opencv/samples/gpu/performance/performance.cpp

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#include <iomanip>
#include <stdexcept>
#include <string>
#include "performance.h"
using namespace std;
using namespace cv;
using namespace cv::gpu;
void TestSystem::run()
{
if (is_list_mode_)
{
for (vector<Runnable*>::iterator it = tests_.begin(); it != tests_.end(); ++it)
cout << (*it)->name() << endl;
return;
}
// Run test initializers
for (vector<Runnable*>::iterator it = inits_.begin(); it != inits_.end(); ++it)
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{
if ((*it)->name().find(test_filter_, 0) != string::npos)
(*it)->run();
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}
printHeading();
// Run tests
for (vector<Runnable*>::iterator it = tests_.begin(); it != tests_.end(); ++it)
{
try
{
if ((*it)->name().find(test_filter_, 0) != string::npos)
{
cout << endl << (*it)->name() << ":\n";
(*it)->run();
finishCurrentSubtest();
}
}
catch (const Exception&)
{
// Message is printed via callback
resetCurrentSubtest();
}
catch (const runtime_error& e)
{
printError(e.what());
resetCurrentSubtest();
}
}
printSummary();
}
void TestSystem::finishCurrentSubtest()
{
if (cur_subtest_is_empty_)
// There is no need to print subtest statistics
return;
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//int cpu_time = static_cast<int>(cpu_elapsed_ / getTickFrequency() * 1000.0);
//int gpu_time = static_cast<int>(gpu_elapsed_ / getTickFrequency() * 1000.0);
double cpu_time = cpu_elapsed_ / getTickFrequency() * 1000.0;
double gpu_time = gpu_elapsed_ / getTickFrequency() * 1000.0;
double speedup = static_cast<double>(cpu_elapsed_) /
std::max((int64)1, gpu_elapsed_);
speedup_total_ += speedup;
printMetrics(cpu_time, gpu_time, speedup);
num_subtests_called_++;
resetCurrentSubtest();
}
void TestSystem::printHeading()
{
cout << endl;
cout << setiosflags(ios_base::left);
cout << TAB << setw(10) << "CPU, ms" << setw(10) << "GPU, ms"
<< setw(14) << "SPEEDUP"
<< "DESCRIPTION\n";
cout << resetiosflags(ios_base::left);
}
void TestSystem::printSummary()
{
cout << setiosflags(ios_base::fixed);
cout << "\naverage GPU speedup: x"
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<< setprecision(3) << speedup_total_ / std::max(1, num_subtests_called_)
<< endl;
cout << resetiosflags(ios_base::fixed);
}
void TestSystem::printMetrics(double cpu_time, double gpu_time, double speedup)
{
cout << TAB << setiosflags(ios_base::left);
stringstream stream;
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stream << cpu_time;
cout << setw(10) << stream.str();
stream.str("");
stream << gpu_time;
cout << setw(10) << stream.str();
stream.str("");
stream << "x" << setprecision(3) << speedup;
cout << setw(14) << stream.str();
cout << cur_subtest_description_.str();
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cout << resetiosflags(ios_base::left) << endl;
}
void TestSystem::printError(const std::string& msg)
{
cout << TAB << "[error: " << msg << "] " << cur_subtest_description_.str() << endl;
}
void gen(Mat& mat, int rows, int cols, int type, Scalar low, Scalar high)
{
mat.create(rows, cols, type);
RNG rng(0);
rng.fill(mat, RNG::UNIFORM, low, high);
}
string abspath(const string& relpath)
{
return TestSystem::instance().workingDir() + relpath;
}
int CV_CDECL cvErrorCallback(int /*status*/, const char* /*func_name*/,
const char* err_msg, const char* /*file_name*/,
int /*line*/, void* /*userdata*/)
{
TestSystem::instance().printError(err_msg);
return 0;
}
int main(int argc, const char* argv[])
{
int num_devices = getCudaEnabledDeviceCount();
if (num_devices == 0)
{
cerr << "No GPU found or the library was compiled without GPU support";
return -1;
}
redirectError(cvErrorCallback);
const char* keys =
"{ h | help | false | print help message }"
"{ f | filter | | filter for test }"
"{ w | workdir | | set working directory }"
"{ l | list | false | show all tests }"
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"{ d | device | 0 | device id }"
"{ i | iters | 10 | iteration count }";
CommandLineParser cmd(argc, argv, keys);
if (cmd.get<bool>("help"))
{
cout << "Avaible options:" << endl;
cmd.printParams();
return 0;
}
int device = cmd.get<int>("device");
if (device < 0 || device >= num_devices)
{
cerr << "Invalid device ID" << endl;
return -1;
}
DeviceInfo dev_info(device);
if (!dev_info.isCompatible())
{
cerr << "GPU module isn't built for GPU #" << device << " " << dev_info.name() << ", CC " << dev_info.majorVersion() << '.' << dev_info.minorVersion() << endl;
return -1;
}
setDevice(device);
printShortCudaDeviceInfo(device);
string filter = cmd.get<string>("filter");
string workdir = cmd.get<string>("workdir");
bool list = cmd.get<bool>("list");
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int iters = cmd.get<int>("iters");
if (!filter.empty())
TestSystem::instance().setTestFilter(filter);
if (!workdir.empty())
{
if (workdir[workdir.size() - 1] != '/' && workdir[workdir.size() - 1] != '\\')
workdir += '/';
TestSystem::instance().setWorkingDir(workdir);
}
if (list)
TestSystem::instance().setListMode(true);
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TestSystem::instance().setIters(iters);
TestSystem::instance().run();
return 0;
}