mirror of
https://github.com/TheAlgorithms/Python.git
synced 2024-12-18 01:00:15 +00:00
clean of unnecessary checks, imports, calls (#7993)
This commit is contained in:
parent
a25c53e8b0
commit
f32d611689
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@ -88,12 +88,12 @@ def run_maze(maze: list[list[int]], i: int, j: int, solutions: list[list[int]])
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solutions[i][j] = 1
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solutions[i][j] = 1
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return True
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return True
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lower_flag = (not (i < 0)) and (not (j < 0)) # Check lower bounds
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lower_flag = (not i < 0) and (not j < 0) # Check lower bounds
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upper_flag = (i < size) and (j < size) # Check upper bounds
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upper_flag = (i < size) and (j < size) # Check upper bounds
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if lower_flag and upper_flag:
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if lower_flag and upper_flag:
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# check for already visited and block points.
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# check for already visited and block points.
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block_flag = (not (solutions[i][j])) and (not (maze[i][j]))
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block_flag = (not solutions[i][j]) and (not maze[i][j])
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if block_flag:
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if block_flag:
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# check visited
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# check visited
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solutions[i][j] = 1
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solutions[i][j] = 1
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@ -45,8 +45,7 @@ def construct_highway(
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highway = [[-1] * number_of_cells] # Create a highway without any car
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highway = [[-1] * number_of_cells] # Create a highway without any car
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i = 0
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i = 0
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if initial_speed < 0:
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initial_speed = max(initial_speed, 0)
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initial_speed = 0
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while i < number_of_cells:
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while i < number_of_cells:
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highway[0][i] = (
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highway[0][i] = (
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randint(0, max_speed) if random_speed else initial_speed
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randint(0, max_speed) if random_speed else initial_speed
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@ -42,7 +42,7 @@ def mixed_keyword(key: str = "college", pt: str = "UNIVERSITY") -> str:
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s = []
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s = []
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for _ in range(len_temp):
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for _ in range(len_temp):
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s.append(temp[k])
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s.append(temp[k])
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if not (k < 25):
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if k >= 25:
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break
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break
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k += 1
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k += 1
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modalpha.append(s)
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modalpha.append(s)
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@ -52,7 +52,7 @@ def mixed_keyword(key: str = "college", pt: str = "UNIVERSITY") -> str:
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k = 0
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k = 0
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for j in range(len_temp):
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for j in range(len_temp):
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for m in modalpha:
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for m in modalpha:
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if not (len(m) - 1 >= j):
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if not len(m) - 1 >= j:
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break
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break
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d[alpha[k]] = m[j]
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d[alpha[k]] = m[j]
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if not k < 25:
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if not k < 25:
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@ -56,7 +56,7 @@ def traverse_tree(root: Letter | TreeNode, bitstring: str) -> list[Letter]:
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Recursively traverse the Huffman Tree to set each
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Recursively traverse the Huffman Tree to set each
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Letter's bitstring dictionary, and return the list of Letters
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Letter's bitstring dictionary, and return the list of Letters
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"""
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"""
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if type(root) is Letter:
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if isinstance(root, Letter):
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root.bitstring[root.letter] = bitstring
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root.bitstring[root.letter] = bitstring
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return [root]
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return [root]
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treenode: TreeNode = root # type: ignore
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treenode: TreeNode = root # type: ignore
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@ -121,7 +121,7 @@ class MinHeap:
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self.sift_up(len(self.heap) - 1)
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self.sift_up(len(self.heap) - 1)
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def is_empty(self):
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def is_empty(self):
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return True if len(self.heap) == 0 else False
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return len(self.heap) == 0
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def decrease_key(self, node, new_value):
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def decrease_key(self, node, new_value):
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assert (
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assert (
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@ -10,7 +10,7 @@ from digital_image_processing import change_contrast as cc
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from digital_image_processing import convert_to_negative as cn
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from digital_image_processing import convert_to_negative as cn
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from digital_image_processing import sepia as sp
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from digital_image_processing import sepia as sp
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from digital_image_processing.dithering import burkes as bs
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from digital_image_processing.dithering import burkes as bs
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from digital_image_processing.edge_detection import canny as canny
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from digital_image_processing.edge_detection import canny
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from digital_image_processing.filters import convolve as conv
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from digital_image_processing.filters import convolve as conv
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from digital_image_processing.filters import gaussian_filter as gg
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from digital_image_processing.filters import gaussian_filter as gg
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from digital_image_processing.filters import local_binary_pattern as lbp
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from digital_image_processing.filters import local_binary_pattern as lbp
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@ -33,10 +33,9 @@ def fizz_buzz(number: int, iterations: int) -> str:
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...
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...
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ValueError: iterations must be defined as integers
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ValueError: iterations must be defined as integers
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"""
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"""
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if not isinstance(iterations, int):
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if not type(iterations) == int:
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raise ValueError("iterations must be defined as integers")
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raise ValueError("iterations must be defined as integers")
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if not type(number) == int or not number >= 1:
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if not isinstance(number, int) or not number >= 1:
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raise ValueError(
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raise ValueError(
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"""starting number must be
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"""starting number must be
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and integer and be more than 0"""
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and integer and be more than 0"""
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@ -62,8 +62,7 @@ def max_sub_array(nums: list[int]) -> int:
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current = 0
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current = 0
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for i in nums:
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for i in nums:
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current += i
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current += i
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if current < 0:
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current = max(current, 0)
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current = 0
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best = max(best, current)
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best = max(best, current)
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return best
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return best
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@ -167,7 +167,7 @@ class DirectedGraph:
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and not on_the_way_back
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and not on_the_way_back
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):
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):
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len_stack = len(stack) - 1
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len_stack = len(stack) - 1
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while True and len_stack >= 0:
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while len_stack >= 0:
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if stack[len_stack] == node[1]:
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if stack[len_stack] == node[1]:
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anticipating_nodes.add(node[1])
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anticipating_nodes.add(node[1])
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break
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break
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@ -220,7 +220,7 @@ class DirectedGraph:
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and not on_the_way_back
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and not on_the_way_back
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):
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):
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len_stack_minus_one = len(stack) - 1
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len_stack_minus_one = len(stack) - 1
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while True and len_stack_minus_one >= 0:
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while len_stack_minus_one >= 0:
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if stack[len_stack_minus_one] == node[1]:
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if stack[len_stack_minus_one] == node[1]:
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anticipating_nodes.add(node[1])
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anticipating_nodes.add(node[1])
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break
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break
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@ -392,7 +392,7 @@ class Graph:
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and not on_the_way_back
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and not on_the_way_back
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):
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):
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len_stack = len(stack) - 1
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len_stack = len(stack) - 1
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while True and len_stack >= 0:
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while len_stack >= 0:
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if stack[len_stack] == node[1]:
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if stack[len_stack] == node[1]:
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anticipating_nodes.add(node[1])
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anticipating_nodes.add(node[1])
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break
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break
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@ -445,7 +445,7 @@ class Graph:
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and not on_the_way_back
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and not on_the_way_back
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):
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):
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len_stack_minus_one = len(stack) - 1
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len_stack_minus_one = len(stack) - 1
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while True and len_stack_minus_one >= 0:
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while len_stack_minus_one >= 0:
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if stack[len_stack_minus_one] == node[1]:
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if stack[len_stack_minus_one] == node[1]:
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anticipating_nodes.add(node[1])
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anticipating_nodes.add(node[1])
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break
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break
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@ -1,4 +1,5 @@
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import heapq
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import heapq
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import sys
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import numpy as np
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import numpy as np
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@ -116,7 +117,7 @@ def do_something(back_pointer, goal, start):
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print(x, end=" ")
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print(x, end=" ")
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x = back_pointer[x]
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x = back_pointer[x]
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print(x)
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print(x)
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quit()
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sys.exit()
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def valid(p: TPos):
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def valid(p: TPos):
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@ -129,7 +129,7 @@ class Vector:
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input: index (0-indexed)
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input: index (0-indexed)
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output: the i-th component of the vector.
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output: the i-th component of the vector.
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"""
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"""
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if type(i) is int and -len(self.__components) <= i < len(self.__components):
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if isinstance(i, int) and -len(self.__components) <= i < len(self.__components):
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return self.__components[i]
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return self.__components[i]
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else:
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else:
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raise Exception("index out of range")
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raise Exception("index out of range")
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@ -388,16 +388,10 @@ class SmoSVM:
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return (data - self._min) / (self._max - self._min)
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return (data - self._min) / (self._max - self._min)
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def _is_unbound(self, index):
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def _is_unbound(self, index):
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if 0.0 < self.alphas[index] < self._c:
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return bool(0.0 < self.alphas[index] < self._c)
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return True
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else:
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return False
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def _is_support(self, index):
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def _is_support(self, index):
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if self.alphas[index] > 0:
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return bool(self.alphas[index] > 0)
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return True
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else:
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return False
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@property
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@property
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def unbound(self):
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def unbound(self):
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@ -24,8 +24,7 @@ def find_min(nums: list[int | float]) -> int | float:
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raise ValueError("find_min() arg is an empty sequence")
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raise ValueError("find_min() arg is an empty sequence")
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min_num = nums[0]
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min_num = nums[0]
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for num in nums:
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for num in nums:
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if min_num > num:
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min_num = min(min_num, num)
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min_num = num
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return min_num
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return min_num
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@ -49,10 +49,8 @@ def kadanes(arr: list) -> int:
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for i in arr:
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for i in arr:
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max_till_element += i
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max_till_element += i
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if max_sum <= max_till_element:
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max_sum = max(max_sum, max_till_element)
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max_sum = max_till_element
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max_till_element = max(max_till_element, 0)
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if max_till_element < 0:
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max_till_element = 0
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return max_sum
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return max_sum
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@ -11,10 +11,8 @@ def max_sub_array_sum(a: list, size: int = 0):
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max_ending_here = 0
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max_ending_here = 0
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for i in range(0, size):
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for i in range(0, size):
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max_ending_here = max_ending_here + a[i]
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max_ending_here = max_ending_here + a[i]
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if max_so_far < max_ending_here:
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max_so_far = max(max_so_far, max_ending_here)
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max_so_far = max_ending_here
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max_ending_here = max(max_ending_here, 0)
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if max_ending_here < 0:
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max_ending_here = 0
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return max_so_far
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return max_so_far
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@ -52,7 +52,7 @@ def geometric_series(
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power = 1
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power = 1
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multiple = common_ratio_r
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multiple = common_ratio_r
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for _ in range(int(nth_term)):
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for _ in range(int(nth_term)):
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if series == []:
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if not series:
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series.append(start_term_a)
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series.append(start_term_a)
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else:
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else:
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power += 1
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power += 1
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@ -21,7 +21,7 @@ def bfs(graph, s, t, parent):
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visited[ind] = True
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visited[ind] = True
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parent[ind] = u
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parent[ind] = u
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return True if visited[t] else False
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return visited[t]
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def ford_fulkerson(graph, source, sink):
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def ford_fulkerson(graph, source, sink):
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@ -24,7 +24,7 @@ def bfs(graph, s, t, parent):
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visited[ind] = True
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visited[ind] = True
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parent[ind] = u
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parent[ind] = u
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return True if visited[t] else False
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return visited[t]
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def mincut(graph, source, sink):
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def mincut(graph, source, sink):
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@ -89,13 +89,9 @@ def is_strong_password(password: str, min_length: int = 8) -> bool:
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num = any(char in digits for char in password)
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num = any(char in digits for char in password)
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spec_char = any(char in punctuation for char in password)
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spec_char = any(char in punctuation for char in password)
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if upper and lower and num and spec_char:
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return upper and lower and num and spec_char
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return True
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else:
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# Passwords should contain UPPERCASE, lowerase
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# Passwords should contain UPPERCASE, lowerase
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# numbers, and special characters
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# numbers, and special characters
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return False
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def main():
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def main():
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@ -43,7 +43,7 @@ def fibonacci(n: int) -> int:
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144
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144
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"""
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"""
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if n == 1 or type(n) is not int:
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if n == 1 or not isinstance(n, int):
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return 0
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return 0
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elif n == 2:
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elif n == 2:
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return 1
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return 1
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@ -32,7 +32,7 @@ def is_palindrome(n: int | str) -> bool:
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False
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False
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"""
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"""
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n = str(n)
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n = str(n)
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return True if n == n[::-1] else False
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return n == n[::-1]
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def solution(n: int = 1000000):
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def solution(n: int = 1000000):
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|
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@ -55,9 +55,9 @@ def quantum_fourier_transform(number_of_qubits: int = 3) -> qiskit.result.counts
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...
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...
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ValueError: number of qubits must be exact integer.
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ValueError: number of qubits must be exact integer.
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"""
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"""
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if type(number_of_qubits) == str:
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if isinstance(number_of_qubits, str):
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raise TypeError("number of qubits must be a integer.")
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raise TypeError("number of qubits must be a integer.")
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if not number_of_qubits > 0:
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if number_of_qubits <= 0:
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raise ValueError("number of qubits must be > 0.")
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raise ValueError("number of qubits must be > 0.")
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if math.floor(number_of_qubits) != number_of_qubits:
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if math.floor(number_of_qubits) != number_of_qubits:
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raise ValueError("number of qubits must be exact integer.")
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raise ValueError("number of qubits must be exact integer.")
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|
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@ -60,7 +60,11 @@ def quantum_full_adder(
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...
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...
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ValueError: inputs must be less or equal to 2.
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ValueError: inputs must be less or equal to 2.
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"""
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"""
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if (type(input_1) == str) or (type(input_2) == str) or (type(carry_in) == str):
|
if (
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isinstance(input_1, str)
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or isinstance(input_2, str)
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or isinstance(carry_in, str)
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):
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raise TypeError("inputs must be integers.")
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raise TypeError("inputs must be integers.")
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|
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if (input_1 < 0) or (input_2 < 0) or (carry_in < 0):
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if (input_1 < 0) or (input_2 < 0) or (carry_in < 0):
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|
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@ -53,7 +53,7 @@ def superdense_coding(bit_1: int = 1, bit_2: int = 1) -> qiskit.result.counts.Co
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...
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...
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ValueError: inputs must be less or equal to 1.
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ValueError: inputs must be less or equal to 1.
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"""
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"""
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if (type(bit_1) == str) or (type(bit_2) == str):
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if isinstance(bit_1, str) or isinstance(bit_2, str):
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raise TypeError("inputs must be integers.")
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raise TypeError("inputs must be integers.")
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if (bit_1 < 0) or (bit_2 < 0):
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if (bit_1 < 0) or (bit_2 < 0):
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raise ValueError("inputs must be positive.")
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raise ValueError("inputs must be positive.")
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|
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|
@ -133,7 +133,7 @@ def _msd_radix_sort_inplace(
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j = end_index - 1
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j = end_index - 1
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while i <= j:
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while i <= j:
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changed = False
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changed = False
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if not ((list_of_ints[i] >> bit_position) & 1):
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if not (list_of_ints[i] >> bit_position) & 1:
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# found zero at the beginning
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# found zero at the beginning
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i += 1
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i += 1
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changed = True
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changed = True
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|
|
@ -84,7 +84,7 @@ class Automaton:
|
||||||
else:
|
else:
|
||||||
current_state = next_state
|
current_state = next_state
|
||||||
for key in self.adlist[current_state]["output"]:
|
for key in self.adlist[current_state]["output"]:
|
||||||
if not (key in result):
|
if key not in result:
|
||||||
result[key] = []
|
result[key] = []
|
||||||
result[key].append(i - len(key) + 1)
|
result[key].append(i - len(key) + 1)
|
||||||
return result
|
return result
|
||||||
|
|
Loading…
Reference in New Issue
Block a user