clean of unnecessary checks, imports, calls (#7993)

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Mark Mayo 2022-11-21 00:00:27 +13:00 committed by GitHub
parent a25c53e8b0
commit f32d611689
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27 changed files with 44 additions and 57 deletions

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@ -88,12 +88,12 @@ def run_maze(maze: list[list[int]], i: int, j: int, solutions: list[list[int]])
solutions[i][j] = 1 solutions[i][j] = 1
return True return True
lower_flag = (not (i < 0)) and (not (j < 0)) # Check lower bounds lower_flag = (not i < 0) and (not j < 0) # Check lower bounds
upper_flag = (i < size) and (j < size) # Check upper bounds upper_flag = (i < size) and (j < size) # Check upper bounds
if lower_flag and upper_flag: if lower_flag and upper_flag:
# check for already visited and block points. # check for already visited and block points.
block_flag = (not (solutions[i][j])) and (not (maze[i][j])) block_flag = (not solutions[i][j]) and (not maze[i][j])
if block_flag: if block_flag:
# check visited # check visited
solutions[i][j] = 1 solutions[i][j] = 1

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@ -45,8 +45,7 @@ def construct_highway(
highway = [[-1] * number_of_cells] # Create a highway without any car highway = [[-1] * number_of_cells] # Create a highway without any car
i = 0 i = 0
if initial_speed < 0: initial_speed = max(initial_speed, 0)
initial_speed = 0
while i < number_of_cells: while i < number_of_cells:
highway[0][i] = ( highway[0][i] = (
randint(0, max_speed) if random_speed else initial_speed 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:
s = [] s = []
for _ in range(len_temp): for _ in range(len_temp):
s.append(temp[k]) s.append(temp[k])
if not (k < 25): if k >= 25:
break break
k += 1 k += 1
modalpha.append(s) modalpha.append(s)
@ -52,7 +52,7 @@ def mixed_keyword(key: str = "college", pt: str = "UNIVERSITY") -> str:
k = 0 k = 0
for j in range(len_temp): for j in range(len_temp):
for m in modalpha: for m in modalpha:
if not (len(m) - 1 >= j): if not len(m) - 1 >= j:
break break
d[alpha[k]] = m[j] d[alpha[k]] = m[j]
if not k < 25: if not k < 25:

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@ -56,7 +56,7 @@ def traverse_tree(root: Letter | TreeNode, bitstring: str) -> list[Letter]:
Recursively traverse the Huffman Tree to set each Recursively traverse the Huffman Tree to set each
Letter's bitstring dictionary, and return the list of Letters Letter's bitstring dictionary, and return the list of Letters
""" """
if type(root) is Letter: if isinstance(root, Letter):
root.bitstring[root.letter] = bitstring root.bitstring[root.letter] = bitstring
return [root] return [root]
treenode: TreeNode = root # type: ignore treenode: TreeNode = root # type: ignore

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@ -121,7 +121,7 @@ class MinHeap:
self.sift_up(len(self.heap) - 1) self.sift_up(len(self.heap) - 1)
def is_empty(self): def is_empty(self):
return True if len(self.heap) == 0 else False return len(self.heap) == 0
def decrease_key(self, node, new_value): def decrease_key(self, node, new_value):
assert ( assert (

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@ -10,7 +10,7 @@ from digital_image_processing import change_contrast as cc
from digital_image_processing import convert_to_negative as cn from digital_image_processing import convert_to_negative as cn
from digital_image_processing import sepia as sp from digital_image_processing import sepia as sp
from digital_image_processing.dithering import burkes as bs from digital_image_processing.dithering import burkes as bs
from digital_image_processing.edge_detection import canny as canny from digital_image_processing.edge_detection import canny
from digital_image_processing.filters import convolve as conv from digital_image_processing.filters import convolve as conv
from digital_image_processing.filters import gaussian_filter as gg from digital_image_processing.filters import gaussian_filter as gg
from digital_image_processing.filters import local_binary_pattern as lbp 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:
... ...
ValueError: iterations must be defined as integers ValueError: iterations must be defined as integers
""" """
if not isinstance(iterations, int):
if not type(iterations) == int:
raise ValueError("iterations must be defined as integers") raise ValueError("iterations must be defined as integers")
if not type(number) == int or not number >= 1: if not isinstance(number, int) or not number >= 1:
raise ValueError( raise ValueError(
"""starting number must be """starting number must be
and integer and be more than 0""" and integer and be more than 0"""

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@ -62,8 +62,7 @@ def max_sub_array(nums: list[int]) -> int:
current = 0 current = 0
for i in nums: for i in nums:
current += i current += i
if current < 0: current = max(current, 0)
current = 0
best = max(best, current) best = max(best, current)
return best return best

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@ -167,7 +167,7 @@ class DirectedGraph:
and not on_the_way_back and not on_the_way_back
): ):
len_stack = len(stack) - 1 len_stack = len(stack) - 1
while True and len_stack >= 0: while len_stack >= 0:
if stack[len_stack] == node[1]: if stack[len_stack] == node[1]:
anticipating_nodes.add(node[1]) anticipating_nodes.add(node[1])
break break
@ -220,7 +220,7 @@ class DirectedGraph:
and not on_the_way_back and not on_the_way_back
): ):
len_stack_minus_one = len(stack) - 1 len_stack_minus_one = len(stack) - 1
while True and len_stack_minus_one >= 0: while len_stack_minus_one >= 0:
if stack[len_stack_minus_one] == node[1]: if stack[len_stack_minus_one] == node[1]:
anticipating_nodes.add(node[1]) anticipating_nodes.add(node[1])
break break
@ -392,7 +392,7 @@ class Graph:
and not on_the_way_back and not on_the_way_back
): ):
len_stack = len(stack) - 1 len_stack = len(stack) - 1
while True and len_stack >= 0: while len_stack >= 0:
if stack[len_stack] == node[1]: if stack[len_stack] == node[1]:
anticipating_nodes.add(node[1]) anticipating_nodes.add(node[1])
break break
@ -445,7 +445,7 @@ class Graph:
and not on_the_way_back and not on_the_way_back
): ):
len_stack_minus_one = len(stack) - 1 len_stack_minus_one = len(stack) - 1
while True and len_stack_minus_one >= 0: while len_stack_minus_one >= 0:
if stack[len_stack_minus_one] == node[1]: if stack[len_stack_minus_one] == node[1]:
anticipating_nodes.add(node[1]) anticipating_nodes.add(node[1])
break break

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@ -1,4 +1,5 @@
import heapq import heapq
import sys
import numpy as np import numpy as np
@ -116,7 +117,7 @@ def do_something(back_pointer, goal, start):
print(x, end=" ") print(x, end=" ")
x = back_pointer[x] x = back_pointer[x]
print(x) print(x)
quit() sys.exit()
def valid(p: TPos): def valid(p: TPos):

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@ -129,7 +129,7 @@ class Vector:
input: index (0-indexed) input: index (0-indexed)
output: the i-th component of the vector. output: the i-th component of the vector.
""" """
if type(i) is int and -len(self.__components) <= i < len(self.__components): if isinstance(i, int) and -len(self.__components) <= i < len(self.__components):
return self.__components[i] return self.__components[i]
else: else:
raise Exception("index out of range") raise Exception("index out of range")

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@ -388,16 +388,10 @@ class SmoSVM:
return (data - self._min) / (self._max - self._min) return (data - self._min) / (self._max - self._min)
def _is_unbound(self, index): def _is_unbound(self, index):
if 0.0 < self.alphas[index] < self._c: return bool(0.0 < self.alphas[index] < self._c)
return True
else:
return False
def _is_support(self, index): def _is_support(self, index):
if self.alphas[index] > 0: return bool(self.alphas[index] > 0)
return True
else:
return False
@property @property
def unbound(self): def unbound(self):

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@ -24,8 +24,7 @@ def find_min(nums: list[int | float]) -> int | float:
raise ValueError("find_min() arg is an empty sequence") raise ValueError("find_min() arg is an empty sequence")
min_num = nums[0] min_num = nums[0]
for num in nums: for num in nums:
if min_num > num: min_num = min(min_num, num)
min_num = num
return min_num return min_num

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@ -49,10 +49,8 @@ def kadanes(arr: list) -> int:
for i in arr: for i in arr:
max_till_element += i max_till_element += i
if max_sum <= max_till_element: max_sum = max(max_sum, max_till_element)
max_sum = max_till_element max_till_element = max(max_till_element, 0)
if max_till_element < 0:
max_till_element = 0
return max_sum return max_sum

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@ -11,10 +11,8 @@ def max_sub_array_sum(a: list, size: int = 0):
max_ending_here = 0 max_ending_here = 0
for i in range(0, size): for i in range(0, size):
max_ending_here = max_ending_here + a[i] max_ending_here = max_ending_here + a[i]
if max_so_far < max_ending_here: max_so_far = max(max_so_far, max_ending_here)
max_so_far = max_ending_here max_ending_here = max(max_ending_here, 0)
if max_ending_here < 0:
max_ending_here = 0
return max_so_far return max_so_far

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@ -52,7 +52,7 @@ def geometric_series(
power = 1 power = 1
multiple = common_ratio_r multiple = common_ratio_r
for _ in range(int(nth_term)): for _ in range(int(nth_term)):
if series == []: if not series:
series.append(start_term_a) series.append(start_term_a)
else: else:
power += 1 power += 1

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@ -21,7 +21,7 @@ def bfs(graph, s, t, parent):
visited[ind] = True visited[ind] = True
parent[ind] = u parent[ind] = u
return True if visited[t] else False return visited[t]
def ford_fulkerson(graph, source, sink): def ford_fulkerson(graph, source, sink):

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@ -24,7 +24,7 @@ def bfs(graph, s, t, parent):
visited[ind] = True visited[ind] = True
parent[ind] = u parent[ind] = u
return True if visited[t] else False return visited[t]
def mincut(graph, source, sink): def mincut(graph, source, sink):

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@ -89,13 +89,9 @@ def is_strong_password(password: str, min_length: int = 8) -> bool:
num = any(char in digits for char in password) num = any(char in digits for char in password)
spec_char = any(char in punctuation for char in password) spec_char = any(char in punctuation for char in password)
if upper and lower and num and spec_char: return upper and lower and num and spec_char
return True
else:
# Passwords should contain UPPERCASE, lowerase # Passwords should contain UPPERCASE, lowerase
# numbers, and special characters # numbers, and special characters
return False
def main(): def main():

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@ -43,7 +43,7 @@ def fibonacci(n: int) -> int:
144 144
""" """
if n == 1 or type(n) is not int: if n == 1 or not isinstance(n, int):
return 0 return 0
elif n == 2: elif n == 2:
return 1 return 1

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@ -32,7 +32,7 @@ def is_palindrome(n: int | str) -> bool:
False False
""" """
n = str(n) n = str(n)
return True if n == n[::-1] else False return n == n[::-1]
def solution(n: int = 1000000): def solution(n: int = 1000000):

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@ -55,9 +55,9 @@ def quantum_fourier_transform(number_of_qubits: int = 3) -> qiskit.result.counts
... ...
ValueError: number of qubits must be exact integer. ValueError: number of qubits must be exact integer.
""" """
if type(number_of_qubits) == str: if isinstance(number_of_qubits, str):
raise TypeError("number of qubits must be a integer.") raise TypeError("number of qubits must be a integer.")
if not number_of_qubits > 0: if number_of_qubits <= 0:
raise ValueError("number of qubits must be > 0.") raise ValueError("number of qubits must be > 0.")
if math.floor(number_of_qubits) != number_of_qubits: if math.floor(number_of_qubits) != number_of_qubits:
raise ValueError("number of qubits must be exact integer.") raise ValueError("number of qubits must be exact integer.")

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@ -60,7 +60,11 @@ def quantum_full_adder(
... ...
ValueError: inputs must be less or equal to 2. ValueError: inputs must be less or equal to 2.
""" """
if (type(input_1) == str) or (type(input_2) == str) or (type(carry_in) == str): if (
isinstance(input_1, str)
or isinstance(input_2, str)
or isinstance(carry_in, str)
):
raise TypeError("inputs must be integers.") raise TypeError("inputs must be integers.")
if (input_1 < 0) or (input_2 < 0) or (carry_in < 0): if (input_1 < 0) or (input_2 < 0) or (carry_in < 0):

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@ -53,7 +53,7 @@ def superdense_coding(bit_1: int = 1, bit_2: int = 1) -> qiskit.result.counts.Co
... ...
ValueError: inputs must be less or equal to 1. ValueError: inputs must be less or equal to 1.
""" """
if (type(bit_1) == str) or (type(bit_2) == str): if isinstance(bit_1, str) or isinstance(bit_2, str):
raise TypeError("inputs must be integers.") raise TypeError("inputs must be integers.")
if (bit_1 < 0) or (bit_2 < 0): if (bit_1 < 0) or (bit_2 < 0):
raise ValueError("inputs must be positive.") raise ValueError("inputs must be positive.")

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@ -133,7 +133,7 @@ def _msd_radix_sort_inplace(
j = end_index - 1 j = end_index - 1
while i <= j: while i <= j:
changed = False changed = False
if not ((list_of_ints[i] >> bit_position) & 1): if not (list_of_ints[i] >> bit_position) & 1:
# found zero at the beginning # found zero at the beginning
i += 1 i += 1
changed = True 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