binaryCalculatorPrototype/main.py

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Python
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import bitutilities as bu
operation = ""
method = ""
user_input = []
def process_command(symbol):
global operation, method
if symbol.lower() in "asmdq":
operation = symbol
elif operation == "m" and symbol in "1234":
method = symbol
elif operation == "d" and symbol in "12":
method = symbol
elif symbol in " ;:":
pass
else:
print(f"Error: unexpected instruction '{symbol}', skipping")
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def perform_operation(first_register: bu.BasicRegister, second_register: bu.BasicRegister):
global operation, method
match operation:
case "a":
result, carry = bu.binary_sum_with_carry(first_register, second_register)
print(f"\nSum: {result}\nCarry: {int(carry)}")
operation, method = "", ""
case "s":
result, carry = bu.binary_subtraction_second_complement(first_register, second_register)
print(f"\nSubtraction: {result}\nCarry: {int(carry)}")
operation, method = "", ""
case "m":
match method:
case "1":
result, data_table = bu.binary_multiplication_method_1(first_register, second_register)
print(f"\nMultiplication (method 1):\n{bu.format_device_state_table(data_table)}\nResult: {result}")
operation, method = "", ""
case "2":
result, data_table = bu.binary_multiplication_method_2(first_register, second_register)
print(f"\nMultiplication (method 2):\n{bu.format_device_state_table(data_table)}\nResult: {result}")
operation, method = "", ""
case "3":
result, data_table = bu.binary_multiplication_method_3(first_register, second_register)
print(f"\nMultiplication (method 3):\n{bu.format_device_state_table(data_table)}\nResult: {result}")
operation, method = "", ""
case "4":
result, data_table = bu.binary_multiplication_method_4(first_register, second_register)
print(f"\nMultiplication (method 4):\n{bu.format_device_state_table(data_table)}\nResult: {result}")
operation, method = "", ""
case _:
pass
case "d":
match method:
case "1":
result, data_table = bu.binary_division_method_1(first_register, second_register)
print(f"\nDivision (method 1):\n{bu.format_device_state_table(data_table)}\nResult: {result}")
operation, method = "", ""
case "2":
result, data_table = bu.binary_division_method_2(first_register, second_register)
print(f"\nDivision (method 2):\n{bu.format_device_state_table(data_table)}\nResult: {result}")
operation, method = "", ""
case _:
pass
case "q":
exit(0)
case _:
pass
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def get_prompt_text(operation: any, method: any) -> str:
response = "({} {})"
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if operation:
response += " {}"
if operation and method:
response += "/{}"
return response
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def input_handler(first_register: bu.BasicRegister, second_register: bu.BasicRegister):
global user_input, operation
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first_register, second_register = bu.align_registers(first_register, second_register)
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print()
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print(first_register)
print(second_register)
while True:
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prompt_text: str = get_prompt_text(operation, method).format(first_register, second_register, operation, method)
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print()
if operation == "":
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raw_user_input = input("Choose the operation:\n[a]ddition, [s]ubtraction, [m]ultiplication, [d]ivision, "
"[q]uit\n" + prompt_text + " > ")
elif operation == "m":
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raw_user_input = input("Choose method to use (1-4):\n" + prompt_text + " > ")
elif operation == "d":
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raw_user_input = input("Choose method to use (1-2):\n" + prompt_text + " > ")
user_input = list(raw_user_input)
for symbol in user_input:
process_command(symbol)
perform_operation(first_register, second_register)
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if __name__ == '__main__':
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reg1: bu.BasicRegister = bu.BasicRegister(bu.get_memory("first operand"))
reg2: bu.BasicRegister = bu.BasicRegister(bu.get_memory("second operand"))
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input_handler(reg1, reg2)