import math class LinearAlgebraUtils: @staticmethod def dot_product(v1, v2): return sum(x*y for x, y in zip(v1, v2)) @staticmethod def matrix_vector_multiply(A, x): return [LinearAlgebraUtils.dot_product(row, x) for row in A] @staticmethod def vector_norm(v): return sum(x*x for x in v)**0.5 @staticmethod def vector_scalar_divide(x, scalar): return [xi / scalar for xi in x] @staticmethod def matrix_scalar_multiply(A, w): return [[w * A[i][j] for j in range(len(A[0]))] for i in range(len(A))] @staticmethod def vector_vector_subtraction(v1, v2): return [x-y for x, y in zip(v1, v2)] @staticmethod def vector_vector_addition(v1, v2): return [x+y for x, y in zip(v1, v2)] @staticmethod def scalar_matrix_multiply(omega, vector): return [omega * x for x in vector] @staticmethod def matrix_norm(A): return math.sqrt(sum(sum(element ** 2 for element in row) for row in A)) @staticmethod def matrix_matrix_subtraction(A, B): return [[A[i][j] - B[i][j] for j in range(len(A[0]))] for i in range(len(A))]