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186 lines
6.3 KiB
C++
186 lines
6.3 KiB
C++
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/*
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* Copyright 1993-2010 NVIDIA Corporation. All rights reserved.
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*
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* NVIDIA Corporation and its licensors retain all intellectual
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* property and proprietary rights in and to this software and
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* related documentation and any modifications thereto.
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* Any use, reproduction, disclosure, or distribution of this
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* software and related documentation without an express license
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* agreement from NVIDIA Corporation is strictly prohibited.
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*/
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#include <math.h>
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#include "TestIntegralImage.h"
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template <class T_in, class T_out>
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TestIntegralImage<T_in, T_out>::TestIntegralImage(std::string testName, NCVTestSourceProvider<T_in> &src,
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Ncv32u width, Ncv32u height)
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:
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NCVTestProvider(testName),
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src(src),
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width(width),
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height(height)
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{
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}
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template <class T_in, class T_out>
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bool TestIntegralImage<T_in, T_out>::toString(std::ofstream &strOut)
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{
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strOut << "sizeof(T_in)=" << sizeof(T_in) << std::endl;
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strOut << "sizeof(T_out)=" << sizeof(T_out) << std::endl;
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strOut << "width=" << width << std::endl;
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strOut << "height=" << height << std::endl;
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return true;
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}
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template <class T_in, class T_out>
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bool TestIntegralImage<T_in, T_out>::init()
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{
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return true;
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}
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template <class T_in, class T_out>
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bool TestIntegralImage<T_in, T_out>::process()
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{
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NCVStatus ncvStat;
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bool rcode = false;
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Ncv32u widthII = this->width + 1;
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Ncv32u heightII = this->height + 1;
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NCVMatrixAlloc<T_in> d_img(*this->allocatorGPU.get(), this->width, this->height);
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ncvAssertReturn(d_img.isMemAllocated(), false);
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NCVMatrixAlloc<T_in> h_img(*this->allocatorCPU.get(), this->width, this->height);
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ncvAssertReturn(h_img.isMemAllocated(), false);
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NCVMatrixAlloc<T_out> d_imgII(*this->allocatorGPU.get(), widthII, heightII);
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ncvAssertReturn(d_imgII.isMemAllocated(), false);
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NCVMatrixAlloc<T_out> h_imgII(*this->allocatorCPU.get(), widthII, heightII);
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ncvAssertReturn(h_imgII.isMemAllocated(), false);
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NCVMatrixAlloc<T_out> h_imgII_d(*this->allocatorCPU.get(), widthII, heightII);
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ncvAssertReturn(h_imgII_d.isMemAllocated(), false);
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Ncv32u bufSize;
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if (sizeof(T_in) == sizeof(Ncv8u))
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{
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ncvStat = nppiStIntegralGetSize_8u32u(NcvSize32u(this->width, this->height), &bufSize, this->devProp);
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ncvAssertReturn(NPPST_SUCCESS == ncvStat, false);
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}
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else if (sizeof(T_in) == sizeof(Ncv32f))
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{
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ncvStat = nppiStIntegralGetSize_32f32f(NcvSize32u(this->width, this->height), &bufSize, this->devProp);
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ncvAssertReturn(NPPST_SUCCESS == ncvStat, false);
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}
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else
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{
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ncvAssertPrintReturn(false, "Incorrect integral image test instance", false);
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}
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NCVVectorAlloc<Ncv8u> d_tmpBuf(*this->allocatorGPU.get(), bufSize);
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ncvAssertReturn(d_tmpBuf.isMemAllocated(), false);
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NCV_SET_SKIP_COND(this->allocatorGPU.get()->isCounting());
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NCV_SKIP_COND_BEGIN
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ncvAssertReturn(this->src.fill(h_img), false);
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ncvStat = h_img.copySolid(d_img, 0);
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ncvAssertReturn(ncvStat == NPPST_SUCCESS, false);
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if (sizeof(T_in) == sizeof(Ncv8u))
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{
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ncvStat = nppiStIntegral_8u32u_C1R((Ncv8u *)d_img.ptr(), d_img.pitch(),
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(Ncv32u *)d_imgII.ptr(), d_imgII.pitch(),
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NcvSize32u(this->width, this->height),
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d_tmpBuf.ptr(), bufSize, this->devProp);
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ncvAssertReturn(ncvStat == NPPST_SUCCESS, false);
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}
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else if (sizeof(T_in) == sizeof(Ncv32f))
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{
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ncvStat = nppiStIntegral_32f32f_C1R((Ncv32f *)d_img.ptr(), d_img.pitch(),
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(Ncv32f *)d_imgII.ptr(), d_imgII.pitch(),
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NcvSize32u(this->width, this->height),
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d_tmpBuf.ptr(), bufSize, this->devProp);
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ncvAssertReturn(ncvStat == NPPST_SUCCESS, false);
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}
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else
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{
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ncvAssertPrintReturn(false, "Incorrect integral image test instance", false);
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}
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ncvStat = d_imgII.copySolid(h_imgII_d, 0);
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ncvAssertReturn(ncvStat == NPPST_SUCCESS, false);
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if (sizeof(T_in) == sizeof(Ncv8u))
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{
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ncvStat = nppiStIntegral_8u32u_C1R_host((Ncv8u *)h_img.ptr(), h_img.pitch(),
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(Ncv32u *)h_imgII.ptr(), h_imgII.pitch(),
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NcvSize32u(this->width, this->height));
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ncvAssertReturn(ncvStat == NPPST_SUCCESS, false);
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}
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else if (sizeof(T_in) == sizeof(Ncv32f))
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{
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ncvStat = nppiStIntegral_32f32f_C1R_host((Ncv32f *)h_img.ptr(), h_img.pitch(),
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(Ncv32f *)h_imgII.ptr(), h_imgII.pitch(),
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NcvSize32u(this->width, this->height));
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ncvAssertReturn(ncvStat == NPPST_SUCCESS, false);
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}
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else
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{
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ncvAssertPrintReturn(false, "Incorrect integral image test instance", false);
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}
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NCV_SKIP_COND_END
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//bit-to-bit check
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bool bLoopVirgin = true;
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NCV_SKIP_COND_BEGIN
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for (Ncv32u i=0; bLoopVirgin && i < h_img.height() + 1; i++)
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{
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for (Ncv32u j=0; bLoopVirgin && j < h_img.width() + 1; j++)
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{
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if (sizeof(T_in) == sizeof(Ncv8u))
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{
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if (h_imgII.ptr()[h_imgII.stride()*i+j] != h_imgII_d.ptr()[h_imgII_d.stride()*i+j])
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{
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bLoopVirgin = false;
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}
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}
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else if (sizeof(T_in) == sizeof(Ncv32f))
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{
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if (fabsf((float)h_imgII.ptr()[h_imgII.stride()*i+j] - (float)h_imgII_d.ptr()[h_imgII_d.stride()*i+j]) > 0.01f)
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{
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bLoopVirgin = false;
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}
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}
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else
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{
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ncvAssertPrintReturn(false, "Incorrect integral image test instance", false);
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}
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}
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}
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NCV_SKIP_COND_END
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if (bLoopVirgin)
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{
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rcode = true;
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}
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return rcode;
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}
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template <class T_in, class T_out>
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bool TestIntegralImage<T_in, T_out>::deinit()
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{
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return true;
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}
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template class TestIntegralImage<Ncv8u, Ncv32u>;
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template class TestIntegralImage<Ncv32f, Ncv32f>;
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