58 === s2) -1 !== i2 && (n2 += encodeURIComponent(t2.substring(i2, o2)), i2 = -1), void 0 !== n2 && (n2 += t2.charAt(o2));
else {
void 0 === n2 && (n2 = t2.substr(0, o2));
const e3 = p[s2];
void 0 !== e3 ? (-1 !== i2 && (n2 += encodeURIComponent(t2.substring(i2, o2)), i2 = -1), n2 += e3) : -1 === i2 && (i2 = o2);
}
}
return -1 !== i2 && (n2 += encodeURIComponent(t2.substring(i2))), void 0 !== n2 ? n2 : t2;
}
__name(m, "m");
function y(t2) {
let e2;
for (let r2 = 0; r2 < t2.length; r2++) {
const n2 = t2.charCodeAt(r2);
35 === n2 || 63 === n2 ? (void 0 === e2 && (e2 = t2.substr(0, r2)), e2 += p[n2]) : void 0 !== e2 && (e2 += t2[r2]);
}
return void 0 !== e2 ? e2 : t2;
}
__name(y, "y");
function v(t2, e2) {
let r2;
return r2 = t2.authority && t2.path.length > 1 && "file" === t2.scheme ? `//${t2.authority}${t2.path}` : 47 === t2.path.charCodeAt(0) && (t2.path.charCodeAt(1) >= 65 && t2.path.charCodeAt(1) <= 90 || t2.path.charCodeAt(1) >= 97 && t2.path.charCodeAt(1) <= 122) && 58 === t2.path.charCodeAt(2) ? e2 ? t2.path.substr(1) : t2.path[1].toLowerCase() + t2.path.substr(2) : t2.path, i && (r2 = r2.replace(/\//g, "\\")), r2;
}
__name(v, "v");
function b(t2, e2) {
const r2 = e2 ? y : m;
let n2 = "", { scheme: i2, authority: o2, path: s2, query: h2, fragment: a2 } = t2;
if (i2 && (n2 += i2, n2 += ":"), (o2 || "file" === i2) && (n2 += f, n2 += f), o2) {
let t3 = o2.indexOf("@");
if (-1 !== t3) {
const e3 = o2.substr(0, t3);
o2 = o2.substr(t3 + 1), t3 = e3.lastIndexOf(":"), -1 === t3 ? n2 += r2(e3, false, false) : (n2 += r2(e3.substr(0, t3), false, false), n2 += ":", n2 += r2(e3.substr(t3 + 1), false, true)), n2 += "@";
}
o2 = o2.toLowerCase(), t3 = o2.lastIndexOf(":"), -1 === t3 ? n2 += r2(o2, false, true) : (n2 += r2(o2.substr(0, t3), false, true), n2 += o2.substr(t3));
}
if (s2) {
if (s2.length >= 3 && 47 === s2.charCodeAt(0) && 58 === s2.charCodeAt(2)) {
const t3 = s2.charCodeAt(1);
t3 >= 65 && t3 <= 90 && (s2 = `/${String.fromCharCode(t3 + 32)}:${s2.substr(3)}`);
} else if (s2.length >= 2 && 58 === s2.charCodeAt(1)) {
const t3 = s2.charCodeAt(0);
t3 >= 65 && t3 <= 90 && (s2 = `${String.fromCharCode(t3 + 32)}:${s2.substr(2)}`);
}
n2 += r2(s2, true, false);
}
return h2 && (n2 += "?", n2 += r2(h2, false, false)), a2 && (n2 += "#", n2 += e2 ? a2 : m(a2, false, false)), n2;
}
__name(b, "b");
function C(t2) {
try {
return decodeURIComponent(t2);
} catch {
return t2.length > 3 ? t2.substr(0, 3) + C(t2.substr(3)) : t2;
}
}
__name(C, "C");
const A = /(%[0-9A-Za-z][0-9A-Za-z])+/g;
function w(t2) {
return t2.match(A) ? t2.replace(A, ((t3) => C(t3))) : t2;
}
__name(w, "w");
var x = r(975);
const P = x.posix || x, _ = "/";
var I;
!(function(t2) {
t2.joinPath = function(t3, ...e2) {
return t3.with({ path: P.join(t3.path, ...e2) });
}, t2.resolvePath = function(t3, ...e2) {
let r2 = t3.path, n2 = false;
r2[0] !== _ && (r2 = _ + r2, n2 = true);
let i2 = P.resolve(r2, ...e2);
return n2 && i2[0] === _ && !t3.authority && (i2 = i2.substring(1)), t3.with({ path: i2 });
}, t2.dirname = function(t3) {
if (0 === t3.path.length || t3.path === _) return t3;
let e2 = P.dirname(t3.path);
return 1 === e2.length && 46 === e2.charCodeAt(0) && (e2 = ""), t3.with({ path: e2 });
}, t2.basename = function(t3) {
return P.basename(t3.path);
}, t2.extname = function(t3) {
return P.extname(t3.path);
};
})(I || (I = {})), LIB = n;
})();
var { URI: URI2, Utils } = LIB;
// ../../node_modules/.pnpm/langium@4.2.0/node_modules/langium/lib/utils/uri-utils.js
var UriUtils;
(function(UriUtils2) {
UriUtils2.basename = Utils.basename;
UriUtils2.dirname = Utils.dirname;
UriUtils2.extname = Utils.extname;
UriUtils2.joinPath = Utils.joinPath;
UriUtils2.resolvePath = Utils.resolvePath;
const isWindows = typeof process === "object" && process?.platform === "win32";
function equals(a, b) {
return a?.toString() === b?.toString();
}
__name(equals, "equals");
UriUtils2.equals = equals;
function relative(from, to) {
const fromPath = typeof from === "string" ? URI2.parse(from).path : from.path;
const toPath = typeof to === "string" ? URI2.parse(to).path : to.path;
const fromParts = fromPath.split("/").filter((e) => e.length > 0);
const toParts = toPath.split("/").filter((e) => e.length > 0);
if (isWindows) {
const upperCaseDriveLetter = /^[A-Z]:$/;
if (fromParts[0] && upperCaseDriveLetter.test(fromParts[0])) {
fromParts[0] = fromParts[0].toLowerCase();
}
if (toParts[0] && upperCaseDriveLetter.test(toParts[0])) {
toParts[0] = toParts[0].toLowerCase();
}
if (fromParts[0] !== toParts[0]) {
return toPath.substring(1);
}
}
let i = 0;
for (; i < fromParts.length; i++) {
if (fromParts[i] !== toParts[i]) {
break;
}
}
const backPart = "../".repeat(fromParts.length - i);
const toPart = toParts.slice(i).join("/");
return backPart + toPart;
}
__name(relative, "relative");
UriUtils2.relative = relative;
function normalize(uri) {
return URI2.parse(uri.toString()).toString();
}
__name(normalize, "normalize");
UriUtils2.normalize = normalize;
function contains(parent, child) {
let parentPath = typeof parent === "string" ? parent : parent.path;
let childPath = typeof child === "string" ? child : child.path;
if (childPath.charAt(childPath.length - 1) === "/") {
childPath = childPath.slice(0, -1);
}
if (parentPath.charAt(parentPath.length - 1) === "/") {
parentPath = parentPath.slice(0, -1);
}
if (childPath === parentPath) {
return true;
}
if (childPath.length < parentPath.length) {
return false;
}
if (childPath.charAt(parentPath.length) !== "/") {
return false;
}
return childPath.startsWith(parentPath);
}
__name(contains, "contains");
UriUtils2.contains = contains;
})(UriUtils || (UriUtils = {}));
var UriTrie = class {
static {
__name(this, "UriTrie");
}
constructor() {
this.root = { name: "", children: /* @__PURE__ */ new Map() };
}
normalizeUri(uri) {
return UriUtils.normalize(uri);
}
clear() {
this.root.children.clear();
}
insert(uri, element) {
const node = this.getNode(this.normalizeUri(uri), true);
node.element = element;
}
delete(uri) {
const nodeToDelete = this.getNode(this.normalizeUri(uri), false);
if (nodeToDelete?.parent) {
nodeToDelete.parent.children.delete(nodeToDelete.name);
}
}
has(uri) {
return this.getNode(this.normalizeUri(uri), false)?.element !== void 0;
}
hasNode(uri) {
return this.getNode(this.normalizeUri(uri), false) !== void 0;
}
find(uri) {
return this.getNode(this.normalizeUri(uri), false)?.element;
}
findNode(uri) {
const uriString = this.normalizeUri(uri);
const node = this.getNode(uriString, false);
if (!node) {
return void 0;
}
return {
name: node.name,
uri: UriUtils.joinPath(URI2.parse(uriString), node.name).toString(),
element: node.element
};
}
findChildren(uri) {
const uriString = this.normalizeUri(uri);
const node = this.getNode(uriString, false);
if (!node) {
return [];
}
return Array.from(node.children.values()).map((child) => ({
name: child.name,
uri: UriUtils.joinPath(URI2.parse(uriString), child.name).toString(),
element: child.element
}));
}
all() {
return this.collectValues(this.root);
}
findAll(prefix) {
const node = this.getNode(UriUtils.normalize(prefix), false);
if (!node) {
return [];
}
return this.collectValues(node);
}
getNode(uri, create) {
const parts = uri.split("/");
if (uri.charAt(uri.length - 1) === "/") {
parts.pop();
}
let current = this.root;
for (const part of parts) {
let child = current.children.get(part);
if (!child) {
if (create) {
child = {
name: part,
children: /* @__PURE__ */ new Map(),
parent: current
};
current.children.set(part, child);
} else {
return void 0;
}
}
current = child;
}
return current;
}
collectValues(node) {
const result = [];
if (node.element) {
result.push(node.element);
}
for (const child of node.children.values()) {
result.push(...this.collectValues(child));
}
return result;
}
};
// ../../node_modules/.pnpm/langium@4.2.0/node_modules/langium/lib/workspace/documents.js
var DocumentState;
(function(DocumentState2) {
DocumentState2[DocumentState2["Changed"] = 0] = "Changed";
DocumentState2[DocumentState2["Parsed"] = 1] = "Parsed";
DocumentState2[DocumentState2["IndexedContent"] = 2] = "IndexedContent";
DocumentState2[DocumentState2["ComputedScopes"] = 3] = "ComputedScopes";
DocumentState2[DocumentState2["Linked"] = 4] = "Linked";
DocumentState2[DocumentState2["IndexedReferences"] = 5] = "IndexedReferences";
DocumentState2[DocumentState2["Validated"] = 6] = "Validated";
})(DocumentState || (DocumentState = {}));
var DefaultLangiumDocumentFactory = class {
static {
__name(this, "DefaultLangiumDocumentFactory");
}
constructor(services) {
this.serviceRegistry = services.ServiceRegistry;
this.textDocuments = services.workspace.TextDocuments;
this.fileSystemProvider = services.workspace.FileSystemProvider;
}
async fromUri(uri, cancellationToken = cancellation_exports.CancellationToken.None) {
const content = await this.fileSystemProvider.readFile(uri);
return this.createAsync(uri, content, cancellationToken);
}
fromTextDocument(textDocument, uri, token) {
uri = uri ?? URI2.parse(textDocument.uri);
if (cancellation_exports.CancellationToken.is(token)) {
return this.createAsync(uri, textDocument, token);
} else {
return this.create(uri, textDocument, token);
}
}
fromString(text, uri, token) {
if (cancellation_exports.CancellationToken.is(token)) {
return this.createAsync(uri, text, token);
} else {
return this.create(uri, text, token);
}
}
fromModel(model, uri) {
return this.create(uri, { $model: model });
}
create(uri, content, options) {
if (typeof content === "string") {
const parseResult = this.parse(uri, content, options);
return this.createLangiumDocument(parseResult, uri, void 0, content);
} else if ("$model" in content) {
const parseResult = { value: content.$model, parserErrors: [], lexerErrors: [] };
return this.createLangiumDocument(parseResult, uri);
} else {
const parseResult = this.parse(uri, content.getText(), options);
return this.createLangiumDocument(parseResult, uri, content);
}
}
async createAsync(uri, content, cancelToken) {
if (typeof content === "string") {
const parseResult = await this.parseAsync(uri, content, cancelToken);
return this.createLangiumDocument(parseResult, uri, void 0, content);
} else {
const parseResult = await this.parseAsync(uri, content.getText(), cancelToken);
return this.createLangiumDocument(parseResult, uri, content);
}
}
/**
* Create a LangiumDocument from a given parse result.
*
* A TextDocument is created on demand if it is not provided as argument here. Usually this
* should not be necessary because the main purpose of the TextDocument is to convert between
* text ranges and offsets, which is done solely in LSP request handling.
*
* With the introduction of {@link update} below this method is supposed to be mainly called
* during workspace initialization and on addition/recognition of new files, while changes in
* existing documents are processed via {@link update}.
*/
createLangiumDocument(parseResult, uri, textDocument, text) {
let document;
if (textDocument) {
document = {
parseResult,
uri,
state: DocumentState.Parsed,
references: [],
textDocument
};
} else {
const textDocumentGetter = this.createTextDocumentGetter(uri, text);
document = {
parseResult,
uri,
state: DocumentState.Parsed,
references: [],
get textDocument() {
return textDocumentGetter();
}
};
}
parseResult.value.$document = document;
return document;
}
async update(document, cancellationToken) {
const oldText = document.parseResult.value.$cstNode?.root.fullText;
const textDocument = this.textDocuments?.get(document.uri.toString());
const text = textDocument ? textDocument.getText() : await this.fileSystemProvider.readFile(document.uri);
if (textDocument) {
Object.defineProperty(document, "textDocument", {
value: textDocument
});
} else {
const textDocumentGetter = this.createTextDocumentGetter(document.uri, text);
Object.defineProperty(document, "textDocument", {
get: textDocumentGetter
});
}
if (oldText !== text) {
document.parseResult = await this.parseAsync(document.uri, text, cancellationToken);
document.parseResult.value.$document = document;
}
document.state = DocumentState.Parsed;
return document;
}
parse(uri, text, options) {
const services = this.serviceRegistry.getServices(uri);
return services.parser.LangiumParser.parse(text, options);
}
parseAsync(uri, text, cancellationToken) {
const services = this.serviceRegistry.getServices(uri);
return services.parser.AsyncParser.parse(text, cancellationToken);
}
createTextDocumentGetter(uri, text) {
const serviceRegistry = this.serviceRegistry;
let textDoc = void 0;
return () => {
return textDoc ?? (textDoc = TextDocument2.create(uri.toString(), serviceRegistry.getServices(uri).LanguageMetaData.languageId, 0, text ?? ""));
};
}
};
var DefaultLangiumDocuments = class {
static {
__name(this, "DefaultLangiumDocuments");
}
constructor(services) {
this.documentTrie = new UriTrie();
this.services = services;
this.langiumDocumentFactory = services.workspace.LangiumDocumentFactory;
this.documentBuilder = () => services.workspace.DocumentBuilder;
}
get all() {
return stream(this.documentTrie.all());
}
addDocument(document) {
const uriString = document.uri.toString();
if (this.documentTrie.has(uriString)) {
throw new Error(`A document with the URI '${uriString}' is already present.`);
}
this.documentTrie.insert(uriString, document);
}
getDocument(uri) {
const uriString = uri.toString();
return this.documentTrie.find(uriString);
}
getDocuments(folder) {
const uriString = folder.toString();
return this.documentTrie.findAll(uriString);
}
async getOrCreateDocument(uri, cancellationToken) {
let document = this.getDocument(uri);
if (document) {
return document;
}
document = await this.langiumDocumentFactory.fromUri(uri, cancellationToken);
this.addDocument(document);
return document;
}
createDocument(uri, text, cancellationToken) {
if (cancellationToken) {
return this.langiumDocumentFactory.fromString(text, uri, cancellationToken).then((document) => {
this.addDocument(document);
return document;
});
} else {
const document = this.langiumDocumentFactory.fromString(text, uri);
this.addDocument(document);
return document;
}
}
hasDocument(uri) {
return this.documentTrie.has(uri.toString());
}
/**
* @deprecated Since 4.2 use `DocumentBuilder.resetToState(DocumentState.Changed)` instead
* TODO remove this for the next major release
*/
invalidateDocument(uri) {
const uriString = uri.toString();
const langiumDoc = this.documentTrie.find(uriString);
if (langiumDoc) {
this.documentBuilder().resetToState(langiumDoc, DocumentState.Changed);
}
return langiumDoc;
}
deleteDocument(uri) {
const uriString = uri.toString();
const langiumDoc = this.documentTrie.find(uriString);
if (langiumDoc) {
langiumDoc.state = DocumentState.Changed;
this.documentTrie.delete(uriString);
}
return langiumDoc;
}
deleteDocuments(folder) {
const uriString = folder.toString();
const langiumDocs = this.documentTrie.findAll(uriString);
for (const langiumDoc of langiumDocs) {
langiumDoc.state = DocumentState.Changed;
}
this.documentTrie.delete(uriString);
return langiumDocs;
}
};
// ../../node_modules/.pnpm/langium@4.2.0/node_modules/langium/lib/references/linker.js
var RefResolving = Symbol("RefResolving");
var DefaultLinker = class {
static {
__name(this, "DefaultLinker");
}
constructor(services) {
this.reflection = services.shared.AstReflection;
this.langiumDocuments = () => services.shared.workspace.LangiumDocuments;
this.scopeProvider = services.references.ScopeProvider;
this.astNodeLocator = services.workspace.AstNodeLocator;
this.profiler = services.shared.profilers.LangiumProfiler;
this.languageId = services.LanguageMetaData.languageId;
}
async link(document, cancelToken = cancellation_exports.CancellationToken.None) {
if (this.profiler?.isActive("linking")) {
const task = this.profiler.createTask("linking", this.languageId);
task.start();
try {
for (const node of streamAst(document.parseResult.value)) {
await interruptAndCheck(cancelToken);
streamReferences(node).forEach((ref) => {
const name = `${node.$type}:${ref.property}`;
task.startSubTask(name);
try {
this.doLink(ref, document);
} finally {
task.stopSubTask(name);
}
});
}
} finally {
task.stop();
}
} else {
for (const node of streamAst(document.parseResult.value)) {
await interruptAndCheck(cancelToken);
streamReferences(node).forEach((ref) => this.doLink(ref, document));
}
}
}
doLink(refInfo, document) {
const ref = refInfo.reference;
if ("_ref" in ref && ref._ref === void 0) {
ref._ref = RefResolving;
try {
const description = this.getCandidate(refInfo);
if (isLinkingError(description)) {
ref._ref = description;
} else {
ref._nodeDescription = description;
const linkedNode = this.loadAstNode(description);
ref._ref = linkedNode ?? this.createLinkingError(refInfo, description);
}
} catch (err) {
console.error(`An error occurred while resolving reference to '${ref.$refText}':`, err);
const errorMessage = err.message ?? String(err);
ref._ref = {
info: refInfo,
message: `An error occurred while resolving reference to '${ref.$refText}': ${errorMessage}`
};
}
document.references.push(ref);
} else if ("_items" in ref && ref._items === void 0) {
ref._items = RefResolving;
try {
const descriptions = this.getCandidates(refInfo);
const items = [];
if (isLinkingError(descriptions)) {
ref._linkingError = descriptions;
} else {
for (const description of descriptions) {
const linkedNode = this.loadAstNode(description);
if (linkedNode) {
items.push({ ref: linkedNode, $nodeDescription: description });
}
}
}
ref._items = items;
} catch (err) {
ref._linkingError = {
info: refInfo,
message: `An error occurred while resolving reference to '${ref.$refText}': ${err}`
};
ref._items = [];
}
document.references.push(ref);
}
}
unlink(document) {
for (const ref of document.references) {
if ("_ref" in ref) {
ref._ref = void 0;
delete ref._nodeDescription;
} else if ("_items" in ref) {
ref._items = void 0;
delete ref._linkingError;
}
}
document.references = [];
}
getCandidate(refInfo) {
const scope = this.scopeProvider.getScope(refInfo);
const description = scope.getElement(refInfo.reference.$refText);
return description ?? this.createLinkingError(refInfo);
}
getCandidates(refInfo) {
const scope = this.scopeProvider.getScope(refInfo);
const descriptions = scope.getElements(refInfo.reference.$refText).distinct((desc) => `${desc.documentUri}#${desc.path}`).toArray();
return descriptions.length > 0 ? descriptions : this.createLinkingError(refInfo);
}
buildReference(node, property2, refNode, refText) {
const linker = this;
const reference = {
$refNode: refNode,
$refText: refText,
_ref: void 0,
get ref() {
if (isAstNode(this._ref)) {
return this._ref;
} else if (isAstNodeDescription(this._nodeDescription)) {
const linkedNode = linker.loadAstNode(this._nodeDescription);
this._ref = linkedNode ?? linker.createLinkingError({ reference, container: node, property: property2 }, this._nodeDescription);
} else if (this._ref === void 0) {
this._ref = RefResolving;
const document = findRootNode(node).$document;
const refData = linker.getLinkedNode({ reference, container: node, property: property2 });
if (refData.error && document && document.state < DocumentState.ComputedScopes) {
return this._ref = void 0;
}
this._ref = refData.node ?? refData.error;
this._nodeDescription = refData.descr;
document?.references.push(this);
} else if (this._ref === RefResolving) {
linker.throwCyclicReferenceError(node, property2, refText);
}
return isAstNode(this._ref) ? this._ref : void 0;
},
get $nodeDescription() {
return this._nodeDescription;
},
get error() {
return isLinkingError(this._ref) ? this._ref : void 0;
}
};
return reference;
}
buildMultiReference(node, property2, refNode, refText) {
const linker = this;
const reference = {
$refNode: refNode,
$refText: refText,
_items: void 0,
get items() {
if (Array.isArray(this._items)) {
return this._items;
} else if (this._items === void 0) {
this._items = RefResolving;
const document = findRootNode(node).$document;
const descriptions = linker.getCandidates({
reference,
container: node,
property: property2
});
const items = [];
if (isLinkingError(descriptions)) {
this._linkingError = descriptions;
} else {
for (const description of descriptions) {
const linkedNode = linker.loadAstNode(description);
if (linkedNode) {
items.push({ ref: linkedNode, $nodeDescription: description });
}
}
}
this._items = items;
document?.references.push(this);
} else if (this._items === RefResolving) {
linker.throwCyclicReferenceError(node, property2, refText);
}
return Array.isArray(this._items) ? this._items : [];
},
get error() {
if (this._linkingError) {
return this._linkingError;
}
const refs = this.items;
if (refs.length > 0) {
return void 0;
} else {
return this._linkingError = linker.createLinkingError({ reference, container: node, property: property2 });
}
}
};
return reference;
}
throwCyclicReferenceError(node, property2, refText) {
throw new Error(`Cyclic reference resolution detected: ${this.astNodeLocator.getAstNodePath(node)}/${property2} (symbol '${refText}')`);
}
getLinkedNode(refInfo) {
try {
const description = this.getCandidate(refInfo);
if (isLinkingError(description)) {
return { error: description };
}
const linkedNode = this.loadAstNode(description);
if (linkedNode) {
return { node: linkedNode, descr: description };
} else {
return {
descr: description,
error: this.createLinkingError(refInfo, description)
};
}
} catch (err) {
console.error(`An error occurred while resolving reference to '${refInfo.reference.$refText}':`, err);
const errorMessage = err.message ?? String(err);
return {
error: {
info: refInfo,
message: `An error occurred while resolving reference to '${refInfo.reference.$refText}': ${errorMessage}`
}
};
}
}
loadAstNode(nodeDescription) {
if (nodeDescription.node) {
return nodeDescription.node;
}
const doc = this.langiumDocuments().getDocument(nodeDescription.documentUri);
if (!doc) {
return void 0;
}
return this.astNodeLocator.getAstNode(doc.parseResult.value, nodeDescription.path);
}
createLinkingError(refInfo, targetDescription) {
const document = findRootNode(refInfo.container).$document;
if (document && document.state < DocumentState.ComputedScopes) {
console.warn(`Attempted reference resolution before document reached ComputedScopes state (${document.uri}).`);
}
const referenceType = this.reflection.getReferenceType(refInfo);
return {
info: refInfo,
message: `Could not resolve reference to ${referenceType} named '${refInfo.reference.$refText}'.`,
targetDescription
};
}
};
// ../../node_modules/.pnpm/langium@4.2.0/node_modules/langium/lib/references/name-provider.js
function isNamed(node) {
return typeof node.name === "string";
}
__name(isNamed, "isNamed");
var DefaultNameProvider = class {
static {
__name(this, "DefaultNameProvider");
}
getName(node) {
if (isNamed(node)) {
return node.name;
}
return void 0;
}
getNameNode(node) {
return findNodeForProperty(node.$cstNode, "name");
}
};
// ../../node_modules/.pnpm/langium@4.2.0/node_modules/langium/lib/references/references.js
var DefaultReferences = class {
static {
__name(this, "DefaultReferences");
}
constructor(services) {
this.nameProvider = services.references.NameProvider;
this.index = services.shared.workspace.IndexManager;
this.nodeLocator = services.workspace.AstNodeLocator;
this.documents = services.shared.workspace.LangiumDocuments;
this.hasMultiReference = streamAst(services.Grammar).some((node) => isCrossReference(node) && node.isMulti);
}
findDeclarations(sourceCstNode) {
if (sourceCstNode) {
const assignment = findAssignment(sourceCstNode);
const nodeElem = sourceCstNode.astNode;
if (assignment && nodeElem) {
const reference = nodeElem[assignment.feature];
if (isReference(reference) || isMultiReference(reference)) {
return getReferenceNodes(reference);
} else if (Array.isArray(reference)) {
for (const ref of reference) {
if ((isReference(ref) || isMultiReference(ref)) && ref.$refNode && ref.$refNode.offset <= sourceCstNode.offset && ref.$refNode.end >= sourceCstNode.end) {
return getReferenceNodes(ref);
}
}
}
}
if (nodeElem) {
const nameNode = this.nameProvider.getNameNode(nodeElem);
if (nameNode && (nameNode === sourceCstNode || isChildNode(sourceCstNode, nameNode))) {
return this.getSelfNodes(nodeElem);
}
}
}
return [];
}
/**
* Returns all self-references for the specified node.
* Since the node can be part of a multi-reference, this method returns all nodes that are part of the same multi-reference.
*/
getSelfNodes(node) {
if (!this.hasMultiReference) {
return [node];
} else {
const references = this.index.findAllReferences(node, this.nodeLocator.getAstNodePath(node));
const headNode = this.getNodeFromReferenceDescription(references.head());
if (headNode) {
for (const ref of streamReferences(headNode)) {
if (isMultiReference(ref.reference) && ref.reference.items.some((item) => item.ref === node)) {
return ref.reference.items.map((item) => item.ref);
}
}
}
return [node];
}
}
getNodeFromReferenceDescription(ref) {
if (!ref) {
return void 0;
}
const doc = this.documents.getDocument(ref.sourceUri);
if (doc) {
return this.nodeLocator.getAstNode(doc.parseResult.value, ref.sourcePath);
}
return void 0;
}
findDeclarationNodes(sourceCstNode) {
const astNodes = this.findDeclarations(sourceCstNode);
const cstNodes = [];
for (const astNode of astNodes) {
const cstNode = this.nameProvider.getNameNode(astNode) ?? astNode.$cstNode;
if (cstNode) {
cstNodes.push(cstNode);
}
}
return cstNodes;
}
findReferences(targetNode, options) {
const refs = [];
if (options.includeDeclaration) {
refs.push(...this.getSelfReferences(targetNode));
}
let indexReferences = this.index.findAllReferences(targetNode, this.nodeLocator.getAstNodePath(targetNode));
if (options.documentUri) {
indexReferences = indexReferences.filter((ref) => UriUtils.equals(ref.sourceUri, options.documentUri));
}
refs.push(...indexReferences);
return stream(refs);
}
getSelfReferences(targetNode) {
const selfNodes = this.getSelfNodes(targetNode);
const references = [];
for (const selfNode of selfNodes) {
const nameNode = this.nameProvider.getNameNode(selfNode);
if (nameNode) {
const doc = getDocument(selfNode);
const path = this.nodeLocator.getAstNodePath(selfNode);
references.push({
sourceUri: doc.uri,
sourcePath: path,
targetUri: doc.uri,
targetPath: path,
segment: toDocumentSegment(nameNode),
local: true
});
}
}
return references;
}
};
// ../../node_modules/.pnpm/langium@4.2.0/node_modules/langium/lib/utils/collections.js
var MultiMap = class {
static {
__name(this, "MultiMap");
}
constructor(elements) {
this.map = /* @__PURE__ */ new Map();
if (elements) {
for (const [key, value] of elements) {
this.add(key, value);
}
}
}
/**
* The total number of values in the multimap.
*/
get size() {
return Reduction.sum(stream(this.map.values()).map((a) => a.length));
}
/**
* Clear all entries in the multimap.
*/
clear() {
this.map.clear();
}
/**
* Operates differently depending on whether a `value` is given:
* * With a value, this method deletes the specific key / value pair from the multimap.
* * Without a value, all values associated with the given key are deleted.
*
* @returns `true` if a value existed and has been removed, or `false` if the specified
* key / value does not exist.
*/
delete(key, value) {
if (value === void 0) {
return this.map.delete(key);
} else {
const values2 = this.map.get(key);
if (values2) {
const index = values2.indexOf(value);
if (index >= 0) {
if (values2.length === 1) {
this.map.delete(key);
} else {
values2.splice(index, 1);
}
return true;
}
}
return false;
}
}
/**
* Returns an array of all values associated with the given key. If no value exists,
* an empty array is returned.
*
* _Note:_ The returned array is assumed not to be modified. Use the `set` method to add a
* value and `delete` to remove a value from the multimap.
*/
get(key) {
return this.map.get(key) ?? [];
}
/**
* Returns a stream of all values associated with the given key. If no value exists,
* {@link EMPTY_STREAM} is returned.
*/
getStream(key) {
const values2 = this.map.get(key);
return values2 ? stream(values2) : EMPTY_STREAM;
}
/**
* Operates differently depending on whether a `value` is given:
* * With a value, this method returns `true` if the specific key / value pair is present in the multimap.
* * Without a value, this method returns `true` if the given key is present in the multimap.
*/
has(key, value) {
if (value === void 0) {
return this.map.has(key);
} else {
const values2 = this.map.get(key);
if (values2) {
return values2.indexOf(value) >= 0;
}
return false;
}
}
/**
* Add the given key / value pair to the multimap.
*/
add(key, value) {
if (this.map.has(key)) {
this.map.get(key).push(value);
} else {
this.map.set(key, [value]);
}
return this;
}
/**
* Add the given set of key / value pairs to the multimap.
*/
addAll(key, values2) {
if (this.map.has(key)) {
this.map.get(key).push(...values2);
} else {
this.map.set(key, Array.from(values2));
}
return this;
}
/**
* Invokes the given callback function for every key / value pair in the multimap.
*/
forEach(callbackfn) {
this.map.forEach((array, key) => array.forEach((value) => callbackfn(value, key, this)));
}
/**
* Returns an iterator of key, value pairs for every entry in the map.
*/
[Symbol.iterator]() {
return this.entries().iterator();
}
/**
* Returns a stream of key, value pairs for every entry in the map.
*/
entries() {
return stream(this.map.entries()).flatMap(([key, array]) => array.map((value) => [key, value]));
}
/**
* Returns a stream of keys in the map.
*/
keys() {
return stream(this.map.keys());
}
/**
* Returns a stream of values in the map.
*/
values() {
return stream(this.map.values()).flat();
}
/**
* Returns a stream of key, value set pairs for every key in the map.
*/
entriesGroupedByKey() {
return stream(this.map.entries());
}
};
var BiMap = class {
static {
__name(this, "BiMap");
}
get size() {
return this.map.size;
}
constructor(elements) {
this.map = /* @__PURE__ */ new Map();
this.inverse = /* @__PURE__ */ new Map();
if (elements) {
for (const [key, value] of elements) {
this.set(key, value);
}
}
}
clear() {
this.map.clear();
this.inverse.clear();
}
set(key, value) {
this.map.set(key, value);
this.inverse.set(value, key);
return this;
}
get(key) {
return this.map.get(key);
}
getKey(value) {
return this.inverse.get(value);
}
delete(key) {
const value = this.map.get(key);
if (value !== void 0) {
this.map.delete(key);
this.inverse.delete(value);
return true;
}
return false;
}
};
// ../../node_modules/.pnpm/langium@4.2.0/node_modules/langium/lib/references/scope-computation.js
var DefaultScopeComputation = class {
static {
__name(this, "DefaultScopeComputation");
}
constructor(services) {
this.nameProvider = services.references.NameProvider;
this.descriptions = services.workspace.AstNodeDescriptionProvider;
}
async collectExportedSymbols(document, cancelToken = cancellation_exports.CancellationToken.None) {
return this.collectExportedSymbolsForNode(document.parseResult.value, document, void 0, cancelToken);
}
/**
* Creates {@link AstNodeDescription AstNodeDescriptions} for the given {@link AstNode parentNode} and its children.
* The list of children to be considered is determined by the function parameter {@link children}.
* By default only the direct children of {@link parentNode} are visited, nested nodes are not exported.
*
* @param parentNode AST node to be exported, i.e., of which an {@link AstNodeDescription} shall be added to the returned list.
* @param document The document containing the AST node to be exported.
* @param children A function called with {@link parentNode} as single argument and returning an {@link Iterable} supplying the children to be visited, which must be directly or transitively contained in {@link parentNode}.
* @param cancelToken Indicates when to cancel the current operation.
* @throws `OperationCancelled` if a user action occurs during execution.
* @returns A list of {@link AstNodeDescription AstNodeDescriptions} to be published to index.
*/
async collectExportedSymbolsForNode(parentNode, document, children = streamContents, cancelToken = cancellation_exports.CancellationToken.None) {
const exports2 = [];
this.addExportedSymbol(parentNode, exports2, document);
for (const node of children(parentNode)) {
await interruptAndCheck(cancelToken);
this.addExportedSymbol(node, exports2, document);
}
return exports2;
}
/**
* Adds a single node to the list of exports if it has a name. Override this method to change how
* symbols are exported, e.g. by modifying their exported name.
*/
addExportedSymbol(node, exports2, document) {
const name = this.nameProvider.getName(node);
if (name) {
exports2.push(this.descriptions.createDescription(node, name, document));
}
}
// --- local symbols gathering ---
async collectLocalSymbols(document, cancelToken = cancellation_exports.CancellationToken.None) {
const rootNode = document.parseResult.value;
const symbols = new MultiMap();
for (const node of streamAllContents(rootNode)) {
await interruptAndCheck(cancelToken);
this.addLocalSymbol(node, document, symbols);
}
return symbols;
}
/**
* Adds a single node to the local symbols of its containing document if it has a name.
* The default implementation makes the node visible in the subtree of its container if it does have a container.
* Override this method to change this, e.g. by increasing the visibility to a higher level in the AST.
*/
addLocalSymbol(node, document, symbols) {
const container = node.$container;
if (container) {
const name = this.nameProvider.getName(node);
if (name) {
symbols.add(container, this.descriptions.createDescription(node, name, document));
}
}
}
};
// ../../node_modules/.pnpm/langium@4.2.0/node_modules/langium/lib/references/scope.js
var StreamScope = class {
static {
__name(this, "StreamScope");
}
constructor(elements, outerScope, options) {
this.elements = elements;
this.outerScope = outerScope;
this.caseInsensitive = options?.caseInsensitive ?? false;
this.concatOuterScope = options?.concatOuterScope ?? true;
}
getAllElements() {
if (this.outerScope) {
return this.elements.concat(this.outerScope.getAllElements());
} else {
return this.elements;
}
}
getElement(name) {
const lowerCaseName = this.caseInsensitive ? name.toLowerCase() : name;
const local = this.caseInsensitive ? this.elements.find((e) => e.name.toLowerCase() === lowerCaseName) : this.elements.find((e) => e.name === name);
if (local) {
return local;
}
if (this.outerScope) {
return this.outerScope.getElement(name);
}
return void 0;
}
getElements(name) {
const lowerCaseName = this.caseInsensitive ? name.toLowerCase() : name;
const local = this.caseInsensitive ? this.elements.filter((e) => e.name.toLowerCase() === lowerCaseName) : this.elements.filter((e) => e.name === name);
if ((this.concatOuterScope || local.isEmpty()) && this.outerScope) {
return local.concat(this.outerScope.getElements(name));
} else {
return local;
}
}
};
var MapScope = class {
static {
__name(this, "MapScope");
}
constructor(elements, outerScope, options) {
this.elements = /* @__PURE__ */ new Map();
this.caseInsensitive = options?.caseInsensitive ?? false;
this.concatOuterScope = options?.concatOuterScope ?? true;
for (const element of elements) {
const name = this.caseInsensitive ? element.name.toLowerCase() : element.name;
this.elements.set(name, element);
}
this.outerScope = outerScope;
}
getElement(name) {
const localName = this.caseInsensitive ? name.toLowerCase() : name;
const local = this.elements.get(localName);
if (local) {
return local;
}
if (this.outerScope) {
return this.outerScope.getElement(name);
}
return void 0;
}
getElements(name) {
const localName = this.caseInsensitive ? name.toLowerCase() : name;
const local = this.elements.get(localName);
const arr = local ? [local] : [];
if ((this.concatOuterScope || arr.length > 0) && this.outerScope) {
return stream(arr).concat(this.outerScope.getElements(name));
} else {
return stream(arr);
}
}
getAllElements() {
let elementStream = stream(this.elements.values());
if (this.outerScope) {
elementStream = elementStream.concat(this.outerScope.getAllElements());
}
return elementStream;
}
};
var MultiMapScope = class {
static {
__name(this, "MultiMapScope");
}
constructor(elements, outerScope, options) {
this.elements = new MultiMap();
this.caseInsensitive = options?.caseInsensitive ?? false;
this.concatOuterScope = options?.concatOuterScope ?? true;
for (const element of elements) {
const name = this.caseInsensitive ? element.name.toLowerCase() : element.name;
this.elements.add(name, element);
}
this.outerScope = outerScope;
}
getElement(name) {
const localName = this.caseInsensitive ? name.toLowerCase() : name;
const local = this.elements.get(localName)[0];
if (local) {
return local;
}
if (this.outerScope) {
return this.outerScope.getElement(name);
}
return void 0;
}
getElements(name) {
const localName = this.caseInsensitive ? name.toLowerCase() : name;
const local = this.elements.get(localName);
if ((this.concatOuterScope || local.length === 0) && this.outerScope) {
return stream(local).concat(this.outerScope.getElements(name));
} else {
return stream(local);
}
}
getAllElements() {
let elementStream = stream(this.elements.values());
if (this.outerScope) {
elementStream = elementStream.concat(this.outerScope.getAllElements());
}
return elementStream;
}
};
var EMPTY_SCOPE = {
getElement() {
return void 0;
},
getElements() {
return EMPTY_STREAM;
},
getAllElements() {
return EMPTY_STREAM;
}
};
// ../../node_modules/.pnpm/langium@4.2.0/node_modules/langium/lib/utils/caching.js
var DisposableCache = class {
static {
__name(this, "DisposableCache");
}
constructor() {
this.toDispose = [];
this.isDisposed = false;
}
onDispose(disposable) {
this.toDispose.push(disposable);
}
dispose() {
this.throwIfDisposed();
this.clear();
this.isDisposed = true;
this.toDispose.forEach((disposable) => disposable.dispose());
}
throwIfDisposed() {
if (this.isDisposed) {
throw new Error("This cache has already been disposed");
}
}
};
var SimpleCache = class extends DisposableCache {
static {
__name(this, "SimpleCache");
}
constructor() {
super(...arguments);
this.cache = /* @__PURE__ */ new Map();
}
has(key) {
this.throwIfDisposed();
return this.cache.has(key);
}
set(key, value) {
this.throwIfDisposed();
this.cache.set(key, value);
}
get(key, provider) {
this.throwIfDisposed();
if (this.cache.has(key)) {
return this.cache.get(key);
} else if (provider) {
const value = provider();
this.cache.set(key, value);
return value;
} else {
return void 0;
}
}
delete(key) {
this.throwIfDisposed();
return this.cache.delete(key);
}
clear() {
this.throwIfDisposed();
this.cache.clear();
}
};
var ContextCache = class extends DisposableCache {
static {
__name(this, "ContextCache");
}
constructor(converter) {
super();
this.cache = /* @__PURE__ */ new Map();
this.converter = converter ?? ((value) => value);
}
has(contextKey, key) {
this.throwIfDisposed();
return this.cacheForContext(contextKey).has(key);
}
set(contextKey, key, value) {
this.throwIfDisposed();
this.cacheForContext(contextKey).set(key, value);
}
get(contextKey, key, provider) {
this.throwIfDisposed();
const contextCache = this.cacheForContext(contextKey);
if (contextCache.has(key)) {
return contextCache.get(key);
} else if (provider) {
const value = provider();
contextCache.set(key, value);
return value;
} else {
return void 0;
}
}
delete(contextKey, key) {
this.throwIfDisposed();
return this.cacheForContext(contextKey).delete(key);
}
clear(contextKey) {
this.throwIfDisposed();
if (contextKey) {
const mapKey = this.converter(contextKey);
this.cache.delete(mapKey);
} else {
this.cache.clear();
}
}
cacheForContext(contextKey) {
const mapKey = this.converter(contextKey);
let documentCache = this.cache.get(mapKey);
if (!documentCache) {
documentCache = /* @__PURE__ */ new Map();
this.cache.set(mapKey, documentCache);
}
return documentCache;
}
};
var DocumentCache = class extends ContextCache {
static {
__name(this, "DocumentCache");
}
/**
* Creates a new document cache.
*
* @param sharedServices Service container instance to hook into document lifecycle events.
* @param state Optional document state on which the cache should evict.
* If not provided, the cache will evict on `DocumentBuilder#onUpdate`.
* *Deleted* documents are considered in both cases.
*
* Providing a state here will use `DocumentBuilder#onDocumentPhase` instead,
* which triggers on all documents that have been affected by this change, assuming that the
* state is `DocumentState.Linked` or a later state.
*/
constructor(sharedServices, state) {
super((uri) => uri.toString());
if (state) {
this.toDispose.push(sharedServices.workspace.DocumentBuilder.onDocumentPhase(state, (document) => {
this.clear(document.uri.toString());
}));
this.toDispose.push(sharedServices.workspace.DocumentBuilder.onUpdate((_changed, deleted) => {
for (const uri of deleted) {
this.clear(uri);
}
}));
} else {
this.toDispose.push(sharedServices.workspace.DocumentBuilder.onUpdate((changed, deleted) => {
const allUris = changed.concat(deleted);
for (const uri of allUris) {
this.clear(uri);
}
}));
}
}
};
var WorkspaceCache = class extends SimpleCache {
static {
__name(this, "WorkspaceCache");
}
/**
* Creates a new workspace cache.
*
* @param sharedServices Service container instance to hook into document lifecycle events.
* @param state Optional document state on which the cache should evict.
* If not provided, the cache will evict on `DocumentBuilder#onUpdate`.
* *Deleted* documents are considered in both cases.
*/
constructor(sharedServices, state) {
super();
if (state) {
this.toDispose.push(sharedServices.workspace.DocumentBuilder.onBuildPhase(state, () => {
this.clear();
}));
this.toDispose.push(sharedServices.workspace.DocumentBuilder.onUpdate((_changed, deleted) => {
if (deleted.length > 0) {
this.clear();
}
}));
} else {
this.toDispose.push(sharedServices.workspace.DocumentBuilder.onUpdate(() => {
this.clear();
}));
}
}
};
// ../../node_modules/.pnpm/langium@4.2.0/node_modules/langium/lib/references/scope-provider.js
var DefaultScopeProvider = class {
static {
__name(this, "DefaultScopeProvider");
}
constructor(services) {
this.reflection = services.shared.AstReflection;
this.nameProvider = services.references.NameProvider;
this.descriptions = services.workspace.AstNodeDescriptionProvider;
this.indexManager = services.shared.workspace.IndexManager;
this.globalScopeCache = new WorkspaceCache(services.shared);
}
getScope(context) {
const scopes = [];
const referenceType = this.reflection.getReferenceType(context);
const localSymbols = getDocument(context.container).localSymbols;
if (localSymbols) {
let currentNode = context.container;
do {
if (localSymbols.has(currentNode)) {
scopes.push(localSymbols.getStream(currentNode).filter((desc) => this.reflection.isSubtype(desc.type, referenceType)));
}
currentNode = currentNode.$container;
} while (currentNode);
}
let result = this.getGlobalScope(referenceType, context);
for (let i = scopes.length - 1; i >= 0; i--) {
result = this.createScope(scopes[i], result);
}
return result;
}
/**
* Create a scope for the given collection of AST node descriptions.
*/
createScope(elements, outerScope, options) {
return new StreamScope(stream(elements), outerScope, options);
}
/**
* Create a scope for the given collection of AST nodes, which need to be transformed into respective
* descriptions first. This is done using the `NameProvider` and `AstNodeDescriptionProvider` services.
*/
createScopeForNodes(elements, outerScope, options) {
const s = stream(elements).map((e) => {
const name = this.nameProvider.getName(e);
if (name) {
return this.descriptions.createDescription(e, name);
}
return void 0;
}).nonNullable();
return new StreamScope(s, outerScope, options);
}
/**
* Create a global scope filtered for the given reference type.
*/
getGlobalScope(referenceType, _context) {
return this.globalScopeCache.get(referenceType, () => new MultiMapScope(this.indexManager.allElements(referenceType)));
}
};
// ../../node_modules/.pnpm/langium@4.2.0/node_modules/langium/lib/serializer/json-serializer.js
function isAstNodeWithComment(node) {
return typeof node.$comment === "string";
}
__name(isAstNodeWithComment, "isAstNodeWithComment");
function isIntermediateReference(obj) {
return typeof obj === "object" && !!obj && ("$ref" in obj || "$error" in obj);
}
__name(isIntermediateReference, "isIntermediateReference");
var DefaultJsonSerializer = class {
static {
__name(this, "DefaultJsonSerializer");
}
constructor(services) {
this.ignoreProperties = /* @__PURE__ */ new Set(["$container", "$containerProperty", "$containerIndex", "$document", "$cstNode"]);
this.langiumDocuments = services.shared.workspace.LangiumDocuments;
this.astNodeLocator = services.workspace.AstNodeLocator;
this.nameProvider = services.references.NameProvider;
this.commentProvider = services.documentation.CommentProvider;
}
serialize(node, options) {
const serializeOptions = options ?? {};
const specificReplacer = options?.replacer;
const defaultReplacer = /* @__PURE__ */ __name((key, value) => this.replacer(key, value, serializeOptions), "defaultReplacer");
const replacer = specificReplacer ? (key, value) => specificReplacer(key, value, defaultReplacer) : defaultReplacer;
try {
this.currentDocument = getDocument(node);
return JSON.stringify(node, replacer, options?.space);
} finally {
this.currentDocument = void 0;
}
}
deserialize(content, options) {
const deserializeOptions = options ?? {};
const root2 = JSON.parse(content);
this.linkNode(root2, root2, deserializeOptions);
return root2;
}
replacer(key, value, { refText, sourceText, textRegions, comments, uriConverter }) {
if (this.ignoreProperties.has(key)) {
return void 0;
} else if (isReference(value)) {
const refValue = value.ref;
const $refText = refText ? value.$refText : void 0;
if (refValue) {
const targetDocument = getDocument(refValue);
let targetUri = "";
if (this.currentDocument && this.currentDocument !== targetDocument) {
if (uriConverter) {
targetUri = uriConverter(targetDocument.uri, refValue);
} else {
targetUri = targetDocument.uri.toString();
}
}
const targetPath = this.astNodeLocator.getAstNodePath(refValue);
return {
$ref: `${targetUri}#${targetPath}`,
$refText
};
} else {
return {
$error: value.error?.message ?? "Could not resolve reference",
$refText
};
}
} else if (isMultiReference(value)) {
const $refText = refText ? value.$refText : void 0;
const $refs = [];
for (const item of value.items) {
const refValue = item.ref;
const targetDocument = getDocument(item.ref);
let targetUri = "";
if (this.currentDocument && this.currentDocument !== targetDocument) {
if (uriConverter) {
targetUri = uriConverter(targetDocument.uri, refValue);
} else {
targetUri = targetDocument.uri.toString();
}
}
const targetPath = this.astNodeLocator.getAstNodePath(refValue);
$refs.push(`${targetUri}#${targetPath}`);
}
return {
$refs,
$refText
};
} else if (isAstNode(value)) {
let astNode = void 0;
if (textRegions) {
astNode = this.addAstNodeRegionWithAssignmentsTo({ ...value });
if ((!key || value.$document) && astNode?.$textRegion) {
astNode.$textRegion.documentURI = this.currentDocument?.uri.toString();
}
}
if (sourceText && !key) {
astNode ?? (astNode = { ...value });
astNode.$sourceText = value.$cstNode?.text;
}
if (comments) {
astNode ?? (astNode = { ...value });
const comment = this.commentProvider.getComment(value);
if (comment) {
astNode.$comment = comment.replace(/\r/g, "");
}
}
return astNode ?? value;
} else {
return value;
}
}
addAstNodeRegionWithAssignmentsTo(node) {
const createDocumentSegment = /* @__PURE__ */ __name((cstNode) => ({
offset: cstNode.offset,
end: cstNode.end,
length: cstNode.length,
range: cstNode.range
}), "createDocumentSegment");
if (node.$cstNode) {
const textRegion = node.$textRegion = createDocumentSegment(node.$cstNode);
const assignments = textRegion.assignments = {};
Object.keys(node).filter((key) => !key.startsWith("$")).forEach((key) => {
const propertyAssignments = findNodesForProperty(node.$cstNode, key).map(createDocumentSegment);
if (propertyAssignments.length !== 0) {
assignments[key] = propertyAssignments;
}
});
return node;
}
return void 0;
}
linkNode(node, root2, options, container, containerProperty, containerIndex) {
for (const [propertyName, item] of Object.entries(node)) {
if (Array.isArray(item)) {
for (let index = 0; index < item.length; index++) {
const element = item[index];
if (isIntermediateReference(element)) {
item[index] = this.reviveReference(node, propertyName, root2, element, options);
} else if (isAstNode(element)) {
this.linkNode(element, root2, options, node, propertyName, index);
}
}
} else if (isIntermediateReference(item)) {
node[propertyName] = this.reviveReference(node, propertyName, root2, item, options);
} else if (isAstNode(item)) {
this.linkNode(item, root2, options, node, propertyName);
}
}
const mutable = node;
mutable.$container = container;
mutable.$containerProperty = containerProperty;
mutable.$containerIndex = containerIndex;
}
reviveReference(container, property2, root2, reference, options) {
let refText = reference.$refText;
let error = reference.$error;
let ref;
if (reference.$ref) {
const refNode = this.getRefNode(root2, reference.$ref, options.uriConverter);
if (isAstNode(refNode)) {
if (!refText) {
refText = this.nameProvider.getName(refNode);
}
return {
$refText: refText ?? "",
ref: refNode
};
} else {
error = refNode;
}
} else if (reference.$refs) {
const refs = [];
for (const refUri of reference.$refs) {
const refNode = this.getRefNode(root2, refUri, options.uriConverter);
if (isAstNode(refNode)) {
refs.push({ ref: refNode });
}
}
if (refs.length === 0) {
ref = {
$refText: refText ?? "",
items: refs
};
error ?? (error = "Could not resolve multi-reference");
} else {
return {
$refText: refText ?? "",
items: refs
};
}
}
if (error) {
ref ?? (ref = {
$refText: refText ?? "",
ref: void 0
});
ref.error = {
info: {
container,
property: property2,
reference: ref
},
message: error
};
return ref;
} else {
return void 0;
}
}
getRefNode(root2, uri, uriConverter) {
try {
const fragmentIndex = uri.indexOf("#");
if (fragmentIndex === 0) {
const node2 = this.astNodeLocator.getAstNode(root2, uri.substring(1));
if (!node2) {
return "Could not resolve path: " + uri;
}
return node2;
}
if (fragmentIndex < 0) {
const documentUri2 = uriConverter ? uriConverter(uri) : URI2.parse(uri);
const document2 = this.langiumDocuments.getDocument(documentUri2);
if (!document2) {
return "Could not find document for URI: " + uri;
}
return document2.parseResult.value;
}
const documentUri = uriConverter ? uriConverter(uri.substring(0, fragmentIndex)) : URI2.parse(uri.substring(0, fragmentIndex));
const document = this.langiumDocuments.getDocument(documentUri);
if (!document) {
return "Could not find document for URI: " + uri;
}
if (fragmentIndex === uri.length - 1) {
return document.parseResult.value;
}
const node = this.astNodeLocator.getAstNode(document.parseResult.value, uri.substring(fragmentIndex + 1));
if (!node) {
return "Could not resolve URI: " + uri;
}
return node;
} catch (err) {
return String(err);
}
}
};
// ../../node_modules/.pnpm/langium@4.2.0/node_modules/langium/lib/service-registry.js
var DefaultServiceRegistry = class {
static {
__name(this, "DefaultServiceRegistry");
}
/**
* @deprecated Since 3.1.0. Use the new `fileExtensionMap` (or `languageIdMap`) property instead.
*/
get map() {
return this.fileExtensionMap;
}
constructor(services) {
this.languageIdMap = /* @__PURE__ */ new Map();
this.fileExtensionMap = /* @__PURE__ */ new Map();
this.fileNameMap = /* @__PURE__ */ new Map();
this.textDocuments = services?.workspace.TextDocuments;
}
register(language) {
const data = language.LanguageMetaData;
for (const ext of data.fileExtensions) {
if (this.fileExtensionMap.has(ext)) {
console.warn(`The file extension ${ext} is used by multiple languages. It is now assigned to '${data.languageId}'.`);
}
this.fileExtensionMap.set(ext, language);
}
if (data.fileNames) {
for (const name of data.fileNames) {
if (this.fileNameMap.has(name)) {
console.warn(`The file name ${name} is used by multiple languages. It is now assigned to '${data.languageId}'.`);
}
this.fileNameMap.set(name, language);
}
}
this.languageIdMap.set(data.languageId, language);
}
getServices(uri) {
if (this.languageIdMap.size === 0) {
throw new Error("The service registry is empty. Use `register` to register the services of a language.");
}
const languageId = this.textDocuments?.get(uri)?.languageId;
if (languageId !== void 0) {
const services2 = this.languageIdMap.get(languageId);
if (services2) {
return services2;
}
}
const ext = UriUtils.extname(uri);
const name = UriUtils.basename(uri);
const services = this.fileNameMap.get(name) ?? this.fileExtensionMap.get(ext);
if (!services) {
if (languageId) {
throw new Error(`The service registry contains no services for the extension '${ext}' for language '${languageId}'.`);
} else {
throw new Error(`The service registry contains no services for the extension '${ext}'.`);
}
}
return services;
}
hasServices(uri) {
try {
this.getServices(uri);
return true;
} catch {
return false;
}
}
get all() {
return Array.from(this.languageIdMap.values());
}
};
// ../../node_modules/.pnpm/langium@4.2.0/node_modules/langium/lib/validation/validation-registry.js
function diagnosticData(code) {
return { code };
}
__name(diagnosticData, "diagnosticData");
var ValidationCategory;
(function(ValidationCategory2) {
ValidationCategory2.defaults = ["fast", "slow", "built-in"];
ValidationCategory2.all = ValidationCategory2.defaults;
})(ValidationCategory || (ValidationCategory = {}));
var ValidationRegistry = class {
static {
__name(this, "ValidationRegistry");
}
constructor(services) {
this.entries = new MultiMap();
this.knownCategories = new Set(ValidationCategory.defaults);
this.entriesBefore = [];
this.entriesAfter = [];
this.reflection = services.shared.AstReflection;
}
/**
* Register a set of validation checks. Each value in the record can be either a single validation check (i.e. a function)
* or an array of validation checks.
*
* @param checksRecord Set of validation checks to register.
* @param thisObj Optional object to be used as `this` when calling the validation check functions.
* @param category Optional category for the validation checks (defaults to `'fast'`).
*/
register(checksRecord, thisObj = this, category = "fast") {
if (category === "built-in") {
throw new Error("The 'built-in' category is reserved for lexer, parser, and linker errors.");
}
this.knownCategories.add(category);
for (const [type, ch] of Object.entries(checksRecord)) {
const callbacks = ch;
if (Array.isArray(callbacks)) {
for (const check of callbacks) {
const entry = {
check: this.wrapValidationException(check, thisObj),
category
};
this.addEntry(type, entry);
}
} else if (typeof callbacks === "function") {
const entry = {
check: this.wrapValidationException(callbacks, thisObj),
category
};
this.addEntry(type, entry);
} else {
assertUnreachable(callbacks);
}
}
}
wrapValidationException(check, thisObj) {
return async (node, accept, cancelToken) => {
await this.handleException(() => check.call(thisObj, node, accept, cancelToken), "An error occurred during validation", accept, node);
};
}
async handleException(functionality, messageContext, accept, node) {
try {
await functionality();
} catch (err) {
if (isOperationCancelled(err)) {
throw err;
}
console.error(`${messageContext}:`, err);
if (err instanceof Error && err.stack) {
console.error(err.stack);
}
const messageDetails = err instanceof Error ? err.message : String(err);
accept("error", `${messageContext}: ${messageDetails}`, { node });
}
}
addEntry(type, entry) {
if (type === "AstNode") {
this.entries.add("AstNode", entry);
return;
}
for (const subtype of this.reflection.getAllSubTypes(type)) {
this.entries.add(subtype, entry);
}
}
getChecks(type, categories) {
let checks = stream(this.entries.get(type)).concat(this.entries.get("AstNode"));
if (categories) {
checks = checks.filter((entry) => categories.includes(entry.category));
}
return checks.map((entry) => entry.check);
}
/**
* Register logic which will be executed once before validating all the nodes of an AST/Langium document.
* This helps to prepare or initialize some information which are required or reusable for the following checks on the AstNodes.
*
* As an example, for validating unique fully-qualified names of nodes in the AST,
* here the map for mapping names to nodes could be established.
* During the usual checks on the nodes, they are put into this map with their name.
*
* Note that this approach makes validations stateful, which is relevant e.g. when cancelling the validation.
* Therefore it is recommended to clear stored information
* _before_ validating an AST to validate each AST unaffected from other ASTs
* AND _after_ validating the AST to free memory by information which are no longer used.
*
* @param checkBefore a set-up function which will be called once before actually validating an AST
* @param thisObj Optional object to be used as `this` when calling the validation check functions.
*/
registerBeforeDocument(checkBefore, thisObj = this) {
this.entriesBefore.push(this.wrapPreparationException(checkBefore, "An error occurred during set-up of the validation", thisObj));
}
/**
* Register logic which will be executed once after validating all the nodes of an AST/Langium document.
* This helps to finally evaluate information which are collected during the checks on the AstNodes.
*
* As an example, for validating unique fully-qualified names of nodes in the AST,
* here the map with all the collected nodes and their names is checked
* and validation hints are created for all nodes with the same name.
*
* Note that this approach makes validations stateful, which is relevant e.g. when cancelling the validation.
* Therefore it is recommended to clear stored information
* _before_ validating an AST to validate each AST unaffected from other ASTs
* AND _after_ validating the AST to free memory by information which are no longer used.
*
* @param checkBefore a set-up function which will be called once before actually validating an AST
* @param thisObj Optional object to be used as `this` when calling the validation check functions.
*/
registerAfterDocument(checkAfter, thisObj = this) {
this.entriesAfter.push(this.wrapPreparationException(checkAfter, "An error occurred during tear-down of the validation", thisObj));
}
wrapPreparationException(check, messageContext, thisObj) {
return async (rootNode, accept, categories, cancelToken) => {
await this.handleException(() => check.call(thisObj, rootNode, accept, categories, cancelToken), messageContext, accept, rootNode);
};
}
get checksBefore() {
return this.entriesBefore;
}
get checksAfter() {
return this.entriesAfter;
}
getAllValidationCategories(_document) {
return this.knownCategories;
}
};
// ../../node_modules/.pnpm/langium@4.2.0/node_modules/langium/lib/validation/document-validator.js
var VALIDATE_EACH_NODE = Object.freeze({
validateNode: true,
validateChildren: true
});
var DefaultDocumentValidator = class {
static {
__name(this, "DefaultDocumentValidator");
}
constructor(services) {
this.validationRegistry = services.validation.ValidationRegistry;
this.metadata = services.LanguageMetaData;
this.profiler = services.shared.profilers.LangiumProfiler;
this.languageId = services.LanguageMetaData.languageId;
}
async validateDocument(document, options = {}, cancelToken = cancellation_exports.CancellationToken.None) {
const parseResult = document.parseResult;
const diagnostics = [];
await interruptAndCheck(cancelToken);
if (!options.categories || options.categories.includes("built-in")) {
this.processLexingErrors(parseResult, diagnostics, options);
if (options.stopAfterLexingErrors && diagnostics.some((d) => d.data?.code === DocumentValidator.LexingError)) {
return diagnostics;
}
this.processParsingErrors(parseResult, diagnostics, options);
if (options.stopAfterParsingErrors && diagnostics.some((d) => d.data?.code === DocumentValidator.ParsingError)) {
return diagnostics;
}
this.processLinkingErrors(document, diagnostics, options);
if (options.stopAfterLinkingErrors && diagnostics.some((d) => d.data?.code === DocumentValidator.LinkingError)) {
return diagnostics;
}
}
try {
diagnostics.push(...await this.validateAst(parseResult.value, options, cancelToken));
} catch (err) {
if (isOperationCancelled(err)) {
throw err;
}
console.error("An error occurred during validation:", err);
}
await interruptAndCheck(cancelToken);
return diagnostics;
}
processLexingErrors(parseResult, diagnostics, _options) {
const lexerDiagnostics = [...parseResult.lexerErrors, ...parseResult.lexerReport?.diagnostics ?? []];
for (const lexerDiagnostic of lexerDiagnostics) {
const severity = lexerDiagnostic.severity ?? "error";
const diagnostic = {
severity: toDiagnosticSeverity(severity),
range: {
start: {
line: lexerDiagnostic.line - 1,
character: lexerDiagnostic.column - 1
},
end: {
line: lexerDiagnostic.line - 1,
character: lexerDiagnostic.column + lexerDiagnostic.length - 1
}
},
message: lexerDiagnostic.message,
data: toDiagnosticData(severity),
source: this.getSource()
};
diagnostics.push(diagnostic);
}
}
processParsingErrors(parseResult, diagnostics, _options) {
for (const parserError of parseResult.parserErrors) {
let range = void 0;
if (isNaN(parserError.token.startOffset)) {
if ("previousToken" in parserError) {
const token = parserError.previousToken;
if (!isNaN(token.startOffset)) {
const position = { line: token.endLine - 1, character: token.endColumn };
range = { start: position, end: position };
} else {
const position = { line: 0, character: 0 };
range = { start: position, end: position };
}
}
} else {
range = tokenToRange(parserError.token);
}
if (range) {
const diagnostic = {
severity: toDiagnosticSeverity("error"),
range,
message: parserError.message,
data: diagnosticData(DocumentValidator.ParsingError),
source: this.getSource()
};
diagnostics.push(diagnostic);
}
}
}
processLinkingErrors(document, diagnostics, _options) {
for (const reference of document.references) {
const linkingError = reference.error;
if (linkingError) {
const info = {
node: linkingError.info.container,
range: reference.$refNode?.range,
property: linkingError.info.property,
index: linkingError.info.index,
data: {
code: DocumentValidator.LinkingError,
containerType: linkingError.info.container.$type,
property: linkingError.info.property,
refText: linkingError.info.reference.$refText
}
};
diagnostics.push(this.toDiagnostic("error", linkingError.message, info));
}
}
}
async validateAst(rootNode, options, cancelToken = cancellation_exports.CancellationToken.None) {
const validationItems = [];
const acceptor = /* @__PURE__ */ __name((severity, message, info) => {
validationItems.push(this.toDiagnostic(severity, message, info));
}, "acceptor");
await this.validateAstBefore(rootNode, options, acceptor, cancelToken);
await this.validateAstNodes(rootNode, options, acceptor, cancelToken);
await this.validateAstAfter(rootNode, options, acceptor, cancelToken);
return validationItems;
}
async validateAstBefore(rootNode, options, acceptor, cancelToken = cancellation_exports.CancellationToken.None) {
const checksBefore = this.validationRegistry.checksBefore;
for (const checkBefore of checksBefore) {
await interruptAndCheck(cancelToken);
await checkBefore(rootNode, acceptor, options.categories ?? [], cancelToken);
}
}
async validateAstNodes(rootNode, options, acceptor, cancelToken = cancellation_exports.CancellationToken.None) {
if (this.profiler?.isActive("validating")) {
const task = this.profiler.createTask("validating", this.languageId);
task.start();
try {
const nodes = streamAst(rootNode).iterator();
for (const node of nodes) {
task.startSubTask(node.$type);
const nodeOptions = this.validateSingleNodeOptions(node, options);
if (nodeOptions.validateNode) {
try {
const checks = this.validationRegistry.getChecks(node.$type, options.categories);
for (const check of checks) {
await check(node, acceptor, cancelToken);
}
} finally {
task.stopSubTask(node.$type);
}
}
if (!nodeOptions.validateChildren) {
nodes.prune();
}
}
} finally {
task.stop();
}
} else {
const nodes = streamAst(rootNode).iterator();
for (const node of nodes) {
await interruptAndCheck(cancelToken);
const nodeOptions = this.validateSingleNodeOptions(node, options);
if (nodeOptions.validateNode) {
const checks = this.validationRegistry.getChecks(node.$type, options.categories);
for (const check of checks) {
await check(node, acceptor, cancelToken);
}
}
if (!nodeOptions.validateChildren) {
nodes.prune();
}
}
}
}
validateSingleNodeOptions(_node, _options) {
return VALIDATE_EACH_NODE;
}
async validateAstAfter(rootNode, options, acceptor, cancelToken = cancellation_exports.CancellationToken.None) {
const checksAfter = this.validationRegistry.checksAfter;
for (const checkAfter of checksAfter) {
await interruptAndCheck(cancelToken);
await checkAfter(rootNode, acceptor, options.categories ?? [], cancelToken);
}
}
toDiagnostic(severity, message, info) {
return {
message,
range: getDiagnosticRange(info),
severity: toDiagnosticSeverity(severity),
code: info.code,
codeDescription: info.codeDescription,
tags: info.tags,
relatedInformation: info.relatedInformation,
data: info.data,
source: this.getSource()
};
}
getSource() {
return this.metadata.languageId;
}
};
function getDiagnosticRange(info) {
if (info.range) {
return info.range;
}
let cstNode;
if (typeof info.property === "string") {
cstNode = findNodeForProperty(info.node.$cstNode, info.property, info.index);
} else if (typeof info.keyword === "string") {
cstNode = findNodeForKeyword(info.node.$cstNode, info.keyword, info.index);
}
cstNode ?? (cstNode = info.node.$cstNode);
if (!cstNode) {
return {
start: { line: 0, character: 0 },
end: { line: 0, character: 0 }
};
}
return cstNode.range;
}
__name(getDiagnosticRange, "getDiagnosticRange");
function toDiagnosticSeverity(severity) {
switch (severity) {
case "error":
return 1;
case "warning":
return 2;
case "info":
return 3;
case "hint":
return 4;
default:
throw new Error("Invalid diagnostic severity: " + severity);
}
}
__name(toDiagnosticSeverity, "toDiagnosticSeverity");
function toDiagnosticData(severity) {
switch (severity) {
case "error":
return diagnosticData(DocumentValidator.LexingError);
case "warning":
return diagnosticData(DocumentValidator.LexingWarning);
case "info":
return diagnosticData(DocumentValidator.LexingInfo);
case "hint":
return diagnosticData(DocumentValidator.LexingHint);
default:
throw new Error("Invalid diagnostic severity: " + severity);
}
}
__name(toDiagnosticData, "toDiagnosticData");
var DocumentValidator;
(function(DocumentValidator2) {
DocumentValidator2.LexingError = "lexing-error";
DocumentValidator2.LexingWarning = "lexing-warning";
DocumentValidator2.LexingInfo = "lexing-info";
DocumentValidator2.LexingHint = "lexing-hint";
DocumentValidator2.ParsingError = "parsing-error";
DocumentValidator2.LinkingError = "linking-error";
})(DocumentValidator || (DocumentValidator = {}));
// ../../node_modules/.pnpm/langium@4.2.0/node_modules/langium/lib/workspace/ast-descriptions.js
var DefaultAstNodeDescriptionProvider = class {
static {
__name(this, "DefaultAstNodeDescriptionProvider");
}
constructor(services) {
this.astNodeLocator = services.workspace.AstNodeLocator;
this.nameProvider = services.references.NameProvider;
}
createDescription(node, name, document) {
const doc = document ?? getDocument(node);
name ?? (name = this.nameProvider.getName(node));
const path = this.astNodeLocator.getAstNodePath(node);
if (!name) {
throw new Error(`Node at path ${path} has no name.`);
}
let nameNodeSegment;
const nameSegmentGetter = /* @__PURE__ */ __name(() => nameNodeSegment ?? (nameNodeSegment = toDocumentSegment(this.nameProvider.getNameNode(node) ?? node.$cstNode)), "nameSegmentGetter");
return {
node,
name,
get nameSegment() {
return nameSegmentGetter();
},
selectionSegment: toDocumentSegment(node.$cstNode),
type: node.$type,
documentUri: doc.uri,
path
};
}
};
var DefaultReferenceDescriptionProvider = class {
static {
__name(this, "DefaultReferenceDescriptionProvider");
}
constructor(services) {
this.nodeLocator = services.workspace.AstNodeLocator;
}
async createDescriptions(document, cancelToken = cancellation_exports.CancellationToken.None) {
const descr = [];
const rootNode = document.parseResult.value;
for (const astNode of streamAst(rootNode)) {
await interruptAndCheck(cancelToken);
streamReferences(astNode).forEach((refInfo) => {
if (!refInfo.reference.error) {
descr.push(...this.createInfoDescriptions(refInfo));
}
});
}
return descr;
}
createInfoDescriptions(refInfo) {
const reference = refInfo.reference;
if (reference.error || !reference.$refNode) {
return [];
}
let items = [];
if (isReference(reference) && reference.$nodeDescription) {
items = [reference.$nodeDescription];
} else if (isMultiReference(reference)) {
items = reference.items.map((e) => e.$nodeDescription).filter((e) => e !== void 0);
}
const sourceUri = getDocument(refInfo.container).uri;
const sourcePath = this.nodeLocator.getAstNodePath(refInfo.container);
const descriptions = [];
const segment = toDocumentSegment(reference.$refNode);
for (const item of items) {
descriptions.push({
sourceUri,
sourcePath,
targetUri: item.documentUri,
targetPath: item.path,
segment,
local: UriUtils.equals(item.documentUri, sourceUri)
});
}
return descriptions;
}
};
// ../../node_modules/.pnpm/langium@4.2.0/node_modules/langium/lib/workspace/ast-node-locator.js
var DefaultAstNodeLocator = class {
static {
__name(this, "DefaultAstNodeLocator");
}
constructor() {
this.segmentSeparator = "/";
this.indexSeparator = "@";
}
getAstNodePath(node) {
if (node.$container) {
const containerPath = this.getAstNodePath(node.$container);
const newSegment = this.getPathSegment(node);
const nodePath = containerPath + this.segmentSeparator + newSegment;
return nodePath;
}
return "";
}
getPathSegment({ $containerProperty, $containerIndex }) {
if (!$containerProperty) {
throw new Error("Missing '$containerProperty' in AST node.");
}
if ($containerIndex !== void 0) {
return $containerProperty + this.indexSeparator + $containerIndex;
}
return $containerProperty;
}
getAstNode(node, path) {
const segments = path.split(this.segmentSeparator);
return segments.reduce((previousValue, currentValue) => {
if (!previousValue || currentValue.length === 0) {
return previousValue;
}
const propertyIndex = currentValue.indexOf(this.indexSeparator);
if (propertyIndex > 0) {
const property2 = currentValue.substring(0, propertyIndex);
const arrayIndex = parseInt(currentValue.substring(propertyIndex + 1));
const array = previousValue[property2];
return array?.[arrayIndex];
}
return previousValue[currentValue];
}, node);
}
};
// ../../node_modules/.pnpm/langium@4.2.0/node_modules/langium/lib/utils/event.js
var event_exports = {};
__reExport(event_exports, __toESM(require_events(), 1));
// ../../node_modules/.pnpm/langium@4.2.0/node_modules/langium/lib/workspace/configuration.js
var DefaultConfigurationProvider = class {
static {
__name(this, "DefaultConfigurationProvider");
}
constructor(services) {
this._ready = new Deferred();
this.onConfigurationSectionUpdateEmitter = new event_exports.Emitter();
this.settings = {};
this.workspaceConfig = false;
this.serviceRegistry = services.ServiceRegistry;
}
get ready() {
return this._ready.promise;
}
initialize(params) {
this.workspaceConfig = params.capabilities.workspace?.configuration ?? false;
}
async initialized(params) {
if (this.workspaceConfig) {
if (params.register) {
const languages = this.serviceRegistry.all;
params.register({
// Listen to configuration changes for all languages
section: languages.map((lang) => this.toSectionName(lang.LanguageMetaData.languageId))
});
}
if (params.fetchConfiguration) {
const configToUpdate = this.serviceRegistry.all.map((lang) => ({
// Fetch the configuration changes for all languages
section: this.toSectionName(lang.LanguageMetaData.languageId)
}));
const configs = await params.fetchConfiguration(configToUpdate);
configToUpdate.forEach((conf, idx) => {
this.updateSectionConfiguration(conf.section, configs[idx]);
});
}
}
this._ready.resolve();
}
/**
* Updates the cached configurations using the `change` notification parameters.
*
* @param change The parameters of a change configuration notification.
* `settings` property of the change object could be expressed as `Record<string, Record<string, any>>`
*/
updateConfiguration(change) {
if (typeof change.settings !== "object" || change.settings === null) {
return;
}
Object.entries(change.settings).forEach(([section, configuration]) => {
this.updateSectionConfiguration(section, configuration);
this.onConfigurationSectionUpdateEmitter.fire({ section, configuration });
});
}
updateSectionConfiguration(section, configuration) {
this.settings[section] = configuration;
}
/**
* Returns a configuration value stored for the given language.
*
* @param language The language id
* @param configuration Configuration name
*/
async getConfiguration(language, configuration) {
await this.ready;
const sectionName = this.toSectionName(language);
if (this.settings[sectionName]) {
return this.settings[sectionName][configuration];
}
}
toSectionName(languageId) {
return `${languageId}`;
}
get onConfigurationSectionUpdate() {
return this.onConfigurationSectionUpdateEmitter.event;
}
};
// ../../node_modules/.pnpm/langium@4.2.0/node_modules/langium/lib/workspace/document-builder.js
var import_vscode_languageserver_protocol = __toESM(require_main2(), 1);
// ../../node_modules/.pnpm/langium@4.2.0/node_modules/langium/lib/utils/disposable.js
var Disposable;
(function(Disposable2) {
function create(callback) {
return {
dispose: /* @__PURE__ */ __name(async () => await callback(), "dispose")
};
}
__name(create, "create");
Disposable2.create = create;
})(Disposable || (Disposable = {}));
// ../../node_modules/.pnpm/langium@4.2.0/node_modules/langium/lib/workspace/document-builder.js
var DefaultDocumentBuilder = class {
static {
__name(this, "DefaultDocumentBuilder");
}
constructor(services) {
this.updateBuildOptions = {
// Default: run only the built-in validation checks and those in the _fast_ category (includes those without category)
validation: {
categories: ["built-in", "fast"]
}
};
this.updateListeners = [];
this.buildPhaseListeners = new MultiMap();
this.documentPhaseListeners = new MultiMap();
this.buildState = /* @__PURE__ */ new Map();
this.documentBuildWaiters = /* @__PURE__ */ new Map();
this.currentState = DocumentState.Changed;
this.langiumDocuments = services.workspace.LangiumDocuments;
this.langiumDocumentFactory = services.workspace.LangiumDocumentFactory;
this.textDocuments = services.workspace.TextDocuments;
this.indexManager = services.workspace.IndexManager;
this.fileSystemProvider = services.workspace.FileSystemProvider;
this.workspaceManager = () => services.workspace.WorkspaceManager;
this.serviceRegistry = services.ServiceRegistry;
}
async build(documents, options = {}, cancelToken = cancellation_exports.CancellationToken.None) {
for (const document of documents) {
const key = document.uri.toString();
if (document.state === DocumentState.Validated) {
if (typeof options.validation === "boolean" && options.validation) {
this.resetToState(document, DocumentState.IndexedReferences);
} else if (typeof options.validation === "object") {
const categories = this.findMissingValidationCategories(document, options);
if (categories.length > 0) {
this.buildState.set(key, {
completed: false,
options: {
validation: {
categories
}
},
result: this.buildState.get(key)?.result
});
document.state = DocumentState.IndexedReferences;
}
}
} else {
this.buildState.delete(key);
}
}
this.currentState = DocumentState.Changed;
await this.emitUpdate(documents.map((e) => e.uri), []);
await this.buildDocuments(documents, options, cancelToken);
}
async update(changed, deleted, cancelToken = cancellation_exports.CancellationToken.None) {
this.currentState = DocumentState.Changed;
const deletedUris = [];
for (const deletedUri of deleted) {
const deletedDocs = this.langiumDocuments.deleteDocuments(deletedUri);
for (const doc of deletedDocs) {
deletedUris.push(doc.uri);
this.cleanUpDeleted(doc);
}
}
const changedUris = (await Promise.all(changed.map((uri) => this.findChangedUris(uri)))).flat();
for (const changedUri of changedUris) {
let changedDocument = this.langiumDocuments.getDocument(changedUri);
if (changedDocument === void 0) {
changedDocument = this.langiumDocumentFactory.fromModel({ $type: "INVALID" }, changedUri);
changedDocument.state = DocumentState.Changed;
this.langiumDocuments.addDocument(changedDocument);
}
this.resetToState(changedDocument, DocumentState.Changed);
}
const allChangedUris = stream(changedUris).concat(deletedUris).map((uri) => uri.toString()).toSet();
this.langiumDocuments.all.filter((doc) => !allChangedUris.has(doc.uri.toString()) && this.shouldRelink(doc, allChangedUris)).forEach((doc) => this.resetToState(doc, DocumentState.ComputedScopes));
await this.emitUpdate(changedUris, deletedUris);
await interruptAndCheck(cancelToken);
const rebuildDocuments = this.sortDocuments(this.langiumDocuments.all.filter((doc) => (
// This includes those that were reported as changed and those that we selected for relinking
doc.state < DocumentState.Validated || !this.buildState.get(doc.uri.toString())?.completed || this.resultsAreIncomplete(doc, this.updateBuildOptions)
)).toArray());
await this.buildDocuments(rebuildDocuments, this.updateBuildOptions, cancelToken);
}
resultsAreIncomplete(document, options) {
return this.findMissingValidationCategories(document, options).length >= 1;
}
findMissingValidationCategories(document, options) {
const state = this.buildState.get(document.uri.toString());
const allCategories = this.serviceRegistry.getServices(document.uri).validation.ValidationRegistry.getAllValidationCategories(document);
const executedCategories = state?.result?.validationChecks ? new Set(state?.result?.validationChecks) : state?.completed ? allCategories : /* @__PURE__ */ new Set();
const requestedCategories = options === void 0 || options.validation === true ? allCategories : typeof options.validation === "object" ? options.validation.categories ?? allCategories : [];
return stream(requestedCategories).filter((requested) => !executedCategories.has(requested)).toArray();
}
async findChangedUris(changed) {
const document = this.langiumDocuments.getDocument(changed) ?? this.textDocuments?.get(changed);
if (document) {
return [changed];
}
try {
const stat = await this.fileSystemProvider.stat(changed);
if (stat.isDirectory) {
const uris = await this.workspaceManager().searchFolder(changed);
return uris;
} else if (this.workspaceManager().shouldIncludeEntry(stat)) {
return [changed];
}
} catch {
}
return [];
}
async emitUpdate(changed, deleted) {
await Promise.all(this.updateListeners.map((listener) => listener(changed, deleted)));
}
/**
* Sort the given documents by priority. By default, documents with an open text document are prioritized.
* This is useful to ensure that visible documents show their diagnostics before all other documents.
*
* This improves the responsiveness in large workspaces as users usually don't care about diagnostics
* in files that are currently not opened in the editor.
*/
sortDocuments(documents) {
let left = 0;
let right = documents.length - 1;
while (left < right) {
while (left < documents.length && this.hasTextDocument(documents[left])) {
left++;
}
while (right >= 0 && !this.hasTextDocument(documents[right])) {
right--;
}
if (left < right) {
[documents[left], documents[right]] = [documents[right], documents[left]];
}
}
return documents;
}
hasTextDocument(doc) {
return Boolean(this.textDocuments?.get(doc.uri));
}
/**
* Check whether the given document should be relinked after changes were found in the given URIs.
*/
shouldRelink(document, changedUris) {
if (document.references.some((ref) => ref.error !== void 0)) {
return true;
}
return this.indexManager.isAffected(document, changedUris);
}
onUpdate(callback) {
this.updateListeners.push(callback);
return Disposable.create(() => {
const index = this.updateListeners.indexOf(callback);
if (index >= 0) {
this.updateListeners.splice(index, 1);
}
});
}
resetToState(document, state) {
switch (state) {
case DocumentState.Changed: {
}
case DocumentState.Parsed:
this.indexManager.removeContent(document.uri);
// Fall through
case DocumentState.IndexedContent:
document.localSymbols = void 0;
// Fall through
case DocumentState.ComputedScopes: {
const linker = this.serviceRegistry.getServices(document.uri).references.Linker;
linker.unlink(document);
}
case DocumentState.Linked:
this.indexManager.removeReferences(document.uri);
// Fall through
case DocumentState.IndexedReferences:
document.diagnostics = void 0;
this.buildState.delete(document.uri.toString());
// Fall through
case DocumentState.Validated:
}
if (document.state > state) {
document.state = state;
}
}
cleanUpDeleted(document) {
this.buildState.delete(document.uri.toString());
this.indexManager.remove(document.uri);
document.state = DocumentState.Changed;
}
/**
* Build the given documents by stepping through all build phases. If a document's state indicates
* that a certain build phase is already done, the phase is skipped for that document.
*
* @param documents The documents to build.
* @param options the {@link BuildOptions} to use.
* @param cancelToken A cancellation token that can be used to cancel the build.
* @returns A promise that resolves when the build is done.
*/
async buildDocuments(documents, options, cancelToken) {
this.prepareBuild(documents, options);
await this.runCancelable(documents, DocumentState.Parsed, cancelToken, (doc) => this.langiumDocumentFactory.update(doc, cancelToken));
await this.runCancelable(documents, DocumentState.IndexedContent, cancelToken, (doc) => this.indexManager.updateContent(doc, cancelToken));
await this.runCancelable(documents, DocumentState.ComputedScopes, cancelToken, async (doc) => {
const scopeComputation = this.serviceRegistry.getServices(doc.uri).references.ScopeComputation;
doc.localSymbols = await scopeComputation.collectLocalSymbols(doc, cancelToken);
});
const toBeLinked = documents.filter((doc) => this.shouldLink(doc));
await this.runCancelable(toBeLinked, DocumentState.Linked, cancelToken, (doc) => {
const linker = this.serviceRegistry.getServices(doc.uri).references.Linker;
return linker.link(doc, cancelToken);
});
await this.runCancelable(toBeLinked, DocumentState.IndexedReferences, cancelToken, (doc) => this.indexManager.updateReferences(doc, cancelToken));
const toBeValidated = documents.filter((doc) => {
if (this.shouldValidate(doc)) {
return true;
} else {
this.markAsCompleted(doc);
return false;
}
});
await this.runCancelable(toBeValidated, DocumentState.Validated, cancelToken, async (doc) => {
await this.validate(doc, cancelToken);
this.markAsCompleted(doc);
});
}
markAsCompleted(document) {
const state = this.buildState.get(document.uri.toString());
if (state) {
state.completed = true;
}
}
/**
* Runs prior to beginning the build process to update the {@link DocumentBuildState} for each document
*
* @param documents collection of documents to be built
* @param options the {@link BuildOptions} to use
*/
prepareBuild(documents, options) {
for (const doc of documents) {
const key = doc.uri.toString();
const state = this.buildState.get(key);
if (!state || state.completed) {
this.buildState.set(key, {
completed: false,
options,
result: state?.result
});
} else {
}
}
}
/**
* Runs a cancelable operation on a set of documents to bring them to a specified {@link DocumentState}.
*
* @param documents The array of documents to process.
* @param targetState The target {@link DocumentState} to bring the documents to.
* @param cancelToken A token that can be used to cancel the operation.
* @param callback A function to be called for each document.
* @returns A promise that resolves when all documents have been processed or the operation is canceled.
* @throws Will throw `OperationCancelled` if the operation is canceled via a `CancellationToken`.
*/
async runCancelable(documents, targetState, cancelToken, callback) {
for (const document of documents) {
if (document.state < targetState) {
await interruptAndCheck(cancelToken);
await callback(document);
document.state = targetState;
await this.notifyDocumentPhase(document, targetState, cancelToken);
}
}
const targetStateDocs = documents.filter((doc) => doc.state === targetState);
await this.notifyBuildPhase(targetStateDocs, targetState, cancelToken);
this.currentState = targetState;
}
onBuildPhase(targetState, callback) {
this.buildPhaseListeners.add(targetState, callback);
return Disposable.create(() => {
this.buildPhaseListeners.delete(targetState, callback);
});
}
onDocumentPhase(targetState, callback) {
this.documentPhaseListeners.add(targetState, callback);
return Disposable.create(() => {
this.documentPhaseListeners.delete(targetState, callback);
});
}
waitUntil(state, uriOrToken, cancelToken) {
let uri = void 0;
if (uriOrToken && "path" in uriOrToken) {
uri = uriOrToken;
} else {
cancelToken = uriOrToken;
}
cancelToken ?? (cancelToken = cancellation_exports.CancellationToken.None);
if (uri) {
return this.awaitDocumentState(state, uri, cancelToken);
} else {
return this.awaitBuilderState(state, cancelToken);
}
}
awaitDocumentState(state, uri, cancelToken) {
const document = this.langiumDocuments.getDocument(uri);
if (!document) {
return Promise.reject(new import_vscode_languageserver_protocol.ResponseError(import_vscode_languageserver_protocol.LSPErrorCodes.ServerCancelled, `No document found for URI: ${uri.toString()}`));
} else if (document.state >= state) {
return Promise.resolve(uri);
} else if (cancelToken.isCancellationRequested) {
return Promise.reject(OperationCancelled);
} else if (this.currentState >= state && state > document.state) {
return Promise.reject(new import_vscode_languageserver_protocol.ResponseError(import_vscode_languageserver_protocol.LSPErrorCodes.RequestFailed, `Document state of ${uri.toString()} is ${DocumentState[document.state]}, requiring ${DocumentState[state]}, but workspace state is already ${DocumentState[this.currentState]}. Returning undefined.`));
}
return new Promise((resolve, reject2) => {
const buildDisposable = this.onDocumentPhase(state, (doc) => {
if (UriUtils.equals(doc.uri, uri)) {
buildDisposable.dispose();
cancelDisposable.dispose();
resolve(doc.uri);
}
});
const cancelDisposable = cancelToken.onCancellationRequested(() => {
buildDisposable.dispose();
cancelDisposable.dispose();
reject2(OperationCancelled);
});
});
}
awaitBuilderState(state, cancelToken) {
if (this.currentState >= state) {
return Promise.resolve();
} else if (cancelToken.isCancellationRequested) {
return Promise.reject(OperationCancelled);
}
return new Promise((resolve, reject2) => {
const buildDisposable = this.onBuildPhase(state, () => {
buildDisposable.dispose();
cancelDisposable.dispose();
resolve();
});
const cancelDisposable = cancelToken.onCancellationRequested(() => {
buildDisposable.dispose();
cancelDisposable.dispose();
reject2(OperationCancelled);
});
});
}
async notifyDocumentPhase(document, state, cancelToken) {
const listeners = this.documentPhaseListeners.get(state);
const listenersCopy = listeners.slice();
for (const listener of listenersCopy) {
try {
await interruptAndCheck(cancelToken);
await listener(document, cancelToken);
} catch (err) {
if (!isOperationCancelled(err)) {
throw err;
}
}
}
}
async notifyBuildPhase(documents, state, cancelToken) {
if (documents.length === 0) {
return;
}
const listeners = this.buildPhaseListeners.get(state);
const listenersCopy = listeners.slice();
for (const listener of listenersCopy) {
await interruptAndCheck(cancelToken);
await listener(documents, cancelToken);
}
}
/**
* Determine whether the given document should be linked during a build. The default
* implementation checks the `eagerLinking` property of the build options. If it's set to `true`
* or `undefined`, the document is included in the linking phase. This also affects the
* references indexing phase, which depends on eager linking.
*/
shouldLink(document) {
return this.getBuildOptions(document).eagerLinking ?? true;
}
/**
* Determine whether the given document should be validated during a build. The default
* implementation checks the `validation` property of the build options. If it's set to `true`
* or a `ValidationOptions` object, the document is included in the validation phase.
*/
shouldValidate(document) {
return Boolean(this.getBuildOptions(document).validation);
}
/**
* Run validation checks on the given document and store the resulting diagnostics in the document.
* If the document already contains diagnostics, the new ones are added to the list.
*/
async validate(document, cancelToken) {
const validator = this.serviceRegistry.getServices(document.uri).validation.DocumentValidator;
const options = this.getBuildOptions(document);
const validationOptions = typeof options.validation === "object" ? { ...options.validation } : {};
validationOptions.categories = this.findMissingValidationCategories(document, options);
const diagnostics = await validator.validateDocument(document, validationOptions, cancelToken);
if (document.diagnostics) {
document.diagnostics.push(...diagnostics);
} else {
document.diagnostics = diagnostics;
}
const state = this.buildState.get(document.uri.toString());
if (state) {
state.result ?? (state.result = {});
if (state.result.validationChecks) {
state.result.validationChecks = stream(state.result.validationChecks).concat(validationOptions.categories).distinct().toArray();
} else {
state.result.validationChecks = [...validationOptions.categories];
}
}
}
getBuildOptions(document) {
return this.buildState.get(document.uri.toString())?.options ?? {};
}
};
// ../../node_modules/.pnpm/langium@4.2.0/node_modules/langium/lib/workspace/index-manager.js
var DefaultIndexManager = class {
static {
__name(this, "DefaultIndexManager");
}
constructor(services) {
this.symbolIndex = /* @__PURE__ */ new Map();
this.symbolByTypeIndex = new ContextCache();
this.referenceIndex = /* @__PURE__ */ new Map();
this.documents = services.workspace.LangiumDocuments;
this.serviceRegistry = services.ServiceRegistry;
this.astReflection = services.AstReflection;
}
findAllReferences(targetNode, astNodePath) {
const targetDocUri = getDocument(targetNode).uri;
const result = [];
this.referenceIndex.forEach((docRefs) => {
docRefs.forEach((refDescr) => {
if (UriUtils.equals(refDescr.targetUri, targetDocUri) && refDescr.targetPath === astNodePath) {
result.push(refDescr);
}
});
});
return stream(result);
}
allElements(nodeType, uris) {
let documentUris = stream(this.symbolIndex.keys());
if (uris) {
documentUris = documentUris.filter((uri) => !uris || uris.has(uri));
}
return documentUris.map((uri) => this.getFileDescriptions(uri, nodeType)).flat();
}
getFileDescriptions(uri, nodeType) {
if (!nodeType) {
return this.symbolIndex.get(uri) ?? [];
}
const descriptions = this.symbolByTypeIndex.get(uri, nodeType, () => {
const allFileDescriptions = this.symbolIndex.get(uri) ?? [];
return allFileDescriptions.filter((e) => this.astReflection.isSubtype(e.type, nodeType));
});
return descriptions;
}
remove(uri) {
this.removeContent(uri);
this.removeReferences(uri);
}
removeContent(uri) {
const uriString = uri.toString();
this.symbolIndex.delete(uriString);
this.symbolByTypeIndex.clear(uriString);
}
removeReferences(uri) {
const uriString = uri.toString();
this.referenceIndex.delete(uriString);
}
async updateContent(document, cancelToken = cancellation_exports.CancellationToken.None) {
const services = this.serviceRegistry.getServices(document.uri);
const exports2 = await services.references.ScopeComputation.collectExportedSymbols(document, cancelToken);
const uri = document.uri.toString();
this.symbolIndex.set(uri, exports2);
this.symbolByTypeIndex.clear(uri);
}
async updateReferences(document, cancelToken = cancellation_exports.CancellationToken.None) {
const services = this.serviceRegistry.getServices(document.uri);
const indexData = await services.workspace.ReferenceDescriptionProvider.createDescriptions(document, cancelToken);
this.referenceIndex.set(document.uri.toString(), indexData);
}
isAffected(document, changedUris) {
const references = this.referenceIndex.get(document.uri.toString());
if (!references) {
return false;
}
return references.some((ref) => !ref.local && changedUris.has(ref.targetUri.toString()));
}
};
// ../../node_modules/.pnpm/langium@4.2.0/node_modules/langium/lib/workspace/workspace-manager.js
var DefaultWorkspaceManager = class {
static {
__name(this, "DefaultWorkspaceManager");
}
constructor(services) {
this.initialBuildOptions = {};
this._ready = new Deferred();
this.serviceRegistry = services.ServiceRegistry;
this.langiumDocuments = services.workspace.LangiumDocuments;
this.documentBuilder = services.workspace.DocumentBuilder;
this.fileSystemProvider = services.workspace.FileSystemProvider;
this.mutex = services.workspace.WorkspaceLock;
}
get ready() {
return this._ready.promise;
}
get workspaceFolders() {
return this.folders;
}
initialize(params) {
this.folders = params.workspaceFolders ?? void 0;
}
initialized(_params) {
return this.mutex.write((token) => this.initializeWorkspace(this.folders ?? [], token));
}
async initializeWorkspace(folders, cancelToken = cancellation_exports.CancellationToken.None) {
const documents = await this.performStartup(folders);
await interruptAndCheck(cancelToken);
await this.documentBuilder.build(documents, this.initialBuildOptions, cancelToken);
}
/**
* Performs the uninterruptable startup sequence of the workspace manager.
* This methods loads all documents in the workspace and other documents and returns them.
*/
async performStartup(folders) {
const documents = [];
const collector = /* @__PURE__ */ __name((document) => {
documents.push(document);
if (!this.langiumDocuments.hasDocument(document.uri)) {
this.langiumDocuments.addDocument(document);
}
}, "collector");
await this.loadAdditionalDocuments(folders, collector);
const uris = [];
await Promise.all(folders.map((wf) => this.getRootFolder(wf)).map(async (entry) => this.traverseFolder(entry, uris)));
const uniqueUris = stream(uris).distinct((uri) => uri.toString()).filter((uri) => !this.langiumDocuments.hasDocument(uri));
await this.loadWorkspaceDocuments(uniqueUris, collector);
this._ready.resolve();
return documents;
}
async loadWorkspaceDocuments(uris, collector) {
await Promise.all(uris.map(async (uri) => {
const document = await this.langiumDocuments.getOrCreateDocument(uri);
collector(document);
}));
}
/**
* Load all additional documents that shall be visible in the context of the given workspace
* folders and add them to the collector. This can be used to include built-in libraries of
* your language, which can be either loaded from provided files or constructed in memory.
*/
loadAdditionalDocuments(_folders, _collector) {
return Promise.resolve();
}
/**
* Determine the root folder of the source documents in the given workspace folder.
* The default implementation returns the URI of the workspace folder, but you can override
* this to return a subfolder like `src` instead.
*/
getRootFolder(workspaceFolder) {
return URI2.parse(workspaceFolder.uri);
}
/**
* Traverse the file system folder identified by the given URI and its subfolders. All
* contained files that match the file extensions are added to the `uris` array.
*/
async traverseFolder(folderPath, uris) {
try {
const content = await this.fileSystemProvider.readDirectory(folderPath);
await Promise.all(content.map(async (entry) => {
if (this.shouldIncludeEntry(entry)) {
if (entry.isDirectory) {
await this.traverseFolder(entry.uri, uris);
} else if (entry.isFile) {
uris.push(entry.uri);
}
}
}));
} catch (e) {
console.error("Failure to read directory content of " + folderPath.toString(true), e);
}
}
async searchFolder(uri) {
const uris = [];
await this.traverseFolder(uri, uris);
return uris;
}
/**
* Determine whether the given folder entry shall be included while indexing the workspace.
*/
shouldIncludeEntry(entry) {
const name = UriUtils.basename(entry.uri);
if (name.startsWith(".")) {
return false;
}
if (entry.isDirectory) {
return name !== "node_modules" && name !== "out";
} else if (entry.isFile) {
return this.serviceRegistry.hasServices(entry.uri);
}
return false;
}
};
// ../../node_modules/.pnpm/langium@4.2.0/node_modules/langium/lib/parser/lexer.js
var DefaultLexerErrorMessageProvider = class {
static {
__name(this, "DefaultLexerErrorMessageProvider");
}
buildUnexpectedCharactersMessage(fullText, startOffset, length, line, column) {
return defaultLexerErrorProvider.buildUnexpectedCharactersMessage(fullText, startOffset, length, line, column);
}
buildUnableToPopLexerModeMessage(token) {
return defaultLexerErrorProvider.buildUnableToPopLexerModeMessage(token);
}
};
var DEFAULT_TOKENIZE_OPTIONS = { mode: "full" };
var DefaultLexer = class {
static {
__name(this, "DefaultLexer");
}
constructor(services) {
this.errorMessageProvider = services.parser.LexerErrorMessageProvider;
this.tokenBuilder = services.parser.TokenBuilder;
const tokens = this.tokenBuilder.buildTokens(services.Grammar, {
caseInsensitive: services.LanguageMetaData.caseInsensitive
});
this.tokenTypes = this.toTokenTypeDictionary(tokens);
const lexerTokens = isTokenTypeDictionary(tokens) ? Object.values(tokens) : tokens;
const production = services.LanguageMetaData.mode === "production";
this.chevrotainLexer = new Lexer(lexerTokens, {
positionTracking: "full",
skipValidations: production,
errorMessageProvider: this.errorMessageProvider
});
}
get definition() {
return this.tokenTypes;
}
tokenize(text, _options = DEFAULT_TOKENIZE_OPTIONS) {
const chevrotainResult = this.chevrotainLexer.tokenize(text);
return {
tokens: chevrotainResult.tokens,
errors: chevrotainResult.errors,
hidden: chevrotainResult.groups.hidden ?? [],
report: this.tokenBuilder.flushLexingReport?.(text)
};
}
toTokenTypeDictionary(buildTokens) {
if (isTokenTypeDictionary(buildTokens))
return buildTokens;
const tokens = isIMultiModeLexerDefinition(buildTokens) ? Object.values(buildTokens.modes).flat() : buildTokens;
const res = {};
tokens.forEach((token) => res[token.name] = token);
return res;
}
};
function isTokenTypeArray(tokenVocabulary) {
return Array.isArray(tokenVocabulary) && (tokenVocabulary.length === 0 || "name" in tokenVocabulary[0]);
}
__name(isTokenTypeArray, "isTokenTypeArray");
function isIMultiModeLexerDefinition(tokenVocabulary) {
return tokenVocabulary && "modes" in tokenVocabulary && "defaultMode" in tokenVocabulary;
}
__name(isIMultiModeLexerDefinition, "isIMultiModeLexerDefinition");
function isTokenTypeDictionary(tokenVocabulary) {
return !isTokenTypeArray(tokenVocabulary) && !isIMultiModeLexerDefinition(tokenVocabulary);
}
__name(isTokenTypeDictionary, "isTokenTypeDictionary");
// ../../node_modules/.pnpm/langium@4.2.0/node_modules/langium/lib/documentation/jsdoc.js
init_main();
function parseJSDoc(node, start, options) {
let opts;
let position;
if (typeof node === "string") {
position = start;
opts = options;
} else {
position = node.range.start;
opts = start;
}
if (!position) {
position = Position.create(0, 0);
}
const lines = getLines(node);
const normalizedOptions = normalizeOptions(opts);
const tokens = tokenize({
lines,
position,
options: normalizedOptions
});
return parseJSDocComment({
index: 0,
tokens,
position
});
}
__name(parseJSDoc, "parseJSDoc");
function isJSDoc(node, options) {
const normalizedOptions = normalizeOptions(options);
const lines = getLines(node);
if (lines.length === 0) {
return false;
}
const first2 = lines[0];
const last2 = lines[lines.length - 1];
const firstRegex = normalizedOptions.start;
const lastRegex = normalizedOptions.end;
return Boolean(firstRegex?.exec(first2)) && Boolean(lastRegex?.exec(last2));
}
__name(isJSDoc, "isJSDoc");
function getLines(node) {
let content = "";
if (typeof node === "string") {
content = node;
} else {
content = node.text;
}
const lines = content.split(NEWLINE_REGEXP);
return lines;
}
__name(getLines, "getLines");
var tagRegex = /\s*(@([\p{L}][\p{L}\p{N}]*)?)/uy;
var inlineTagRegex = /\{(@[\p{L}][\p{L}\p{N}]*)(\s*)([^\r\n}]+)?\}/gu;
function tokenize(context) {
const tokens = [];
let currentLine = context.position.line;
let currentCharacter = context.position.character;
for (let i = 0; i < context.lines.length; i++) {
const first2 = i === 0;
const last2 = i === context.lines.length - 1;
let line = context.lines[i];
let index = 0;
if (first2 && context.options.start) {
const match = context.options.start?.exec(line);
if (match) {
index = match.index + match[0].length;
}
} else {
const match = context.options.line?.exec(line);
if (match) {
index = match.index + match[0].length;
}
}
if (last2) {
const match = context.options.end?.exec(line);
if (match) {
line = line.substring(0, match.index);
}
}
line = line.substring(0, lastCharacter(line));
const whitespaceEnd = skipWhitespace(line, index);
if (whitespaceEnd >= line.length) {
if (tokens.length > 0) {
const position = Position.create(currentLine, currentCharacter);
tokens.push({
type: "break",
content: "",
range: Range.create(position, position)
});
}
} else {
tagRegex.lastIndex = index;
const tagMatch = tagRegex.exec(line);
if (tagMatch) {
const fullMatch = tagMatch[0];
const value = tagMatch[1];
const start = Position.create(currentLine, currentCharacter + index);
const end = Position.create(currentLine, currentCharacter + index + fullMatch.length);
tokens.push({
type: "tag",
content: value,
range: Range.create(start, end)
});
index += fullMatch.length;
index = skipWhitespace(line, index);
}
if (index < line.length) {
const rest = line.substring(index);
const inlineTagMatches = Array.from(rest.matchAll(inlineTagRegex));
tokens.push(...buildInlineTokens(inlineTagMatches, rest, currentLine, currentCharacter + index));
}
}
currentLine++;
currentCharacter = 0;
}
if (tokens.length > 0 && tokens[tokens.length - 1].type === "break") {
return tokens.slice(0, -1);
}
return tokens;
}
__name(tokenize, "tokenize");
function buildInlineTokens(tags, line, lineIndex, characterIndex) {
const tokens = [];
if (tags.length === 0) {
const start = Position.create(lineIndex, characterIndex);
const end = Position.create(lineIndex, characterIndex + line.length);
tokens.push({
type: "text",
content: line,
range: Range.create(start, end)
});
} else {
let lastIndex = 0;
for (const match of tags) {
const matchIndex = match.index;
const startContent = line.substring(lastIndex, matchIndex);
if (startContent.length > 0) {
tokens.push({
type: "text",
content: line.substring(lastIndex, matchIndex),
range: Range.create(Position.create(lineIndex, lastIndex + characterIndex), Position.create(lineIndex, matchIndex + characterIndex))
});
}
let offset = startContent.length + 1;
const tagName = match[1];
tokens.push({
type: "inline-tag",
content: tagName,
range: Range.create(Position.create(lineIndex, lastIndex + offset + characterIndex), Position.create(lineIndex, lastIndex + offset + tagName.length + characterIndex))
});
offset += tagName.length;
if (match.length === 4) {
offset += match[2].length;
const value = match[3];
tokens.push({
type: "text",
content: value,
range: Range.create(Position.create(lineIndex, lastIndex + offset + characterIndex), Position.create(lineIndex, lastIndex + offset + value.length + characterIndex))
});
} else {
tokens.push({
type: "text",
content: "",
range: Range.create(Position.create(lineIndex, lastIndex + offset + characterIndex), Position.create(lineIndex, lastIndex + offset + characterIndex))
});
}
lastIndex = matchIndex + match[0].length;
}
const endContent = line.substring(lastIndex);
if (endContent.length > 0) {
tokens.push({
type: "text",
content: endContent,
range: Range.create(Position.create(lineIndex, lastIndex + characterIndex), Position.create(lineIndex, lastIndex + characterIndex + endContent.length))
});
}
}
return tokens;
}
__name(buildInlineTokens, "buildInlineTokens");
var nonWhitespaceRegex = /\S/;
var whitespaceEndRegex = /\s*$/;
function skipWhitespace(line, index) {
const match = line.substring(index).match(nonWhitespaceRegex);
if (match) {
return index + match.index;
} else {
return line.length;
}
}
__name(skipWhitespace, "skipWhitespace");
function lastCharacter(line) {
const match = line.match(whitespaceEndRegex);
if (match && typeof match.index === "number") {
return match.index;
}
return void 0;
}
__name(lastCharacter, "lastCharacter");
function parseJSDocComment(context) {
const startPosition = Position.create(context.position.line, context.position.character);
if (context.tokens.length === 0) {
return new JSDocCommentImpl([], Range.create(startPosition, startPosition));
}
const elements = [];
while (context.index < context.tokens.length) {
const element = parseJSDocElement(context, elements[elements.length - 1]);
if (element) {
elements.push(element);
}
}
const start = elements[0]?.range.start ?? startPosition;
const end = elements[elements.length - 1]?.range.end ?? startPosition;
return new JSDocCommentImpl(elements, Range.create(start, end));
}
__name(parseJSDocComment, "parseJSDocComment");
function parseJSDocElement(context, last2) {
const next = context.tokens[context.index];
if (next.type === "tag") {
return parseJSDocTag(context, false);
} else if (next.type === "text" || next.type === "inline-tag") {
return parseJSDocText(context);
} else {
appendEmptyLine(next, last2);
context.index++;
return void 0;
}
}
__name(parseJSDocElement, "parseJSDocElement");
function appendEmptyLine(token, element) {
if (element) {
const line = new JSDocLineImpl("", token.range);
if ("inlines" in element) {
element.inlines.push(line);
} else {
element.content.inlines.push(line);
}
}
}
__name(appendEmptyLine, "appendEmptyLine");
function parseJSDocText(context) {
let token = context.tokens[context.index];
const firstToken = token;
let lastToken = token;
const lines = [];
while (token && token.type !== "break" && token.type !== "tag") {
lines.push(parseJSDocInline(context));
lastToken = token;
token = context.tokens[context.index];
}
return new JSDocTextImpl(lines, Range.create(firstToken.range.start, lastToken.range.end));
}
__name(parseJSDocText, "parseJSDocText");
function parseJSDocInline(context) {
const token = context.tokens[context.index];
if (token.type === "inline-tag") {
return parseJSDocTag(context, true);
} else {
return parseJSDocLine(context);
}
}
__name(parseJSDocInline, "parseJSDocInline");
function parseJSDocTag(context, inline) {
const tagToken = context.tokens[context.index++];
const name = tagToken.content.substring(1);
const nextToken = context.tokens[context.index];
if (nextToken?.type === "text") {
if (inline) {
const docLine = parseJSDocLine(context);
return new JSDocTagImpl(name, new JSDocTextImpl([docLine], docLine.range), inline, Range.create(tagToken.range.start, docLine.range.end));
} else {
const textDoc = parseJSDocText(context);
return new JSDocTagImpl(name, textDoc, inline, Range.create(tagToken.range.start, textDoc.range.end));
}
} else {
const range = tagToken.range;
return new JSDocTagImpl(name, new JSDocTextImpl([], range), inline, range);
}
}
__name(parseJSDocTag, "parseJSDocTag");
function parseJSDocLine(context) {
const token = context.tokens[context.index++];
return new JSDocLineImpl(token.content, token.range);
}
__name(parseJSDocLine, "parseJSDocLine");
function normalizeOptions(options) {
if (!options) {
return normalizeOptions({
start: "/**",
end: "*/",
line: "*"
});
}
const { start, end, line } = options;
return {
start: normalizeOption(start, true),
end: normalizeOption(end, false),
line: normalizeOption(line, true)
};
}
__name(normalizeOptions, "normalizeOptions");
function normalizeOption(option2, start) {
if (typeof option2 === "string" || typeof option2 === "object") {
const escaped = typeof option2 === "string" ? escapeRegExp(option2) : option2.source;
if (start) {
return new RegExp(`^\\s*${escaped}`);
} else {
return new RegExp(`\\s*${escaped}\\s*$`);
}
} else {
return option2;
}
}
__name(normalizeOption, "normalizeOption");
var JSDocCommentImpl = class {
static {
__name(this, "JSDocCommentImpl");
}
constructor(elements, range) {
this.elements = elements;
this.range = range;
}
getTag(name) {
return this.getAllTags().find((e) => e.name === name);
}
getTags(name) {
return this.getAllTags().filter((e) => e.name === name);
}
getAllTags() {
return this.elements.filter((e) => "name" in e);
}
toString() {
let value = "";
for (const element of this.elements) {
if (value.length === 0) {
value = element.toString();
} else {
const text = element.toString();
value += fillNewlines(value) + text;
}
}
return value.trim();
}
toMarkdown(options) {
let value = "";
for (const element of this.elements) {
if (value.length === 0) {
value = element.toMarkdown(options);
} else {
const text = element.toMarkdown(options);
value += fillNewlines(value) + text;
}
}
return value.trim();
}
};
var JSDocTagImpl = class {
static {
__name(this, "JSDocTagImpl");
}
constructor(name, content, inline, range) {
this.name = name;
this.content = content;
this.inline = inline;
this.range = range;
}
toString() {
let text = `@${this.name}`;
const content = this.content.toString();
if (this.content.inlines.length === 1) {
text = `${text} ${content}`;
} else if (this.content.inlines.length > 1) {
text = `${text}
${content}`;
}
if (this.inline) {
return `{${text}}`;
} else {
return text;
}
}
toMarkdown(options) {
return options?.renderTag?.(this) ?? this.toMarkdownDefault(options);
}
toMarkdownDefault(options) {
const content = this.content.toMarkdown(options);
if (this.inline) {
const rendered = renderInlineTag(this.name, content, options ?? {});
if (typeof rendered === "string") {
return rendered;
}
}
let marker = "";
if (options?.tag === "italic" || options?.tag === void 0) {
marker = "*";
} else if (options?.tag === "bold") {
marker = "**";
} else if (options?.tag === "bold-italic") {
marker = "***";
}
let text = `${marker}@${this.name}${marker}`;
if (this.content.inlines.length === 1) {
text = `${text} \u2014 ${content}`;
} else if (this.content.inlines.length > 1) {
text = `${text}
${content}`;
}
if (this.inline) {
return `{${text}}`;
} else {
return text;
}
}
};
function renderInlineTag(tag, content, options) {
if (tag === "linkplain" || tag === "linkcode" || tag === "link") {
const index = content.indexOf(" ");
let display = content;
if (index > 0) {
const displayStart = skipWhitespace(content, index);
display = content.substring(displayStart);
content = content.substring(0, index);
}
if (tag === "linkcode" || tag === "link" && options.link === "code") {
display = `\`${display}\``;
}
const renderedLink = options.renderLink?.(content, display) ?? renderLinkDefault(content, display);
return renderedLink;
}
return void 0;
}
__name(renderInlineTag, "renderInlineTag");
function renderLinkDefault(content, display) {
try {
URI2.parse(content, true);
return `[${display}](${content})`;
} catch {
return content;
}
}
__name(renderLinkDefault, "renderLinkDefault");
var JSDocTextImpl = class {
static {
__name(this, "JSDocTextImpl");
}
constructor(lines, range) {
this.inlines = lines;
this.range = range;
}
toString() {
let text = "";
for (let i = 0; i < this.inlines.length; i++) {
const inline = this.inlines[i];
const next = this.inlines[i + 1];
text += inline.toString();
if (next && next.range.start.line > inline.range.start.line) {
text += "\n";
}
}
return text;
}
toMarkdown(options) {
let text = "";
for (let i = 0; i < this.inlines.length; i++) {
const inline = this.inlines[i];
const next = this.inlines[i + 1];
text += inline.toMarkdown(options);
if (next && next.range.start.line > inline.range.start.line) {
text += "\n";
}
}
return text;
}
};
var JSDocLineImpl = class {
static {
__name(this, "JSDocLineImpl");
}
constructor(text, range) {
this.text = text;
this.range = range;
}
toString() {
return this.text;
}
toMarkdown() {
return this.text;
}
};
function fillNewlines(text) {
if (text.endsWith("\n")) {
return "\n";
} else {
return "\n\n";
}
}
__name(fillNewlines, "fillNewlines");
// ../../node_modules/.pnpm/langium@4.2.0/node_modules/langium/lib/documentation/documentation-provider.js
var JSDocDocumentationProvider = class {
static {
__name(this, "JSDocDocumentationProvider");
}
constructor(services) {
this.indexManager = services.shared.workspace.IndexManager;
this.commentProvider = services.documentation.CommentProvider;
}
getDocumentation(node) {
const comment = this.commentProvider.getComment(node);
if (comment && isJSDoc(comment)) {
const parsedJSDoc = parseJSDoc(comment);
return parsedJSDoc.toMarkdown({
renderLink: /* @__PURE__ */ __name((link, display) => {
return this.documentationLinkRenderer(node, link, display);
}, "renderLink"),
renderTag: /* @__PURE__ */ __name((tag) => {
return this.documentationTagRenderer(node, tag);
}, "renderTag")
});
}
return void 0;
}
documentationLinkRenderer(node, name, display) {
const description = this.findNameInLocalSymbols(node, name) ?? this.findNameInGlobalScope(node, name);
if (description && description.nameSegment) {
const line = description.nameSegment.range.start.line + 1;
const character = description.nameSegment.range.start.character + 1;
const uri = description.documentUri.with({ fragment: `L${line},${character}` });
return `[${display}](${uri.toString()})`;
} else {
return void 0;
}
}
documentationTagRenderer(_node, _tag) {
return void 0;
}
findNameInLocalSymbols(node, name) {
const document = getDocument(node);
const precomputed = document.localSymbols;
if (!precomputed) {
return void 0;
}
let currentNode = node;
do {
const allDescriptions = precomputed.getStream(currentNode);
const description = allDescriptions.find((e) => e.name === name);
if (description) {
return description;
}
currentNode = currentNode.$container;
} while (currentNode);
return void 0;
}
findNameInGlobalScope(node, name) {
const description = this.indexManager.allElements().find((e) => e.name === name);
return description;
}
};
// ../../node_modules/.pnpm/langium@4.2.0/node_modules/langium/lib/documentation/comment-provider.js
var DefaultCommentProvider = class {
static {
__name(this, "DefaultCommentProvider");
}
constructor(services) {
this.grammarConfig = () => services.parser.GrammarConfig;
}
getComment(node) {
if (isAstNodeWithComment(node)) {
return node.$comment;
}
return findCommentNode(node.$cstNode, this.grammarConfig().multilineCommentRules)?.text;
}
};
// ../../node_modules/.pnpm/langium@4.2.0/node_modules/langium/lib/parser/async-parser.js
var DefaultAsyncParser = class {
static {
__name(this, "DefaultAsyncParser");
}
constructor(services) {
this.syncParser = services.parser.LangiumParser;
}
parse(text, _cancelToken) {
return Promise.resolve(this.syncParser.parse(text));
}
};
var AbstractThreadedAsyncParser = class {
static {
__name(this, "AbstractThreadedAsyncParser");
}
constructor(services) {
this.threadCount = 8;
this.terminationDelay = 200;
this.workerPool = [];
this.queue = [];
this.hydrator = services.serializer.Hydrator;
}
initializeWorkers() {
while (this.workerPool.length < this.threadCount) {
const worker = this.createWorker();
worker.onReady(() => {
if (this.queue.length > 0) {
const deferred = this.queue.shift();
if (deferred) {
worker.lock();
deferred.resolve(worker);
}
}
});
this.workerPool.push(worker);
}
}
async parse(text, cancelToken) {
const worker = await this.acquireParserWorker(cancelToken);
const deferred = new Deferred();
let timeout;
const cancellation = cancelToken.onCancellationRequested(() => {
timeout = setTimeout(() => {
this.terminateWorker(worker);
}, this.terminationDelay);
});
worker.parse(text).then((result) => {
const hydrated = this.hydrator.hydrate(result);
deferred.resolve(hydrated);
}).catch((err) => {
deferred.reject(err);
}).finally(() => {
cancellation.dispose();
clearTimeout(timeout);
});
return deferred.promise;
}
terminateWorker(worker) {
worker.terminate();
const index = this.workerPool.indexOf(worker);
if (index >= 0) {
this.workerPool.splice(index, 1);
}
}
async acquireParserWorker(cancelToken) {
this.initializeWorkers();
for (const worker of this.workerPool) {
if (worker.ready) {
worker.lock();
return worker;
}
}
const deferred = new Deferred();
cancelToken.onCancellationRequested(() => {
const index = this.queue.indexOf(deferred);
if (index >= 0) {
this.queue.splice(index, 1);
}
deferred.reject(OperationCancelled);
});
this.queue.push(deferred);
return deferred.promise;
}
};
var ParserWorker = class {
static {
__name(this, "ParserWorker");
}
get ready() {
return this._ready;
}
get onReady() {
return this.onReadyEmitter.event;
}
constructor(sendMessage, onMessage, onError, terminate) {
this.onReadyEmitter = new event_exports.Emitter();
this.deferred = new Deferred();
this._ready = true;
this._parsing = false;
this.sendMessage = sendMessage;
this._terminate = terminate;
onMessage((result) => {
const parseResult = result;
this.deferred.resolve(parseResult);
this.unlock();
});
onError((error) => {
this.deferred.reject(error);
this.unlock();
});
}
terminate() {
this.deferred.reject(OperationCancelled);
this._terminate();
}
lock() {
this._ready = false;
}
unlock() {
this._parsing = false;
this._ready = true;
this.onReadyEmitter.fire();
}
parse(text) {
if (this._parsing) {
throw new Error("Parser worker is busy");
}
this._parsing = true;
this.deferred = new Deferred();
this.sendMessage(text);
return this.deferred.promise;
}
};
// ../../node_modules/.pnpm/langium@4.2.0/node_modules/langium/lib/workspace/workspace-lock.js
var DefaultWorkspaceLock = class {
static {
__name(this, "DefaultWorkspaceLock");
}
constructor() {
this.previousTokenSource = new cancellation_exports.CancellationTokenSource();
this.writeQueue = [];
this.readQueue = [];
this.done = true;
}
write(action) {
this.cancelWrite();
const tokenSource = startCancelableOperation();
this.previousTokenSource = tokenSource;
return this.enqueue(this.writeQueue, action, tokenSource.token);
}
read(action) {
return this.enqueue(this.readQueue, action);
}
enqueue(queue, action, cancellationToken = cancellation_exports.CancellationToken.None) {
const deferred = new Deferred();
const entry = {
action,
deferred,
cancellationToken
};
queue.push(entry);
this.performNextOperation();
return deferred.promise;
}
async performNextOperation() {
if (!this.done) {
return;
}
const entries = [];
if (this.writeQueue.length > 0) {
entries.push(this.writeQueue.shift());
} else if (this.readQueue.length > 0) {
entries.push(...this.readQueue.splice(0, this.readQueue.length));
} else {
return;
}
this.done = false;
await Promise.all(entries.map(async ({ action, deferred, cancellationToken }) => {
try {
const result = await Promise.resolve().then(() => action(cancellationToken));
deferred.resolve(result);
} catch (err) {
if (isOperationCancelled(err)) {
deferred.resolve(void 0);
} else {
deferred.reject(err);
}
}
}));
this.done = true;
this.performNextOperation();
}
cancelWrite() {
this.previousTokenSource.cancel();
}
};
// ../../node_modules/.pnpm/langium@4.2.0/node_modules/langium/lib/serializer/hydrator.js
var DefaultHydrator = class {
static {
__name(this, "DefaultHydrator");
}
constructor(services) {
this.grammarElementIdMap = new BiMap();
this.tokenTypeIdMap = new BiMap();
this.grammar = services.Grammar;
this.lexer = services.parser.Lexer;
this.linker = services.references.Linker;
}
dehydrate(result) {
return {
lexerErrors: result.lexerErrors,
lexerReport: result.lexerReport ? this.dehydrateLexerReport(result.lexerReport) : void 0,
// We need to create shallow copies of the errors
// The original errors inherit from the `Error` class, which is not transferable across worker threads
parserErrors: result.parserErrors.map((e) => ({ ...e, message: e.message })),
value: this.dehydrateAstNode(result.value, this.createDehyrationContext(result.value))
};
}
dehydrateLexerReport(lexerReport) {
return lexerReport;
}
createDehyrationContext(node) {
const astNodes = /* @__PURE__ */ new Map();
const cstNodes = /* @__PURE__ */ new Map();
for (const astNode of streamAst(node)) {
astNodes.set(astNode, {});
}
if (node.$cstNode) {
for (const cstNode of streamCst(node.$cstNode)) {
cstNodes.set(cstNode, {});
}
}
return {
astNodes,
cstNodes
};
}
dehydrateAstNode(node, context) {
const obj = context.astNodes.get(node);
obj.$type = node.$type;
obj.$containerIndex = node.$containerIndex;
obj.$containerProperty = node.$containerProperty;
if (node.$cstNode !== void 0) {
obj.$cstNode = this.dehydrateCstNode(node.$cstNode, context);
}
for (const [name, value] of Object.entries(node)) {
if (name.startsWith("$")) {
continue;
}
if (Array.isArray(value)) {
const arr = [];
obj[name] = arr;
for (const item of value) {
if (isAstNode(item)) {
arr.push(this.dehydrateAstNode(item, context));
} else if (isReference(item)) {
arr.push(this.dehydrateReference(item, context));
} else {
arr.push(item);
}
}
} else if (isAstNode(value)) {
obj[name] = this.dehydrateAstNode(value, context);
} else if (isReference(value)) {
obj[name] = this.dehydrateReference(value, context);
} else if (value !== void 0) {
obj[name] = value;
}
}
return obj;
}
dehydrateReference(reference, context) {
const obj = {};
obj.$refText = reference.$refText;
if (reference.$refNode) {
obj.$refNode = context.cstNodes.get(reference.$refNode);
}
return obj;
}
dehydrateCstNode(node, context) {
const cstNode = context.cstNodes.get(node);
if (isRootCstNode(node)) {
cstNode.fullText = node.fullText;
} else {
cstNode.grammarSource = this.getGrammarElementId(node.grammarSource);
}
cstNode.hidden = node.hidden;
cstNode.astNode = context.astNodes.get(node.astNode);
if (isCompositeCstNode(node)) {
cstNode.content = node.content.map((child) => this.dehydrateCstNode(child, context));
} else if (isLeafCstNode(node)) {
cstNode.tokenType = node.tokenType.name;
cstNode.offset = node.offset;
cstNode.length = node.length;
cstNode.startLine = node.range.start.line;
cstNode.startColumn = node.range.start.character;
cstNode.endLine = node.range.end.line;
cstNode.endColumn = node.range.end.character;
}
return cstNode;
}
hydrate(result) {
const node = result.value;
const context = this.createHydrationContext(node);
if ("$cstNode" in node) {
this.hydrateCstNode(node.$cstNode, context);
}
return {
lexerErrors: result.lexerErrors,
lexerReport: result.lexerReport,
parserErrors: result.parserErrors,
value: this.hydrateAstNode(node, context)
};
}
createHydrationContext(node) {
const astNodes = /* @__PURE__ */ new Map();
const cstNodes = /* @__PURE__ */ new Map();
for (const astNode of streamAst(node)) {
astNodes.set(astNode, {});
}
let root2;
if (node.$cstNode) {
for (const cstNode of streamCst(node.$cstNode)) {
let cst;
if ("fullText" in cstNode) {
cst = new RootCstNodeImpl(cstNode.fullText);
root2 = cst;
} else if ("content" in cstNode) {
cst = new CompositeCstNodeImpl();
} else if ("tokenType" in cstNode) {
cst = this.hydrateCstLeafNode(cstNode);
}
if (cst) {
cstNodes.set(cstNode, cst);
cst.root = root2;
}
}
}
return {
astNodes,
cstNodes
};
}
hydrateAstNode(node, context) {
const astNode = context.astNodes.get(node);
astNode.$type = node.$type;
astNode.$containerIndex = node.$containerIndex;
astNode.$containerProperty = node.$containerProperty;
if (node.$cstNode) {
astNode.$cstNode = context.cstNodes.get(node.$cstNode);
}
for (const [name, value] of Object.entries(node)) {
if (name.startsWith("$")) {
continue;
}
if (Array.isArray(value)) {
const arr = [];
astNode[name] = arr;
for (const item of value) {
if (isAstNode(item)) {
arr.push(this.setParent(this.hydrateAstNode(item, context), astNode));
} else if (isReference(item)) {
arr.push(this.hydrateReference(item, astNode, name, context));
} else {
arr.push(item);
}
}
} else if (isAstNode(value)) {
astNode[name] = this.setParent(this.hydrateAstNode(value, context), astNode);
} else if (isReference(value)) {
astNode[name] = this.hydrateReference(value, astNode, name, context);
} else if (value !== void 0) {
astNode[name] = value;
}
}
return astNode;
}
setParent(node, parent) {
node.$container = parent;
return node;
}
hydrateReference(reference, node, name, context) {
return this.linker.buildReference(node, name, context.cstNodes.get(reference.$refNode), reference.$refText);
}
hydrateCstNode(cstNode, context, num = 0) {
const cstNodeObj = context.cstNodes.get(cstNode);
if (typeof cstNode.grammarSource === "number") {
cstNodeObj.grammarSource = this.getGrammarElement(cstNode.grammarSource);
}
cstNodeObj.astNode = context.astNodes.get(cstNode.astNode);
if (isCompositeCstNode(cstNodeObj)) {
for (const child of cstNode.content) {
const hydrated = this.hydrateCstNode(child, context, num++);
cstNodeObj.content.push(hydrated);
}
}
return cstNodeObj;
}
hydrateCstLeafNode(cstNode) {
const tokenType = this.getTokenType(cstNode.tokenType);
const offset = cstNode.offset;
const length = cstNode.length;
const startLine = cstNode.startLine;
const startColumn = cstNode.startColumn;
const endLine = cstNode.endLine;
const endColumn = cstNode.endColumn;
const hidden = cstNode.hidden;
const node = new LeafCstNodeImpl(offset, length, {
start: {
line: startLine,
character: startColumn
},
end: {
line: endLine,
character: endColumn
}
}, tokenType, hidden);
return node;
}
getTokenType(name) {
return this.lexer.definition[name];
}
getGrammarElementId(node) {
if (!node) {
return void 0;
}
if (this.grammarElementIdMap.size === 0) {
this.createGrammarElementIdMap();
}
return this.grammarElementIdMap.get(node);
}
getGrammarElement(id) {
if (this.grammarElementIdMap.size === 0) {
this.createGrammarElementIdMap();
}
const element = this.grammarElementIdMap.getKey(id);
return element;
}
createGrammarElementIdMap() {
let id = 0;
for (const element of streamAst(this.grammar)) {
if (isAbstractElement(element)) {
this.grammarElementIdMap.set(element, id++);
}
}
}
};
// ../../node_modules/.pnpm/langium@4.2.0/node_modules/langium/lib/default-module.js
function createDefaultCoreModule(context) {
return {
documentation: {
CommentProvider: /* @__PURE__ */ __name((services) => new DefaultCommentProvider(services), "CommentProvider"),
DocumentationProvider: /* @__PURE__ */ __name((services) => new JSDocDocumentationProvider(services), "DocumentationProvider")
},
parser: {
AsyncParser: /* @__PURE__ */ __name((services) => new DefaultAsyncParser(services), "AsyncParser"),
GrammarConfig: /* @__PURE__ */ __name((services) => createGrammarConfig(services), "GrammarConfig"),
LangiumParser: /* @__PURE__ */ __name((services) => createLangiumParser(services), "LangiumParser"),
CompletionParser: /* @__PURE__ */ __name((services) => createCompletionParser(services), "CompletionParser"),
ValueConverter: /* @__PURE__ */ __name(() => new DefaultValueConverter(), "ValueConverter"),
TokenBuilder: /* @__PURE__ */ __name(() => new DefaultTokenBuilder(), "TokenBuilder"),
Lexer: /* @__PURE__ */ __name((services) => new DefaultLexer(services), "Lexer"),
ParserErrorMessageProvider: /* @__PURE__ */ __name(() => new LangiumParserErrorMessageProvider(), "ParserErrorMessageProvider"),
LexerErrorMessageProvider: /* @__PURE__ */ __name(() => new DefaultLexerErrorMessageProvider(), "LexerErrorMessageProvider")
},
workspace: {
AstNodeLocator: /* @__PURE__ */ __name(() => new DefaultAstNodeLocator(), "AstNodeLocator"),
AstNodeDescriptionProvider: /* @__PURE__ */ __name((services) => new DefaultAstNodeDescriptionProvider(services), "AstNodeDescriptionProvider"),
ReferenceDescriptionProvider: /* @__PURE__ */ __name((services) => new DefaultReferenceDescriptionProvider(services), "ReferenceDescriptionProvider")
},
references: {
Linker: /* @__PURE__ */ __name((services) => new DefaultLinker(services), "Linker"),
NameProvider: /* @__PURE__ */ __name(() => new DefaultNameProvider(), "NameProvider"),
ScopeProvider: /* @__PURE__ */ __name((services) => new DefaultScopeProvider(services), "ScopeProvider"),
ScopeComputation: /* @__PURE__ */ __name((services) => new DefaultScopeComputation(services), "ScopeComputation"),
References: /* @__PURE__ */ __name((services) => new DefaultReferences(services), "References")
},
serializer: {
Hydrator: /* @__PURE__ */ __name((services) => new DefaultHydrator(services), "Hydrator"),
JsonSerializer: /* @__PURE__ */ __name((services) => new DefaultJsonSerializer(services), "JsonSerializer")
},
validation: {
DocumentValidator: /* @__PURE__ */ __name((services) => new DefaultDocumentValidator(services), "DocumentValidator"),
ValidationRegistry: /* @__PURE__ */ __name((services) => new ValidationRegistry(services), "ValidationRegistry")
},
shared: /* @__PURE__ */ __name(() => context.shared, "shared")
};
}
__name(createDefaultCoreModule, "createDefaultCoreModule");
function createDefaultSharedCoreModule(context) {
return {
ServiceRegistry: /* @__PURE__ */ __name((services) => new DefaultServiceRegistry(services), "ServiceRegistry"),
workspace: {
LangiumDocuments: /* @__PURE__ */ __name((services) => new DefaultLangiumDocuments(services), "LangiumDocuments"),
LangiumDocumentFactory: /* @__PURE__ */ __name((services) => new DefaultLangiumDocumentFactory(services), "LangiumDocumentFactory"),
DocumentBuilder: /* @__PURE__ */ __name((services) => new DefaultDocumentBuilder(services), "DocumentBuilder"),
IndexManager: /* @__PURE__ */ __name((services) => new DefaultIndexManager(services), "IndexManager"),
WorkspaceManager: /* @__PURE__ */ __name((services) => new DefaultWorkspaceManager(services), "WorkspaceManager"),
FileSystemProvider: /* @__PURE__ */ __name((services) => context.fileSystemProvider(services), "FileSystemProvider"),
WorkspaceLock: /* @__PURE__ */ __name(() => new DefaultWorkspaceLock(), "WorkspaceLock"),
ConfigurationProvider: /* @__PURE__ */ __name((services) => new DefaultConfigurationProvider(services), "ConfigurationProvider")
},
profilers: {}
};
}
__name(createDefaultSharedCoreModule, "createDefaultSharedCoreModule");
// ../../node_modules/.pnpm/langium@4.2.0/node_modules/langium/lib/dependency-injection.js
var Module;
(function(Module2) {
Module2.merge = (m1, m2) => _merge(_merge({}, m1), m2);
})(Module || (Module = {}));
function inject(module1, module2, module3, module4, module5, module6, module7, module8, module9) {
const module10 = [module1, module2, module3, module4, module5, module6, module7, module8, module9].reduce(_merge, {});
return _inject(module10);
}
__name(inject, "inject");
var isProxy = Symbol("isProxy");
function eagerLoad(item) {
if (item && item[isProxy]) {
for (const value of Object.values(item)) {
eagerLoad(value);
}
}
return item;
}
__name(eagerLoad, "eagerLoad");
function _inject(module2, injector) {
const proxy = new Proxy({}, {
deleteProperty: /* @__PURE__ */ __name(() => false, "deleteProperty"),
set: /* @__PURE__ */ __name(() => {
throw new Error("Cannot set property on injected service container");
}, "set"),
get: /* @__PURE__ */ __name((obj, prop) => {
if (prop === isProxy) {
return true;
} else {
return _resolve(obj, prop, module2, injector || proxy);
}
}, "get"),
getOwnPropertyDescriptor: /* @__PURE__ */ __name((obj, prop) => (_resolve(obj, prop, module2, injector || proxy), Object.getOwnPropertyDescriptor(obj, prop)), "getOwnPropertyDescriptor"),
// used by for..in
has: /* @__PURE__ */ __name((_, prop) => prop in module2, "has"),
// used by ..in..
ownKeys: /* @__PURE__ */ __name(() => [...Object.getOwnPropertyNames(module2)], "ownKeys")
// used by for..in
});
return proxy;
}
__name(_inject, "_inject");
var __requested__ = Symbol();
function _resolve(obj, prop, module2, injector) {
if (prop in obj) {
if (obj[prop] instanceof Error) {
throw new Error("Construction failure. Please make sure that your dependencies are constructable. Cause: " + obj[prop]);
}
if (obj[prop] === __requested__) {
throw new Error('Cycle detected. Please make "' + String(prop) + '" lazy. Visit https://langium.org/docs/reference/configuration-services/#resolving-cyclic-dependencies');
}
return obj[prop];
} else if (prop in module2) {
const value = module2[prop];
obj[prop] = __requested__;
try {
obj[prop] = typeof value === "function" ? value(injector) : _inject(value, injector);
} catch (error) {
obj[prop] = error instanceof Error ? error : void 0;
throw error;
}
return obj[prop];
} else {
return void 0;
}
}
__name(_resolve, "_resolve");
function _merge(target, source) {
if (source) {
for (const [key, sourceValue] of Object.entries(source)) {
if (sourceValue !== void 0 && sourceValue !== null) {
if (typeof sourceValue === "object") {
const targetValue = target[key];
if (typeof targetValue === "object" && targetValue !== null) {
target[key] = _merge(targetValue, sourceValue);
} else {
target[key] = _merge({}, sourceValue);
}
} else {
target[key] = sourceValue;
}
}
}
}
return target;
}
__name(_merge, "_merge");
// ../../node_modules/.pnpm/langium@4.2.0/node_modules/langium/lib/parser/indentation-aware.js
var indentationBuilderDefaultOptions = {
indentTokenName: "INDENT",
dedentTokenName: "DEDENT",
whitespaceTokenName: "WS",
ignoreIndentationDelimiters: []
};
var LexingMode;
(function(LexingMode2) {
LexingMode2["REGULAR"] = "indentation-sensitive";
LexingMode2["IGNORE_INDENTATION"] = "ignore-indentation";
})(LexingMode || (LexingMode = {}));
var IndentationAwareTokenBuilder = class extends DefaultTokenBuilder {
static {
__name(this, "IndentationAwareTokenBuilder");
}
constructor(options = indentationBuilderDefaultOptions) {
super();
this.indentationStack = [0];
this.whitespaceRegExp = /[ \t]+/y;
this.options = {
...indentationBuilderDefaultOptions,
...options
};
this.indentTokenType = createToken({
name: this.options.indentTokenName,
pattern: this.indentMatcher.bind(this),
line_breaks: false
});
this.dedentTokenType = createToken({
name: this.options.dedentTokenName,
pattern: this.dedentMatcher.bind(this),
line_breaks: false
});
}
buildTokens(grammar, options) {
const tokenTypes = super.buildTokens(grammar, options);
if (!isTokenTypeArray(tokenTypes)) {
throw new Error("Invalid tokens built by default builder");
}
const { indentTokenName, dedentTokenName, whitespaceTokenName, ignoreIndentationDelimiters } = this.options;
let dedent;
let indent;
let ws;
const otherTokens = [];
for (const tokenType of tokenTypes) {
for (const [begin, end] of ignoreIndentationDelimiters) {
if (tokenType.name === begin) {
tokenType.PUSH_MODE = LexingMode.IGNORE_INDENTATION;
} else if (tokenType.name === end) {
tokenType.POP_MODE = true;
}
}
if (tokenType.name === dedentTokenName) {
dedent = tokenType;
} else if (tokenType.name === indentTokenName) {
indent = tokenType;
} else if (tokenType.name === whitespaceTokenName) {
ws = tokenType;
} else {
otherTokens.push(tokenType);
}
}
if (!dedent || !indent || !ws) {
throw new Error("Some indentation/whitespace tokens not found!");
}
if (ignoreIndentationDelimiters.length > 0) {
const multiModeLexerDef = {
modes: {
[LexingMode.REGULAR]: [dedent, indent, ...otherTokens, ws],
[LexingMode.IGNORE_INDENTATION]: [...otherTokens, ws]
},
defaultMode: LexingMode.REGULAR
};
return multiModeLexerDef;
} else {
return [dedent, indent, ws, ...otherTokens];
}
}
flushLexingReport(text) {
const result = super.flushLexingReport(text);
return {
...result,
remainingDedents: this.flushRemainingDedents(text)
};
}
/**
* Helper function to check if the current position is the start of a new line.
*
* @param text The full input string.
* @param offset The current position at which to check
* @returns Whether the current position is the start of a new line
*/
isStartOfLine(text, offset) {
return offset === 0 || "\r\n".includes(text[offset - 1]);
}
/**
* A helper function used in matching both indents and dedents.
*
* @param text The full input string.
* @param offset The current position at which to attempt a match
* @param tokens Previously scanned tokens
* @param groups Token Groups
* @returns The current and previous indentation levels and the matched whitespace
*/
// eslint-disable-next-line @typescript-eslint/no-unused-vars
matchWhitespace(text, offset, tokens, groups) {
this.whitespaceRegExp.lastIndex = offset;
const match = this.whitespaceRegExp.exec(text);
return {
currIndentLevel: match?.[0].length ?? 0,
prevIndentLevel: this.indentationStack.at(-1),
match
};
}
/**
* Helper function to create an instance of an indentation token.
*
* @param tokenType Indent or dedent token type
* @param text Full input string, used to calculate the line number
* @param image The original image of the token (tabs or spaces)
* @param offset Current position in the input string
* @returns The indentation token instance
*/
createIndentationTokenInstance(tokenType, text, image, offset) {
const lineNumber = this.getLineNumber(text, offset);
return createTokenInstance(tokenType, image, offset, offset + image.length, lineNumber, lineNumber, 1, image.length);
}
/**
* Helper function to get the line number at a given offset.
*
* @param text Full input string, used to calculate the line number
* @param offset Current position in the input string
* @returns The line number at the given offset
*/
getLineNumber(text, offset) {
return text.substring(0, offset).split(/\r\n|\r|\n/).length;
}
/**
* A custom pattern for matching indents
*
* @param text The full input string.
* @param offset The offset at which to attempt a match
* @param tokens Previously scanned tokens
* @param groups Token Groups
*/
indentMatcher(text, offset, tokens, groups) {
if (!this.isStartOfLine(text, offset)) {
return null;
}
const { currIndentLevel, prevIndentLevel, match } = this.matchWhitespace(text, offset, tokens, groups);
if (currIndentLevel <= prevIndentLevel) {
return null;
}
this.indentationStack.push(currIndentLevel);
return match;
}
/**
* A custom pattern for matching dedents
*
* @param text The full input string.
* @param offset The offset at which to attempt a match
* @param tokens Previously scanned tokens
* @param groups Token Groups
*/
dedentMatcher(text, offset, tokens, groups) {
if (!this.isStartOfLine(text, offset)) {
return null;
}
const { currIndentLevel, prevIndentLevel, match } = this.matchWhitespace(text, offset, tokens, groups);
if (currIndentLevel >= prevIndentLevel) {
return null;
}
const matchIndentIndex = this.indentationStack.lastIndexOf(currIndentLevel);
if (matchIndentIndex === -1) {
this.diagnostics.push({
severity: "error",
message: `Invalid dedent level ${currIndentLevel} at offset: ${offset}. Current indentation stack: ${this.indentationStack}`,
offset,
length: match?.[0]?.length ?? 0,
line: this.getLineNumber(text, offset),
column: 1
});
return null;
}
const numberOfDedents = this.indentationStack.length - matchIndentIndex - 1;
const newlinesBeforeDedent = text.substring(0, offset).match(/[\r\n]+$/)?.[0].length ?? 1;
for (let i = 0; i < numberOfDedents; i++) {
const token = this.createIndentationTokenInstance(
this.dedentTokenType,
text,
"",
// Dedents are 0-width tokens
offset - (newlinesBeforeDedent - 1)
);
tokens.push(token);
this.indentationStack.pop();
}
return null;
}
buildTerminalToken(terminal) {
const tokenType = super.buildTerminalToken(terminal);
const { indentTokenName, dedentTokenName, whitespaceTokenName } = this.options;
if (tokenType.name === indentTokenName) {
return this.indentTokenType;
} else if (tokenType.name === dedentTokenName) {
return this.dedentTokenType;
} else if (tokenType.name === whitespaceTokenName) {
return createToken({
name: whitespaceTokenName,
pattern: this.whitespaceRegExp,
group: Lexer.SKIPPED
});
}
return tokenType;
}
/**
* Resets the indentation stack between different runs of the lexer
*
* @param text Full text that was tokenized
* @returns Remaining dedent tokens to match all previous indents at the end of the file
*/
flushRemainingDedents(text) {
const remainingDedents = [];
while (this.indentationStack.length > 1) {
remainingDedents.push(this.createIndentationTokenInstance(this.dedentTokenType, text, "", text.length));
this.indentationStack.pop();
}
this.indentationStack = [0];
return remainingDedents;
}
};
var IndentationAwareLexer = class extends DefaultLexer {
static {
__name(this, "IndentationAwareLexer");
}
constructor(services) {
super(services);
if (services.parser.TokenBuilder instanceof IndentationAwareTokenBuilder) {
this.indentationTokenBuilder = services.parser.TokenBuilder;
} else {
throw new Error("IndentationAwareLexer requires an accompanying IndentationAwareTokenBuilder");
}
}
tokenize(text, options = DEFAULT_TOKENIZE_OPTIONS) {
const result = super.tokenize(text);
const report = result.report;
if (options?.mode === "full") {
result.tokens.push(...report.remainingDedents);
}
report.remainingDedents = [];
const { indentTokenType, dedentTokenType } = this.indentationTokenBuilder;
const indentTokenIdx = indentTokenType.tokenTypeIdx;
const dedentTokenIdx = dedentTokenType.tokenTypeIdx;
const cleanTokens = [];
const length = result.tokens.length - 1;
for (let i = 0; i < length; i++) {
const token = result.tokens[i];
const nextToken = result.tokens[i + 1];
if (token.tokenTypeIdx === indentTokenIdx && nextToken.tokenTypeIdx === dedentTokenIdx) {
i++;
continue;
}
cleanTokens.push(token);
}
if (length >= 0) {
cleanTokens.push(result.tokens[length]);
}
result.tokens = cleanTokens;
return result;
}
};
// ../../node_modules/.pnpm/langium@4.2.0/node_modules/langium/lib/utils/index.js
var utils_exports = {};
__export(utils_exports, {
AstUtils: () => ast_utils_exports,
BiMap: () => BiMap,
Cancellation: () => cancellation_exports,
ContextCache: () => ContextCache,
CstUtils: () => cst_utils_exports,
DONE_RESULT: () => DONE_RESULT,
Deferred: () => Deferred,
Disposable: () => Disposable,
DisposableCache: () => DisposableCache,
DocumentCache: () => DocumentCache,
EMPTY_STREAM: () => EMPTY_STREAM,
ErrorWithLocation: () => ErrorWithLocation,
GrammarUtils: () => grammar_utils_exports,
MultiMap: () => MultiMap,
OperationCancelled: () => OperationCancelled,
Reduction: () => Reduction,
RegExpUtils: () => regexp_utils_exports,
SimpleCache: () => SimpleCache,
StreamImpl: () => StreamImpl,
TreeStreamImpl: () => TreeStreamImpl,
URI: () => URI2,
UriTrie: () => UriTrie,
UriUtils: () => UriUtils,
WorkspaceCache: () => WorkspaceCache,
assertCondition: () => assertCondition,
assertUnreachable: () => assertUnreachable,
delayNextTick: () => delayNextTick,
interruptAndCheck: () => interruptAndCheck,
isOperationCancelled: () => isOperationCancelled,
loadGrammarFromJson: () => loadGrammarFromJson,
setInterruptionPeriod: () => setInterruptionPeriod,
startCancelableOperation: () => startCancelableOperation,
stream: () => stream
});
__reExport(utils_exports, event_exports);
// ../../node_modules/.pnpm/langium@4.2.0/node_modules/langium/lib/workspace/file-system-provider.js
var EmptyFileSystemProvider = class {
static {
__name(this, "EmptyFileSystemProvider");
}
stat(_uri) {
throw new Error("No file system is available.");
}
statSync(_uri) {
throw new Error("No file system is available.");
}
async exists() {
return false;
}
existsSync() {
return false;
}
readBinary() {
throw new Error("No file system is available.");
}
readBinarySync() {
throw new Error("No file system is available.");
}
readFile() {
throw new Error("No file system is available.");
}
readFileSync() {
throw new Error("No file system is available.");
}
async readDirectory() {
return [];
}
readDirectorySync() {
return [];
}
};
var EmptyFileSystem = {
fileSystemProvider: /* @__PURE__ */ __name(() => new EmptyFileSystemProvider(), "fileSystemProvider")
};
// ../../node_modules/.pnpm/langium@4.2.0/node_modules/langium/lib/utils/grammar-loader.js
var minimalGrammarModule = {
Grammar: /* @__PURE__ */ __name(() => void 0, "Grammar"),
LanguageMetaData: /* @__PURE__ */ __name(() => ({
caseInsensitive: false,
fileExtensions: [".langium"],
languageId: "langium"
}), "LanguageMetaData")
};
var minimalSharedGrammarModule = {
AstReflection: /* @__PURE__ */ __name(() => new LangiumGrammarAstReflection(), "AstReflection")
};
function createMinimalGrammarServices() {
const shared = inject(createDefaultSharedCoreModule(EmptyFileSystem), minimalSharedGrammarModule);
const grammar = inject(createDefaultCoreModule({ shared }), minimalGrammarModule);
shared.ServiceRegistry.register(grammar);
return grammar;
}
__name(createMinimalGrammarServices, "createMinimalGrammarServices");
function loadGrammarFromJson(json) {
const services = createMinimalGrammarServices();
const astNode = services.serializer.JsonSerializer.deserialize(json);
services.shared.workspace.LangiumDocumentFactory.fromModel(astNode, URI2.parse(`memory:/${astNode.name ?? "grammar"}.langium`));
return astNode;
}
__name(loadGrammarFromJson, "loadGrammarFromJson");
// ../../node_modules/.pnpm/langium@4.2.0/node_modules/langium/lib/index.js
__reExport(lib_exports, utils_exports);
// ../../node_modules/.pnpm/langium@4.2.0/node_modules/langium/lib/workspace/profiler.js
var DefaultLangiumProfiler = class {
static {
__name(this, "DefaultLangiumProfiler");
}
constructor(activeCategories) {
this.activeCategories = /* @__PURE__ */ new Set();
this.allCategories = /* @__PURE__ */ new Set(["validating", "parsing", "linking"]);
this.activeCategories = activeCategories ?? new Set(this.allCategories);
this.records = new MultiMap();
}
isActive(category) {
return this.activeCategories.has(category);
}
start(...categories) {
if (!categories) {
this.activeCategories = new Set(this.allCategories);
} else {
categories.forEach((category) => this.activeCategories.add(category));
}
}
stop(...categories) {
if (!categories) {
this.activeCategories.clear();
} else {
categories.forEach((category) => this.activeCategories.delete(category));
}
}
createTask(category, taskId) {
if (!this.isActive(category)) {
throw new Error(`Category "${category}" is not active.`);
}
console.log(`Creating profiling task for '${category}.${taskId}'.`);
return new ProfilingTask((record) => this.records.add(category, this.dumpRecord(category, record)), taskId);
}
dumpRecord(category, record) {
console.info(`Task ${category}.${record.identifier} executed in ${record.duration.toFixed(2)}ms and ended at ${record.date.toISOString()}`);
const result = [];
for (const key of record.entries.keys()) {
const values2 = record.entries.get(key);
const duration = values2.reduce((p, c) => p + c);
result.push({ name: `${record.identifier}.${key}`, count: values2.length, duration });
}
const taskInternalDuration = record.duration - result.map((r) => r.duration).reduce((a, b) => a + b, 0);
result.push({ name: record.identifier, count: 1, duration: taskInternalDuration });
result.sort((a, b) => b.duration - a.duration);
function Round(value) {
return Math.round(100 * value) / 100;
}
__name(Round, "Round");
console.table(result.map((e) => {
return { Element: e.name, Count: e.count, "Self %": Round(100 * e.duration / record.duration), "Time (ms)": Round(e.duration) };
}));
return record;
}
getRecords(...categories) {
if (categories.length === 0) {
return this.records.values();
} else {
return this.records.entries().filter((e) => categories.some((c) => c === e[0])).flatMap((e) => e[1]);
}
}
};
var ProfilingTask = class {
static {
__name(this, "ProfilingTask");
}
constructor(addRecord, identifier) {
this.stack = [];
this.entries = new MultiMap();
this.addRecord = addRecord;
this.identifier = identifier;
}
start() {
if (this.startTime !== void 0) {
throw new Error(`Task "${this.identifier}" is already started.`);
}
this.startTime = performance.now();
}
stop() {
if (this.startTime === void 0) {
throw new Error(`Task "${this.identifier}" was not started.`);
}
if (this.stack.length !== 0) {
throw new Error(`Task "${this.identifier}" cannot be stopped before sub-task(s): ${this.stack.map((s) => s.id).join(", ")}.`);
}
const record = {
identifier: this.identifier,
date: /* @__PURE__ */ new Date(),
duration: performance.now() - this.startTime,
entries: this.entries
};
this.addRecord(record);
this.startTime = void 0;
this.entries.clear();
}
startSubTask(subTaskId) {
this.stack.push({ id: subTaskId, start: performance.now(), content: 0 });
}
stopSubTask(subTaskId) {
const subStack = this.stack.pop();
if (!subStack) {
throw new Error(`Task "${this.identifier}.${subTaskId}" was not started.`);
}
if (subStack.id !== subTaskId) {
throw new Error(`Sub-Task "${subStack.id}" is not already stopped.`);
}
const duration = performance.now() - subStack.start;
if (this.stack.at(-1) !== void 0) {
this.stack[this.stack.length - 1].content += duration;
}
const selfDuration = duration - subStack.content;
this.entries.add(subTaskId, selfDuration);
}
};
// src/language/generated/ast.ts
var ArchitectureGrammar;
((ArchitectureGrammar2) => {
ArchitectureGrammar2.Terminals = {
ARROW_DIRECTION: /L|R|T|B/,
ARROW_GROUP: /\{group\}/,
ARROW_INTO: /<|>/,
ACC_DESCR: /[\t ]*accDescr(?:[\t ]*:([^\n\r]*?(?=%%)|[^\n\r]*)|\s*{([^}]*)})/,
ACC_TITLE: /[\t ]*accTitle[\t ]*:(?:[^\n\r]*?(?=%%)|[^\n\r]*)/,
TITLE: /[\t ]*title(?:[\t ][^\n\r]*?(?=%%)|[\t ][^\n\r]*|)/,
STRING: /"([^"\\]|\\.)*"|'([^'\\]|\\.)*'/,
ID: /[\w]([-\w]*\w)?/,
NEWLINE: /\r?\n/,
WHITESPACE: /[\t ]+/,
YAML: /---[\t ]*\r?\n(?:[\S\s]*?\r?\n)?---(?:\r?\n|(?!\S))/,
DIRECTIVE: /[\t ]*%%{[\S\s]*?}%%(?:\r?\n|(?!\S))/,
SINGLE_LINE_COMMENT: /[\t ]*%%[^\n\r]*/,
ARCH_ICON: /\([\w-:]+\)/,
ARCH_TITLE: /\[(?:"([^"\\]|\\.)*"|'([^'\\]|\\.)*'|[\w ]+)\]/
};
})(ArchitectureGrammar || (ArchitectureGrammar = {}));
var GitGraphGrammar;
((GitGraphGrammar2) => {
GitGraphGrammar2.Terminals = {
ACC_DESCR: /[\t ]*accDescr(?:[\t ]*:([^\n\r]*?(?=%%)|[^\n\r]*)|\s*{([^}]*)})/,
ACC_TITLE: /[\t ]*accTitle[\t ]*:(?:[^\n\r]*?(?=%%)|[^\n\r]*)/,
TITLE: /[\t ]*title(?:[\t ][^\n\r]*?(?=%%)|[\t ][^\n\r]*|)/,
INT: /0|[1-9][0-9]*(?!\.)/,
STRING: /"([^"\\]|\\.)*"|'([^'\\]|\\.)*'/,
NEWLINE: /\r?\n/,
WHITESPACE: /[\t ]+/,
YAML: /---[\t ]*\r?\n(?:[\S\s]*?\r?\n)?---(?:\r?\n|(?!\S))/,
DIRECTIVE: /[\t ]*%%{[\S\s]*?}%%(?:\r?\n|(?!\S))/,
SINGLE_LINE_COMMENT: /[\t ]*%%[^\n\r]*/,
REFERENCE: /\w([-\./\w]*[-\w])?/
};
})(GitGraphGrammar || (GitGraphGrammar = {}));
var InfoGrammar;
((InfoGrammar2) => {
InfoGrammar2.Terminals = {
ACC_DESCR: /[\t ]*accDescr(?:[\t ]*:([^\n\r]*?(?=%%)|[^\n\r]*)|\s*{([^}]*)})/,
ACC_TITLE: /[\t ]*accTitle[\t ]*:(?:[^\n\r]*?(?=%%)|[^\n\r]*)/,
TITLE: /[\t ]*title(?:[\t ][^\n\r]*?(?=%%)|[\t ][^\n\r]*|)/,
NEWLINE: /\r?\n/,
WHITESPACE: /[\t ]+/,
YAML: /---[\t ]*\r?\n(?:[\S\s]*?\r?\n)?---(?:\r?\n|(?!\S))/,
DIRECTIVE: /[\t ]*%%{[\S\s]*?}%%(?:\r?\n|(?!\S))/,
SINGLE_LINE_COMMENT: /[\t ]*%%[^\n\r]*/
};
})(InfoGrammar || (InfoGrammar = {}));
var PacketGrammar;
((PacketGrammar2) => {
PacketGrammar2.Terminals = {
ACC_DESCR: /[\t ]*accDescr(?:[\t ]*:([^\n\r]*?(?=%%)|[^\n\r]*)|\s*{([^}]*)})/,
ACC_TITLE: /[\t ]*accTitle[\t ]*:(?:[^\n\r]*?(?=%%)|[^\n\r]*)/,
TITLE: /[\t ]*title(?:[\t ][^\n\r]*?(?=%%)|[\t ][^\n\r]*|)/,
INT: /0|[1-9][0-9]*(?!\.)/,
STRING: /"([^"\\]|\\.)*"|'([^'\\]|\\.)*'/,
NEWLINE: /\r?\n/,
WHITESPACE: /[\t ]+/,
YAML: /---[\t ]*\r?\n(?:[\S\s]*?\r?\n)?---(?:\r?\n|(?!\S))/,
DIRECTIVE: /[\t ]*%%{[\S\s]*?}%%(?:\r?\n|(?!\S))/,
SINGLE_LINE_COMMENT: /[\t ]*%%[^\n\r]*/
};
})(PacketGrammar || (PacketGrammar = {}));
var PieGrammar;
((PieGrammar2) => {
PieGrammar2.Terminals = {
NUMBER_PIE: /(?:-?[0-9]+\.[0-9]+(?!\.))|(?:-?(0|[1-9][0-9]*)(?!\.))/,
ACC_DESCR: /[\t ]*accDescr(?:[\t ]*:([^\n\r]*?(?=%%)|[^\n\r]*)|\s*{([^}]*)})/,
ACC_TITLE: /[\t ]*accTitle[\t ]*:(?:[^\n\r]*?(?=%%)|[^\n\r]*)/,
TITLE: /[\t ]*title(?:[\t ][^\n\r]*?(?=%%)|[\t ][^\n\r]*|)/,
STRING: /"([^"\\]|\\.)*"|'([^'\\]|\\.)*'/,
NEWLINE: /\r?\n/,
WHITESPACE: /[\t ]+/,
YAML: /---[\t ]*\r?\n(?:[\S\s]*?\r?\n)?---(?:\r?\n|(?!\S))/,
DIRECTIVE: /[\t ]*%%{[\S\s]*?}%%(?:\r?\n|(?!\S))/,
SINGLE_LINE_COMMENT: /[\t ]*%%[^\n\r]*/
};
})(PieGrammar || (PieGrammar = {}));
var RadarGrammar;
((RadarGrammar2) => {
RadarGrammar2.Terminals = {
GRATICULE: /circle|polygon/,
BOOLEAN: /true|false/,
ACC_DESCR: /[\t ]*accDescr(?:[\t ]*:([^\n\r]*?(?=%%)|[^\n\r]*)|\s*{([^}]*)})/,
ACC_TITLE: /[\t ]*accTitle[\t ]*:(?:[^\n\r]*?(?=%%)|[^\n\r]*)/,
TITLE: /[\t ]*title(?:[\t ][^\n\r]*?(?=%%)|[\t ][^\n\r]*|)/,
NUMBER: /(?:[0-9]+\.[0-9]+(?!\.))|(?:0|[1-9][0-9]*(?!\.))/,
STRING: /"([^"\\]|\\.)*"|'([^'\\]|\\.)*'/,
ID: /[\w]([-\w]*\w)?/,
NEWLINE: /\r?\n/,
WHITESPACE: /[\t ]+/,
YAML: /---[\t ]*\r?\n(?:[\S\s]*?\r?\n)?---(?:\r?\n|(?!\S))/,
DIRECTIVE: /[\t ]*%%{[\S\s]*?}%%(?:\r?\n|(?!\S))/,
SINGLE_LINE_COMMENT: /[\t ]*%%[^\n\r]*/
};
})(RadarGrammar || (RadarGrammar = {}));
var TreemapGrammar;
((TreemapGrammar2) => {
TreemapGrammar2.Terminals = {
ACC_DESCR: /[\t ]*accDescr(?:[\t ]*:([^\n\r]*?(?=%%)|[^\n\r]*)|\s*{([^}]*)})/,
ACC_TITLE: /[\t ]*accTitle[\t ]*:(?:[^\n\r]*?(?=%%)|[^\n\r]*)/,
TITLE: /[\t ]*title(?:[\t ][^\n\r]*?(?=%%)|[\t ][^\n\r]*|)/,
TREEMAP_KEYWORD: /treemap-beta|treemap/,
CLASS_DEF: /classDef\s+([a-zA-Z_][a-zA-Z0-9_]+)(?:\s+([^;\r\n]*))?(?:;)?/,
STYLE_SEPARATOR: /:::/,
SEPARATOR: /:/,
COMMA: /,/,
INDENTATION: /[ \t]{1,}/,
WS: /[ \t]+/,
ML_COMMENT: /\%\%[^\n]*/,
NL: /\r?\n/,
ID2: /[a-zA-Z_][a-zA-Z0-9_]*/,
NUMBER2: /[0-9_\.\,]+/,
STRING2: /"[^"]*"|'[^']*'/
};
})(TreemapGrammar || (TreemapGrammar = {}));
var MermaidTerminals = {
...ArchitectureGrammar.Terminals,
...GitGraphGrammar.Terminals,
...InfoGrammar.Terminals,
...PacketGrammar.Terminals,
...PieGrammar.Terminals,
...RadarGrammar.Terminals,
...TreemapGrammar.Terminals
};
var Architecture = {
$type: "Architecture",
accDescr: "accDescr",
accTitle: "accTitle",
edges: "edges",
groups: "groups",
junctions: "junctions",
services: "services",
title: "title"
};
function isArchitecture(item) {
return reflection2.isInstance(item, Architecture.$type);
}
__name(isArchitecture, "isArchitecture");
var Axis = {
$type: "Axis",
label: "label",
name: "name"
};
var Branch = {
$type: "Branch",
name: "name",
order: "order"
};
function isBranch(item) {
return reflection2.isInstance(item, Branch.$type);
}
__name(isBranch, "isBranch");
var Checkout = {
$type: "Checkout",
branch: "branch"
};
var CherryPicking = {
$type: "CherryPicking",
id: "id",
parent: "parent",
tags: "tags"
};
var ClassDefStatement = {
$type: "ClassDefStatement",
className: "className",
styleText: "styleText"
};
var Commit = {
$type: "Commit",
id: "id",
message: "message",
tags: "tags",
type: "type"
};
function isCommit(item) {
return reflection2.isInstance(item, Commit.$type);
}
__name(isCommit, "isCommit");
var Curve = {
$type: "Curve",
entries: "entries",
label: "label",
name: "name"
};
var Direction = {
$type: "Direction",
accDescr: "accDescr",
accTitle: "accTitle",
dir: "dir",
statements: "statements",
title: "title"
};
var Edge = {
$type: "Edge",
lhsDir: "lhsDir",
lhsGroup: "lhsGroup",
lhsId: "lhsId",
lhsInto: "lhsInto",
rhsDir: "rhsDir",
rhsGroup: "rhsGroup",
rhsId: "rhsId",
rhsInto: "rhsInto",
title: "title"
};
var Entry = {
$type: "Entry",
axis: "axis",
value: "value"
};
var GitGraph = {
$type: "GitGraph",
accDescr: "accDescr",
accTitle: "accTitle",
statements: "statements",
title: "title"
};
function isGitGraph(item) {
return reflection2.isInstance(item, GitGraph.$type);
}
__name(isGitGraph, "isGitGraph");
var Group2 = {
$type: "Group",
icon: "icon",
id: "id",
in: "in",
title: "title"
};
var Info = {
$type: "Info",
accDescr: "accDescr",
accTitle: "accTitle",
title: "title"
};
function isInfo(item) {
return reflection2.isInstance(item, Info.$type);
}
__name(isInfo, "isInfo");
var Item = {
$type: "Item",
classSelector: "classSelector",
name: "name"
};
var Junction = {
$type: "Junction",
id: "id",
in: "in"
};
var Leaf = {
$type: "Leaf",
classSelector: "classSelector",
name: "name",
value: "value"
};
var Merge = {
$type: "Merge",
branch: "branch",
id: "id",
tags: "tags",
type: "type"
};
function isMerge(item) {
return reflection2.isInstance(item, Merge.$type);
}
__name(isMerge, "isMerge");
var Option2 = {
$type: "Option",
name: "name",
value: "value"
};
var Packet = {
$type: "Packet",
accDescr: "accDescr",
accTitle: "accTitle",
blocks: "blocks",
title: "title"
};
function isPacket(item) {
return reflection2.isInstance(item, Packet.$type);
}
__name(isPacket, "isPacket");
var PacketBlock = {
$type: "PacketBlock",
bits: "bits",
end: "end",
label: "label",
start: "start"
};
function isPacketBlock(item) {
return reflection2.isInstance(item, PacketBlock.$type);
}
__name(isPacketBlock, "isPacketBlock");
var Pie = {
$type: "Pie",
accDescr: "accDescr",
accTitle: "accTitle",
sections: "sections",
showData: "showData",
title: "title"
};
function isPie(item) {
return reflection2.isInstance(item, Pie.$type);
}
__name(isPie, "isPie");
var PieSection = {
$type: "PieSection",
label: "label",
value: "value"
};
function isPieSection(item) {
return reflection2.isInstance(item, PieSection.$type);
}
__name(isPieSection, "isPieSection");
var Radar = {
$type: "Radar",
accDescr: "accDescr",
accTitle: "accTitle",
axes: "axes",
curves: "curves",
options: "options",
title: "title"
};
var Section = {
$type: "Section",
classSelector: "classSelector",
name: "name"
};
var Service = {
$type: "Service",
icon: "icon",
iconText: "iconText",
id: "id",
in: "in",
title: "title"
};
var Statement = {
$type: "Statement"
};
var Treemap = {
$type: "Treemap",
accDescr: "accDescr",
accTitle: "accTitle",
title: "title",
TreemapRows: "TreemapRows"
};
function isTreemap(item) {
return reflection2.isInstance(item, Treemap.$type);
}
__name(isTreemap, "isTreemap");
var TreemapRow = {
$type: "TreemapRow",
indent: "indent",
item: "item"
};
var MermaidAstReflection = class extends AbstractAstReflection {
constructor() {
super(...arguments);
this.types = {
Architecture: {
name: Architecture.$type,
properties: {
accDescr: {
name: Architecture.accDescr
},
accTitle: {
name: Architecture.accTitle
},
edges: {
name: Architecture.edges,
defaultValue: []
},
groups: {
name: Architecture.groups,
defaultValue: []
},
junctions: {
name: Architecture.junctions,
defaultValue: []
},
services: {
name: Architecture.services,
defaultValue: []
},
title: {
name: Architecture.title
}
},
superTypes: []
},
Axis: {
name: Axis.$type,
properties: {
label: {
name: Axis.label
},
name: {
name: Axis.name
}
},
superTypes: []
},
Branch: {
name: Branch.$type,
properties: {
name: {
name: Branch.name
},
order: {
name: Branch.order
}
},
superTypes: [Statement.$type]
},
Checkout: {
name: Checkout.$type,
properties: {
branch: {
name: Checkout.branch
}
},
superTypes: [Statement.$type]
},
CherryPicking: {
name: CherryPicking.$type,
properties: {
id: {
name: CherryPicking.id
},
parent: {
name: CherryPicking.parent
},
tags: {
name: CherryPicking.tags,
defaultValue: []
}
},
superTypes: [Statement.$type]
},
ClassDefStatement: {
name: ClassDefStatement.$type,
properties: {
className: {
name: ClassDefStatement.className
},
styleText: {
name: ClassDefStatement.styleText
}
},
superTypes: []
},
Commit: {
name: Commit.$type,
properties: {
id: {
name: Commit.id
},
message: {
name: Commit.message
},
tags: {
name: Commit.tags,
defaultValue: []
},
type: {
name: Commit.type
}
},
superTypes: [Statement.$type]
},
Curve: {
name: Curve.$type,
properties: {
entries: {
name: Curve.entries,
defaultValue: []
},
label: {
name: Curve.label
},
name: {
name: Curve.name
}
},
superTypes: []
},
Direction: {
name: Direction.$type,
properties: {
accDescr: {
name: Direction.accDescr
},
accTitle: {
name: Direction.accTitle
},
dir: {
name: Direction.dir
},
statements: {
name: Direction.statements,
defaultValue: []
},
title: {
name: Direction.title
}
},
superTypes: [GitGraph.$type]
},
Edge: {
name: Edge.$type,
properties: {
lhsDir: {
name: Edge.lhsDir
},
lhsGroup: {
name: Edge.lhsGroup,
defaultValue: false
},
lhsId: {
name: Edge.lhsId
},
lhsInto: {
name: Edge.lhsInto,
defaultValue: false
},
rhsDir: {
name: Edge.rhsDir
},
rhsGroup: {
name: Edge.rhsGroup,
defaultValue: false
},
rhsId: {
name: Edge.rhsId
},
rhsInto: {
name: Edge.rhsInto,
defaultValue: false
},
title: {
name: Edge.title
}
},
superTypes: []
},
Entry: {
name: Entry.$type,
properties: {
axis: {
name: Entry.axis,
referenceType: Axis.$type
},
value: {
name: Entry.value
}
},
superTypes: []
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accDescr: {
name: GitGraph.accDescr
},
accTitle: {
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},
statements: {
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},
title: {
name: GitGraph.title
}
},
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},
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icon: {
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},
id: {
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},
title: {
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},
superTypes: []
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accDescr: {
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accTitle: {
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},
title: {
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name: {
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},
Junction: {
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properties: {
id: {
name: Junction.id
},
in: {
name: Junction.in
}
},
superTypes: []
},
Leaf: {
name: Leaf.$type,
properties: {
classSelector: {
name: Leaf.classSelector
},
name: {
name: Leaf.name
},
value: {
name: Leaf.value
}
},
superTypes: [Item.$type]
},
Merge: {
name: Merge.$type,
properties: {
branch: {
name: Merge.branch
},
id: {
name: Merge.id
},
tags: {
name: Merge.tags,
defaultValue: []
},
type: {
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properties: {
name: {
name: Option2.name
},
value: {
name: Option2.value,
defaultValue: false
}
},
superTypes: []
},
Packet: {
name: Packet.$type,
properties: {
accDescr: {
name: Packet.accDescr
},
accTitle: {
name: Packet.accTitle
},
blocks: {
name: Packet.blocks,
defaultValue: []
},
title: {
name: Packet.title
}
},
superTypes: []
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PacketBlock: {
name: PacketBlock.$type,
properties: {
bits: {
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end: {
name: PacketBlock.end
},
label: {
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start: {
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}
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Pie: {
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accDescr: {
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},
accTitle: {
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sections: {
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showData: {
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defaultValue: false
},
title: {
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},
superTypes: []
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PieSection: {
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properties: {
label: {
name: PieSection.label
},
value: {
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},
superTypes: []
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Radar: {
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accDescr: {
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accTitle: {
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axes: {
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curves: {
name: Radar.curves,
defaultValue: []
},
options: {
name: Radar.options,
defaultValue: []
},
title: {
name: Radar.title
}
},
superTypes: []
},
Section: {
name: Section.$type,
properties: {
classSelector: {
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name: {
name: Section.name
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superTypes: [Item.$type]
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Service: {
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properties: {
icon: {
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iconText: {
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},
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in: {
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title: {
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Statement: {
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properties: {},
superTypes: []
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Treemap: {
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properties: {
accDescr: {
name: Treemap.accDescr
},
accTitle: {
name: Treemap.accTitle
},
title: {
name: Treemap.title
},
TreemapRows: {
name: Treemap.TreemapRows,
defaultValue: []
}
},
superTypes: []
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TreemapRow: {
name: TreemapRow.$type,
properties: {
indent: {
name: TreemapRow.indent
},
item: {
name: TreemapRow.item
}
},
superTypes: []
}
};
}
static {
__name(this, "MermaidAstReflection");
}
};
var reflection2 = new MermaidAstReflection();
// src/language/generated/grammar.ts
var loadedArchitectureGrammarGrammar;
var ArchitectureGrammarGrammar = /* @__PURE__ */ __name(() => loadedArchitectureGrammarGrammar ?? 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var loadedGitGraphGrammarGrammar;
var GitGraphGrammarGrammar = /* @__PURE__ */ __name(() => loadedGitGraphGrammarGrammar ?? (loadedGitGraphGrammarGrammar = 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var loadedTreemapGrammarGrammar;
var TreemapGrammarGrammar = /* @__PURE__ */ __name(() => loadedTreemapGrammarGrammar ?? 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loadGrammarFromJson(`{"$type":"Grammar","isDeclared":true,"name":"TreemapGrammar","rules":[{"$type":"ParserRule","fragment":true,"name":"TitleAndAccessibilities","definition":{"$type":"Alternatives","elements":[{"$type":"Assignment","feature":"accDescr","operator":"=","terminal":{"$type":"RuleCall","rule":{"$ref":"#/rules@2"},"arguments":[]}},{"$type":"Assignment","feature":"accTitle","operator":"=","terminal":{"$type":"RuleCall","rule":{"$ref":"#/rules@3"},"arguments":[]}},{"$type":"Assignment","feature":"title","operator":"=","terminal":{"$type":"RuleCall","rule":{"$ref":"#/rules@4"},"arguments":[]}}],"cardinality":"+"},"entry":false,"parameters":[]},{"$type":"TerminalRule","name":"BOOLEAN","type":{"$type":"ReturnType","name":"boolean"},"definition":{"$type":"TerminalAlternatives","elements":[{"$type":"CharacterRange","left":{"$type":"Keyword","value":"true"},"parenthesized":false},{"$type":"CharacterRange","left":{"$type":"Keyword","value":"false"},"parenthesized":false}],"parenthesized":false},"fragment":false,"hidden":false},{"$type":"TerminalRule","name":"ACC_DESCR","definition":{"$type":"RegexToken","regex":"/[\\\\t 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* Treemap grammar for Langium\\n * Converted from mindmap grammar\\n *\\n * The ML_COMMENT and NL hidden terminals handle whitespace, comments, and newlines\\n * before the treemap keyword, allowing for empty lines and comments before the\\n * treemap declaration.\\n */"}`)), "TreemapGrammarGrammar");
// src/language/generated/module.ts
var ArchitectureGrammarLanguageMetaData = {
languageId: "architecture",
fileExtensions: [".mmd", ".mermaid"],
caseInsensitive: false,
mode: "production"
};
var GitGraphGrammarLanguageMetaData = {
languageId: "gitGraph",
fileExtensions: [".mmd", ".mermaid"],
caseInsensitive: false,
mode: "production"
};
var InfoGrammarLanguageMetaData = {
languageId: "info",
fileExtensions: [".mmd", ".mermaid"],
caseInsensitive: false,
mode: "production"
};
var PacketGrammarLanguageMetaData = {
languageId: "packet",
fileExtensions: [".mmd", ".mermaid"],
caseInsensitive: false,
mode: "production"
};
var PieGrammarLanguageMetaData = {
languageId: "pie",
fileExtensions: [".mmd", ".mermaid"],
caseInsensitive: false,
mode: "production"
};
var RadarGrammarLanguageMetaData = {
languageId: "radar",
fileExtensions: [".mmd", ".mermaid"],
caseInsensitive: false,
mode: "production"
};
var TreemapGrammarLanguageMetaData = {
languageId: "treemap",
fileExtensions: [".mmd", ".mermaid"],
caseInsensitive: false,
mode: "production"
};
var MermaidGeneratedSharedModule = {
AstReflection: /* @__PURE__ */ __name(() => new MermaidAstReflection(), "AstReflection")
};
var ArchitectureGrammarGeneratedModule = {
Grammar: /* @__PURE__ */ __name(() => ArchitectureGrammarGrammar(), "Grammar"),
LanguageMetaData: /* @__PURE__ */ __name(() => ArchitectureGrammarLanguageMetaData, "LanguageMetaData"),
parser: {}
};
var GitGraphGrammarGeneratedModule = {
Grammar: /* @__PURE__ */ __name(() => GitGraphGrammarGrammar(), "Grammar"),
LanguageMetaData: /* @__PURE__ */ __name(() => GitGraphGrammarLanguageMetaData, "LanguageMetaData"),
parser: {}
};
var InfoGrammarGeneratedModule = {
Grammar: /* @__PURE__ */ __name(() => InfoGrammarGrammar(), "Grammar"),
LanguageMetaData: /* @__PURE__ */ __name(() => InfoGrammarLanguageMetaData, "LanguageMetaData"),
parser: {}
};
var PacketGrammarGeneratedModule = {
Grammar: /* @__PURE__ */ __name(() => PacketGrammarGrammar(), "Grammar"),
LanguageMetaData: /* @__PURE__ */ __name(() => PacketGrammarLanguageMetaData, "LanguageMetaData"),
parser: {}
};
var PieGrammarGeneratedModule = {
Grammar: /* @__PURE__ */ __name(() => PieGrammarGrammar(), "Grammar"),
LanguageMetaData: /* @__PURE__ */ __name(() => PieGrammarLanguageMetaData, "LanguageMetaData"),
parser: {}
};
var RadarGrammarGeneratedModule = {
Grammar: /* @__PURE__ */ __name(() => RadarGrammarGrammar(), "Grammar"),
LanguageMetaData: /* @__PURE__ */ __name(() => RadarGrammarLanguageMetaData, "LanguageMetaData"),
parser: {}
};
var TreemapGrammarGeneratedModule = {
Grammar: /* @__PURE__ */ __name(() => TreemapGrammarGrammar(), "Grammar"),
LanguageMetaData: /* @__PURE__ */ __name(() => TreemapGrammarLanguageMetaData, "LanguageMetaData"),
parser: {}
};
// src/language/common/matcher.ts
var accessibilityDescrRegex = /accDescr(?:[\t ]*:([^\n\r]*)|\s*{([^}]*)})/;
var accessibilityTitleRegex = /accTitle[\t ]*:([^\n\r]*)/;
var titleRegex = /title([\t ][^\n\r]*|)/;
// src/language/common/valueConverter.ts
var rulesRegexes = {
ACC_DESCR: accessibilityDescrRegex,
ACC_TITLE: accessibilityTitleRegex,
TITLE: titleRegex
};
var AbstractMermaidValueConverter = class extends DefaultValueConverter {
static {
__name(this, "AbstractMermaidValueConverter");
}
runConverter(rule, input, cstNode) {
let value = this.runCommonConverter(rule, input, cstNode);
if (value === void 0) {
value = this.runCustomConverter(rule, input, cstNode);
}
if (value === void 0) {
return super.runConverter(rule, input, cstNode);
}
return value;
}
runCommonConverter(rule, input, _cstNode) {
const regex = rulesRegexes[rule.name];
if (regex === void 0) {
return void 0;
}
const match = regex.exec(input);
if (match === null) {
return void 0;
}
if (match[1] !== void 0) {
return match[1].trim().replace(/[\t ]{2,}/gm, " ");
}
if (match[2] !== void 0) {
return match[2].replace(/^\s*/gm, "").replace(/\s+$/gm, "").replace(/[\t ]{2,}/gm, " ").replace(/[\n\r]{2,}/gm, "\n");
}
return void 0;
}
};
var CommonValueConverter = class extends AbstractMermaidValueConverter {
static {
__name(this, "CommonValueConverter");
}
runCustomConverter(_rule, _input, _cstNode) {
return void 0;
}
};
// src/language/common/tokenBuilder.ts
var AbstractMermaidTokenBuilder = class extends DefaultTokenBuilder {
static {
__name(this, "AbstractMermaidTokenBuilder");
}
constructor(keywords) {
super();
this.keywords = new Set(keywords);
}
buildKeywordTokens(rules, terminalTokens, options) {
const tokenTypes = super.buildKeywordTokens(rules, terminalTokens, options);
tokenTypes.forEach((tokenType) => {
if (this.keywords.has(tokenType.name) && tokenType.PATTERN !== void 0) {
tokenType.PATTERN = new RegExp(tokenType.PATTERN.toString() + "(?:(?=%%)|(?!\\S))");
}
});
return tokenTypes;
}
};
var CommonTokenBuilder = class extends AbstractMermaidTokenBuilder {
static {
__name(this, "CommonTokenBuilder");
}
};
export {
__name,
createDefaultCoreModule,
createDefaultSharedCoreModule,
inject,
EmptyFileSystem,
lib_exports,
Architecture,
isArchitecture,
Branch,
isBranch,
Commit,
isCommit,
GitGraph,
isGitGraph,
Info,
isInfo,
Merge,
isMerge,
Packet,
isPacket,
PacketBlock,
isPacketBlock,
Pie,
isPie,
PieSection,
isPieSection,
Radar,
Statement,
Treemap,
isTreemap,
MermaidGeneratedSharedModule,
ArchitectureGrammarGeneratedModule,
GitGraphGrammarGeneratedModule,
InfoGrammarGeneratedModule,
PacketGrammarGeneratedModule,
PieGrammarGeneratedModule,
RadarGrammarGeneratedModule,
TreemapGrammarGeneratedModule,
AbstractMermaidValueConverter,
CommonValueConverter,
AbstractMermaidTokenBuilder,
CommonTokenBuilder
};
/*! Bundled license information:
lodash-es/lodash.js:
(**
* @license
* Lodash (Custom Build) <https://lodash.com/>
* Build: `lodash modularize exports="es" -o ./`
* Copyright OpenJS Foundation and other contributors <https://openjsf.org/>
* Released under MIT license <https://lodash.com/license>
* Based on Underscore.js 1.8.3 <http://underscorejs.org/LICENSE>
* Copyright Jeremy Ashkenas, DocumentCloud and Investigative Reporters & Editors
*)
*/
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