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debug all leak mem with valgrind in ftest and tensor rep

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fanasina
2024-02-08 23:57:10 +01:00
parent 6ae0f7cd75
commit e1171d720b
32 changed files with 1468 additions and 405 deletions
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tensor_t/test_cl/is_good.c
+316 -64
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@@ -17,6 +17,8 @@
//#include "permutation_t/permutation_t.h"
#include "tensor_t/tensor_t.h"
#include "tensor_t/cl_tensor_t.h"
//#include "tools_t/tools_t.h"
TEST(rank){
dimension *D=create_dim(4);
@@ -29,6 +31,7 @@ TEST(rank){
tensor_TYPE_FLOAT *tf = CREATE_TENSOR_TYPE_FLOAT(D);
EXPECT_EQ(tf->dim->rank, 180);
free_dimension(D);
}
void print_tensor_float(tensor_TYPE_FLOAT *M, char *msg){
@@ -48,8 +51,10 @@ void print_tensor_double(tensor_TYPE_DOUBLE *M, char *msg){
LOG("%s","\n");
}
extern long int PRECISION_TYPE_FLOAT ;
TEST(tensorProd ){
PRECISION_TYPE_FLOAT = 10;
dimension *d0=create_dim(3);
dimension *d1=create_dim(2);
@@ -88,6 +93,11 @@ TEST(tensorProd ){
EXPECT_ARRAY_EQ_TYPE_FLOAT(M->x,M->dim->rank,Mn->x,Mn->dim->rank);
print_tensor_float(Mn,"Mn");
free_tensor_TYPE_FLOAT(M);
free_tensor_TYPE_FLOAT(Mn);
free_tensor_TYPE_FLOAT(M0);
free_tensor_TYPE_FLOAT(M1);
}
TEST(tensorContractnProd_TYPE_FLOAT ){
@@ -132,6 +142,10 @@ TEST(tensorContractnProd_TYPE_FLOAT ){
EXPECT_ARRAY_EQ_TYPE_FLOAT(M->x,M->dim->rank,MnO->x,MnO->dim->rank);
free_tensor_TYPE_FLOAT(M);
free_tensor_TYPE_FLOAT(MnO);
free_tensor_TYPE_FLOAT(M0);
free_tensor_TYPE_FLOAT(M1);
}
TEST(tensorContractnProd_TYPE_FLOAT2 ){
@@ -176,10 +190,17 @@ TEST(tensorContractnProd_TYPE_FLOAT2 ){
//EXPECT_ARRAY_EQ_TYPE_FLOAT(M->x,M->dim->rank,MnO->x,MnO->dim->rank);
free_tensor_TYPE_FLOAT(M);
free_tensor_TYPE_FLOAT(MnO);
free_tensor_TYPE_FLOAT(M0);
free_tensor_TYPE_FLOAT(M1);
}
extern long int PRECISION_TYPE_DOUBLE;
TEST(cl_tensorContractnProd_TYPE_FLOAT2 ){
PRECISION_TYPE_DOUBLE=1000;
dimension *d0=create_dim(3);
dimension *d1=create_dim(3);
@@ -194,7 +215,6 @@ TEST(cl_tensorContractnProd_TYPE_FLOAT2 ){
updateRankDim(d0);
updateRankDim(d1);
tensor_TYPE_FLOAT *M0 = CREATE_TENSOR_TYPE_FLOAT(d0);
tensor_TYPE_FLOAT *M1 = CREATE_TENSOR_TYPE_FLOAT(d1);
@@ -221,6 +241,10 @@ TEST(cl_tensorContractnProd_TYPE_FLOAT2 ){
//EXPECT_ARRAY_EQ_TYPE_FLOAT(M->x,M->dim->rank,MnO->x,MnO->dim->rank);
free_tensor_TYPE_FLOAT(M);
free_tensor_TYPE_FLOAT(MnO);
free_tensor_TYPE_FLOAT(M0);
free_tensor_TYPE_FLOAT(M1);
}
@@ -267,6 +291,10 @@ TEST(cl_tensorContractnProd_TYPE_DOUBLE2 ){
EXPECT_ARRAY_EQ_TYPE_DOUBLE(M->x,M->dim->rank,MnO->x,MnO->dim->rank);
free_tensor_TYPE_DOUBLE(M);
free_tensor_TYPE_DOUBLE(MnO);
free_tensor_TYPE_DOUBLE(M0);
free_tensor_TYPE_DOUBLE(M1);
}
@@ -313,6 +341,10 @@ TEST(tensorContractnProd_TYPE_DOUBLE2 ){
EXPECT_ARRAY_EQ_TYPE_DOUBLE(M->x,M->dim->rank,MnO->x,MnO->dim->rank);
free_tensor_TYPE_DOUBLE(M);
free_tensor_TYPE_DOUBLE(MnO);
free_tensor_TYPE_DOUBLE(M0);
free_tensor_TYPE_DOUBLE(M1);
}
@@ -356,67 +388,26 @@ TEST(TensorProdCL){
print_tensor_float(Mn,"Mn");
free_tensor_TYPE_FLOAT(M);
free_tensor_TYPE_FLOAT(Mn);
free_tensor_TYPE_FLOAT(M0);
free_tensor_TYPE_FLOAT(M1);
}
TEST(VS_cl_tensorContractnProd_TYPE_DOUBLE2 ){
TEST(VS_thrd_tensorContractnProd_TYPE_DOUBLE2 ){
dimension *d0=create_dim(3);
dimension *d1=create_dim(3);
d0->perm[0]=125;
d0->perm[1]=52; //3;
d0->perm[2]=63;
d0->perm[0]=512;
d0->perm[1]=48; //3;
d0->perm[2]=64;
d1->perm[0]=52;
d1->perm[1]=63;//3;
d1->perm[2]=154;
updateRankDim(d0);
updateRankDim(d1);
tensor_TYPE_DOUBLE *M0 = CREATE_TENSOR_TYPE_DOUBLE(d0);
tensor_TYPE_DOUBLE *M1 = CREATE_TENSOR_TYPE_DOUBLE(d1);
LOG("M0->dim->rank = %ld\n",M0->dim->rank);
LOG("M1->dim->rank = %ld\n",M1->dim->rank);
for(size_t i=0; i<M0->dim->rank;++i) M0->x[i]=i*0.1 +1;
for(size_t i=0; i<M1->dim->rank;++i) M1->x[i]=i*0.003 + 2;
//print_tensor_double(M0,"M0");
//print_tensor_double(M1,"M1");
//tensor_TYPE_DOUBLE *M;
tensor_TYPE_DOUBLE *MnO;
//tensorContractnProdNotOpt_TYPE_DOUBLE(&M, M0,M1,2);
//tensorContractnProd_TYPE_DOUBLE(&M, M0,M1,2);
//print_tensor_double(M,"M");
cl_tensorContractnProd_TYPE_DOUBLE(&MnO, M0,M1,2);
//print_tensor_double(MnO,"MnO");
// for(size_t i=0;i<M->dim->rank;++i)
// EXPECT_EQ_TYPE_DOUBLE(M->x[i],MnO->x[i]);
//EXPECT_ARRAY_EQ_TYPE_DOUBLE(M->x,M->dim->rank,MnO->x,MnO->dim->rank);
}
TEST(VStensorContractnProd_TYPE_DOUBLE2 ){
dimension *d0=create_dim(3);
dimension *d1=create_dim(3);
d0->perm[0]=125;
d0->perm[1]=52; //3;
d0->perm[2]=63;
d1->perm[0]=52;
d1->perm[1]=63;//3;
d1->perm[2]=154;
d1->perm[0]=48;
d1->perm[1]=64;//3;
d1->perm[2]=240;
updateRankDim(d0);
updateRankDim(d1);
@@ -434,11 +425,197 @@ TEST(VStensorContractnProd_TYPE_DOUBLE2 ){
//print_tensor_double(M1,"M1");
tensor_TYPE_DOUBLE *M;
//tensor_TYPE_DOUBLE *MnO;
tensor_TYPE_DOUBLE *MnO;
tensorContractnProd_TYPE_DOUBLE(&M, M0,M1,2);
size_t nbth=10;
//tensorContractnProdNotOpt_TYPE_DOUBLE(&M, M0,M1,2);
//tensorContractnProd_TYPE_DOUBLE(&M, M0,M1,2,nbth);
tensorContractnProdThread_TYPE_DOUBLE(&M, M0,M1,2,nbth);
tensorContractnProdThread_TYPE_DOUBLE(&MnO, M0,M1,2,nbth);
//print_tensor_double(M,"M");
//cl_tensorContractnProd_TYPE_DOUBLE(&MnO, M0,M1,2);
//print_tensor_double(MnO,"MnO");
// for(size_t i=0;i<M->dim->rank;++i)
// EXPECT_EQ_TYPE_DOUBLE(M->x[i],MnO->x[i]);
EXPECT_ARRAY_EQ_TYPE_DOUBLE(M->x,M->dim->rank,MnO->x,MnO->dim->rank);
free_tensor_TYPE_DOUBLE(M);
free_tensor_TYPE_DOUBLE(MnO);
free_tensor_TYPE_DOUBLE(M0);
free_tensor_TYPE_DOUBLE(M1);
}
TEST(VS_thrd_tensorContractnProd_TYPE_DOUBLE2 ){
dimension *d0=create_dim(3);
dimension *d1=create_dim(3);
d0->perm[0]=512;
d0->perm[1]=48; //3;
d0->perm[2]=64;
d1->perm[0]=48;
d1->perm[1]=64;//3;
d1->perm[2]=240;
updateRankDim(d0);
updateRankDim(d1);
tensor_TYPE_DOUBLE *M0 = CREATE_TENSOR_TYPE_DOUBLE(d0);
tensor_TYPE_DOUBLE *M1 = CREATE_TENSOR_TYPE_DOUBLE(d1);
LOG("M0->dim->rank = %ld\n",M0->dim->rank);
LOG("M1->dim->rank = %ld\n",M1->dim->rank);
for(size_t i=0; i<M0->dim->rank;++i) M0->x[i]=i*0.1 +1;
for(size_t i=0; i<M1->dim->rank;++i) M1->x[i]=i*0.003 + 2;
//print_tensor_double(M0,"M0");
//print_tensor_double(M1,"M1");
tensor_TYPE_DOUBLE *M;
tensor_TYPE_DOUBLE *MnO;
size_t nbth=15;
//tensorContractnProdNotOpt_TYPE_DOUBLE(&M, M0,M1,2);
//tensorContractnProd_TYPE_DOUBLE(&M, M0,M1,2,nbth);
tensorContractnProdThread_TYPE_DOUBLE(&M, M0,M1,2,nbth);
tensorContractnProdThread_TYPE_DOUBLE(&MnO, M0,M1,2,nbth);
//print_tensor_double(M,"M");
//cl_tensorContractnProd_TYPE_DOUBLE(&MnO, M0,M1,2);
//print_tensor_double(MnO,"MnO");
// for(size_t i=0;i<M->dim->rank;++i)
// EXPECT_EQ_TYPE_DOUBLE(M->x[i],MnO->x[i]);
EXPECT_ARRAY_EQ_TYPE_DOUBLE(M->x,M->dim->rank,MnO->x,MnO->dim->rank);
free_tensor_TYPE_DOUBLE(M);
free_tensor_TYPE_DOUBLE(MnO);
free_tensor_TYPE_DOUBLE(M0);
free_tensor_TYPE_DOUBLE(M1);
}
TEST(VS_thrd_tensorContractnProd_TYPE_DOUBLE2 ){
dimension *d0=create_dim(3);
dimension *d1=create_dim(3);
d0->perm[0]=512;
d0->perm[1]=48; //3;
d0->perm[2]=64;
d1->perm[0]=48;
d1->perm[1]=64;//3;
d1->perm[2]=240;
updateRankDim(d0);
updateRankDim(d1);
tensor_TYPE_DOUBLE *M0 = CREATE_TENSOR_TYPE_DOUBLE(d0);
tensor_TYPE_DOUBLE *M1 = CREATE_TENSOR_TYPE_DOUBLE(d1);
LOG("M0->dim->rank = %ld\n",M0->dim->rank);
LOG("M1->dim->rank = %ld\n",M1->dim->rank);
for(size_t i=0; i<M0->dim->rank;++i) M0->x[i]=i*0.1 +1;
for(size_t i=0; i<M1->dim->rank;++i) M1->x[i]=i*0.003 + 2;
//print_tensor_double(M0,"M0");
//print_tensor_double(M1,"M1");
tensor_TYPE_DOUBLE *M;
tensor_TYPE_DOUBLE *MnO;
size_t nbth=10;
//tensorContractnProdNotOpt_TYPE_DOUBLE(&M, M0,M1,2);
//tensorContractnProd_TYPE_DOUBLE(&M, M0,M1,2,nbth);
tensorContractnProdThread_TYPE_DOUBLE(&M, M0,M1,2,nbth);
tensorContractnProdThread_TYPE_DOUBLE(&MnO, M0,M1,2,nbth);
//print_tensor_double(M,"M");
//cl_tensorContractnProd_TYPE_DOUBLE(&MnO, M0,M1,2);
//print_tensor_double(MnO,"MnO");
// for(size_t i=0;i<M->dim->rank;++i)
// EXPECT_EQ_TYPE_DOUBLE(M->x[i],MnO->x[i]);
EXPECT_ARRAY_EQ_TYPE_DOUBLE(M->x,M->dim->rank,MnO->x,MnO->dim->rank);
free_tensor_TYPE_DOUBLE(M);
free_tensor_TYPE_DOUBLE(MnO);
free_tensor_TYPE_DOUBLE(M0);
free_tensor_TYPE_DOUBLE(M1);
}
#if 1
TEST(VScltensorContractnProd_TYPE_DOUBLE2 ){
dimension *d0=create_dim(3);
dimension *d1=create_dim(3);
d0->perm[0]=512;
d0->perm[1]=48; //3;
d0->perm[2]=64;
d1->perm[0]=48;
d1->perm[1]=64;//3;
d1->perm[2]=240;
updateRankDim(d0);
updateRankDim(d1);
tensor_TYPE_DOUBLE *M0 = CREATE_TENSOR_TYPE_DOUBLE(d0);
tensor_TYPE_DOUBLE *M1 = CREATE_TENSOR_TYPE_DOUBLE(d1);
LOG("M0->dim->rank = %ld\n",M0->dim->rank);
LOG("M1->dim->rank = %ld\n",M1->dim->rank);
for(size_t i=0; i<M0->dim->rank;++i) M0->x[i]=i*0.1 +1;
for(size_t i=0; i<M1->dim->rank;++i) M1->x[i]=i*0.003 + 2;
//print_tensor_double(M0,"M0");
//print_tensor_double(M1,"M1");
tensor_TYPE_DOUBLE *M;
tensor_TYPE_DOUBLE *MnO;
size_t nbth = 10;
tensorContractnProdThread_TYPE_DOUBLE(&M, M0,M1,2,nbth);
//print_tensor_double(M,"M");
cl_tensorContractnProd_TYPE_DOUBLE(&MnO, M0,M1,2);
//tensorContractnProdNotOpt_TYPE_DOUBLE(&MnO, M0,M1,2);
//print_tensor_double(MnO,"MnO");
@@ -446,10 +623,69 @@ TEST(VStensorContractnProd_TYPE_DOUBLE2 ){
// for(size_t i=0;i<M->dim->rank;++i)
// EXPECT_EQ_TYPE_DOUBLE(M->x[i],MnO->x[i]);
//EXPECT_ARRAY_EQ_TYPE_DOUBLE(M->x,M->dim->rank,MnO->x,MnO->dim->rank);
EXPECT_ARRAY_EQ_TYPE_DOUBLE(M->x,M->dim->rank,MnO->x,MnO->dim->rank);
free_tensor_TYPE_DOUBLE(M);
free_tensor_TYPE_DOUBLE(MnO);
free_tensor_TYPE_DOUBLE(M0);
free_tensor_TYPE_DOUBLE(M1);
}
TEST(VScl2dtensorContractnProd_TYPE_DOUBLE2 ){
dimension *d0=create_dim(3);
dimension *d1=create_dim(3);
d0->perm[0]=512;
d0->perm[1]=48; //3;
d0->perm[2]=64;
d1->perm[0]=48;
d1->perm[1]=64;//3;
d1->perm[2]=240;
updateRankDim(d0);
updateRankDim(d1);
tensor_TYPE_DOUBLE *M0 = CREATE_TENSOR_TYPE_DOUBLE(d0);
tensor_TYPE_DOUBLE *M1 = CREATE_TENSOR_TYPE_DOUBLE(d1);
LOG("M0->dim->rank = %ld\n",M0->dim->rank);
LOG("M1->dim->rank = %ld\n",M1->dim->rank);
for(size_t i=0; i<M0->dim->rank;++i) M0->x[i]=i*0.1 +1;
for(size_t i=0; i<M1->dim->rank;++i) M1->x[i]=i*0.003 + 2;
//print_tensor_double(M0,"M0");
//print_tensor_double(M1,"M1");
tensor_TYPE_DOUBLE *M;
tensor_TYPE_DOUBLE *MnO;
size_t nbth = 10;
tensorContractnProdThread_TYPE_DOUBLE(&M, M0,M1,2,nbth);
//print_tensor_double(M,"M");
cl2d_tensorContractnProd_TYPE_DOUBLE(&MnO, M0,M1,2,16,16);
//cl2d_tensorContractnProd_TYPE_DOUBLE(&MnO, M0,M1,2,8,8);
//tensorContractnProdNotOpt_TYPE_DOUBLE(&MnO, M0,M1,2);
//print_tensor_double(MnO,"MnO");
// for(size_t i=0;i<M->dim->rank;++i)
// EXPECT_EQ_TYPE_DOUBLE(M->x[i],MnO->x[i]);
EXPECT_ARRAY_EQ_TYPE_DOUBLE(M->x,M->dim->rank,MnO->x,MnO->dim->rank);
free_tensor_TYPE_DOUBLE(M);
free_tensor_TYPE_DOUBLE(MnO);
free_tensor_TYPE_DOUBLE(M0);
free_tensor_TYPE_DOUBLE(M1);
}
TEST(tensorProd_vs2d ){
dimension *d0=create_dim(3);
dimension *d1=create_dim(2);
@@ -488,6 +724,11 @@ TEST(tensorProd_vs2d ){
EXPECT_ARRAY_EQ_TYPE_FLOAT(M->x,M->dim->rank,Mn->x,Mn->dim->rank);
free_tensor_TYPE_FLOAT(M);
free_tensor_TYPE_FLOAT(Mn);
free_tensor_TYPE_FLOAT(M0);
free_tensor_TYPE_FLOAT(M1);
//print_tensor_float(Mn,"Mn");
}
@@ -534,6 +775,11 @@ TEST(tensorProd_vs2d ){
EXPECT_ARRAY_EQ_TYPE_FLOAT(M->x,M->dim->rank,Mn->x,Mn->dim->rank);
//print_tensor_float(Mn,"Mn");
free_tensor_TYPE_FLOAT(M);
free_tensor_TYPE_FLOAT(Mn);
free_tensor_TYPE_FLOAT(M0);
free_tensor_TYPE_FLOAT(M1);
}
TEST(tensorProd_vs2d_Endian ){
@@ -576,10 +822,15 @@ TEST(tensorProd_vs2d_Endian ){
EXPECT_ARRAY_EQ_TYPE_FLOAT(M->x,M->dim->rank,Mn->x,Mn->dim->rank);
//print_tensor_float(Mn,"Mn");
free_tensor_TYPE_FLOAT(M);
free_tensor_TYPE_FLOAT(Mn);
free_tensor_TYPE_FLOAT(M0);
free_tensor_TYPE_FLOAT(M1);
}
TEST(tensorProd_vs2d_Endian ){
dimension *d0=create_dim(3);
dimension *d1=create_dim(2);
@@ -603,8 +854,6 @@ TEST(tensorProd_vs2d_Endian ){
for(size_t i=0; i<M0->dim->rank;++i) M0->x[i]=i*0.1 +1;
for(size_t i=0; i<M1->dim->rank;++i) M1->x[i]=i*0.003 + 2;
/*print_tensor_float(M0,"M0");
print_tensor_float(M1,"M1");*/
tensor_TYPE_FLOAT *M;
@@ -621,13 +870,16 @@ TEST(tensorProd_vs2d_Endian ){
EXPECT_ARRAY_EQ_TYPE_FLOAT(M->x,M->dim->rank,Mn->x,Mn->dim->rank);
//print_tensor_float(Mn,"Mn");
free_tensor_TYPE_FLOAT(M);
free_tensor_TYPE_FLOAT(Mn);
free_tensor_TYPE_FLOAT(M0);
free_tensor_TYPE_FLOAT(M1);
}
#endif
int main(int argc, char **argv){
run_all_tests_args(argc, argv);
return 0;