Матричный обратный питон без numpy
def transposeMatrix(m):
return map(list,zip(*m))
def getMatrixMinor(m,i,j):
return [row[:j] + row[j+1:] for row in (m[:i]+m[i+1:])]
def getMatrixDeternminant(m):
#base case for 2x2 matrix
if len(m) == 2:
return m[0][0]*m[1][1]-m[0][1]*m[1][0]
determinant = 0
for c in range(len(m)):
determinant += ((-1)**c)*m[0][c]*getMatrixDeternminant(getMatrixMinor(m,0,c))
return determinant
def getMatrixInverse(m):
determinant = getMatrixDeternminant(m)
#special case for 2x2 matrix:
if len(m) == 2:
return [[m[1][1]/determinant, -1*m[0][1]/determinant],
[-1*m[1][0]/determinant, m[0][0]/determinant]]
#find matrix of cofactors
cofactors = []
for r in range(len(m)):
cofactorRow = []
for c in range(len(m)):
minor = getMatrixMinor(m,r,c)
cofactorRow.append(((-1)**(r+c)) * getMatrixDeternminant(minor))
cofactors.append(cofactorRow)
cofactors = transposeMatrix(cofactors)
for r in range(len(cofactors)):
for c in range(len(cofactors)):
cofactors[r][c] = cofactors[r][c]/determinant
return cofactors
Nutty Newt