opencv/samples/gpu/stereo_multi.cpp

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/* This sample demonstrates working on one piece of data using two GPUs.
It splits input into two parts and processes them separately on different
GPUs. */
// Disable some warnings which are caused with CUDA headers
#if defined(_MSC_VER)
#pragma warning(disable: 4201 4408 4100)
#endif
#include <iostream>
#include "cvconfig.h"
#include "opencv2/core/core.hpp"
#include "opencv2/highgui/highgui.hpp"
#include "opencv2/gpu/gpu.hpp"
#ifdef HAVE_TBB
# include "tbb/tbb_stddef.h"
# if TBB_VERSION_MAJOR*100 + TBB_VERSION_MINOR >= 202
# include "tbb/tbb.h"
# include "tbb/task.h"
# undef min
# undef max
# else
# undef HAVE_TBB
# endif
#endif
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#if !defined(HAVE_CUDA) || !defined(HAVE_TBB)
int main()
{
#if !defined(HAVE_CUDA)
std::cout << "CUDA support is required (CMake key 'WITH_CUDA' must be true).\n";
#endif
#if !defined(HAVE_TBB)
std::cout << "TBB support is required (CMake key 'WITH_TBB' must be true).\n";
#endif
return 0;
}
#else
using namespace std;
using namespace cv;
using namespace cv::gpu;
struct Worker { void operator()(int device_id) const; };
// GPUs data
GpuMat d_left[2];
GpuMat d_right[2];
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Ptr<gpu::StereoBM> bm[2];
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GpuMat d_result[2];
static void printHelp()
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{
std::cout << "Usage: stereo_multi_gpu --left <image> --right <image>\n";
}
int main(int argc, char** argv)
{
if (argc < 5)
{
printHelp();
return -1;
}
int num_devices = getCudaEnabledDeviceCount();
if (num_devices < 2)
{
std::cout << "Two or more GPUs are required\n";
return -1;
}
for (int i = 0; i < num_devices; ++i)
{
cv::gpu::printShortCudaDeviceInfo(i);
DeviceInfo dev_info(i);
if (!dev_info.isCompatible())
{
std::cout << "GPU module isn't built for GPU #" << i << " ("
<< dev_info.name() << ", CC " << dev_info.major()
<< dev_info.minor() << "\n";
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return -1;
}
}
// Load input data
Mat left, right;
for (int i = 1; i < argc; ++i)
{
if (string(argv[i]) == "--left")
{
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left = imread(argv[++i], cv::IMREAD_GRAYSCALE);
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CV_Assert(!left.empty());
}
else if (string(argv[i]) == "--right")
{
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right = imread(argv[++i], cv::IMREAD_GRAYSCALE);
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CV_Assert(!right.empty());
}
else if (string(argv[i]) == "--help")
{
printHelp();
return -1;
}
}
// Split source images for processing on the GPU #0
setDevice(0);
d_left[0].upload(left.rowRange(0, left.rows / 2));
d_right[0].upload(right.rowRange(0, right.rows / 2));
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bm[0] = gpu::createStereoBM();
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// Split source images for processing on the GPU #1
setDevice(1);
d_left[1].upload(left.rowRange(left.rows / 2, left.rows));
d_right[1].upload(right.rowRange(right.rows / 2, right.rows));
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bm[1] = gpu::createStereoBM();
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// Execute calculation in two threads using two GPUs
int devices[] = {0, 1};
tbb::parallel_do(devices, devices + 2, Worker());
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// Release the first GPU resources
setDevice(0);
imshow("GPU #0 result", Mat(d_result[0]));
d_left[0].release();
d_right[0].release();
d_result[0].release();
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bm[0].release();
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// Release the second GPU resources
setDevice(1);
imshow("GPU #1 result", Mat(d_result[1]));
d_left[1].release();
d_right[1].release();
d_result[1].release();
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bm[1].release();
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waitKey();
return 0;
}
void Worker::operator()(int device_id) const
{
setDevice(device_id);
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bm[device_id]->compute(d_left[device_id], d_right[device_id], d_result[device_id]);
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std::cout << "GPU #" << device_id << " (" << DeviceInfo().name()
<< "): finished\n";
}
#endif