import numpy as np from datetime import timedelta import pprint from cadCAD.configuration import append_configs from cadCAD.configuration.utils import env_trigger, var_substep_trigger, config_sim, time_step, psub_list from typing import Dict, List pp = pprint.PrettyPrinter(indent=4) seeds = { 'z': np.random.RandomState(1), 'a': np.random.RandomState(2), 'b': np.random.RandomState(3), 'c': np.random.RandomState(3) } # Optional g: Dict[str, List[int]] = { 'alpha': [1], # 'beta': [2], # 'gamma': [3], 'beta': [2, 5], 'gamma': [3, 4], 'omega': [7] } psu_steps = ['m1', 'm2', 'm3'] system_substeps = len(psu_steps) var_timestep_trigger = var_substep_trigger([0, system_substeps]) env_timestep_trigger = env_trigger(system_substeps) env_process = {} psu_block = {k: {"policies": {}, "variables": {}} for k in psu_steps} # ['s1', 's2', 's3', 's4'] # Policies per Mechanism def p1m1(_g, step, sL, s): return {'param1': 1} psu_block['m1']['policies']['p1'] = p1m1 def p2m1(_g, step, sL, s): return {'param2': 4} psu_block['m1']['policies']['p2'] = p2m1 def p1m2(_g, step, sL, s): return {'param1': 'a', 'param2': _g['beta']} psu_block['m2']['policies']['p1'] = p1m2 def p2m2(_g, step, sL, s): return {'param1': 'b', 'param2': 0} psu_block['m2']['policies']['p2'] = p2m2 def p1m3(_g, step, sL, s): return {'param1': np.array([10, 100])} psu_block['m3']['policies']['p1'] = p1m3 def p2m3(_g, step, sL, s): return {'param1': np.array([20, 200])} psu_block['m3']['policies']['p2'] = p2m3 # Internal States per Mechanism def s1m1(_g, step, sL, s, _input): return 's1', 0 psu_block['m1']["variables"]['s1'] = s1m1 def s2m1(_g, step, sL, s, _input): return 's2', _g['beta'] psu_block['m1']["variables"]['s2'] = s2m1 def s1m2(_g, step, sL, s, _input): return 's1', _input['param2'] psu_block['m2']["variables"]['s1'] = s1m2 def s2m2(_g, step, sL, s, _input): return 's2', _input['param2'] psu_block['m2']["variables"]['s2'] = s2m2 def s1m3(_g, step, sL, s, _input): return 's1', 0 psu_block['m3']["variables"]['s1'] = s1m3 def s2m3(_g, step, sL, s, _input): return 's2', 0 psu_block['m3']["variables"]['s2'] = s2m3 # Exogenous States def update_timestamp(_g, step, sL, s, _input): y = 'timestamp' return y, time_step(dt_str=s[y], dt_format='%Y-%m-%d %H:%M:%S', _timedelta=timedelta(days=0, minutes=0, seconds=1)) for m in ['m1','m2','m3']: # psu_block[m]["variables"]['timestamp'] = update_timestamp psu_block[m]["variables"]['timestamp'] = var_timestep_trigger(y='timestamp', f=update_timestamp) # psu_block[m]["variables"]['timestamp'] = var_trigger( # y='timestamp', f=update_timestamp, pre_conditions={'substep': [0, system_substeps]}, cond_op=lambda a, b: a and b # ) proc_one_coef = 0.7 def es3(_g, step, sL, s, _input): return 's3', s['s3'] + proc_one_coef # use `timestep_trigger` to update every ts for m in ['m1','m2','m3']: psu_block[m]["variables"]['s3'] = var_timestep_trigger(y='s3', f=es3) def es4(_g, step, sL, s, _input): return 's4', s['s4'] + _g['gamma'] for m in ['m1','m2','m3']: psu_block[m]["variables"]['s4'] = var_timestep_trigger(y='s4', f=es4) # ToDo: The number of values entered in sweep should be the # of config objs created, # not dependent on the # of times the sweep is applied # sweep exo_state func and point to exo-state in every other funtion # param sweep on genesis states # Genesis States genesis_states = { 's1': 0.0, 's2': 0.0, 's3': 1.0, 's4': 1.0, 'timestamp': '2018-10-01 15:16:24' } # Environment Process # ToDo: Validate - make env proc trigger field agnostic env_process["s3"] = [lambda _g, x: _g['beta'], lambda _g, x: x + 1] env_process["s4"] = env_timestep_trigger(trigger_field='timestep', trigger_vals=[5], funct_list=[lambda _g, x: _g['beta']]) # config_sim Necessary sim_config = config_sim( { "N": 2, "T": range(5), "M": g, # Optional } ) # New Convention partial_state_update_blocks = psub_list(psu_block, psu_steps) append_configs( sim_configs=sim_config, initial_state=genesis_states, seeds=seeds, env_processes=env_process, partial_state_update_blocks=partial_state_update_blocks ) print() print("Policie State Update Block:") pp.pprint(partial_state_update_blocks) print() print()