PINV
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The PINV node is based on a numpy or scipy function. The description of that function is as follows:
Compute the (Moore-Penrose) pseudo-inverse of a matrix.
Calculate the generalized inverse of a matrix using its singular-value decomposition (SVD) and including all **large** singular values.
.. versionchanged:: 1.14
Can now operate on stacks of matrices Params: a : (..., M, N) array_like Matrix or stack of matrices to be pseudo-inverted. rcond : (...) array_like of float Cutoff for small singular values.
Singular values less than or equal to "rcond * largest_singular_value" are set to zero.
Broadcasts against the stack of matrices. hermitian : bool If True, "a" is assumed to be Hermitian (symmetric if real-valued), enabling a more
efficient method for finding singular values.
Defaults to False. .. versionadded : : 1.17.0 Returns: out : DataContainer type 'ordered pair', 'scalar', or 'matrix'
Python Code
from flojoy import flojoy, Matrix, Scalar
import numpy as np
import numpy.linalg
@flojoy
def PINV(
default: Matrix,
rcond: float = 1e-15,
hermitian: bool = False,
) -> Matrix | Scalar:
"""The PINV node is based on a numpy or scipy function.
The description of that function is as follows:
Compute the (Moore-Penrose) pseudo-inverse of a matrix.
Calculate the generalized inverse of a matrix using its singular-value decomposition (SVD) and including all **large** singular values.
.. versionchanged:: 1.14
Can now operate on stacks of matrices
Parameters
----------
a : (..., M, N) array_like
Matrix or stack of matrices to be pseudo-inverted.
rcond : (...) array_like of float
Cutoff for small singular values.
Singular values less than or equal to "rcond * largest_singular_value" are set to zero.
Broadcasts against the stack of matrices.
hermitian : bool, optional
If True, "a" is assumed to be Hermitian (symmetric if real-valued), enabling a more
efficient method for finding singular values.
Defaults to False.
.. versionadded:: 1.17.0
Returns
-------
DataContainer
type 'ordered pair', 'scalar', or 'matrix'
"""
result = numpy.linalg.pinv(
a=default.m,
rcond=rcond,
hermitian=hermitian,
)
if isinstance(result, np.ndarray):
result = Matrix(m=result)
else:
assert isinstance(
result, np.number | float | int
), f"Expected np.number, float or int for result, got {type(result)}"
result = Scalar(c=float(result))
return result