Improve code on f-strings and brevity (#6126)

* Update strassen_matrix_multiplication.py * Update matrix_operation.py * Update enigma_machine2.py * Update enigma_machine.py * Update enigma_machine2.py * Update rod_cutting.py * Update external_sort.py * Update sol1.py * Update hill_cipher.py * Update prime_numbers.py * Update integration_by_simpson_approx.py
2024-11-23 21:11:08 +00:00 · 2022-05-13 18:21:44 +05:30 · 2022-05-13 18:21:44 +05:30 · dbee5f072f
commit dbee5f072f
parent e95ecfaf27
10 changed files with 14 additions and 18 deletions
--- a/ciphers/enigma_machine2.py
+++ b/ciphers/enigma_machine2.py
@ -94,15 +94,15 @@ def _validator(
    rotorpos1, rotorpos2, rotorpos3 = rotpos
    if not 0 < rotorpos1 <= len(abc):
        raise ValueError(
-            f"First rotor position is not within range of 1..26 (" f"{rotorpos1}"
+            "First rotor position is not within range of 1..26 (" f"{rotorpos1}"
        )
    if not 0 < rotorpos2 <= len(abc):
        raise ValueError(
-            f"Second rotor position is not within range of 1..26 (" f"{rotorpos2})"
+            "Second rotor position is not within range of 1..26 (" f"{rotorpos2})"
        )
    if not 0 < rotorpos3 <= len(abc):
        raise ValueError(
-            f"Third rotor position is not within range of 1..26 (" f"{rotorpos3})"
+            "Third rotor position is not within range of 1..26 (" f"{rotorpos3})"
        )

    # Validates string and returns dict
--- a/ciphers/hill_cipher.py
+++ b/ciphers/hill_cipher.py
@ -62,7 +62,7 @@ class HillCipher:
    # take x and return x % len(key_string)
    modulus = numpy.vectorize(lambda x: x % 36)

-    to_int = numpy.vectorize(lambda x: round(x))
+    to_int = numpy.vectorize(round)

    def __init__(self, encrypt_key: numpy.ndarray) -> None:
        """
--- a/data_structures/hashing/number_theory/prime_numbers.py
+++ b/data_structures/hashing/number_theory/prime_numbers.py
@ -14,7 +14,7 @@ def check_prime(number):
    elif number == special_non_primes[-1]:
        return 3

-    return all([number % i for i in range(2, number)])
+    return all(number % i for i in range(2, number))


 def next_prime(value, factor=1, **kwargs):
--- a/divide_and_conquer/strassen_matrix_multiplication.py
+++ b/divide_and_conquer/strassen_matrix_multiplication.py
@ -114,7 +114,7 @@ def strassen(matrix1: list, matrix2: list) -> list:
    """
    if matrix_dimensions(matrix1)[1] != matrix_dimensions(matrix2)[0]:
        raise Exception(
-            f"Unable to multiply these matrices, please check the dimensions. \n"
+            "Unable to multiply these matrices, please check the dimensions. \n"
            f"Matrix A:{matrix1} \nMatrix B:{matrix2}"
        )
    dimension1 = matrix_dimensions(matrix1)
--- a/dynamic_programming/rod_cutting.py
+++ b/dynamic_programming/rod_cutting.py
@ -181,7 +181,7 @@ def _enforce_args(n: int, prices: list):

    if n > len(prices):
        raise ValueError(
-            f"Each integral piece of rod must have a corresponding "
+            "Each integral piece of rod must have a corresponding "
            f"price. Got n = {n} but length of prices = {len(prices)}"
        )

--- a/hashes/enigma_machine.py
+++ b/hashes/enigma_machine.py
@ -55,5 +55,5 @@ if __name__ == "__main__":
    print("\n" + "".join(code))
    print(
        f"\nYour Token is {token} please write it down.\nIf you want to decode "
-        f"this message again you should input same digits as token!"
+        "this message again you should input same digits as token!"
    )
--- a/maths/integration_by_simpson_approx.py
+++ b/maths/integration_by_simpson_approx.py
@ -92,16 +92,12 @@ def simpson_integration(function, a: float, b: float, precision: int = 4) -> flo
    assert callable(
        function
    ), f"the function(object) passed should be callable your input : {function}"
-    assert isinstance(a, float) or isinstance(
-        a, int
-    ), f"a should be float or integer your input : {a}"
-    assert isinstance(function(a), float) or isinstance(function(a), int), (
+    assert isinstance(a, (float, int)), f"a should be float or integer your input : {a}"
+    assert isinstance(function(a), (float, int)), (
        "the function should return integer or float return type of your function, "
        f"{type(a)}"
    )
-    assert isinstance(b, float) or isinstance(
-        b, int
-    ), f"b should be float or integer your input : {b}"
+    assert isinstance(b, (float, int)), f"b should be float or integer your input : {b}"
    assert (
        isinstance(precision, int) and precision > 0
    ), f"precision should be positive integer your input : {precision}"
--- a/matrix/matrix_operation.py
+++ b/matrix/matrix_operation.py
@ -171,7 +171,7 @@ def _verify_matrix_sizes(
    shape = _shape(matrix_a) + _shape(matrix_b)
    if shape[0] != shape[3] or shape[1] != shape[2]:
        raise ValueError(
-            f"operands could not be broadcast together with shape "
+            "operands could not be broadcast together with shape "
            f"({shape[0], shape[1]}), ({shape[2], shape[3]})"
        )
    return (shape[0], shape[2]), (shape[1], shape[3])
--- a/project_euler/problem_067/sol1.py
+++ b/project_euler/problem_067/sol1.py
@ -29,7 +29,7 @@ def solution():
        triangle = f.readlines()

    a = map(lambda x: x.rstrip("\r\n").split(" "), triangle)
-    a = list(map(lambda x: list(map(lambda y: int(y), x)), a))
+    a = list(map(lambda x: list(map(int, x)), a))

    for i in range(1, len(a)):
        for j in range(len(a[i])):
--- a/sorts/external_sort.py
+++ b/sorts/external_sort.py
@ -41,7 +41,7 @@ class FileSplitter:
                i += 1

    def cleanup(self):
-        map(lambda f: os.remove(f), self.block_filenames)
+        map(os.remove, self.block_filenames)


 class NWayMerge: