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rusty
...
division-i
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16
Cargo.toml
16
Cargo.toml
@@ -1,16 +0,0 @@
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[package]
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name = "rust_tests"
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version = "0.1.0"
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edition = "2021"
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# See more keys and their definitions at https://doc.rust-lang.org/cargo/reference/manifest.html
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[profile.release]
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opt-level = 'z' # Optimize for size
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lto = true # Enable link-time optimization
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codegen-units = 1 # Reduce number of codegen units to increase optimizations
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panic = 'abort' # Abort on panic
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strip = true # Strip symbols from binary*
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[dependencies]
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text_io = "0.1.12"
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@@ -0,0 +1,3 @@
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# binaryCalculatorPrototype
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This is a Python language prototype for a binary calculator to be used in Computer Arithmetics lab works for first-year students studying Computer Engineering at KPI.
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475
bitutilities.py
Normal file
475
bitutilities.py
Normal file
@@ -0,0 +1,475 @@
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from collections import deque
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from typing import Tuple, List, Any
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from typing_extensions import Self
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from lib.prettytable import PrettyTable
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class BasicRegister:
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"""
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The BasicRegister represents a hardware register capable of manipulating multiple bits at a time.
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:param deque[bool] memory: The bits stored inside the register.
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"""
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def __init__(self, memory: deque[bool]):
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self.memory: deque[bool] = memory
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def __repr__(self) -> str:
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return "".join([str(int(value)) for value in self.memory])
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def __str__(self) -> str:
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return "".join([str(int(value)) for value in self.memory])
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def __len__(self) -> int:
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return len(self.memory)
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def adjusted_by_size(self, resulting_size: int) -> Self:
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"""
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Adjusts a register to a given size.
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:param int resulting_size: The size of the resulting register.
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:return: A register of a specified size.
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:rtype: BasicRegister
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"""
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current_memory_size: int = len(self.memory)
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return BasicRegister(
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deque([False] * max(resulting_size - current_memory_size, 0) + list(self.memory)[-resulting_size:])
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)
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def negate(self):
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"""
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Performs logical negation on the register.
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"""
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self.memory = deque([not value for value in self.memory])
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def left_shift(self, shift_in_value: bool = False, bits_shifted: int = 1) -> deque[bool]:
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"""
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Shifts the register to the left by a specified number of steps.
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:param bool shift_in_value: The value that shifts inside the freed space.
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:param int bits_shifted: The number of bits by which the register is shifted.
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:return: The bits shifted outside the register.
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:rtype: deque[bool]
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"""
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self.memory.extend([shift_in_value] * bits_shifted)
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shifted_bits: deque[bool] = deque([self.memory.popleft() for _i in range(bits_shifted)])
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return shifted_bits
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def right_shift(self, shift_in_value: bool = False, bits_shifted: int = 1) -> deque[bool]:
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"""
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Shifts the register to the right by a specified number of steps
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:param bool shift_in_value: The value that shifts inside the freed space.
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:param int bits_shifted: The number of bits by which the register is shifted.
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:return: The bits shifted outside the register.
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:rtype: deque[bool]
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"""
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self.memory.extendleft([shift_in_value] * bits_shifted)
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shifted_bits: deque[bool] = deque([self.memory.pop() for _i in range(bits_shifted)])
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return shifted_bits
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class Counter(BasicRegister):
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"""
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The Counter represents a hardware register specifically designed for countdowns.
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:param int value: Initial numeric value this Counter holds.
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"""
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def __init__(self, value: int):
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# memory: deque[bool] = deque([i == "1" for i in bin(value)[2:]])
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super().__init__(deque([i == "1" for i in bin(value)[2:]]))
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# self.memory: deque[bool] = deque([i == "1" for i in bin(value)[2:]])
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def __repr__(self) -> str:
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return "".join([str(int(value)) for value in self.memory])
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def __str__(self) -> str:
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return "".join([str(int(value)) for value in self.memory])
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def __len__(self) -> int:
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return len(self.memory)
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def decrement(self):
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self.memory = binary_subtraction(self, BasicRegister(deque([False] * (len(self.memory) - 1) + [True]))).memory
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def non_zero(self) -> bool:
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return any(self.memory)
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def get_memory(variable_name: str) -> deque[bool]:
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"""
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Reads user input to be used as a memory array.
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:param str variable_name: The name to be displayed in the input line.
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:return: A list of boolean values read from user.
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:rtype: list[bool]
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"""
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while True:
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input_chars: list[str] = list(input(f"Enter {variable_name}: "))
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if all(character in ["0", "1"] for character in input_chars):
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return deque([True if character == "1" else False for character in input_chars])
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else:
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print(f"[ERROR] The {variable_name} may contain only 1-s and 0-s!")
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def binary_sum_with_carry(first_term: BasicRegister, second_term: BasicRegister) -> tuple[BasicRegister, int]:
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"""
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Sums two registers' values and keeps the carry-out.
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:param BasicRegister first_term: First register.
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:param BasicRegister second_term: Second register.
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:return: Register containing the sum and the carry-out bit.
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:rtype: tuple[BasicRegister, int]
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"""
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result_term = BasicRegister(deque([False] * len(first_term)))
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carry = False
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for i in range(len(first_term) - 1, -1, -1):
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current_bit_sum = first_term.memory[i] + second_term.memory[i] + carry
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carry = bool(current_bit_sum & 2)
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result_term.memory[i] = bool(current_bit_sum & 1)
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return result_term, carry
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def binary_sum(first_term: BasicRegister, second_term: BasicRegister) -> BasicRegister:
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"""
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Sums two terms containing binary numbers.
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:param BasicRegister first_term: First register to add.
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:param BasicRegister second_term: Second register to add.
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:return: Register containing the sum.
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:rtype: BasicRegister
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"""
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return binary_sum_with_carry(first_term, second_term)[0]
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def binary_subtraction(minuend: BasicRegister, subtrahend: BasicRegister) -> BasicRegister:
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"""
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Subtracts the second term from the first in binary using ones' complement.
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:param BasicRegister minuend: Register to subtract from.
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:param BasicRegister subtrahend: Register to subtract by.
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:return: Register containing the difference.
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:rtype: BasicRegister
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"""
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subtrahend = BasicRegister(subtrahend.memory)
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subtrahend.negate()
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difference: BasicRegister
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final_carry: bool
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difference, final_carry = binary_sum_with_carry(minuend, subtrahend)
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if final_carry:
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return binary_sum(difference, BasicRegister(deque([False] * (len(difference) - 1) + [True])))
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else:
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difference.negate()
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return difference
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def binary_subtraction_second_complement(minuend: BasicRegister, subtrahend: BasicRegister) \
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-> tuple[BasicRegister, bool]:
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"""
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Subtracts the second term from the first in binary using seconds' complement.
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:param BasicRegister minuend: Register to subtract from.
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:param BasicRegister subtrahend: Register to subtract by.
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:return: Register containing the difference.
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:rtype: BasicRegister
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"""
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subtrahend = BasicRegister(subtrahend.memory)
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subtrahend.negate()
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subtrahend = binary_sum(*align_registers(subtrahend, BasicRegister([True])))
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difference: BasicRegister
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final_carry: bool
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difference, final_carry = binary_sum_with_carry(minuend, subtrahend)
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return difference, final_carry
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def align_registers(*registers: BasicRegister) -> tuple[BasicRegister, ...]:
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"""
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Aligns registers by the length of the bigger one.
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:param BasicRegister registers: Registers to align.
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:return: Aligned registers.
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:rtype: tuple[BasicRegister, ...]
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"""
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required_size: int = max(map(len, registers))
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return tuple(reg.adjusted_by_size(required_size) for reg in registers)
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def format_device_state_table(table) -> str:
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pt = PrettyTable()
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pt.field_names = table[0]
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for block in table[1:]:
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for line in block[:-1]:
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pt.add_row(line)
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pt.add_row(block[-1], divider=True)
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return pt.get_string()
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def binary_multiplication_method_1(first_term: BasicRegister, second_term: BasicRegister) \
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-> tuple[BasicRegister, list[list[str]]]:
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"""
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Multiplies two terms containing binary numbers using first method.
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:param BasicRegister first_term: First register to multiply.
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:param BasicRegister second_term: Second register to multiply.
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:return: Register containing the product.
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:rtype: BasicRegister
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"""
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first_term, second_term = align_registers(first_term, second_term)
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n: int = len(first_term)
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rg1 = BasicRegister(deque([False] * n))
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rg2 = BasicRegister(first_term.memory)
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rg3 = BasicRegister(second_term.memory)
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ct = Counter(n)
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data_table = [["iter", "RG1", "RG2", "RG3", "CT", "MicroOperations"]]
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i = 0
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data_table.append([])
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data_table[-1].append(list(map(str, [i, rg1, rg2, rg3, ct, "-"])))
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while ct.non_zero():
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i += 1
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data_table.append([])
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if rg2.memory[n-1]:
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rg1 = binary_sum(rg1, rg3)
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data_table[-1].append(list(map(str, [i, rg1, rg2, rg3, ct, "RG1 := RG1 + RG3"])))
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rg2.right_shift(rg1.memory[n-1])
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rg1.right_shift()
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ct.decrement()
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data_table[-1].append(list(map(str, [i, rg1, rg2, rg3, ct, "RG2 := RG1[1].r(RG2)\nRG1 := 0.r(RG1)\nCT := CT - 1"])))
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return BasicRegister(rg1.memory + rg2.memory), data_table
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def binary_multiplication_method_2(first_term: BasicRegister, second_term: BasicRegister) \
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-> tuple[BasicRegister, list[list[str]]]:
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"""
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Multiplies two terms containing binary numbers using second method.
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:param BasicRegister first_term: First register to multiply.
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:param BasicRegister second_term: Second register to multiply.
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:return: Register containing the product.
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:rtype: BasicRegister
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"""
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first_term, second_term = align_registers(first_term, second_term)
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n: int = len(first_term)
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rg1 = BasicRegister(deque([False] * (2*n)))
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rg2 = BasicRegister(first_term.memory)
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rg3 = BasicRegister(deque([False] * n + list(second_term.memory)))
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i = 0
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data_table = [["iter", "RG1", "RG2", "RG3", "MicroOperations"], []]
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data_table[-1].append(list(map(str, [i, rg1, rg2, rg3, "-"])))
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while any(rg2.memory):
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i += 1
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data_table.append([])
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if rg2.memory[n-1]:
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rg1 = binary_sum(rg1, rg3)
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data_table[-1].append(list(map(str, [i, rg1, rg2, rg3, "RG1 := RG1 + RG3"])))
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rg2.right_shift()
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rg3.left_shift()
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data_table[-1].append(list(map(str, [i, rg1, rg2, rg3, "RG2 := 0.r(RG2)\nRG3 := l(RG3).0"])))
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return rg1, data_table
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def binary_multiplication_method_3(first_term: BasicRegister, second_term: BasicRegister) \
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-> tuple[BasicRegister, list[list[str]]]:
|
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"""
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Multiplies two terms containing binary numbers using third method.
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|
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:param BasicRegister first_term: First register to multiply.
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:param BasicRegister second_term: Second register to multiply.
|
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|
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:return: Register containing the product.
|
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:rtype: BasicRegister
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"""
|
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first_term, second_term = align_registers(first_term, second_term)
|
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n: int = len(first_term)
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|
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data_table = [["iter", "RG2", "RG1", "RG3", "CT", "MicroOperations"]]
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rg1 = BasicRegister(deque([False] * n))
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rg2 = BasicRegister(first_term.memory + deque([False]))
|
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rg3 = BasicRegister(deque([False] * (n+1)) + second_term.memory)
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ct = Counter(n)
|
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i = 0
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data_table.append([])
|
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data_table[-1].append(list(map(str, [i, rg2, rg1, rg3, ct, "-"])))
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|
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while ct.non_zero():
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i += 1
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data_table.append([])
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if rg2.memory[0]:
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result: list[bool] = list(binary_sum(BasicRegister(rg2.memory + rg1.memory), rg3).memory)
|
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rg2 = BasicRegister(deque(result[:n+1]))
|
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rg1 = BasicRegister(deque(result[n+1:]))
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data_table[-1].append(list(map(str, [i, rg2, rg1, rg3, ct, "RG2.RG1 := RG2.RG1 + RG3"])))
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rg2.left_shift(rg1.memory[0])
|
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rg1.left_shift()
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ct.decrement()
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|
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data_table[-1].append(list(map(str, [i, rg2, rg1, rg3, ct, "RG2.RG1 := l(RG2.RG1).0\nCT := CT - 1"])))
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return BasicRegister(deque(list(rg2.memory + rg1.memory)[:-1])), data_table
|
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|
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|
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def binary_multiplication_method_4(first_term: BasicRegister, second_term: BasicRegister) \
|
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-> tuple[BasicRegister, list[list[str]]]:
|
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"""
|
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Multiplies two terms containing binary numbers using fourth method.
|
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|
||||
:param BasicRegister first_term: First register to multiply.
|
||||
:param BasicRegister second_term: Second register to multiply.
|
||||
|
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:return: Register containing the product.
|
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:rtype: BasicRegister
|
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"""
|
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first_term, second_term = align_registers(first_term, second_term)
|
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n: int = len(first_term)
|
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|
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rg1 = BasicRegister(deque([False] * (2*n+1)))
|
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rg2 = BasicRegister(first_term.memory)
|
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rg3 = BasicRegister(deque([False]) + second_term.memory + deque([False] * n))
|
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|
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data_table = [["iter", "RG1", "RG2", "RG3", "MicroOperations"]]
|
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|
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i = 0
|
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data_table.append([])
|
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data_table[-1].append(list(map(str, [i, rg1, rg2, rg3, "-"])))
|
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|
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while any(rg2.memory):
|
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i += 1
|
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data_table.append([])
|
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|
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if rg2.memory[0]:
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rg1 = binary_sum(rg1, rg3)
|
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data_table[-1].append(list(map(str, [i, rg1, rg2, rg3, "RG1 := RG1 + RG3"])))
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|
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rg2.left_shift()
|
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rg3.right_shift()
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|
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data_table[-1].append(list(map(str, [i, rg1, rg2, rg3, "RG2 := l(RG2).0\nRG3 := 0.r(RG3)"])))
|
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|
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return BasicRegister(deque(list(rg1.memory)[:-1])), data_table
|
||||
|
||||
def binary_division_method_1(first_term: BasicRegister, second_term: BasicRegister) \
|
||||
-> tuple[BasicRegister, list[list[str]]]:
|
||||
"""
|
||||
Divides first term by the second term containing binary numbers using first method.
|
||||
|
||||
:param: BasicRegister first_term: Register being divided.
|
||||
:param: BasicRegister second_term: Register being divided by.
|
||||
|
||||
:return: Register containing the division result.
|
||||
:rtype: BasicRegister
|
||||
"""
|
||||
|
||||
first_term, second_term = align_registers(first_term, second_term)
|
||||
n: int = len(first_term)
|
||||
|
||||
rg1 = BasicRegister(deque([False, False]) + second_term.memory)
|
||||
rg2 = BasicRegister(deque([False, False]) + first_term.memory)
|
||||
rg3 = BasicRegister(deque([True] * (n+1)))
|
||||
|
||||
data_table = [["iter", "RG3", "RG2", "RG1", "MicroOperations"]]
|
||||
i = 0
|
||||
|
||||
data_table.append([])
|
||||
data_table[-1].append(list(map(str, [i, rg3, rg2, rg1, "-"])))
|
||||
|
||||
while rg3.memory[0]:
|
||||
i += 1
|
||||
data_table.append([])
|
||||
|
||||
if rg2.memory[0]:
|
||||
rg2 = binary_sum(rg2, rg1)
|
||||
data_table[-1].append(list(map(str, [i, rg3, rg2, rg1, "RG2 := RG2 + RG1"])))
|
||||
else:
|
||||
rg2, _ = binary_subtraction_second_complement(rg2, rg1)
|
||||
data_table[-1].append(list(map(str, [i, rg3, rg2, rg1, "RG2 := RG2 - RG1"])))
|
||||
|
||||
rg3.left_shift(not rg2.memory[0])
|
||||
rg2.left_shift()
|
||||
data_table[-1].append(list(map(str, [i, rg3, rg2, rg1, f"RG3 := l(RG3).!RG2[{n+2}]\nRG2 := l(RG2).0"])))
|
||||
|
||||
return BasicRegister(deque(list(rg3.memory)[1:])), data_table
|
||||
|
||||
def binary_division_method_2(first_term: BasicRegister, second_term: BasicRegister) \
|
||||
-> tuple[BasicRegister, list[list[str]]]:
|
||||
"""
|
||||
Divides first term by the second term containing binary numbers using second method.
|
||||
|
||||
:param: BasicRegister first_term: Register being divided.
|
||||
:param: BasicRegister second_term: Register being divided by.
|
||||
|
||||
:return: Register containing the division result.
|
||||
:rtype: BasicRegister
|
||||
"""
|
||||
|
||||
first_term, second_term = align_registers(first_term, second_term)
|
||||
n: int = len(first_term)
|
||||
|
||||
rg1 = BasicRegister(deque([False]) + second_term.memory + deque([False]*n))
|
||||
rg2 = BasicRegister(deque([False]) + first_term.memory + deque([False]*n))
|
||||
rg3 = BasicRegister(deque([True] * (n+1)))
|
||||
|
||||
data_table = [["iter", "RG3", "RG2", "RG1", "MicroOperations"]]
|
||||
i = 0
|
||||
carry = False
|
||||
|
||||
data_table.append([])
|
||||
data_table[-1].append(list(map(str, [i, rg3, rg2, rg1, "-"])))
|
||||
|
||||
while rg3.memory[0]:
|
||||
i += 1
|
||||
data_table.append([])
|
||||
|
||||
if rg2.memory[0]:
|
||||
rg2, carry = binary_sum_with_carry(rg2, rg1)
|
||||
data_table[-1].append(list(map(str, [i, rg3, rg2, rg1, "RG2 := RG2 + RG1"])))
|
||||
else:
|
||||
rg2, carry = binary_subtraction_second_complement(rg2, rg1)
|
||||
data_table[-1].append(list(map(str, [i, rg3, rg2, rg1, "RG2 := RG2 - RG1"])))
|
||||
|
||||
rg3.left_shift(carry)
|
||||
rg1.right_shift()
|
||||
data_table[-1].append(list(map(str, [i, rg3, rg2, rg1, f"RG3 := l(RG3).SM[p]\nRG1 := 0.r(RG1)"])))
|
||||
|
||||
return BasicRegister(deque(list(rg3.memory)[1:])), data_table
|
||||
2534
lib/prettytable.py
Normal file
2534
lib/prettytable.py
Normal file
File diff suppressed because it is too large
Load Diff
52
main.py
Normal file
52
main.py
Normal file
@@ -0,0 +1,52 @@
|
||||
import bitutilities as bu
|
||||
|
||||
|
||||
def input_handler(first_register: bu.BasicRegister, second_register: bu.BasicRegister):
|
||||
first_register, second_register = bu.align_registers(first_register, second_register)
|
||||
|
||||
print()
|
||||
print(first_register)
|
||||
print(second_register)
|
||||
|
||||
while True:
|
||||
print()
|
||||
match input("Choose the operation:\n[a]ddition, [s]ubtraction, [m]ultiplication, [d]ivision, [q]uit\n>>> "):
|
||||
case "a":
|
||||
print(f"Sum:\n{bu.binary_sum(first_register, second_register)}")
|
||||
case "s":
|
||||
print(f"Subtraction:\n{bu.binary_subtraction(first_register, second_register)}")
|
||||
case "m":
|
||||
match input("Choose method to use (1-4):\n>>> "):
|
||||
case "1":
|
||||
result, data_table = bu.binary_multiplication_method_1(first_register, second_register)
|
||||
print(f"Multiplication:\n{bu.format_device_state_table(data_table)}\nResult: {result}")
|
||||
case "2":
|
||||
result, data_table = bu.binary_multiplication_method_2(first_register, second_register)
|
||||
print(f"Multiplication:\n{bu.format_device_state_table(data_table)}\nResult: {result}")
|
||||
case "3":
|
||||
result, data_table = bu.binary_multiplication_method_3(first_register, second_register)
|
||||
print(f"Multiplication:\n{bu.format_device_state_table(data_table)}\nResult: {result}")
|
||||
case "4":
|
||||
result, data_table = bu.binary_multiplication_method_4(first_register, second_register)
|
||||
print(f"Multiplication:\n{bu.format_device_state_table(data_table)}\nResult: {result}")
|
||||
case _:
|
||||
print("Such method does not exist, try again.")
|
||||
case "d":
|
||||
match input("Choose method to use (1-2):\n>>> "):
|
||||
case "1":
|
||||
result, data_table = bu.binary_division_method_1(first_register, second_register)
|
||||
print(f"Division:\n{bu.format_device_state_table(data_table)}\nResult: {result}")
|
||||
case "2":
|
||||
result, data_table = bu.binary_division_method_2(first_register, second_register)
|
||||
print(f"Division:\n{bu.format_device_state_table(data_table)}\nResult: {result}")
|
||||
case "q":
|
||||
exit()
|
||||
case _:
|
||||
print("Not an available operation, try again.")
|
||||
|
||||
|
||||
if __name__ == '__main__':
|
||||
reg: bu.BasicRegister = bu.BasicRegister(bu.get_memory("memory"))
|
||||
reg2: bu.BasicRegister = bu.BasicRegister(bu.get_memory("more memory"))
|
||||
|
||||
input_handler(reg, reg2)
|
||||
@@ -1,101 +0,0 @@
|
||||
use std::fmt;
|
||||
use std::fmt::Formatter;
|
||||
|
||||
fn capitalise(s: &str) -> String {
|
||||
let mut c = s.chars();
|
||||
match c.next() {
|
||||
None => String::new(),
|
||||
Some(f) => f.to_uppercase().collect::<String>() + c.as_str(),
|
||||
}
|
||||
}
|
||||
|
||||
/// A basic register capable of storing binary data.
|
||||
#[derive(Debug)]
|
||||
pub struct BasicRegister {
|
||||
/// A [Vec] that stores the binary data of the register.
|
||||
memory: Vec<bool>,
|
||||
}
|
||||
|
||||
impl BasicRegister {
|
||||
pub fn l_shift(&mut self) {
|
||||
let mut res: Vec<bool> = vec![false; self.memory.len()];
|
||||
|
||||
res[..(self.memory.len() - 1)]
|
||||
.copy_from_slice(&self.memory[1..((self.memory.len() - 1) + 1)]);
|
||||
|
||||
self.memory = res;
|
||||
}
|
||||
|
||||
pub fn r_shift(&mut self) {
|
||||
let mut res: Vec<bool> = vec![false; self.memory.len()];
|
||||
|
||||
for i in (1..self.memory.len()).rev() {
|
||||
res[i] = self.memory[i - 1];
|
||||
}
|
||||
|
||||
self.memory = res;
|
||||
}
|
||||
|
||||
pub fn reverse(&mut self) {
|
||||
self.memory = self.memory.iter().map(|val| !val).collect();
|
||||
}
|
||||
|
||||
pub fn new(memory: Vec<bool>) -> Self {
|
||||
Self { memory }
|
||||
}
|
||||
}
|
||||
|
||||
impl Default for BasicRegister {
|
||||
fn default() -> Self {
|
||||
Self {
|
||||
memory: vec![false],
|
||||
}
|
||||
}
|
||||
}
|
||||
|
||||
impl fmt::Display for BasicRegister {
|
||||
fn fmt(&self, f: &mut Formatter<'_>) -> fmt::Result {
|
||||
write!(f, "Memory: [")?;
|
||||
|
||||
for (count, v) in self.memory.iter().enumerate() {
|
||||
if count != 0 {
|
||||
write!(f, ", ")?;
|
||||
}
|
||||
write!(f, "{}", *v as u8)?;
|
||||
}
|
||||
|
||||
write!(f, "]")
|
||||
}
|
||||
}
|
||||
|
||||
fn read_vec(variable_name: &str) -> Vec<char> {
|
||||
loop {
|
||||
print!("Enter {variable_name}: ");
|
||||
let input: String = text_io::read!("{}\n");
|
||||
match input.chars().all(|c| c == '1' || c == '0') {
|
||||
true => return input.chars().collect(),
|
||||
false => eprintln!(
|
||||
"[ERROR] {} may contain only 1-s and 0-s with no whitespaces!",
|
||||
capitalise(variable_name)
|
||||
),
|
||||
}
|
||||
}
|
||||
}
|
||||
|
||||
pub fn char_to_bool_vector(char_vector: Vec<char>) -> Vec<bool> {
|
||||
let mut bool_vector: Vec<bool> = Vec::new();
|
||||
|
||||
for value in char_vector.iter() {
|
||||
match value {
|
||||
'0' => bool_vector.push(false),
|
||||
'1' => bool_vector.push(true),
|
||||
_ => (),
|
||||
}
|
||||
}
|
||||
|
||||
bool_vector
|
||||
}
|
||||
|
||||
pub fn get_memory(variable_name: &str) -> Vec<bool> {
|
||||
char_to_bool_vector(read_vec(variable_name))
|
||||
}
|
||||
44
src/main.rs
44
src/main.rs
@@ -1,44 +0,0 @@
|
||||
#[allow(dead_code)]
|
||||
mod bit_utilities;
|
||||
|
||||
use bit_utilities::*;
|
||||
// use text_io::read;
|
||||
|
||||
fn main() {
|
||||
let mut reg = BasicRegister::new(get_memory("your number"));
|
||||
// let mut reg: BasicRegister = Default::default();
|
||||
|
||||
println!("\nRegister:");
|
||||
println!("{}", reg);
|
||||
|
||||
println!("\nShifted right:");
|
||||
reg.r_shift();
|
||||
println!("{}", reg);
|
||||
|
||||
println!("\nShifted left:");
|
||||
reg.l_shift();
|
||||
println!("{}", reg);
|
||||
|
||||
println!("\nReversed:");
|
||||
reg.reverse();
|
||||
println!("{}", reg);
|
||||
|
||||
// println!("{}", true);
|
||||
// println!("{}", true);
|
||||
|
||||
// let a: i8 = read!();
|
||||
// println!("{} {0:b}", a);
|
||||
// println!("{} {0:b}", a >> 1);
|
||||
// println!("{} {0:b}", a << 1);
|
||||
// println!("{} {0:b}", !a);
|
||||
// println!("{}", '3'.to_digit(2).unwrap());
|
||||
// let f_text = format!("{a:b}").chars().collect::<Vec<char>>();
|
||||
// println!("{:?}", f_text);
|
||||
// println!("{:?}", char_to_bool_vector(f_text.clone()));
|
||||
// let b: BasicRegister = BasicRegister::new(char_to_bool_vector(f_text));
|
||||
// b.print_register();
|
||||
// println!("{:?}", get_memory(format!("{a:b}")));
|
||||
// println!("{:?}", a.split(" ").collect::<Vec<&str>>());
|
||||
// a = text_io::read!("{}\n");
|
||||
// println!("{a}")
|
||||
}
|
||||
Reference in New Issue
Block a user