/* NiuTrans.Tensor - an open-source tensor library
* Copyright (C) 2017, Natural Language Processing Lab, Northestern University.
* All rights reserved.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
/*
* $Created by: Xu Chen (email: hello_master1954@163.com) 2018-09-25
*/
#include "../core/getandset/SetData.h"
#include "../core/movement/Spread.h"
#include "../core/utilities/CheckData.h"
#include "TSpread.h"
namespace nts { // namespace nts(NiuTrans.Tensor)
/*
case 1: test _Spread function.
spread a collection tensor to source tensor.
*/
bool TestSpread1()
{
/* a input tensor of size (4, 4, 3) */
int sOrder = 3;
int * sDimSize = new int[sOrder];
sDimSize[0] = 4;
sDimSize[1] = 4;
sDimSize[2] = 3;
int sUnitNum = 1;
for (int i = 0; i < sOrder; i++)
sUnitNum *= sDimSize[i];
/* a data tensor of size (2, 4, 3) */
int dataOrder = 3;
int * dataDimSize = new int[dataOrder];
dataDimSize[0] = 2;
dataDimSize[1] = 4;
dataDimSize[2] = 3;
int dataUnitNum = 1;
for (int i = 0; i < dataOrder; i++)
dataUnitNum *= dataDimSize[i];
int srcIndex[2] = {0, 1};
int tgtIndex[2] = {0, 1};
DTYPE data[2][4][3] = { { {1.0F, 1.0F, 1.0F},
{0.0F, 1.0F, 2.0F},
{1.0F, 1.0F, 1.0F},
{1.0F, 1.0F, 1.0F} },
{ {1.0F, 1.0F, 1.0F},
{3.0F, 4.0F, 5.0F},
{1.0F, 1.0F, 1.0F},
{1.0F, 1.0F, 1.0F} } };
DTYPE answer[4][4][3] = { { {1.0F, 1.0F, 1.0F},
{0.0F, 1.0F, 2.0F},
{1.0F, 1.0F, 1.0F},
{1.0F, 1.0F, 1.0F} },
{ {1.0F, 1.0F, 1.0F},
{3.0F, 4.0F, 5.0F},
{1.0F, 1.0F, 1.0F},
{1.0F, 1.0F, 1.0F} },
{ {0.0F, 0.0F, 0.0F},
{0.0F, 0.0F, 0.0F},
{0.0F, 0.0F, 0.0F} },
{ {0.0F, 0.0F, 0.0F},
{0.0F, 0.0F, 0.0F},
{0.0F, 0.0F, 0.0F} },
};
/* CPU test */
bool cpuTest = true;
/* create tensors */
XTensor * s = NewTensorV2(sOrder, sDimSize);
XTensor * modify = NewTensorV2(dataOrder, dataDimSize);
/* Initialize variables */
s->SetZeroAll();
modify->SetData(data, dataUnitNum);
/* call _Spread function */
_Spread(s, modify, 0, srcIndex, 2, tgtIndex);
/* check results */
cpuTest = _CheckData(s, answer, sUnitNum, 1e-4F);
#ifdef USE_CUDA
/* GPU test */
bool gpuTest = true;
/* create tensors */
XTensor * sGPU = NewTensorV2(sOrder, sDimSize, X_FLOAT, 1.0F, 0);
XTensor * modifyGPU = NewTensorV2(dataOrder, dataDimSize, X_FLOAT, 1.0F, 0);
/* Initialize variables */
sGPU->SetZeroAll();
modifyGPU->SetData(data, dataUnitNum);
/* call _Spread function */
_Spread(sGPU, modifyGPU, 0, srcIndex, 2, tgtIndex);
gpuTest = _CheckData(sGPU, answer, sUnitNum, 1e-4F);
/* destroy variables */
delete s;
delete modify;
delete sGPU;
delete modifyGPU;
delete[] sDimSize;
return cpuTest && gpuTest;
#else
/* destroy variables */
delete s;
delete[] sDimSize;
return cpuTest;
#endif // USE_CUDA
}
/*
case 2: test _SpreadForGather function
spread a collection tensor to source tensor
*/
bool TestSpread2()
{
/* a input tensor of size (3, 3) */
int sOrder = 2;
int * sDimSize = new int[sOrder];
sDimSize[0] = 3;
sDimSize[1] = 3;
int sUnitNum = 1;
for (int i = 0; i < sOrder; i++)
sUnitNum *= sDimSize[i];
/* a output tensor of size (2, 3) */
int tOrder = 2;
int * tDimSize = new int[tOrder];
tDimSize[0] = 2;
tDimSize[1] = 3;
int tUnitNum = 1;
for (int i = 0; i < tOrder; i++)
tUnitNum *= tDimSize[i];
/* a index tensor of size (2) */
int indexOrder = 1;
int * indexDimSize = new int[indexOrder];
indexDimSize[0] = 2;
int indexUnitNum = 1;
for (int i = 0; i < indexOrder; i++)
indexUnitNum *= indexDimSize[i];
DTYPE sData[3][3] = { {0.0F, 0.0F, 2.0F},
{2.0F, 1.0F, 3.0F},
{2.0F, 2.0F, 4.0F} };
DTYPE tData[2][3] = { {0.0F, -1.0F, 2.0F},
{1.0F, 2.0F, 0.0F} };
DTYPE answer[3][3] = { {0.0F, -1.0F, 4.0F},
{2.0F, 1.0F, 3.0F},
{3.0F, 4.0F, 4.0F} };
int dim = 0;
int indexSize = 2;
int srcIndex[2] = {0, 2};
int tgtIndex[2] = {0, 1};
/* CPU test */
bool cpuTest = true;
/* create tensors */
XTensor * s1 = NewTensorV2(sOrder, sDimSize);
XTensor * s2 = NewTensorV2(sOrder, sDimSize);
XTensor * t = NewTensorV2(tOrder, tDimSize);
XTensor * sIndex = NewTensorV2(indexOrder, indexDimSize, X_INT);
XTensor * tIndex = NewTensorV2(indexOrder, indexDimSize, X_INT);
/* initialize variables */
s1->SetData(sData, sUnitNum);
s2->SetData(sData, sUnitNum);
t->SetData(tData, tUnitNum);
sIndex->SetData(srcIndex, indexSize);
tIndex->SetData(tgtIndex, indexSize);
/* call _SpreadForGather function */
_SpreadForCopyIndexed(s1, t, dim, sIndex, tIndex, 1);
_SpreadForGather(s2, t, sIndex);
/* check results */
cpuTest = _CheckData(s1, answer, sUnitNum, 1e-4F) &&
_CheckData(s2, answer, sUnitNum, 1e-4F);
#ifdef USE_CUDA
/* GPU test */
bool gpuTest = true;
/* create tensors */
XTensor * sGPU1 = NewTensorV2(sOrder, sDimSize, X_FLOAT, 1.0F, 0);
XTensor * sGPU2 = NewTensorV2(sOrder, sDimSize, X_FLOAT, 1.0F, 0);
XTensor * tGPU = NewTensorV2(sOrder, tDimSize, X_FLOAT, 1.0F, 0);
XTensor * sIndexGPU = NewTensorV2(indexOrder, indexDimSize, X_INT, 1.0F, 0);
XTensor * tIndexGPU = NewTensorV2(indexOrder, indexDimSize, X_INT, 1.0F, 0);
/* initialize variables */
sGPU1->SetData(sData, sUnitNum);
sGPU2->SetData(sData, sUnitNum);
tGPU->SetData(tData, tUnitNum);
sIndexGPU->SetData(srcIndex, indexSize);
tIndexGPU->SetData(tgtIndex, indexSize);
/* call _SpreadForGather function */
_SpreadForCopyIndexed(sGPU1, tGPU, dim, sIndexGPU, tIndexGPU, 1);
_SpreadForGather(sGPU2, tGPU, sIndexGPU);
/* check results */
gpuTest = _CheckData(sGPU1, answer, sUnitNum, 1e-4F) &&
_CheckData(sGPU2, answer, sUnitNum, 1e-4F);
/* destroy variables */
delete s1;
delete s2;
delete t;
delete sIndex;
delete tIndex;
delete sGPU1;
delete sGPU2;
delete tGPU;
delete sIndexGPU;
delete tIndexGPU;
delete[] sDimSize;
delete[] tDimSize;
delete[] indexDimSize;
return cpuTest && gpuTest;
#else
/* destroy variables */
delete s1;
delete s2;
delete t;
delete sIndex;
delete tIndex;
delete[] sDimSize;
delete[] tDimSize;
delete[] indexDimSize;
return cpuTest;
#endif // USE_CUDA
}
/*
case 3: test _SpreadForGather and _SpreadForCopyIndexed function
spread a collection tensor to source tensor
*/
bool TestSpread3()
{
/* a input tensor of size (3, 3) */
int sOrder = 2;
int * sDimSize = new int[sOrder];
sDimSize[0] = 3;
sDimSize[1] = 3;
int sUnitNum = 1;
for (int i = 0; i < sOrder; i++)
sUnitNum *= sDimSize[i];
/* a output tensor of size (2, 3) */
int tOrder = 2;
int * tDimSize = new int[tOrder];
tDimSize[0] = 3;
tDimSize[1] = 2;
int tUnitNum = 1;
for (int i = 0; i < tOrder; i++)
tUnitNum *= tDimSize[i];
/* a index tensor of size (2) */
int indexOrder = 1;
int * indexDimSize = new int[indexOrder];
indexDimSize[0] = 2;
int indexUnitNum = 1;
for (int i = 0; i < indexOrder; i++)
indexUnitNum *= indexDimSize[i];
DTYPE sData[3][3] = { {0.0F, 0.0F, 2.0F},
{2.0F, 1.0F, 3.0F},
{2.0F, 2.0F, 4.0F} };
DTYPE tData[3][2] = { {0.0F, -1.0F},
{2.0F, 1.0F},
{2.0F, 0.0F} };
DTYPE answer[3][3] = { {-1.0F, 0.0F, 2.0F},
{3.0F, 1.0F, 5.0F},
{2.0F, 2.0F, 6.0F} };
int dim = 1;
int indexSize = 2;
int srcIndex[2] = {0, 2};
int tgtIndex[2] = {1, 0};
/* CPU test */
bool cpuTest = true;
/* create tensors */
XTensor * s1 = NewTensorV2(sOrder, sDimSize);
XTensor * s2 = NewTensorV2(sOrder, sDimSize);
XTensor * t = NewTensorV2(tOrder, tDimSize);
XTensor * sIndex = NewTensorV2(indexOrder, indexDimSize, X_INT);
XTensor * tIndex = NewTensorV2(indexOrder, indexDimSize, X_INT);
/* initialize variables */
s1->SetData(sData, sUnitNum);
s2->SetData(sData, sUnitNum);
t->SetData(tData, tUnitNum);
sIndex->SetData(srcIndex, indexSize);
tIndex->SetData(tgtIndex, indexSize);
/* call _SpreadForGather function */
_SpreadForCopyIndexed(s1, t, dim, sIndex, tIndex, 1);
_SpreadForCopyIndexed(s2, t, dim, sIndex, tIndex, 1);
/* check results */
cpuTest = _CheckData(s1, answer, sUnitNum, 1e-4F) &&
_CheckData(s2, answer, sUnitNum, 1e-4F);
#ifdef USE_CUDA
/* GPU test */
bool gpuTest = true;
/* create tensors */
XTensor * sGPU1 = NewTensorV2(sOrder, sDimSize, X_FLOAT, 1.0F, 0);
XTensor * sGPU2 = NewTensorV2(sOrder, sDimSize, X_FLOAT, 1.0F, 0);
XTensor * tGPU = NewTensorV2(sOrder, tDimSize, X_FLOAT, 1.0F, 0);
XTensor * sIndexGPU = NewTensorV2(indexOrder, indexDimSize, X_INT, 1.0F, 0);
XTensor * tIndexGPU = NewTensorV2(indexOrder, indexDimSize, X_INT, 1.0F, 0);
/* initialize variables */
sGPU1->SetData(sData, sUnitNum);
sGPU2->SetData(sData, sUnitNum);
tGPU->SetData(tData, tUnitNum);
sIndexGPU->SetData(srcIndex, indexSize);
tIndexGPU->SetData(tgtIndex, indexSize);
/* call _SpreadForGather function */
_SpreadForCopyIndexed(sGPU1, tGPU, dim, sIndexGPU, tIndexGPU, 1);
_SpreadForCopyIndexed(sGPU2, tGPU, dim, sIndexGPU, tIndexGPU, 1);
/* check results */
gpuTest = _CheckData(sGPU1, answer, sUnitNum, 1e-4F) &&
_CheckData(sGPU2, answer, sUnitNum, 1e-4F);
/* destroy variables */
delete s1;
delete s2;
delete t;
delete sIndex;
delete tIndex;
delete sGPU1;
delete sGPU2;
delete tGPU;
delete sIndexGPU;
delete tIndexGPU;
delete[] sDimSize;
delete[] tDimSize;
delete[] indexDimSize;
return cpuTest && gpuTest;
#else
/* destroy variables */
delete s1;
delete s2;
delete t;
delete sIndex;
delete tIndex;
delete[] sDimSize;
delete[] tDimSize;
delete[] indexDimSize;
return cpuTest;
#endif // USE_CUDA
}
/* other cases */
/*
TODO!!
*/
/* test for Spread Function */
bool TestSpread()
{
XPRINT(0, stdout, "[TEST Spread] spread a collection tensor to source tensor \n");
bool returnFlag = true, caseFlag = true;
/* case 1 test */
caseFlag = TestSpread1();
if (!caseFlag) {
returnFlag = false;
XPRINT(0, stdout, ">> case 1 failed!\n");
}
else
XPRINT(0, stdout, ">> case 1 passed!\n");
/* case 1 test */
caseFlag = TestSpread2();
if (!caseFlag) {
returnFlag = false;
XPRINT(0, stdout, ">> case 2 failed!\n");
}
else
XPRINT(0, stdout, ">> case 2 passed!\n");
/* case 1 test */
caseFlag = TestSpread3();
if (!caseFlag) {
returnFlag = false;
XPRINT(0, stdout, ">> case 3 failed!\n");
}
else
XPRINT(0, stdout, ">> case 3 passed!\n");
/* other cases test */
/*
TODO!!
*/
if (returnFlag) {
XPRINT(0, stdout, ">> All Passed!\n");
}
else
XPRINT(0, stdout, ">> Failed!\n");
XPRINT(0, stdout, "\n");
return returnFlag;
}
} // namespace nts(NiuTrans.Tensor)