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path: root/modeling/productions_math.py
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#!/usr/bin/env python3

import pyactr as actr
from pprint import pprint

from model_init import init
import prod_addition
import prod_subtraction
import prod_comp
import prod_multi
import prod_numbers
import prod_procedure
import prod_motor
import prod_vis
import model_env


def add_goal(goal, op, arg1, arg2):

    goal.add(actr.makechunk("", "math_goal", op=op, task=op, arg1=arg1, arg2=arg2))


def general_prod(Model):

    Model.productionstring(
        name="continue_with_next_op",
        string="""
            =g>
            isa     math_goal
            op      done
            nextop  ~None
            nextop  =nextop
            ==>
            =g>
            isa     math_goal
            op      =nextop
            nextop  None
        """,
    )


def wait_input():
    op = input("op\n")
    arg1 = input("arg1\n")
    arg2 = input("arg2\n")
    return op, int(arg1), int(arg2)


def add_proc(goal, proc):
    input()
    goal.add(actr.makechunk("", "math_goal", proc=proc, ones_carry="hello"))


def start():
    while True:
        # op, arg1, arg2 = wait_input()
        Model, DM, goal, imaginal, env = init()
        # add_goal(goal, op, arg1, arg2)
        add_proc(goal, "proc1")
        envs = model_env.generate_environments()

        general_prod(Model)
        prod_procedure.procedures(Model)
        number_prods = prod_numbers.number(Model)
        add_prods = prod_addition.addition(Model)
        sub_prods = prod_subtraction.subtraction(Model)
        greater_prods = prod_comp.greater_than(Model)
        less_prods = prod_comp.lesser_than(Model)
        multi_prods = prod_multi.multiplication(Model)
        motor_prods = prod_motor.procedures(Model)
        visual_prods = prod_vis.procedures(Model)

        # for prod in multi_prods:
        #     print(prod)
        #     print("\n")

        print("goal: ", goal)
        # print("imaginal: ", imaginal)
        sim = Model.simulation(
            gui=False,
            environment_process=env.environment_process,
            stimuli=envs,
            # triggers="space",
            triggers="b",
        )
        i = 1
        userinput = ""
        while True:
            sim.step()
            if sim.current_event.time >= 50:
                print(sim.current_event)
                break
            if "KEY PRESSED" in sim.current_event.action:
                userinput = userinput + sim.current_event.action.split(":")[1]
            # if sim.current_event.action == "NO RULE FOUND":
            #     print(goal)
            if sim.current_event.action == "KEY PRESSED: SPACE":
                sim._Simulation__env.stimulus["Answer5"]["text"] = "99"
                i += 1
                print(userinput)
                print("NEW PROC")
                if i <= 6:
                    goal.add(
                        actr.makechunk(
                            "", "math_goal", proc=f"proc{i}", ones_carry="hello"
                        )
                    )
                elif i == 7:
                    goal.add(
                        actr.makechunk(
                            "", "math_goal", proc="proc_overall", ones_carry="hello"
                        )
                    )
                elif i > 7:
                    print("DONE")
                    break

        # sim.run(max_time=25)
        print(userinput)
        print("Simulation time: ", sim.show_time())
        print("goal: ", goal)
        print(sim.current_event)
        pprint(vars(sim))
        pprint(vars(sim._Simulation__env))
        # print(sim.__env)
        # sim.__printenv__()
        # print(envs.stimulus)
        # print("imaginal: ", imaginal)
        math_goals = [sim for sim in list(DM) if sim.typename == "procedure"]
        # print(math_goals)


if __name__ == "__main__":
    start()