Python/matrix/matrix_operation.py

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"""
function based version of matrix operations, which are just 2D arrays
"""
def add(matrix_a, matrix_b):
if _check_not_integer(matrix_a) and _check_not_integer(matrix_b):
rows, cols = _verify_matrix_sizes(matrix_a, matrix_b)
matrix_c = []
for i in range(rows[0]):
list_1 = []
for j in range(cols[0]):
val = matrix_a[i][j] + matrix_b[i][j]
list_1.append(val)
matrix_c.append(list_1)
return matrix_c
def subtract(matrix_a, matrix_b):
if _check_not_integer(matrix_a) and _check_not_integer(matrix_b):
rows, cols = _verify_matrix_sizes(matrix_a, matrix_b)
matrix_c = []
for i in range(rows[0]):
list_1 = []
for j in range(cols[0]):
val = matrix_a[i][j] - matrix_b[i][j]
list_1.append(val)
matrix_c.append(list_1)
return matrix_c
def scalar_multiply(matrix, n):
return [[x * n for x in row] for row in matrix]
def multiply(matrix_a, matrix_b):
if _check_not_integer(matrix_a) and _check_not_integer(matrix_b):
matrix_c = []
rows, cols = _verify_matrix_sizes(matrix_a, matrix_b)
if cols[0] != rows[1]:
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raise ValueError(
f"Cannot multiply matrix of dimensions ({rows[0]},{cols[0]}) "
f"and ({rows[1]},{cols[1]})"
)
for i in range(rows[0]):
list_1 = []
for j in range(cols[1]):
val = 0
for k in range(cols[1]):
val = val + matrix_a[i][k] * matrix_b[k][j]
list_1.append(val)
matrix_c.append(list_1)
return matrix_c
def identity(n):
"""
:param n: dimension for nxn matrix
:type n: int
:return: Identity matrix of shape [n, n]
"""
n = int(n)
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return [[int(row == column) for column in range(n)] for row in range(n)]
def transpose(matrix, return_map=True):
if _check_not_integer(matrix):
if return_map:
return map(list, zip(*matrix))
else:
# mt = []
# for i in range(len(matrix[0])):
# mt.append([row[i] for row in matrix])
# return mt
return [[row[i] for row in matrix] for i in range(len(matrix[0]))]
def minor(matrix, row, column):
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minor = matrix[:row] + matrix[row + 1 :]
minor = [row[:column] + row[column + 1 :] for row in minor]
return minor
def determinant(matrix):
if len(matrix) == 1:
return matrix[0][0]
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res = 0
for x in range(len(matrix)):
res += matrix[0][x] * determinant(minor(matrix, 0, x)) * (-1) ** x
return res
def inverse(matrix):
det = determinant(matrix)
if det == 0:
return None
matrix_minor = [[] for _ in range(len(matrix))]
for i in range(len(matrix)):
for j in range(len(matrix)):
matrix_minor[i].append(determinant(minor(matrix, i, j)))
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cofactors = [
[x * (-1) ** (row + col) for col, x in enumerate(matrix_minor[row])]
for row in range(len(matrix))
]
adjugate = transpose(cofactors)
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return scalar_multiply(adjugate, 1 / det)
def _check_not_integer(matrix):
try:
rows = len(matrix)
cols = len(matrix[0])
return True
except TypeError:
raise TypeError("Cannot input an integer value, it must be a matrix")
def _shape(matrix):
return list((len(matrix), len(matrix[0])))
def _verify_matrix_sizes(matrix_a, matrix_b):
shape = _shape(matrix_a)
shape += _shape(matrix_b)
if shape[0] != shape[2] or shape[1] != shape[3]:
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raise ValueError(
f"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]]
def main():
matrix_a = [[12, 10], [3, 9]]
matrix_b = [[3, 4], [7, 4]]
matrix_c = [[11, 12, 13, 14], [21, 22, 23, 24], [31, 32, 33, 34], [41, 42, 43, 44]]
matrix_d = [[3, 0, 2], [2, 0, -2], [0, 1, 1]]
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print(
"Add Operation, %s + %s = %s \n"
% (matrix_a, matrix_b, (add(matrix_a, matrix_b)))
)
print(
"Multiply Operation, %s * %s = %s \n"
% (matrix_a, matrix_b, multiply(matrix_a, matrix_b))
)
print("Identity: %s \n" % identity(5))
print("Minor of {} = {} \n".format(matrix_c, minor(matrix_c, 1, 2)))
print("Determinant of {} = {} \n".format(matrix_b, determinant(matrix_b)))
print("Inverse of {} = {}\n".format(matrix_d, inverse(matrix_d)))
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if __name__ == "__main__":
main()