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143 lines
4.8 KiB
143 lines
4.8 KiB
5 months ago
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from .matexpr import MatrixExpr
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from .special import Identity
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from sympy.core import S
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from sympy.core.expr import ExprBuilder
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from sympy.core.cache import cacheit
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from sympy.core.power import Pow
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from sympy.core.sympify import _sympify
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from sympy.matrices import MatrixBase
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from sympy.matrices.common import NonSquareMatrixError
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class MatPow(MatrixExpr):
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def __new__(cls, base, exp, evaluate=False, **options):
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base = _sympify(base)
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if not base.is_Matrix:
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raise TypeError("MatPow base should be a matrix")
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if base.is_square is False:
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raise NonSquareMatrixError("Power of non-square matrix %s" % base)
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exp = _sympify(exp)
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obj = super().__new__(cls, base, exp)
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if evaluate:
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obj = obj.doit(deep=False)
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return obj
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@property
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def base(self):
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return self.args[0]
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@property
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def exp(self):
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return self.args[1]
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@property
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def shape(self):
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return self.base.shape
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@cacheit
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def _get_explicit_matrix(self):
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return self.base.as_explicit()**self.exp
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def _entry(self, i, j, **kwargs):
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from sympy.matrices.expressions import MatMul
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A = self.doit()
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if isinstance(A, MatPow):
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# We still have a MatPow, make an explicit MatMul out of it.
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if A.exp.is_Integer and A.exp.is_positive:
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A = MatMul(*[A.base for k in range(A.exp)])
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elif not self._is_shape_symbolic():
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return A._get_explicit_matrix()[i, j]
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else:
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# Leave the expression unevaluated:
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from sympy.matrices.expressions.matexpr import MatrixElement
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return MatrixElement(self, i, j)
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return A[i, j]
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def doit(self, **hints):
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if hints.get('deep', True):
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base, exp = (arg.doit(**hints) for arg in self.args)
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else:
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base, exp = self.args
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# combine all powers, e.g. (A ** 2) ** 3 -> A ** 6
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while isinstance(base, MatPow):
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exp *= base.args[1]
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base = base.args[0]
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if isinstance(base, MatrixBase):
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# Delegate
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return base ** exp
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# Handle simple cases so that _eval_power() in MatrixExpr sub-classes can ignore them
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if exp == S.One:
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return base
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if exp == S.Zero:
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return Identity(base.rows)
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if exp == S.NegativeOne:
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from sympy.matrices.expressions import Inverse
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return Inverse(base).doit(**hints)
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eval_power = getattr(base, '_eval_power', None)
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if eval_power is not None:
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return eval_power(exp)
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return MatPow(base, exp)
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def _eval_transpose(self):
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base, exp = self.args
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return MatPow(base.T, exp)
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def _eval_derivative(self, x):
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return Pow._eval_derivative(self, x)
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def _eval_derivative_matrix_lines(self, x):
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from sympy.tensor.array.expressions.array_expressions import ArrayContraction
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from ...tensor.array.expressions.array_expressions import ArrayTensorProduct
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from .matmul import MatMul
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from .inverse import Inverse
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exp = self.exp
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if self.base.shape == (1, 1) and not exp.has(x):
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lr = self.base._eval_derivative_matrix_lines(x)
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for i in lr:
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subexpr = ExprBuilder(
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ArrayContraction,
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[
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ExprBuilder(
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ArrayTensorProduct,
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[
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Identity(1),
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i._lines[0],
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exp*self.base**(exp-1),
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i._lines[1],
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Identity(1),
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]
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),
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(0, 3, 4), (5, 7, 8)
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],
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validator=ArrayContraction._validate
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)
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i._first_pointer_parent = subexpr.args[0].args
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i._first_pointer_index = 0
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i._second_pointer_parent = subexpr.args[0].args
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i._second_pointer_index = 4
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i._lines = [subexpr]
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return lr
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if (exp > 0) == True:
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newexpr = MatMul.fromiter([self.base for i in range(exp)])
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elif (exp == -1) == True:
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return Inverse(self.base)._eval_derivative_matrix_lines(x)
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elif (exp < 0) == True:
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newexpr = MatMul.fromiter([Inverse(self.base) for i in range(-exp)])
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elif (exp == 0) == True:
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return self.doit()._eval_derivative_matrix_lines(x)
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else:
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raise NotImplementedError("cannot evaluate %s derived by %s" % (self, x))
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return newexpr._eval_derivative_matrix_lines(x)
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def _eval_inverse(self):
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return MatPow(self.base, -self.exp)
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