binaryCalculatorPrototype/bitutilities.py

from collections import deque
from typing_extensions import Self


class BasicRegister:
    """
    The BasicRegister represents a hardware register capable of manipulating multiple bits at a time.

    :param deque[bool] memory: The bits stored inside the register.
    """

    def __init__(self, memory: list[bool]):
        self.memory: deque[bool] = deque(memory)

    def __repr__(self) -> str:
        return f"Memory: {[int(value) for value in  self.memory]}"

    def __str__(self) -> str:
        return f"Memory: {[int(value) for value in  self.memory]}"

    def __len__(self) -> int:
        return len(self.memory)

    def adjusted_by_size(self, resulting_size: int) -> Self:
        """
        Adjusts a register to a given size.

        :param int resulting_size: The size of the resulting register.

        :return: A register of a specified size.
        :rtype: BasicRegister
        """
        current_memory_size: int = len(self.memory)
        return BasicRegister(
            [False] * max(resulting_size - current_memory_size, 0) + list(self.memory)[-resulting_size:]
        )

    def reverse(self):
        self.memory = deque([not value for value in self.memory])

    def left_shift(self, digit_to_fill: bool = False, steps_shifted: int = 1) -> deque[bool]:
        self.memory.extend([digit_to_fill] * steps_shifted)
        shifted_radices: deque[bool] = deque([self.memory.popleft() for _i in range(steps_shifted)])
        return shifted_radices

    def right_shift(self, digit_to_fill: bool = False, steps_shifted: int = 1) -> deque[bool]:
        self.memory.extendleft([digit_to_fill] * steps_shifted)
        shifted_radices: deque[bool] = deque([self.memory.pop() for _i in range(steps_shifted)])
        return shifted_radices


def get_memory(variable_name: str) -> list[bool]:
    """
    Reads user input to be used as a memory array.

    :param str variable_name: The name to be displayed in the input line.

    :return: A list of boolean values read from user.
    :rtype: list[bool]
    """
    while True:
        input_chars: list[str] = list(input(f"Enter {variable_name}: "))

        if all(character in ["0", "1"] for character in input_chars):
            return [True if character == "1" else False for character in input_chars]
        else:
            print(f"[ERROR] The {variable_name} may contain only 1-s and 0-s!")


def binary_sum_with_carry(first_term: BasicRegister, second_term: BasicRegister) -> tuple[BasicRegister, int]:
    result_term = BasicRegister([False] * len(first_term))

    carry = False
    for i in range(len(first_term) - 1, 0, -1):
        current_bit_sum = first_term.memory[i] + second_term.memory[i] + carry
        carry = bool(current_bit_sum & 2)
        result_term.memory[i] = bool(current_bit_sum & 1)

    final_bit_sum = first_term.memory[0] + second_term.memory[0] + carry
    final_carry = bool(final_bit_sum & 2)
    result_term.memory[0] = bool(final_bit_sum & 1)

    return result_term, final_carry


def binary_sum(first_term: BasicRegister, second_term: BasicRegister) -> BasicRegister:
    """
    Sums two registers' values.

    :param BasicRegister first_term: First register.
    :param BasicRegister second_term: Second register.

    :return: Register containing the sum or the tuple containing the register and carried radix.
    :rtype: BasicRegister | tuple[BasicRegister, int]
    """
    return binary_sum_with_carry(first_term, second_term)[0]


def binary_subtraction(first_term: BasicRegister, second_term: BasicRegister) -> BasicRegister:
    second_term.reverse()

    result: BasicRegister
    final_carry: bool
    result, final_carry = binary_sum_with_carry(first_term, second_term)

    if final_carry:
        return binary_sum(result, BasicRegister([False] * (len(result) - 1) + [True]))
    else:
        result.reverse()
        return result


def align_registers(first_register: BasicRegister, second_register: BasicRegister) \
        -> tuple[BasicRegister, BasicRegister]:
    first_size = len(first_register)
    second_size = len(second_register)

def align_registers(*args: BasicRegister) -> tuple[BasicRegister, ...]:
    """
    Aligns registers by the length of the bigger one.

    :param args: Basic registers to align.

    :return: Aligned registers.
    :rtype: tuple[BasicRegister, ...]
    """
    required_size: int = max(map(len, args))
    return tuple(reg.adjusted_by_size(required_size) for reg in args)
revert 65750694e45aff9e9319c674d0a11fc2ad23aca1 revert Delete 'bitutilities.py' 2023-06-26 00:26:09 +03:00			`from collections import deque`
Minor adjustments to bitutilities.py. 2023-06-26 21:58:24 +03:00			`from typing_extensions import Self`
revert 65750694e45aff9e9319c674d0a11fc2ad23aca1 revert Delete 'bitutilities.py' 2023-06-26 00:26:09 +03:00

			`class BasicRegister:`
Minor adjustments to bitutilities.py. 2023-06-26 21:58:24 +03:00			`"""`
			`The BasicRegister represents a hardware register capable of manipulating multiple bits at a time.`
revert 65750694e45aff9e9319c674d0a11fc2ad23aca1 revert Delete 'bitutilities.py' 2023-06-26 00:26:09 +03:00
			`:param deque[bool] memory: The bits stored inside the register.`
			`"""`

			`def __init__(self, memory: list[bool]):`
			`self.memory: deque[bool] = deque(memory)`

Implemented __repr__ and __len__ for BasicRegister. 2023-06-27 14:07:47 +03:00			`def __repr__(self) -> str:`
			`return f"Memory: {[int(value) for value in self.memory]}"`

revert 65750694e45aff9e9319c674d0a11fc2ad23aca1 revert Delete 'bitutilities.py' 2023-06-26 00:26:09 +03:00			`def __str__(self) -> str:`
			`return f"Memory: {[int(value) for value in self.memory]}"`

Implemented __repr__ and __len__ for BasicRegister. 2023-06-27 14:07:47 +03:00			`def __len__(self) -> int:`
			`return len(self.memory)`

Minor adjustments to bitutilities.py. 2023-06-26 21:58:24 +03:00			`def adjusted_by_size(self, resulting_size: int) -> Self:`
			`"""`
			`Adjusts a register to a given size.`

			`:param int resulting_size: The size of the resulting register.`

			`:return: A register of a specified size.`
			`:rtype: BasicRegister`
			`"""`
			`current_memory_size: int = len(self.memory)`
			`return BasicRegister(`
fix BasicRegister shrinking 2023-06-26 22:33:41 +03:00			`[False] * max(resulting_size - current_memory_size, 0) + list(self.memory)[-resulting_size:]`
Minor adjustments to bitutilities.py. 2023-06-26 21:58:24 +03:00			`)`

revert 65750694e45aff9e9319c674d0a11fc2ad23aca1 revert Delete 'bitutilities.py' 2023-06-26 00:26:09 +03:00			`def reverse(self):`
			`self.memory = deque([not value for value in self.memory])`

			`def left_shift(self, digit_to_fill: bool = False, steps_shifted: int = 1) -> deque[bool]:`
			`self.memory.extend([digit_to_fill] * steps_shifted)`
			`shifted_radices: deque[bool] = deque([self.memory.popleft() for _i in range(steps_shifted)])`
			`return shifted_radices`

			`def right_shift(self, digit_to_fill: bool = False, steps_shifted: int = 1) -> deque[bool]:`
			`self.memory.extendleft([digit_to_fill] * steps_shifted)`
			`shifted_radices: deque[bool] = deque([self.memory.pop() for _i in range(steps_shifted)])`
			`return shifted_radices`


			`def get_memory(variable_name: str) -> list[bool]:`
			`"""`
			`Reads user input to be used as a memory array.`

			`:param str variable_name: The name to be displayed in the input line.`

			`:return: A list of boolean values read from user.`
			`:rtype: list[bool]`
			`"""`
			`while True:`
			`input_chars: list[str] = list(input(f"Enter {variable_name}: "))`

			`if all(character in ["0", "1"] for character in input_chars):`
			`return [True if character == "1" else False for character in input_chars]`
			`else:`
			`print(f"[ERROR] The {variable_name} may contain only 1-s and 0-s!")`
add sum function for addition of two registers 2023-06-26 21:05:45 +03:00

Introduced binary_sum_with_carry and rewrote binary_sum accordingly. 2023-06-27 17:05:40 +03:00			`def binary_sum_with_carry(first_term: BasicRegister, second_term: BasicRegister) -> tuple[BasicRegister, int]:`
			`result_term = BasicRegister([False] * len(first_term))`

			`carry = False`
			`for i in range(len(first_term) - 1, 0, -1):`
			`current_bit_sum = first_term.memory[i] + second_term.memory[i] + carry`
			`carry = bool(current_bit_sum & 2)`
			`result_term.memory[i] = bool(current_bit_sum & 1)`

			`final_bit_sum = first_term.memory[0] + second_term.memory[0] + carry`
			`final_carry = bool(final_bit_sum & 2)`
			`result_term.memory[0] = bool(final_bit_sum & 1)`

			`return result_term, final_carry`


			`def binary_sum(first_term: BasicRegister, second_term: BasicRegister) -> BasicRegister:`
add sum function for addition of two registers 2023-06-26 21:05:45 +03:00			`"""`
			`Sums two registers' values.`

Renamed arguments inside binary_sum. Added carry return (VERY NOT SURE IF IT WORKS CORRECTLY). 2023-06-27 14:18:10 +03:00			`:param BasicRegister first_term: First register.`
			`:param BasicRegister second_term: Second register.`
add sum function for addition of two registers 2023-06-26 21:05:45 +03:00
Renamed arguments inside binary_sum. Added carry return (VERY NOT SURE IF IT WORKS CORRECTLY). 2023-06-27 14:18:10 +03:00			`:return: Register containing the sum or the tuple containing the register and carried radix.`
			`:rtype: BasicRegister \| tuple[BasicRegister, int]`
add sum function for addition of two registers 2023-06-26 21:05:45 +03:00			`"""`
Introduced binary_sum_with_carry and rewrote binary_sum accordingly. 2023-06-27 17:05:40 +03:00			`return binary_sum_with_carry(first_term, second_term)[0]`
binary_subtraction_1_complement initial commit. 2023-06-27 15:34:39 +03:00

Minor rewrites. 2023-06-27 16:43:18 +03:00			`def binary_subtraction(first_term: BasicRegister, second_term: BasicRegister) -> BasicRegister:`
Revamped function scopes. 2023-06-27 15:53:20 +03:00			`second_term.reverse()`
binary_subtraction_1_complement initial commit. 2023-06-27 15:34:39 +03:00
Revamped function scopes. 2023-06-27 15:53:20 +03:00			`result: BasicRegister`
			`final_carry: bool`
Introduced binary_sum_with_carry and rewrote binary_sum accordingly. 2023-06-27 17:05:40 +03:00			`result, final_carry = binary_sum_with_carry(first_term, second_term)`
binary_subtraction_1_complement initial commit. 2023-06-27 15:34:39 +03:00
Revamped function scopes. 2023-06-27 15:53:20 +03:00			`if final_carry:`
Introduced binary_sum_with_carry and rewrote binary_sum accordingly. 2023-06-27 17:05:40 +03:00			`return binary_sum(result, BasicRegister([False] * (len(result) - 1) + [True]))`
Revamped function scopes. 2023-06-27 15:53:20 +03:00			`else:`
			`result.reverse()`
			`return result`
binary_subtraction_1_complement initial commit. 2023-06-27 15:34:39 +03:00

Revamped function scopes. 2023-06-27 15:53:20 +03:00			`def align_registers(first_register: BasicRegister, second_register: BasicRegister) \`
			`-> tuple[BasicRegister, BasicRegister]:`
Minor rewrites. 2023-06-27 16:43:18 +03:00			`first_size = len(first_register)`
			`second_size = len(second_register)`
binary_subtraction_1_complement initial commit. 2023-06-27 15:34:39 +03:00
Rewrote align_registers to accept any number of registers. 2023-06-27 17:49:03 +03:00			`def align_registers(*args: BasicRegister) -> tuple[BasicRegister, ...]:`
			`"""`
			`Aligns registers by the length of the bigger one.`
binary_subtraction_1_complement initial commit. 2023-06-27 15:34:39 +03:00
Rewrote align_registers to accept any number of registers. 2023-06-27 17:49:03 +03:00			`:param args: Basic registers to align.`

			`:return: Aligned registers.`
			`:rtype: tuple[BasicRegister, ...]`
			`"""`
			`required_size: int = max(map(len, args))`
			`return tuple(reg.adjusted_by_size(required_size) for reg in args)`