def test_codegen_array_doit():
M = MatrixSymbol("M", 2, 2)
N = MatrixSymbol("N", 2, 2)
P = MatrixSymbol("P", 2, 2)
Q = MatrixSymbol("Q", 2, 2)
M = M.as_explicit()
N = N.as_explicit()
P = P.as_explicit()
Q = Q.as_explicit()
expr = CodegenArrayTensorProduct(M, N, P, Q)
assert expr.doit() == tensorproduct(M, N, P, Q)
expr2 = CodegenArrayContraction(expr, (0, 1))
assert expr2.doit() == tensorcontraction(tensorproduct(M, N, P, Q), (0, 1))
expr2 = CodegenArrayDiagonal(expr, (0, 1))
#assert expr2 = ... # TODO: not implemented
expr = CodegenArrayTensorProduct(M, N)
exprp = CodegenArrayPermuteDims(expr, [2, 1, 3, 0])
assert exprp.doit() == permutedims(tensorproduct(M, N), [2, 1, 3, 0])
expr = CodegenArrayElementwiseAdd(M, N)
assert expr.doit() == M + N
def test_array_as_explicit_matrix_symbol():
A = MatrixSymbol("A", 3, 3)
B = MatrixSymbol("B", 3, 3)
texpr = tensorproduct(A, B)
assert isinstance(texpr, ArrayTensorProduct)
assert texpr.as_explicit() == tensorproduct(A.as_explicit(),
B.as_explicit())
texpr = tensorcontraction(A, (0, 1))
assert isinstance(texpr, ArrayContraction)
assert texpr.as_explicit() == A[0, 0] + A[1, 1] + A[2, 2]
texpr = tensordiagonal(A, (0, 1))
assert isinstance(texpr, ArrayDiagonal)
assert texpr.as_explicit() == ImmutableDenseNDimArray(
[A[0, 0], A[1, 1], A[2, 2]])
texpr = permutedims(A, [1, 0])
assert isinstance(texpr, PermuteDims)
assert texpr.as_explicit() == permutedims(A.as_explicit(), [1, 0])
from sympy.matrices.expressions.applyfunc import ElementwiseApplyFunction
from sympy import (Matrix, Lambda, MatrixBase, MatrixSymbol, exp, symbols,
MatMul, sin)
from sympy.utilities.pytest import raises
from sympy.matrices.common import ShapeError
X = MatrixSymbol("X", 3, 3)
Y = MatrixSymbol("Y", 3, 3)
k = symbols("k")
Xk = MatrixSymbol("X", k, k)
Xd = X.as_explicit()
x, y, z, t = symbols("x y z t")
def test_applyfunc_matrix():
double = Lambda(x, x**2)
expr = ElementwiseApplyFunction(double, Xd)
assert isinstance(expr, ElementwiseApplyFunction)
assert expr.doit() == Xd.applyfunc(lambda x: x**2)
assert expr.shape == (3, 3)
assert expr.func(*expr.args) == expr
assert expr[0, 0] == double(Xd[0, 0])
expr = ElementwiseApplyFunction(double, X)
assert isinstance(expr, ElementwiseApplyFunction)
assert isinstance(expr.doit(), ElementwiseApplyFunction)
assert expr == X.applyfunc(double)
from sympy.matrices.expressions.applyfunc import ElementwiseApplyFunction
from sympy import (Matrix, Lambda, MatrixBase, MatrixSymbol, exp, symbols, MatMul, sin)
from sympy.utilities.pytest import raises
from sympy.matrices.common import ShapeError
X = MatrixSymbol("X", 3, 3)
Y = MatrixSymbol("Y", 3, 3)
k = symbols("k")
Xk = MatrixSymbol("X", k, k)
Xd = X.as_explicit()
x, y, z, t = symbols("x y z t")
def test_applyfunc_matrix():
double = Lambda(x, x**2)
expr = ElementwiseApplyFunction(double, Xd)
assert isinstance(expr, ElementwiseApplyFunction)
assert expr.doit() == Xd.applyfunc(lambda x: x**2)
assert expr.shape == (3, 3)
expr = ElementwiseApplyFunction(double, X)
assert isinstance(expr, ElementwiseApplyFunction)
assert isinstance(expr.doit(), ElementwiseApplyFunction)
assert expr == X.applyfunc(double)
expr = ElementwiseApplyFunction(exp, X*Y)
