281 lines
6.0 KiB
C
281 lines
6.0 KiB
C
#include <stdio.h>
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#include <stdlib.h>
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#include <stdbool.h>
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// for sleep !
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#ifdef __linux__
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#include <unistd.h>
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#elif _WIN32
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#include <windows.h>
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#endif
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#include "ftest/ftest.h"
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#include "ftest/ftest_array.h"
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#include "fmock/fmock.h"
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//#include "permutation_t/permutation_t.h"
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#include "tensor_t/tensor_t.h"
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#include "tensor_t/cl_tensor_t.h"
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TEST(rank){
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dimension *D=create_dim(4);
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D->perm[0]=2;
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D->perm[1]=3;
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D->perm[2]=5;
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D->perm[3]=6;
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updateRankDim(D);
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tensor_TYPE_FLOAT *tf = CREATE_TENSOR_TYPE_FLOAT(D);
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EXPECT_EQ(tf->dim->rank, 180);
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}
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void print_tensor_float(tensor_TYPE_FLOAT *M, char *msg){
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LOG("================= %s ===============\n",msg);
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for(size_t i=0; i<M->dim->rank;++i)
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LOG("[%ld]: %f ",i,M->x[i]);
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LOG("%s","\n");
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}
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void print_tensor_double(tensor_TYPE_DOUBLE *M, char *msg){
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LOG("================= %s ===============\n",msg);
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for(size_t i=0; i<M->dim->rank;++i)
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LOG("[%ld]: %lf ",i,M->x[i]);
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LOG("%s","\n");
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}
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TEST(tensorProd ){
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dimension *d0=create_dim(3);
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dimension *d1=create_dim(2);
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d0->perm[0]=2;
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d0->perm[1]=3;
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d0->perm[2]=2;
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d1->perm[0]=2;
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d1->perm[1]=3;
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updateRankDim(d0);
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updateRankDim(d1);
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tensor_TYPE_FLOAT *M0 = CREATE_TENSOR_TYPE_FLOAT(d0);
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tensor_TYPE_FLOAT *M1 = CREATE_TENSOR_TYPE_FLOAT(d1);
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LOG("M0->dim->rank = %ld\n",M0->dim->rank);
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LOG("M1->dim->rank = %ld\n",M1->dim->rank);
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for(size_t i=0; i<M0->dim->rank;++i) M0->x[i]=i*0.1 +1;
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for(size_t i=0; i<M1->dim->rank;++i) M1->x[i]=i*0.003 + 2;
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print_tensor_float(M0,"M0");
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print_tensor_float(M1,"M1");
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tensor_TYPE_FLOAT *M;
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tensor_TYPE_FLOAT *Mn;
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tensorProd_TYPE_FLOAT(&M,M0,M1);
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tensorProdNotOpt_TYPE_FLOAT(&Mn,M0,M1);
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LOG("M->dim->rank = %ld\n",M->dim->rank);
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print_tensor_float(M,"M");
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size_t x_idx=0, m_idx;
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for(size_t i=0; i<M->dim->rank; ++i){
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EXPECT_EQ_TYPE_FLOAT(Mn->x[i],M->x[i]);
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}
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print_tensor_float(Mn,"Mn");
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}
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TEST(tensorContractnProd_TYPE_FLOAT ){
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dimension *d0=create_dim(3);
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dimension *d1=create_dim(2);
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d0->perm[0]=2;
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d0->perm[1]=3;
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d0->perm[2]=2;
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d1->perm[0]=2;
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d1->perm[1]=3;
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updateRankDim(d0);
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updateRankDim(d1);
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tensor_TYPE_FLOAT *M0 = CREATE_TENSOR_TYPE_FLOAT(d0);
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tensor_TYPE_FLOAT *M1 = CREATE_TENSOR_TYPE_FLOAT(d1);
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LOG("M0->dim->rank = %ld\n",M0->dim->rank);
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LOG("M1->dim->rank = %ld\n",M1->dim->rank);
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for(size_t i=0; i<M0->dim->rank;++i) M0->x[i]=i*0.1 +1;
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for(size_t i=0; i<M1->dim->rank;++i) M1->x[i]=i*0.003 + 2;
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print_tensor_float(M0,"M0");
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print_tensor_float(M1,"M1");
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tensor_TYPE_FLOAT *M;
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tensor_TYPE_FLOAT *MnO;
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tensorContractnProd_TYPE_FLOAT(&M, M0,M1,1);
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tensorContractnProdNotOpt_TYPE_FLOAT(&MnO, M0,M1,1);
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print_tensor_float(M,"M");
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print_tensor_float(MnO,"MnO");
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// for(size_t i=0;i<M->dim->rank;++i)
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// EXPECT_EQ_TYPE_FLOAT(M->x[i],MnO->x[i]);
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EXPECT_ARRAY_EQ_TYPE_FLOAT(M->x,M->dim->rank,MnO->x,MnO->dim->rank);
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}
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TEST(tensorContractnProd_TYPE_FLOAT2 ){
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dimension *d0=create_dim(3);
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dimension *d1=create_dim(3);
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d0->perm[0]=5;
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d0->perm[1]=2; //3;
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d0->perm[2]=3;
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d1->perm[0]=2;
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d1->perm[1]=3;//3;
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d1->perm[2]=4;
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updateRankDim(d0);
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updateRankDim(d1);
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tensor_TYPE_FLOAT *M0 = CREATE_TENSOR_TYPE_FLOAT(d0);
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tensor_TYPE_FLOAT *M1 = CREATE_TENSOR_TYPE_FLOAT(d1);
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LOG("M0->dim->rank = %ld\n",M0->dim->rank);
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LOG("M1->dim->rank = %ld\n",M1->dim->rank);
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for(size_t i=0; i<M0->dim->rank;++i) M0->x[i]=i*0.1 +1;
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for(size_t i=0; i<M1->dim->rank;++i) M1->x[i]=i*0.003 + 2;
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print_tensor_float(M0,"M0");
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print_tensor_float(M1,"M1");
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tensor_TYPE_FLOAT *M;
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tensor_TYPE_FLOAT *MnO;
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tensorContractnProd_TYPE_FLOAT(&M, M0,M1,2);
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print_tensor_float(M,"M");
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tensorContractnProdNotOpt_TYPE_FLOAT(&MnO, M0,M1,2);
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print_tensor_float(MnO,"MnO");
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// for(size_t i=0;i<M->dim->rank;++i)
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// EXPECT_EQ_TYPE_FLOAT(M->x[i],MnO->x[i]);
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EXPECT_ARRAY_EQ_TYPE_FLOAT(M->x,M->dim->rank,MnO->x,MnO->dim->rank);
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}
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TEST(cl_tensorContractnProd_TYPE_FLOAT2 ){
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dimension *d0=create_dim(3);
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dimension *d1=create_dim(3);
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d0->perm[0]=5;
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d0->perm[1]=2; //3;
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d0->perm[2]=3;
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d1->perm[0]=2;
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d1->perm[1]=3;//3;
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d1->perm[2]=4;
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updateRankDim(d0);
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updateRankDim(d1);
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tensor_TYPE_FLOAT *M0 = CREATE_TENSOR_TYPE_FLOAT(d0);
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tensor_TYPE_FLOAT *M1 = CREATE_TENSOR_TYPE_FLOAT(d1);
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LOG("M0->dim->rank = %ld\n",M0->dim->rank);
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LOG("M1->dim->rank = %ld\n",M1->dim->rank);
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for(size_t i=0; i<M0->dim->rank;++i) M0->x[i]=i*0.1 +1;
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for(size_t i=0; i<M1->dim->rank;++i) M1->x[i]=i*0.003 + 2;
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print_tensor_float(M0,"M0");
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print_tensor_float(M1,"M1");
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tensor_TYPE_FLOAT *M;
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tensor_TYPE_FLOAT *MnO;
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tensorContractnProd_TYPE_FLOAT(&M, M0,M1,2);
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print_tensor_float(M,"M");
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cl_tensorContractnProd_TYPE_FLOAT(&MnO, M0,M1,2);
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print_tensor_float(MnO,"MnO");
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// for(size_t i=0;i<M->dim->rank;++i)
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// EXPECT_EQ_TYPE_FLOAT(M->x[i],MnO->x[i]);
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EXPECT_ARRAY_EQ_TYPE_FLOAT(M->x,M->dim->rank,MnO->x,MnO->dim->rank);
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}
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TEST(cl_tensorContractnProd_TYPE_DOUBLE2 ){
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dimension *d0=create_dim(3);
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dimension *d1=create_dim(3);
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d0->perm[0]=5;
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d0->perm[1]=2; //3;
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d0->perm[2]=3;
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d1->perm[0]=2;
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d1->perm[1]=3;//3;
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d1->perm[2]=4;
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updateRankDim(d0);
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updateRankDim(d1);
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tensor_TYPE_DOUBLE *M0 = CREATE_TENSOR_TYPE_DOUBLE(d0);
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tensor_TYPE_DOUBLE *M1 = CREATE_TENSOR_TYPE_DOUBLE(d1);
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LOG("M0->dim->rank = %ld\n",M0->dim->rank);
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LOG("M1->dim->rank = %ld\n",M1->dim->rank);
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for(size_t i=0; i<M0->dim->rank;++i) M0->x[i]=i*0.1 +1;
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for(size_t i=0; i<M1->dim->rank;++i) M1->x[i]=i*0.003 + 2;
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print_tensor_double(M0,"M0");
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print_tensor_double(M1,"M1");
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tensor_TYPE_DOUBLE *M;
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tensor_TYPE_DOUBLE *MnO;
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tensorContractnProd_TYPE_DOUBLE(&M, M0,M1,2);
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print_tensor_double(M,"M");
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cl_tensorContractnProd_TYPE_DOUBLE(&MnO, M0,M1,2);
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print_tensor_double(MnO,"MnO");
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// for(size_t i=0;i<M->dim->rank;++i)
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// EXPECT_EQ_TYPE_DOUBLE(M->x[i],MnO->x[i]);
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EXPECT_ARRAY_EQ_TYPE_DOUBLE(M->x,M->dim->rank,MnO->x,MnO->dim->rank);
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}
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int main(int argc, char **argv){
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run_all_tests_args(argc, argv);
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return 0;
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}
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