ViennaCL - The Vienna Computing Library  1.5.1
Namespaces | Defines | Functions
viennacl/linalg/host_based/vector_operations.hpp File Reference

Implementations of vector operations using a plain single-threaded or OpenMP-enabled execution on CPU. More...

#include <cmath>
#include <algorithm>
#include "viennacl/forwards.h"
#include "viennacl/scalar.hpp"
#include "viennacl/tools/tools.hpp"
#include "viennacl/meta/predicate.hpp"
#include "viennacl/meta/enable_if.hpp"
#include "viennacl/traits/size.hpp"
#include "viennacl/traits/start.hpp"
#include "viennacl/linalg/host_based/common.hpp"
#include "viennacl/linalg/detail/op_applier.hpp"
#include "viennacl/traits/stride.hpp"

Go to the source code of this file.

Namespaces

namespace  viennacl
 

Main namespace in ViennaCL. Holds all the basic types such as vector, matrix, etc. and defines operations upon them.


namespace  viennacl::linalg
 

Provides all linear algebra operations which are not covered by operator overloads.


namespace  viennacl::linalg::host_based
 

Holds all compute kernels with conventional host-based execution (buffers in CPU RAM).


namespace  viennacl::linalg::host_based::detail
 

Helper functions for the host-based linear algebra backend.


Defines

#define VIENNACL_OPENMP_VECTOR_MIN_SIZE   5000

Functions

template<typename NumericT >
NumericT flip_sign (NumericT val)
unsigned long flip_sign (unsigned long val)
unsigned int flip_sign (unsigned int val)
unsigned short flip_sign (unsigned short val)
unsigned char flip_sign (unsigned char val)
template<typename T , typename ScalarType1 >
void av (vector_base< T > &vec1, vector_base< T > const &vec2, ScalarType1 const &alpha, vcl_size_t, bool reciprocal_alpha, bool flip_sign_alpha)
template<typename T , typename ScalarType1 , typename ScalarType2 >
void avbv (vector_base< T > &vec1, vector_base< T > const &vec2, ScalarType1 const &alpha, vcl_size_t, bool reciprocal_alpha, bool flip_sign_alpha, vector_base< T > const &vec3, ScalarType2 const &beta, vcl_size_t, bool reciprocal_beta, bool flip_sign_beta)
template<typename T , typename ScalarType1 , typename ScalarType2 >
void avbv_v (vector_base< T > &vec1, vector_base< T > const &vec2, ScalarType1 const &alpha, vcl_size_t, bool reciprocal_alpha, bool flip_sign_alpha, vector_base< T > const &vec3, ScalarType2 const &beta, vcl_size_t, bool reciprocal_beta, bool flip_sign_beta)
template<typename T >
void vector_assign (vector_base< T > &vec1, const T &alpha, bool up_to_internal_size=false)
 Assign a constant value to a vector (-range/-slice)
template<typename T >
void vector_swap (vector_base< T > &vec1, vector_base< T > &vec2)
 Swaps the contents of two vectors, data is copied.
template<typename T , typename OP >
void element_op (vector_base< T > &vec1, vector_expression< const vector_base< T >, const vector_base< T >, op_element_binary< OP > > const &proxy)
 Implementation of the element-wise operation v1 = v2 .* v3 and v1 = v2 ./ v3 (using MATLAB syntax)
template<typename T , typename OP >
void element_op (vector_base< T > &vec1, vector_expression< const vector_base< T >, const vector_base< T >, op_element_unary< OP > > const &proxy)
 Implementation of the element-wise operation v1 = v2 .* v3 and v1 = v2 ./ v3 (using MATLAB syntax)
template<typename T , typename S3 >
void inner_prod_impl (vector_base< T > const &vec1, vector_base< T > const &vec2, S3 &result)
 Computes the inner product of two vectors - implementation. Library users should call inner_prod(vec1, vec2).
template<typename T >
void inner_prod_impl (vector_base< T > const &x, vector_tuple< T > const &vec_tuple, vector_base< T > &result)
template<typename T , typename S2 >
void norm_1_impl (vector_base< T > const &vec1, S2 &result)
 Computes the l^1-norm of a vector.
template<typename T , typename S2 >
void norm_2_impl (vector_base< T > const &vec1, S2 &result)
 Computes the l^2-norm of a vector - implementation.
template<typename T , typename S2 >
void norm_inf_impl (vector_base< T > const &vec1, S2 &result)
 Computes the supremum-norm of a vector.
template<typename T >
vcl_size_t index_norm_inf (vector_base< T > const &vec1)
 Computes the index of the first entry that is equal to the supremum-norm in modulus.
template<typename T >
void plane_rotation (vector_base< T > &vec1, vector_base< T > &vec2, T alpha, T beta)
 Computes a plane rotation of two vectors.

Detailed Description

Implementations of vector operations using a plain single-threaded or OpenMP-enabled execution on CPU.


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