TConcatenateSolely.cpp

/* 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: Lin Ye (email: linye2015@outlook.com) 2018-06-14
*/

#include "../XList.h"
#include "TConcatenateSolely.h"

namespace nts { // namespace nt(NiuTrans.Tensor)

/* 
case 1: concatenate a list of tensors along a given dimension
In this case, 2 * (2, 1) -> (2, 2), dim=1.
*/
bool TestConcatenateSolely1()
{
	/* create list */
    XList * sList = new XList();

    /* a source tensor of size (2, 1) */
    int sOrder1 = 2;
    int * sDimSize1 = new int[sOrder1];
    sDimSize1[0] = 2;
    sDimSize1[1] = 1;

    int sUnitNum1 = 1;
    for (int i = 0; i < sOrder1; i++)
        sUnitNum1 *= sDimSize1[i];

    /* a source tensor of size (2, 1) */
    int sOrder2 = 2;
    int * sDimSize2 = new int[sOrder2];
    sDimSize2[0] = 2;
    sDimSize2[1] = 1;

    int sUnitNum2 = 1;
    for (int i = 0; i < sOrder2; i++)
        sUnitNum2 *= sDimSize2[i];

    /* a target tensor of size (2, 2) */
    int tOrder = 2;
    int * tDimSize = new int[tOrder];
    tDimSize[0] = 2;
    tDimSize[1] = 2;

    int tUnitNum = 1;
    for (int i = 0; i < tOrder; i++)
        tUnitNum *= tDimSize[i];

    DTYPE sData1[2][1] = { {0.0F},
                           {1.0F} };
    DTYPE sData2[2][1] = { {2.0F},
                           {3.0F} };
    DTYPE answer[2][2] = { {0.0F, 2.0F},
                           {1.0F, 3.0F} };

    /* CPU test */
    bool cpuTest = true;

    /* create tensors */
    XTensor * s1 = NewTensor(sOrder1, sDimSize1);
    XTensor * s2 = NewTensor(sOrder2, sDimSize2);
    XTensor * t = NewTensor(tOrder, tDimSize);

    /* initialize variables */
    s1->SetData(sData1, sUnitNum1);
    s2->SetData(sData2, sUnitNum2);
    t->SetZeroAll();

	/* add tensors to list */
    sList->Add(s1);
    sList->Add(s2);

	/* call ConcatenateSolely function */
    _ConcatenateSolely(sList, t, 1);

    /* check results */
    cpuTest = t->CheckData(answer, tUnitNum);

#ifdef USE_CUDA
	/* GPU test */
	bool gpuTest = true;

	/* create tensor */
	XTensor * sGPU1 = NewTensor(sOrder1, sDimSize1, X_FLOAT, 1.0F, 0);
	XTensor * sGPU2 = NewTensor(sOrder2, sDimSize2, X_FLOAT, 1.0F, 0);
	XTensor * tGPU = NewTensor(tOrder, tDimSize, X_FLOAT, 1.0F, 0);

	/* Initialize variables */
	sGPU1->SetData(sData1, sUnitNum1);
	sGPU2->SetData(sData2, sUnitNum2);
	tGPU->SetZeroAll();
    
	/* clear list */
	sList->Clear();

	/* add tensors to list*/
	sList->Add(sGPU1);
	sList->Add(sGPU2);

	/* call ConcatenateSolely function */
	_ConcatenateSolely(sList, tGPU, 1);

	/* check results */
	gpuTest = tGPU->CheckData(answer, tUnitNum);

	/* destroy variables */
    delete sList;
    delete s1;
    delete s2;
    delete t;
    delete sGPU1;
    delete sGPU2;
    delete tGPU;
    delete[] sDimSize1;
    delete[] sDimSize2;
    delete[] tDimSize;

	return cpuTest && gpuTest;
#else
    /* destroy variables */
    delete sList;
    delete s1;
    delete s2;
    delete t;
    delete[] sDimSize1;
    delete[] sDimSize2;
    delete[] tDimSize;

	return cpuTest;
#endif // USE_CUDA
    }

/* 
case 2: concatenate a list of tensors along a given dimension
In this case, 2 * (2, 1) -> (4, 1), dim=0.
*/
bool TestConcatenateSolely2()
{
	/* create list */
    XList * sList = new XList();

    /* a source tensor of size (2, 1) */
    int sOrder1 = 2;
    int * sDimSize1 = new int[sOrder1];
    sDimSize1[0] = 2;
    sDimSize1[1] = 1;

    int sUnitNum1 = 1;
    for (int i = 0; i < sOrder1; i++)
        sUnitNum1 *= sDimSize1[i];

    /* a source tensor of size (2, 1) */
    int sOrder2 = 2;
    int * sDimSize2 = new int[sOrder2];
    sDimSize2[0] = 2;
    sDimSize2[1] = 1;

    int sUnitNum2 = 1;
    for (int i = 0; i < sOrder2; i++)
        sUnitNum2 *= sDimSize2[i];

    /* a target tensor of size (4, 1) */
    int tOrder = 2;
    int * tDimSize = new int[tOrder];
    tDimSize[0] = 4;
    tDimSize[1] = 1;

    int tUnitNum = 1;
    for (int i = 0; i < tOrder; i++)
        tUnitNum *= tDimSize[i];

    DTYPE sData1[2][1] = { {0.0F},
                           {1.0F} };
    DTYPE sData2[2][1] = { {2.0F},
                           {3.0F} };
    DTYPE answer[4][1] = { {0.0F},
                           {1.0F},
                           {2.0F},
                           {3.0F} };

    /* CPU test */
    bool cpuTest = true;

    /* create tensors */
    XTensor * s1 = NewTensor(sOrder1, sDimSize1);
    XTensor * s2 = NewTensor(sOrder2, sDimSize2);
    XTensor * t = NewTensor(tOrder, tDimSize);

    /* initialize variables */
    s1->SetData(sData1, sUnitNum1);
    s2->SetData(sData2, sUnitNum2);
    t->SetZeroAll();

	/* add tensors to list */
    sList->Add(s1);
    sList->Add(s2);

    /* call ConcatenateSolely function */
    _ConcatenateSolely(sList, t, 0);

    /* check results */
    cpuTest = t->CheckData(answer, tUnitNum);

#ifdef USE_CUDA
	/* GPU test */
	bool gpuTest = true;

	/* create tensor */
	XTensor * sGPU1 = NewTensor(sOrder1, sDimSize1, X_FLOAT, 1.0F, 0);
	XTensor * sGPU2 = NewTensor(sOrder2, sDimSize2, X_FLOAT, 1.0F, 0);
	XTensor * tGPU = NewTensor(tOrder, tDimSize, X_FLOAT, 1.0F, 0);

	/* Initialize variables */
	sGPU1->SetData(sData1, sUnitNum1);
	sGPU2->SetData(sData2, sUnitNum2);
	tGPU->SetZeroAll();
    
	/* clear list */
	sList->Clear();

	/* add tensors to list*/
	sList->Add(sGPU1);
	sList->Add(sGPU2);

	/* call concatenatesolely function */
	_ConcatenateSolely(sList, tGPU, 0);

	/* check results */
	gpuTest = tGPU->CheckData(answer, tUnitNum);

	/* destroy variables */
    delete sList;
    delete s1;
    delete s2;
    delete t;
    delete sGPU1;
    delete sGPU2;
    delete tGPU;
    delete[] sDimSize1;
    delete[] sDimSize2;
    delete[] tDimSize;

	return cpuTest && gpuTest;
#else
    /* destroy variables */
    delete sList;
    delete s1;
    delete s2;
    delete t;
    delete[] sDimSize1;
    delete[] sDimSize2;
    delete[] tDimSize;

	return cpuTest;
#endif // USE_CUDA
}

/* 
case 3: concatenate a list of tensors along a given dimension
In this case, (2, 1) + (2, 2) -> (2, 3), dim=1.
*/
bool TestConcatenateSolely3()
{
	/* create list */
    XList * sList = new XList();

    /* a source tensor of size (2, 1) */
    int sOrder1 = 2;
    int * sDimSize1 = new int[sOrder1];
    sDimSize1[0] = 2;
    sDimSize1[1] = 1;

    int sUnitNum1 = 1;
    for (int i = 0; i < sOrder1; i++)
        sUnitNum1 *= sDimSize1[i];

    /* a source tensor of size (2, 2) */
    int sOrder2 = 2;
    int * sDimSize2 = new int[sOrder2];
    sDimSize2[0] = 2;
    sDimSize2[1] = 2;

    int sUnitNum2 = 1;
    for (int i = 0; i < sOrder2; i++)
        sUnitNum2 *= sDimSize2[i];

    /* a target 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];

    DTYPE sData1[2][1] = { {0.0F},
                           {1.0F} };
    DTYPE sData2[2][2] = { {2.0F, 3.0F},
                           {4.0F, 5.0F} };
    DTYPE answer[2][3] = { {0.0F, 2.0F, 3.0F},
                           {1.0F, 4.0F, 5.0F} };

    /* CPU test */
    bool cpuTest = true;

    /* create tensors */
    XTensor * s1 = NewTensor(sOrder1, sDimSize1);
    XTensor * s2 = NewTensor(sOrder2, sDimSize2);
    XTensor * t = NewTensor(tOrder, tDimSize);

    /* initialize variables */
    s1->SetData(sData1, sUnitNum1);
    s2->SetData(sData2, sUnitNum2);
    t->SetZeroAll();

	/* add tensors to list */
    sList->Add(s1);
    sList->Add(s2);

	/* call ConcatenateSolely function */
    _ConcatenateSolely(sList, t, 1);

    /* check results */
    cpuTest = t->CheckData(answer, tUnitNum);

#ifdef USE_CUDA
	/* GPU test */
	bool gpuTest = true;

	/* create tensor */
	XTensor * sGPU1 = NewTensor(sOrder1, sDimSize1, X_FLOAT, 1.0F, 0);
	XTensor * sGPU2 = NewTensor(sOrder2, sDimSize2, X_FLOAT, 1.0F, 0);
	XTensor * tGPU = NewTensor(tOrder, tDimSize, X_FLOAT, 1.0F, 0);

	/* Initialize variables */
	sGPU1->SetData(sData1, sUnitNum1);
	sGPU2->SetData(sData2, sUnitNum2);
	tGPU->SetZeroAll();
    
	/* clear list */
	sList->Clear();

	/* add tensors to list*/
	sList->Add(sGPU1);
	sList->Add(sGPU2);

	/* call ConcatenateSolely function */
	_ConcatenateSolely(sList, tGPU, 1);

	/* check results */
	gpuTest = tGPU->CheckData(answer, tUnitNum);

	/* destroy variables */
    delete sList;
    delete s1;
    delete s2;
    delete t;
    delete sGPU1;
    delete sGPU2;
    delete tGPU;
    delete[] sDimSize1;
    delete[] sDimSize2;
    delete[] tDimSize;

	return cpuTest && gpuTest;
#else
    /* destroy variables */
    delete sList;
    delete s1;
    delete s2;
    delete t;
    delete[] sDimSize1;
    delete[] sDimSize2;
    delete[] tDimSize;

	return cpuTest;
#endif // USE_CUDA
}

/* other cases */
/*
TODO!!
*/

/* test for ConcatenateSolely Function */
bool TestConcatenateSolely()
{
    XPRINT(0, stdout, "[TEST CONCATENATESOLELY] concatenate a list of tensors along a given dimension \n");
    bool returnFlag = true, caseFlag = true;

    /* case 1 test */
    caseFlag = TestConcatenateSolely1();

    if (!caseFlag) {
        returnFlag = false;
        XPRINT(0, stdout, ">> case 1 failed!\n");
    }
    else
        XPRINT(0, stdout, ">> case 1 passed!\n");

    /* case 2 test */
    caseFlag = TestConcatenateSolely2();

    if (!caseFlag) {
        returnFlag = false;
        XPRINT(0, stdout, ">> case 2 failed!\n");
    }
    else
        XPRINT(0, stdout, ">> case 2 passed!\n");

    /* case 3 test */
    caseFlag = TestConcatenateSolely3();

    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)