/* * Copyright (C) 2018-2022 Intel Corporation * * SPDX-License-Identifier: MIT * */ #include "shared/source/ail/ail_configuration.h" #include "shared/source/device/device.h" #include "shared/source/helpers/string_helpers.h" #include "opencl/source/cl_device/cl_device.h" #include "opencl/source/context/context.h" #include "opencl/source/platform/platform.h" #include "opencl/source/program/program.h" namespace NEO { template T *Program::create( Context *pContext, const ClDeviceVector &deviceVector, const size_t *lengths, const unsigned char **binaries, cl_int *binaryStatus, cl_int &errcodeRet) { auto program = new T(pContext, false, deviceVector); cl_int retVal = CL_INVALID_PROGRAM; for (auto i = 0u; i < deviceVector.size(); i++) { auto device = deviceVector[i]; retVal = program->createProgramFromBinary(binaries[i], lengths[i], *device); // NOLINT(clang-analyzer-core.CallAndMessage) if (retVal != CL_SUCCESS) { break; } } program->createdFrom = CreatedFrom::BINARY; if (binaryStatus) { DEBUG_BREAK_IF(retVal != CL_SUCCESS); *binaryStatus = CL_SUCCESS; } if (retVal != CL_SUCCESS) { delete program; program = nullptr; } errcodeRet = retVal; return program; } template T *Program::create( Context *pContext, cl_uint count, const char **strings, const size_t *lengths, cl_int &errcodeRet) { std::string combinedString; size_t combinedStringSize = 0; T *program = nullptr; auto retVal = StringHelpers::createCombinedString( combinedString, combinedStringSize, count, strings, lengths); if (CL_SUCCESS == retVal) { auto &hwInfo = pContext->getDevice(0)->getHardwareInfo(); auto ail = AILConfiguration::get(hwInfo.platform.eProductFamily); if (ail) { ail->modifyKernelIfRequired(combinedString); } program = new T(pContext, false, pContext->getDevices()); program->sourceCode.swap(combinedString); program->createdFrom = CreatedFrom::SOURCE; } errcodeRet = retVal; return program; } template T *Program::createBuiltInFromSource( const char *nullTerminatedString, Context *context, const ClDeviceVector &deviceVector, cl_int *errcodeRet) { cl_int retVal = CL_SUCCESS; T *program = nullptr; if (nullTerminatedString == nullptr) { retVal = CL_INVALID_VALUE; } if (retVal == CL_SUCCESS) { program = new T(context, true, deviceVector); program->sourceCode = nullTerminatedString; program->createdFrom = CreatedFrom::SOURCE; } if (errcodeRet) { *errcodeRet = retVal; } return program; } template T *Program::createBuiltInFromGenBinary( Context *context, const ClDeviceVector &deviceVector, const void *binary, size_t size, cl_int *errcodeRet) { cl_int retVal = CL_SUCCESS; T *program = nullptr; if ((binary == nullptr) || (size == 0)) { retVal = CL_INVALID_VALUE; } if (CL_SUCCESS == retVal) { program = new T(context, true, deviceVector); for (const auto &device : deviceVector) { if (program->buildInfos[device->getRootDeviceIndex()].packedDeviceBinarySize == 0) { program->replaceDeviceBinary(std::move(makeCopy(binary, size)), size, device->getRootDeviceIndex()); } } program->setBuildStatusSuccess(deviceVector, CL_PROGRAM_BINARY_TYPE_EXECUTABLE); program->isCreatedFromBinary = true; program->createdFrom = CreatedFrom::BINARY; } if (errcodeRet) { *errcodeRet = retVal; } return program; } template T *Program::createFromIL(Context *context, const void *il, size_t length, cl_int &errcodeRet) { errcodeRet = CL_SUCCESS; if ((il == nullptr) || (length == 0)) { errcodeRet = CL_INVALID_BINARY; return nullptr; } auto deviceVector = context->getDevices(); T *program = new T(context, false, deviceVector); for (const auto &device : deviceVector) { errcodeRet = program->createProgramFromBinary(il, length, *device); if (errcodeRet != CL_SUCCESS) { break; } } program->createdFrom = CreatedFrom::IL; if (errcodeRet != CL_SUCCESS) { delete program; program = nullptr; } return program; } } // namespace NEO