![]() |
Header file for utility functions for dense matrices. More...
#include <blaze/math/Aliases.h>
#include <blaze/math/constraints/RequiresEvaluation.h>
#include <blaze/math/constraints/Triangular.h>
#include <blaze/math/constraints/UniTriangular.h>
#include <blaze/math/expressions/DenseMatrix.h>
#include <blaze/math/expressions/SparseMatrix.h>
#include <blaze/math/shims/Conjugate.h>
#include <blaze/math/shims/Equal.h>
#include <blaze/math/shims/IsDefault.h>
#include <blaze/math/shims/IsNaN.h>
#include <blaze/math/shims/IsOne.h>
#include <blaze/math/shims/IsReal.h>
#include <blaze/math/shims/IsZero.h>
#include <blaze/math/StorageOrder.h>
#include <blaze/math/typetraits/IsExpression.h>
#include <blaze/math/typetraits/IsDiagonal.h>
#include <blaze/math/typetraits/IsHermitian.h>
#include <blaze/math/typetraits/IsIdentity.h>
#include <blaze/math/typetraits/IsLower.h>
#include <blaze/math/typetraits/IsRestricted.h>
#include <blaze/math/typetraits/IsStrictlyLower.h>
#include <blaze/math/typetraits/IsStrictlyUpper.h>
#include <blaze/math/typetraits/IsSymmetric.h>
#include <blaze/math/typetraits/IsTriangular.h>
#include <blaze/math/typetraits/IsUniform.h>
#include <blaze/math/typetraits/IsUniLower.h>
#include <blaze/math/typetraits/IsUniTriangular.h>
#include <blaze/math/typetraits/IsUniUpper.h>
#include <blaze/math/typetraits/IsUpper.h>
#include <blaze/util/algorithms/Max.h>
#include <blaze/util/algorithms/Min.h>
#include <blaze/util/Assert.h>
#include <blaze/util/DecltypeAuto.h>
#include <blaze/util/EnableIf.h>
#include <blaze/util/FalseType.h>
#include <blaze/util/mpl/If.h>
#include <blaze/util/TrueType.h>
#include <blaze/util/Types.h>
#include <blaze/util/typetraits/IsBuiltin.h>
#include <blaze/util/typetraits/IsNumeric.h>
#include <blaze/util/typetraits/RemoveReference.h>
Go to the source code of this file.
Namespaces | |
blaze | |
Namespace of the Blaze C++ math library. | |
Functions | |
template<typename T1 , typename T2 , bool SO> | |
EnableIf_< IsNumeric< T1 >, bool > | blaze::operator== (T1 scalar, const DenseMatrix< T2, SO > &mat) |
Equality operator for the comparison of a scalar value and a dense matrix. More... | |
template<typename T1 , typename T2 , bool SO> | |
EnableIf_< IsNumeric< T1 >, bool > | blaze::operator!= (T1 scalar, const DenseMatrix< T2, SO > &mat) |
Inequality operator for the comparison of a scalar value and a dense matrix. More... | |
DenseMatrix operators | |
template<typename T1 , typename T2 > | |
bool | blaze::operator== (const DenseMatrix< T1, false > &lhs, const DenseMatrix< T2, false > &rhs) |
Equality operator for the comparison of two rwo-major dense matrices. More... | |
template<typename T1 , typename T2 > | |
bool | blaze::operator== (const DenseMatrix< T1, true > &lhs, const DenseMatrix< T2, true > &rhs) |
Equality operator for the comparison of two column-major dense matrices. More... | |
template<typename T1 , typename T2 , bool SO> | |
bool | blaze::operator== (const DenseMatrix< T1, SO > &lhs, const DenseMatrix< T2,!SO > &rhs) |
Equality operator for the comparison of two dense matrices with different storage order. More... | |
template<typename T1 , typename T2 , bool SO> | |
bool | blaze::operator== (const DenseMatrix< T1, SO > &lhs, const SparseMatrix< T2, false > &rhs) |
Equality operator for the comparison of a dense matrix and a row-major sparse matrix. More... | |
template<typename T1 , typename T2 , bool SO> | |
bool | blaze::operator== (const DenseMatrix< T1, SO > &lhs, const SparseMatrix< T2, true > &rhs) |
Equality operator for the comparison of a dense matrix and a column-major sparse matrix. More... | |
template<typename T1 , bool SO1, typename T2 , bool SO2> | |
bool | blaze::operator== (const SparseMatrix< T1, SO1 > &lhs, const DenseMatrix< T2, SO2 > &rhs) |
Equality operator for the comparison of a sparse matrix and a dense matrix. More... | |
template<typename T1 , typename T2 > | |
EnableIf_< IsNumeric< T2 >, bool > | blaze::operator== (const DenseMatrix< T1, false > &mat, T2 scalar) |
Equality operator for the comparison of a row-major dense matrix and a scalar value. More... | |
template<typename T1 , typename T2 > | |
EnableIf_< IsNumeric< T2 >, bool > | blaze::operator== (const DenseMatrix< T1, true > &mat, T2 scalar) |
Equality operator for the comparison of a column-major dense matrix and a scalar value. More... | |
template<typename T1 , typename T2 , bool SO> | |
EnableIf_< IsNumeric< T2 >, bool > | blaze::operator== (T1 scalar, const DenseMatrix< T2, SO > &mat) |
Equality operator for the comparison of a scalar value and a dense matrix. More... | |
template<typename T1 , bool SO1, typename T2 , bool SO2> | |
bool | blaze::operator!= (const DenseMatrix< T1, SO1 > &lhs, const DenseMatrix< T2, SO2 > &rhs) |
Inequality operator for the comparison of two dense matrices. More... | |
template<typename T1 , bool SO1, typename T2 , bool SO2> | |
bool | blaze::operator!= (const DenseMatrix< T1, SO1 > &lhs, const SparseMatrix< T2, SO2 > &rhs) |
Inequality operator for the comparison of a dense matrix and a sparse matrix. More... | |
template<typename T1 , bool SO1, typename T2 , bool SO2> | |
bool | blaze::operator!= (const SparseMatrix< T1, SO1 > &lhs, const DenseMatrix< T2, SO2 > &rhs) |
Inequality operator for the comparison of a sparse matrix and a dense matrix. More... | |
template<typename T1 , typename T2 , bool SO> | |
EnableIf_< IsNumeric< T2 >, bool > | blaze::operator!= (const DenseMatrix< T1, SO > &mat, T2 scalar) |
Inequality operator for the comparison of a dense matrix and a scalar value. More... | |
template<typename T1 , typename T2 , bool SO> | |
EnableIf_< IsNumeric< T2 >, bool > | blaze::operator!= (T1 scalar, const DenseMatrix< T2, SO > &mat) |
Inequality operator for the comparison of a scalar value and a dense matrix. More... | |
template<typename MT , bool SO, typename ST > | |
EnableIf_< IsNumeric< ST >, MT &> | blaze::operator*= (DenseMatrix< MT, SO > &mat, ST scalar) |
Multiplication assignment operator for the multiplication of a dense matrix and a scalar value ( ![]() | |
template<typename MT , bool SO, typename ST > | |
EnableIf_< IsNumeric< ST >, MT &> | blaze::operator*= (DenseMatrix< MT, SO > &&mat, ST scalar) |
Multiplication assignment operator for the multiplication of a temporary dense matrix and a scalar value ( ![]() | |
template<typename MT , bool SO, typename ST > | |
EnableIf_< IsNumeric< ST >, MT &> | blaze::operator/= (DenseMatrix< MT, SO > &mat, ST scalar) |
Division assignment operator for the division of a dense matrix by a scalar value ( ![]() | |
template<typename MT , bool SO, typename ST > | |
EnableIf_< IsNumeric< ST >, MT &> | blaze::operator/= (DenseMatrix< MT, SO > &&mat, ST scalar) |
Division assignment operator for the division of a temporary dense matrix by a scalar value ( ![]() | |
DenseMatrix functions | |
template<typename MT , bool SO> | |
bool | blaze::isnan (const DenseMatrix< MT, SO > &dm) |
Checks the given dense matrix for not-a-number elements. More... | |
template<bool RF, typename MT , bool SO> | |
bool | blaze::isSymmetric (const DenseMatrix< MT, SO > &dm) |
Checks if the given dense matrix is symmetric. More... | |
template<bool RF, typename MT , bool SO> | |
bool | blaze::isHermitian (const DenseMatrix< MT, SO > &dm) |
Checks if the given dense matrix is Hermitian. More... | |
template<bool RF, typename MT , bool SO> | |
bool | blaze::isUniform (const DenseMatrix< MT, SO > &dm) |
Checks if the given dense matrix is a uniform matrix. More... | |
template<bool RF, typename MT , bool SO> | |
bool | blaze::isLower (const DenseMatrix< MT, SO > &dm) |
Checks if the given dense matrix is a lower triangular matrix. More... | |
template<bool RF, typename MT , bool SO> | |
bool | blaze::isUniLower (const DenseMatrix< MT, SO > &dm) |
Checks if the given dense matrix is a lower unitriangular matrix. More... | |
template<bool RF, typename MT , bool SO> | |
bool | blaze::isStrictlyLower (const DenseMatrix< MT, SO > &dm) |
Checks if the given dense matrix is a strictly lower triangular matrix. More... | |
template<bool RF, typename MT , bool SO> | |
bool | blaze::isUpper (const DenseMatrix< MT, SO > &dm) |
Checks if the given dense matrix is an upper triangular matrix. More... | |
template<bool RF, typename MT , bool SO> | |
bool | blaze::isUniUpper (const DenseMatrix< MT, SO > &dm) |
Checks if the given dense matrix is an upper unitriangular matrix. More... | |
template<bool RF, typename MT , bool SO> | |
bool | blaze::isStrictlyUpper (const DenseMatrix< MT, SO > &dm) |
Checks if the given dense matrix is a strictly upper triangular matrix. More... | |
template<bool RF, typename MT , bool SO> | |
bool | blaze::isDiagonal (const DenseMatrix< MT, SO > &dm) |
Checks if the give dense matrix is diagonal. More... | |
template<bool RF, typename MT , bool SO> | |
bool | blaze::isIdentity (const DenseMatrix< MT, SO > &dm) |
Checks if the give dense matrix is an identity matrix. More... | |
template<typename MT , bool SO> | |
const ElementType_< MT > | blaze::min (const DenseMatrix< MT, SO > &dm) |
Returns the smallest element of the dense matrix. More... | |
template<typename MT , bool SO> | |
const ElementType_< MT > | blaze::max (const DenseMatrix< MT, SO > &dm) |
Returns the largest element of the dense matrix. More... | |
Header file for utility functions for dense matrices.
Copyright (C) 2012-2018 Klaus Iglberger - All Rights Reserved
This file is part of the Blaze library. You can redistribute it and/or modify it under the terms of the New (Revised) BSD License. Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met:
THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.