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

import pyactr as actr
import prod_addition

Model = actr.ACTRModel()

DM = Model.decmem
goal = Model.goal
imaginal = Model.set_goal(name="imaginal", delay=0)

actr.chunktype("number", ("number", "next", "ones", "tens", "hundreds"))
actr.chunktype("math_goal", ("op", "task"))
actr.chunktype(
    "math_op",
    (
        "op",
        "arg1",
        "arg2",
        "result",
        "hundreds1",
        "tens1",
        "ones1",
        "hundreds2",
        "tens2",
        "ones2",
        "hundreds_ans",
        "tens_ans",
        "ones_ans",
        "carry_ones",
        "carry_tens",
    ),
)

goal.add(actr.makechunk("", "math_goal", op="add", task="calc"))
imaginal.add(
    actr.makechunk(
        "",
        "math_op",
        op="add",
        arg1=249,
        arg2=159,
        ones1=9,
        tens1=4,
        hundreds1=2,
        ones2=9,
        tens2=5,
        hundreds2=1,
    )
)


# https://stackoverflow.com/a/39644726
def get_digit(number, n):
    return number // 10**n % 10


# Add numbers 0-999 to decmem
for i in range(0, 1000):
    DM.add(
        actr.makechunk(
            f"number{str(i)}",
            "number",
            number=i,
            next=i + 1,
            ones=get_digit(i, 0),
            tens=get_digit(i, 1),
            hundreds=get_digit(i, 2),
        )
    )

# Add comparison relations to single digit numbers
for i in range(0, 11):
    for j in range(0, 11):
        DM.add(
            actr.makechunk(
                f"greater{i}{j}",
                "math_op",
                op="greater",
                arg1=i,
                arg2=j,
                result=max(i, j),
            )
        )
        DM.add(
            actr.makechunk(
                f"lesser{i}{j}",
                "math_op",
                op="lesser",
                arg1=i,
                arg2=j,
                result=min(i, j),
            )
        )
        DM.add(
            actr.makechunk(
                f"plus{i}{j}", "math_op", op="add", arg1=i, arg2=j, result=i + j
            )
        )


def unwind_prod():
    # Model.productionstring(
    #     name="init_math_op",
    #     string="""
    #     =g>
    #     isa     math_op
    #     task    None
    #     arg1    =num1
    #     arg2    =num2
    #     ==>
    #     +retrieval>
    #     isa     number
    #     number    =num1
    #     =g>
    #     task      unwind_left
    #     """,
    # )

    Model.productionstring(
        name="terminate_op",
        string="""
            =g>
            isa     math_goal
            task    finished_op
            =imaginal>
            isa     math_op
            result  =answer
            ==>
            ~g>""",
    )


def greater_than_prod():
    # TODO: if two numbers are equal, extra effort to determine greater one?
    prod_start = Model.productionstring(
        name="greater_start",
        string="""
            =g>
            isa     math_goal
            task    calc
            =imaginal>
            isa     math_op
            op      greater
            hundreds1   =hun1
            hundreds2   =hun1
            tens1       =tens1
            tens2       =tens1
            ones1       =ones1
            ones2       ~=ones1
            ones2       =ones2
            ==>
            +retrieval>
            isa     math_op
            op      greater
            arg1    =ones1
            arg2    =ones2
        """,
    )
    print(prod_start)

    Model.productionstring(
        name="greater_end",
        string="""
        =g>
        isa     math_goal
        =imaginal>
        op      greater
        =retrieval>
        isa     math_op
        op      greater
        result  =ans
        ==>
        =imaginal>
        isa     math_op
        result  =ans
        ~g>
        """,
    )



# print(DM)

# unwind_prod()
add_prods = prod_addition.addition(Model)
# greater_than_prod()

for prod in add_prods:
    print(prod)
    print("\n")

# Model.goal.add(actr.makechunk("goal", "math_op", op="greater", arg1=5, arg2=9))
print("goal: ", goal)
print("imaginal: ", imaginal)
x = Model.simulation()
x.run()
print("goal: ", goal)
print("imaginal: ", imaginal)
# print(list(DM))
numbers = [x for x in list(DM) if x.typename != "number" and x.typename != "math_op"]
numbers = [x for x in list(DM) if x.typename != "number" and x.typename == "math_op"]
# print(numbers)