AdjacencyOperator#
- class graph_tool.spectral.AdjacencyOperator(*args, **kwargs)[source]#
Bases:
LinearOperator
A
scipy.sparse.linalg.LinearOperator
representing the adjacency matrix of a graph. Seeadjacency()
for details.Methods
adjoint
()Hermitian adjoint.
dot
(x)Matrix-matrix or matrix-vector multiplication.
matmat
(X)Matrix-matrix multiplication.
matvec
(x)Matrix-vector multiplication.
rmatmat
(X)Adjoint matrix-matrix multiplication.
rmatvec
(x)Adjoint matrix-vector multiplication.
Transpose this linear operator.
Attributes
- adjoint()#
Hermitian adjoint.
Returns the Hermitian adjoint of self, aka the Hermitian conjugate or Hermitian transpose. For a complex matrix, the Hermitian adjoint is equal to the conjugate transpose.
Can be abbreviated self.H instead of self.adjoint().
- Returns:
- A_HLinearOperator
Hermitian adjoint of self.
- dot(x)#
Matrix-matrix or matrix-vector multiplication.
- Parameters:
- xarray_like
1-d or 2-d array, representing a vector or matrix.
- Returns:
- Axarray
1-d or 2-d array (depending on the shape of x) that represents the result of applying this linear operator on x.
- matmat(X)#
Matrix-matrix multiplication.
Performs the operation y=A*X where A is an MxN linear operator and X dense N*K matrix or ndarray.
- Parameters:
- X{matrix, ndarray}
An array with shape (N,K).
- Returns:
- Y{matrix, ndarray}
A matrix or ndarray with shape (M,K) depending on the type of the X argument.
Notes
This matmat wraps any user-specified matmat routine or overridden _matmat method to ensure that y has the correct type.
- matvec(x)#
Matrix-vector multiplication.
Performs the operation y=A*x where A is an MxN linear operator and x is a column vector or 1-d array.
- Parameters:
- x{matrix, ndarray}
An array with shape (N,) or (N,1).
- Returns:
- y{matrix, ndarray}
A matrix or ndarray with shape (M,) or (M,1) depending on the type and shape of the x argument.
Notes
This matvec wraps the user-specified matvec routine or overridden _matvec method to ensure that y has the correct shape and type.
- rmatmat(X)#
Adjoint matrix-matrix multiplication.
Performs the operation y = A^H * x where A is an MxN linear operator and x is a column vector or 1-d array, or 2-d array. The default implementation defers to the adjoint.
- Parameters:
- X{matrix, ndarray}
A matrix or 2D array.
- Returns:
- Y{matrix, ndarray}
A matrix or 2D array depending on the type of the input.
Notes
This rmatmat wraps the user-specified rmatmat routine.
- rmatvec(x)#
Adjoint matrix-vector multiplication.
Performs the operation y = A^H * x where A is an MxN linear operator and x is a column vector or 1-d array.
- Parameters:
- x{matrix, ndarray}
An array with shape (M,) or (M,1).
- Returns:
- y{matrix, ndarray}
A matrix or ndarray with shape (N,) or (N,1) depending on the type and shape of the x argument.
Notes
This rmatvec wraps the user-specified rmatvec routine or overridden _rmatvec method to ensure that y has the correct shape and type.
- transpose()#
Transpose this linear operator.
Returns a LinearOperator that represents the transpose of this one. Can be abbreviated self.T instead of self.transpose().
- H#
Hermitian adjoint.
Returns the Hermitian adjoint of self, aka the Hermitian conjugate or Hermitian transpose. For a complex matrix, the Hermitian adjoint is equal to the conjugate transpose.
Can be abbreviated self.H instead of self.adjoint().
- Returns:
- A_HLinearOperator
Hermitian adjoint of self.
- T#
Transpose this linear operator.
Returns a LinearOperator that represents the transpose of this one. Can be abbreviated self.T instead of self.transpose().
- ndim = 2#