SkelGIS
3.0
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macros of SKelGIS library More...
Go to the source code of this file.
Defines | |
#define | MPI_RANK_NB |
MPI_RANK_NB macro. | |
#define | MPI_END MPI_Finalize(); |
MPI_END macro. | |
#define | INITSKELGIS |
INITSKELGIS. | |
#define | ENDSKELGIS MPI_END |
ENDSKELGIS. | |
#define | BEGINParam(name) |
#define | ENDParam(name) |
#define | PARAM(class_name, param_name) class_name::getInstance()->param_name |
#define | BEGINApplyUnary(name, input_matrix, input_type, r, output_matrix, output_type, r2) |
BEGINApplyUnary. | |
#define | BEGINApplyUnaryBlock(name, input_matrix, input_type, r, output_matrix, output_type, r2) |
BEGINApplyUnaryBlock. | |
#define | BEGINApplyBinary(name, input_matrix1, input_type1, input_matrix2, input_type2, r, output_matrix, output_type, r3) |
BEGINApplyBinary. | |
#define | BEGINApplyBinaryBlock(name, input_matrix1, input_type1, input_matrix2, input_type2, r, output_matrix, output_type, r3) |
BEGINApplyBinaryBlock. | |
#define | BEGINApplyList(name, inputs, inputs_type, r, outputs, outputs_type, r2) |
BEGINApplyList. | |
#define | BEGINApplyListBlock(name, inputs, inputs_type, r, outputs, outputs_type, r2) |
BEGINApplyListBlock. | |
#define | BEGINApplyReduction(name, input_matrix, type, r, output) |
BEGINApplyReduction. | |
#define | BEGINApplyReductionBlock(name, input_matrix, type, r, output) |
BEGINApplyReductionBlock. | |
#define | BEGINMap(name, element, element_type, return_type) |
BEGINMap. | |
#define | BEGINApplyUnaryDDAG(name, DPMap_n1, n1, DPMap_e1, e1, DPMap_n2, n2, DPMap_e2, e2) |
BEGINApplyUnaryDDAG. | |
#define | BEGINSApplyUnaryDDAG(name, DPMap_n, n1, n2, DPMap_e, e1, e2) |
BEGINApplyUnaryDDAG. | |
#define | END(name) }name; |
END. |
macros of SKelGIS library
Definition in file macros.hpp.
#define BEGINApplyBinary | ( | name, | |
input_matrix1, | |||
input_type1, | |||
input_matrix2, | |||
input_type2, | |||
r, | |||
output_matrix, | |||
output_type, | |||
r3 | |||
) |
struct _ApplyBinary_##name : public _ApplyBinary_Func<input_type1,r,input_type2,output_type,r3> \ { \ void operator()(DMatrix<input_type1,r>& input_matrix1,DMatrix<input_type2,r>& input_matrix2, DMatrix<output_type,r3>& output_matrix) const
BEGINApplyBinary.
Used to code the user function for the skeleton ApplyBinary
Definition at line 87 of file macros.hpp.
#define BEGINApplyBinaryBlock | ( | name, | |
input_matrix1, | |||
input_type1, | |||
input_matrix2, | |||
input_type2, | |||
r, | |||
output_matrix, | |||
output_type, | |||
r3 | |||
) |
struct _ApplyBinary_##name : public _ApplyBinary_Func<input_type1,r,input_type2,output_type,r3,false> \ { \ void operator()(DMatrix<input_type1,r,false>& input_matrix1,DMatrix<input_type2,r,false>& input_matrix2, DMatrix<output_type,r3,false>& output_matrix) const
BEGINApplyBinaryBlock.
Used to code the user function for the skeleton ApplyBinary in the case of a block distribution
Definition at line 96 of file macros.hpp.
#define BEGINApplyList | ( | name, | |
inputs, | |||
inputs_type, | |||
r, | |||
outputs, | |||
outputs_type, | |||
r2 | |||
) |
struct _ApplyList_##name : public _ApplyList_Func<inputs_type,r,outputs_type,r2> \ { \ void operator()(DMatrix_vector<inputs_type,r>& inputs, DMatrix_vector<outputs_type,r2>& outputs) const
BEGINApplyList.
Used to code the user function for the skeleton ApplyList
Definition at line 105 of file macros.hpp.
#define BEGINApplyListBlock | ( | name, | |
inputs, | |||
inputs_type, | |||
r, | |||
outputs, | |||
outputs_type, | |||
r2 | |||
) |
struct _ApplyList_##name : public _ApplyList_Func<inputs_type,r, outputs_type,r2,false> \ { \ void operator()(DMatrix_vector<inputs_type,r,false>& inputs, DMatrix_vector<outputs_type,r2,false>& outputs) const
BEGINApplyListBlock.
Used to code the user function for the skeleton ApplyList in the case of a block distribution
Definition at line 114 of file macros.hpp.
#define BEGINApplyReduction | ( | name, | |
input_matrix, | |||
type, | |||
r, | |||
output | |||
) |
struct _ApplyReduction_##name : public _ApplyReduction_Func<type, r> \ { \ void operator()(DMatrix<type,r>& input_matrix, type& output) const
BEGINApplyReduction.
Used to code the user function for the skeleton ApplyReduction
Definition at line 123 of file macros.hpp.
#define BEGINApplyReductionBlock | ( | name, | |
input_matrix, | |||
type, | |||
r, | |||
output | |||
) |
struct _ApplyReduction_##name : public _ApplyReduction_Func<type, r,false> \ { \ void operator()(DMatrix<type,r,false>& input_matrix, type& output) const
BEGINApplyReductionBlock.
Used to code the user function for the skeleton ApplyReduction in the case of a block distribution
Definition at line 131 of file macros.hpp.
#define BEGINApplyUnary | ( | name, | |
input_matrix, | |||
input_type, | |||
r, | |||
output_matrix, | |||
output_type, | |||
r2 | |||
) |
struct _ApplyUnary_##name : public _ApplyUnary_Func<input_type, r, output_type,r2> \ { \ void operator()(DMatrix<input_type,r>& input_matrix, DMatrix<output_type,r2>& output_matrix) const
BEGINApplyUnary.
Used to code the user function for the skeleton ApplyUnary
Definition at line 69 of file macros.hpp.
#define BEGINApplyUnaryBlock | ( | name, | |
input_matrix, | |||
input_type, | |||
r, | |||
output_matrix, | |||
output_type, | |||
r2 | |||
) |
struct _ApplyUnary_##name : public _ApplyUnary_Func<input_type,r, output_type,r2,false> \ { \ void operator()(DMatrix<input_type,r,false>& input_matrix, DMatrix<output_type,r2,false>& output_matrix) const
BEGINApplyUnaryBlock.
Used to code the user function for the skeleton ApplyUnary in the case of a block distribution
Definition at line 78 of file macros.hpp.
#define BEGINApplyUnaryDDAG | ( | name, | |
DPMap_n1, | |||
n1, | |||
DPMap_e1, | |||
e1, | |||
DPMap_n2, | |||
n2, | |||
DPMap_e2, | |||
e2 | |||
) |
struct _ApplyUnaryDDAG_##name : public _ApplyUnaryDDAG_Func<DPMap_n1, DPMap_e1, DPMap_n2, DPMap_e2> \ { \ void operator()(DPMap_n1& n1, DPMap_e1& e1, DPMap_n2& n2, DPMap_e2& e2) const
BEGINApplyUnaryDDAG.
Used to code the user function for the skeleton ApplyUnaryDDAG
Definition at line 153 of file macros.hpp.
#define BEGINMap | ( | name, | |
element, | |||
element_type, | |||
return_type | |||
) |
struct _Map_##name : public _Map_Func<element_type, return_type> \ { \ return_type operator()(element_type element) const
BEGINMap.
Used to code the user function for the skeleton Map
Definition at line 140 of file macros.hpp.
#define BEGINParam | ( | name | ) |
struct name{ \ private : \ name(){} \ ~name(){} \ static name * singleton; \ public: \ static name * getInstance() \ { \ if(NULL==singleton) \ singleton = new name(); \ return singleton; \ }
Definition at line 41 of file macros.hpp.
#define BEGINSApplyUnaryDDAG | ( | name, | |
DPMap_n, | |||
n1, | |||
n2, | |||
DPMap_e, | |||
e1, | |||
e2 | |||
) |
struct _ApplyUnaryDDAG_##name : public _ApplyUnaryDDAG_Func<DPMap_n, DPMap_e, DPMap_n, DPMap_e> \ { \ void operator()(DPMap_n& n1, DPMap_e& e1, DPMap_n& n2, DPMap_e& e2) const
BEGINApplyUnaryDDAG.
Used to code the user function for the skeleton ApplyUnaryDDAG
Definition at line 162 of file macros.hpp.
#define END | ( | name | ) | }name; |
#define ENDParam | ( | name | ) |
}; \ name *name::singleton = NULL;
Definition at line 54 of file macros.hpp.
#define ENDSKELGIS MPI_END |
#define INITSKELGIS |
MPI_Init(&argc,&argv); \ MPI_RANK_NB
INITSKELGIS.
Used to initialize SkelGIS library use. Mpi initializations.
Definition at line 30 of file macros.hpp.
#define MPI_END MPI_Finalize(); |
#define MPI_RANK_NB |
MPI_Comm_size(MPI_COMM_WORLD,&(Mpi_::mpi_nb)); \ MPI_Comm_rank(MPI_COMM_WORLD,&(Mpi_::mpi_rank));
MPI_RANK_NB macro.
Used to initialize the number of mpi processes and the rank of the current process
Definition at line 17 of file macros.hpp.