// This file is part of OpenCV project. // It is subject to the license terms in the LICENSE file found in the top-level directory // of this distribution and at http://opencv.org/license.html. #include #include #include #include #ifndef DUMP_CONFIG_PROPERTY #define DUMP_CONFIG_PROPERTY(...) #endif #ifndef DUMP_MESSAGE_STDOUT #define DUMP_MESSAGE_STDOUT(...) do { std::cout << __VA_ARGS__ << std::endl; } while (false) #endif namespace cv { namespace { static std::string bytesToStringRepr(size_t value) { size_t b = value % 1024; value /= 1024; size_t kb = value % 1024; value /= 1024; size_t mb = value % 1024; value /= 1024; size_t gb = value; std::ostringstream stream; if (gb > 0) stream << gb << " GB "; if (mb > 0) stream << mb << " MB "; if (kb > 0) stream << kb << " KB "; if (b > 0) stream << b << " B"; std::string s = stream.str(); if (s[s.size() - 1] == ' ') s = s.substr(0, s.size() - 1); return s; } static String getDeviceTypeString(const cv::ocl::Device& device) { if (device.type() == cv::ocl::Device::TYPE_CPU) { return "CPU"; } if (device.type() == cv::ocl::Device::TYPE_GPU) { if (device.hostUnifiedMemory()) { return "iGPU"; } else { return "dGPU"; } } return "unknown"; } } // namespace static void dumpOpenCLInformation() { using namespace cv::ocl; try { if (!haveOpenCL() || !useOpenCL()) { DUMP_MESSAGE_STDOUT("OpenCL is disabled"); DUMP_CONFIG_PROPERTY("cv_ocl", "disabled"); return; } std::vector platforms; cv::ocl::getPlatfomsInfo(platforms); if (platforms.empty()) { DUMP_MESSAGE_STDOUT("OpenCL is not available"); DUMP_CONFIG_PROPERTY("cv_ocl", "not available"); return; } DUMP_MESSAGE_STDOUT("OpenCL Platforms: "); for (size_t i = 0; i < platforms.size(); i++) { const PlatformInfo* platform = &platforms[i]; DUMP_MESSAGE_STDOUT(" " << platform->name()); Device current_device; for (int j = 0; j < platform->deviceNumber(); j++) { platform->getDevice(current_device, j); String deviceTypeStr = getDeviceTypeString(current_device); DUMP_MESSAGE_STDOUT( " " << deviceTypeStr << ": " << current_device.name() << " (" << current_device.version() << ")"); DUMP_CONFIG_PROPERTY( cv::format("cv_ocl_platform_%d_device_%d", (int)i, j ), cv::format("(Platform=%s)(Type=%s)(Name=%s)(Version=%s)", platform->name().c_str(), deviceTypeStr.c_str(), current_device.name().c_str(), current_device.version().c_str()) ); } } const Device& device = Device::getDefault(); if (!device.available()) CV_Error(Error::OpenCLInitError, "OpenCL device is not available"); DUMP_MESSAGE_STDOUT("Current OpenCL device: "); String deviceTypeStr = getDeviceTypeString(device); DUMP_MESSAGE_STDOUT(" Type = " << deviceTypeStr); DUMP_CONFIG_PROPERTY("cv_ocl_current_deviceType", deviceTypeStr); DUMP_MESSAGE_STDOUT(" Name = " << device.name()); DUMP_CONFIG_PROPERTY("cv_ocl_current_deviceName", device.name()); DUMP_MESSAGE_STDOUT(" Version = " << device.version()); DUMP_CONFIG_PROPERTY("cv_ocl_current_deviceVersion", device.version()); DUMP_MESSAGE_STDOUT(" Driver version = " << device.driverVersion()); DUMP_CONFIG_PROPERTY("cv_ocl_current_driverVersion", device.driverVersion()); DUMP_MESSAGE_STDOUT(" Address bits = " << device.addressBits()); DUMP_CONFIG_PROPERTY("cv_ocl_current_addressBits", device.addressBits()); DUMP_MESSAGE_STDOUT(" Compute units = " << device.maxComputeUnits()); DUMP_CONFIG_PROPERTY("cv_ocl_current_maxComputeUnits", device.maxComputeUnits()); DUMP_MESSAGE_STDOUT(" Max work group size = " << device.maxWorkGroupSize()); DUMP_CONFIG_PROPERTY("cv_ocl_current_maxWorkGroupSize", device.maxWorkGroupSize()); std::string localMemorySizeStr = bytesToStringRepr(device.localMemSize()); DUMP_MESSAGE_STDOUT(" Local memory size = " << localMemorySizeStr); DUMP_CONFIG_PROPERTY("cv_ocl_current_localMemSize", device.localMemSize()); std::string maxMemAllocSizeStr = bytesToStringRepr(device.maxMemAllocSize()); DUMP_MESSAGE_STDOUT(" Max memory allocation size = " << maxMemAllocSizeStr); DUMP_CONFIG_PROPERTY("cv_ocl_current_maxMemAllocSize", device.maxMemAllocSize()); const char* doubleSupportStr = device.doubleFPConfig() > 0 ? "Yes" : "No"; DUMP_MESSAGE_STDOUT(" Double support = " << doubleSupportStr); DUMP_CONFIG_PROPERTY("cv_ocl_current_haveDoubleSupport", device.doubleFPConfig() > 0); const char* halfSupportStr = device.halfFPConfig() > 0 ? "Yes" : "No"; DUMP_MESSAGE_STDOUT(" Half support = " << halfSupportStr); DUMP_CONFIG_PROPERTY("cv_ocl_current_haveHalfSupport", device.halfFPConfig() > 0); const char* isUnifiedMemoryStr = device.hostUnifiedMemory() ? "Yes" : "No"; DUMP_MESSAGE_STDOUT(" Host unified memory = " << isUnifiedMemoryStr); DUMP_CONFIG_PROPERTY("cv_ocl_current_hostUnifiedMemory", device.hostUnifiedMemory()); DUMP_MESSAGE_STDOUT(" Device extensions:"); String extensionsStr = device.extensions(); size_t pos = 0; while (pos < extensionsStr.size()) { size_t pos2 = extensionsStr.find(' ', pos); if (pos2 == String::npos) pos2 = extensionsStr.size(); if (pos2 > pos) { String extensionName = extensionsStr.substr(pos, pos2 - pos); DUMP_MESSAGE_STDOUT(" " << extensionName); } pos = pos2 + 1; } DUMP_CONFIG_PROPERTY("cv_ocl_current_extensions", extensionsStr); const char* haveAmdBlasStr = haveAmdBlas() ? "Yes" : "No"; DUMP_MESSAGE_STDOUT(" Has AMD Blas = " << haveAmdBlasStr); DUMP_CONFIG_PROPERTY("cv_ocl_current_AmdBlas", haveAmdBlas()); const char* haveAmdFftStr = haveAmdFft() ? "Yes" : "No"; DUMP_MESSAGE_STDOUT(" Has AMD Fft = " << haveAmdFftStr); DUMP_CONFIG_PROPERTY("cv_ocl_current_AmdFft", haveAmdFft()); DUMP_MESSAGE_STDOUT(" Preferred vector width char = " << device.preferredVectorWidthChar()); DUMP_CONFIG_PROPERTY("cv_ocl_current_preferredVectorWidthChar", device.preferredVectorWidthChar()); DUMP_MESSAGE_STDOUT(" Preferred vector width short = " << device.preferredVectorWidthShort()); DUMP_CONFIG_PROPERTY("cv_ocl_current_preferredVectorWidthShort", device.preferredVectorWidthShort()); DUMP_MESSAGE_STDOUT(" Preferred vector width int = " << device.preferredVectorWidthInt()); DUMP_CONFIG_PROPERTY("cv_ocl_current_preferredVectorWidthInt", device.preferredVectorWidthInt()); DUMP_MESSAGE_STDOUT(" Preferred vector width long = " << device.preferredVectorWidthLong()); DUMP_CONFIG_PROPERTY("cv_ocl_current_preferredVectorWidthLong", device.preferredVectorWidthLong()); DUMP_MESSAGE_STDOUT(" Preferred vector width float = " << device.preferredVectorWidthFloat()); DUMP_CONFIG_PROPERTY("cv_ocl_current_preferredVectorWidthFloat", device.preferredVectorWidthFloat()); DUMP_MESSAGE_STDOUT(" Preferred vector width double = " << device.preferredVectorWidthDouble()); DUMP_CONFIG_PROPERTY("cv_ocl_current_preferredVectorWidthDouble", device.preferredVectorWidthDouble()); DUMP_MESSAGE_STDOUT(" Preferred vector width half = " << device.preferredVectorWidthHalf()); DUMP_CONFIG_PROPERTY("cv_ocl_current_preferredVectorWidthHalf", device.preferredVectorWidthHalf()); } catch (...) { DUMP_MESSAGE_STDOUT("Exception. Can't dump OpenCL info"); DUMP_MESSAGE_STDOUT("OpenCL device not available"); DUMP_CONFIG_PROPERTY("cv_ocl", "not available"); } } #undef DUMP_MESSAGE_STDOUT #undef DUMP_CONFIG_PROPERTY } // namespace