Files
rocm-systems/projects/hip/clang-hipify/src/Cuda2Hip.cpp
T
Evgeny Mankov f31bc90537 [HIPIFY] CUDA Driver API porting to HIP : populate Replacer's rules with enum members.
enum members for:
CUdevice_attribute/hipDeviceAttribute_t
CUfunc_cache/hipFuncCache
CUsharedconfig/hipSharedMemConfig


[ROCm/hip commit: 8bc7aba719]
2016-09-02 22:23:13 +03:00

2039 řádky
108 KiB
C++

/*
Copyright (c) 2015-2016 Advanced Micro Devices, Inc. All rights reserved.
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in
all copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
THE SOFTWARE.
*/
/**
* @file Cuda2Hip.cpp
*
* This file is compiled and linked into clang based hipify tool.
*/
#include "clang/ASTMatchers/ASTMatchFinder.h"
#include "clang/ASTMatchers/ASTMatchers.h"
#include "clang/Basic/SourceManager.h"
#include "clang/Frontend/CompilerInstance.h"
#include "clang/Frontend/FrontendActions.h"
#include "clang/Frontend/TextDiagnosticPrinter.h"
#include "clang/Lex/Lexer.h"
#include "clang/Lex/MacroArgs.h"
#include "clang/Lex/MacroInfo.h"
#include "clang/Lex/PPCallbacks.h"
#include "clang/Lex/Preprocessor.h"
#include "clang/Rewrite/Core/Rewriter.h"
#include "clang/Tooling/CommonOptionsParser.h"
#include "clang/Tooling/Refactoring.h"
#include "clang/Tooling/Tooling.h"
#include "llvm/Support/CommandLine.h"
#include "llvm/Support/Debug.h"
#include "llvm/Support/MemoryBuffer.h"
#include "llvm/Support/Signals.h"
#include <cstdio>
#include <fstream>
#include <set>
using namespace clang;
using namespace clang::ast_matchers;
using namespace clang::tooling;
using namespace llvm;
#define DEBUG_TYPE "cuda2hip"
enum ConvTypes {
CONV_DEV = 0,
CONV_MEM,
CONV_KERN,
CONV_COORD_FUNC,
CONV_MATH_FUNC,
CONV_SPECIAL_FUNC,
CONV_STREAM,
CONV_EVENT,
CONV_ERR,
CONV_DEF,
CONV_TEX,
CONV_OTHER,
CONV_INCLUDE,
CONV_INCLUDE_CUDA_MAIN_H,
CONV_TYPE,
CONV_LITERAL,
CONV_NUMERIC_LITERAL,
CONV_LAST
};
const char *counterNames[CONV_LAST] = {
"dev", "mem", "kern", "coord_func", "math_func",
"special_func", "stream", "event", "err", "def",
"tex", "other", "include", "include_cuda_main_header",
"type", "literal", "numeric_literal"};
enum ApiTypes {
API_DRIVER = 0,
API_RUNTIME,
API_BLAS,
API_LAST
};
const char *apiNames[API_LAST] = {
"CUDA API", "CUDA RT API", "CUDA BLAS API"};
namespace {
struct cuda2hipMap {
cuda2hipMap() {
// Replacement Excludes
cudaExcludes = {"CHECK_CUDA_ERROR", "CUDA_SAFE_CALL"};
// Defines
cuda2hipRename["__CUDACC__"] = {"__HIPCC__", CONV_DEF, API_RUNTIME};
// CUDA includes
cuda2hipRename["cuda.h"] = {"hip_runtime.h", CONV_INCLUDE_CUDA_MAIN_H, API_DRIVER};
cuda2hipRename["cuda_runtime.h"] = {"hip_runtime.h", CONV_INCLUDE_CUDA_MAIN_H, API_RUNTIME};
cuda2hipRename["cuda_runtime_api.h"] = {"hip_runtime_api.h", CONV_INCLUDE, API_RUNTIME};
// HIP includes
// TODO: uncomment this when hip/cudacommon.h will be renamed to hip/hipcommon.h
//cuda2hipRename["cudacommon.h"] = {"hipcommon.h", CONV_INCLUDE, API_RUNTIME};
// CUBLAS includes
cuda2hipRename["cublas.h"] = {"hipblas.h", CONV_INCLUDE, API_BLAS};
cuda2hipRename["cublas_v2.h"] = {"hipblas.h", CONV_INCLUDE, API_BLAS};
// Error codes and return types
cuda2hipRename["CUresult"] = {"hipError_t", CONV_TYPE, API_DRIVER};
cuda2hipRename["cudaError_t"] = {"hipError_t", CONV_TYPE, API_RUNTIME};
cuda2hipRename["cudaError"] = {"hipError", CONV_TYPE, API_RUNTIME};
// CUDA Driver API error code only
cuda2hipRename["CUDA_ERROR_INVALID_CONTEXT"] = {"hipErrorInvalidContext", CONV_ERR, API_DRIVER};
cuda2hipRename["CUDA_ERROR_CONTEXT_ALREADY_CURRENT"] = {"hipErrorContextAlreadyCurrent", CONV_ERR, API_DRIVER};
cuda2hipRename["CUDA_ERROR_MAP_FAILED"] = {"hipErrorMapFailed", CONV_ERR, API_DRIVER};
cuda2hipRename["CUDA_ERROR_UNMAP_FAILED"] = {"hipErrorUnmapFailed", CONV_ERR, API_DRIVER};
cuda2hipRename["CUDA_ERROR_ARRAY_IS_MAPPED"] = {"hipErrorArrayIsMapped", CONV_ERR, API_DRIVER};
cuda2hipRename["CUDA_ERROR_ALREADY_MAPPED"] = {"hipErrorAlreadyMapped", CONV_ERR, API_DRIVER};
cuda2hipRename["CUDA_ERROR_ALREADY_ACQUIRED"] = {"hipErrorAlreadyAcquired", CONV_ERR, API_DRIVER};
cuda2hipRename["CUDA_ERROR_NOT_MAPPED"] = {"hipErrorNotMapped", CONV_ERR, API_DRIVER};
cuda2hipRename["CUDA_ERROR_NOT_MAPPED_AS_ARRAY"] = {"hipErrorNotMappedAsArray", CONV_ERR, API_DRIVER};
cuda2hipRename["CUDA_ERROR_NOT_MAPPED_AS_POINTER"] = {"hipErrorNotMappedAsPointer", CONV_ERR, API_DRIVER};
cuda2hipRename["CUDA_ERROR_CONTEXT_ALREADY_IN_USE"] = {"hipErrorContextAlreadyInUse", CONV_ERR, API_DRIVER};
cuda2hipRename["CUDA_ERROR_INVALID_SOURCE"] = {"hipErrorInvalidSource", CONV_ERR, API_DRIVER};
cuda2hipRename["CUDA_ERROR_FILE_NOT_FOUND"] = {"hipErrorFileNotFound", CONV_ERR, API_DRIVER};
cuda2hipRename["CUDA_ERROR_NOT_FOUND"] = {"hipErrorNotFound", CONV_ERR, API_DRIVER};
// CUDA RT API error code only
cuda2hipRename["cudaErrorInvalidDeviceFunction"] = {"hipErrorInvalidDeviceFunction", CONV_ERR, API_RUNTIME};
cuda2hipRename["cudaErrorInvalidConfiguration"] = {"hipErrorInvalidConfiguration", CONV_ERR, API_RUNTIME};
cuda2hipRename["cudaErrorPriorLaunchFailure"] = {"hipErrorPriorLaunchFailure", CONV_ERR, API_RUNTIME};
cuda2hipRename["cudaErrorInvalidMemcpyDirection"] = {"hipErrorInvalidMemcpyDirection", CONV_ERR, API_RUNTIME};
cuda2hipRename["cudaErrorInvalidDevicePointer"] = {"hipErrorInvalidDevicePointer", CONV_ERR, API_RUNTIME};
cuda2hipRename["cudaErrorMissingConfiguration"] = {"hipErrorMissingConfiguration", CONV_ERR, API_RUNTIME};
cuda2hipRename["CUDA_SUCCESS"] = {"hipSuccess", CONV_ERR, API_DRIVER};
cuda2hipRename["cudaSuccess"] = {"hipSuccess", CONV_ERR, API_RUNTIME};
cuda2hipRename["CUDA_ERROR_UNKNOWN"] = {"hipErrorUnknown", CONV_ERR, API_DRIVER};
cuda2hipRename["cudaErrorUnknown"] = {"hipErrorUnknown", CONV_ERR, API_RUNTIME};
cuda2hipRename["CUDA_ERROR_NOT_INITIALIZED"] = {"hipErrorNotInitialized", CONV_ERR, API_DRIVER};
cuda2hipRename["cudaErrorInitializationError"] = {"hipErrorNotInitialized", CONV_ERR, API_RUNTIME};
cuda2hipRename["CUDA_ERROR_DEINITIALIZED"] = {"hipErrorDeinitialized", CONV_ERR, API_DRIVER};
cuda2hipRename["cudaErrorCudartUnloading"] = {"hipErrorDeinitialized", CONV_ERR, API_RUNTIME};
cuda2hipRename["CUDA_ERROR_OUT_OF_MEMORY"] = {"hipErrorMemoryAllocation", CONV_ERR, API_DRIVER};
cuda2hipRename["cudaErrorMemoryAllocation"] = {"hipErrorMemoryAllocation", CONV_ERR, API_RUNTIME};
cuda2hipRename["CUDA_ERROR_INVALID_HANDLE"] = {"hipErrorInvalidResourceHandle", CONV_ERR, API_DRIVER};
cuda2hipRename["cudaErrorInvalidResourceHandle"] = {"hipErrorInvalidResourceHandle", CONV_ERR, API_RUNTIME};
cuda2hipRename["CUDA_ERROR_INVALID_VALUE"] = {"hipErrorInvalidValue", CONV_ERR, API_DRIVER};
cuda2hipRename["cudaErrorInvalidValue"] = {"hipErrorInvalidValue", CONV_ERR, API_RUNTIME};
cuda2hipRename["CUDA_ERROR_INVALID_DEVICE"] = {"hipErrorInvalidDevice", CONV_ERR, API_DRIVER};
cuda2hipRename["cudaErrorInvalidDevice"] = {"hipErrorInvalidDevice", CONV_ERR, API_RUNTIME};
cuda2hipRename["CUDA_ERROR_NOT_INITIALIZED"] = {"hipErrorInitializationError", CONV_ERR, API_DRIVER};
cuda2hipRename["cudaErrorInitializationError"] = {"hipErrorInitializationError", CONV_ERR, API_RUNTIME};
cuda2hipRename["CUDA_ERROR_NO_DEVICE"] = {"hipErrorNoDevice", CONV_ERR, API_DRIVER};
cuda2hipRename["cudaErrorNoDevice"] = {"hipErrorNoDevice", CONV_ERR, API_RUNTIME};
cuda2hipRename["CUDA_ERROR_NOT_READY"] = {"hipErrorNotReady", CONV_ERR, API_DRIVER};
cuda2hipRename["cudaErrorNotReady"] = {"hipErrorNotReady", CONV_ERR, API_RUNTIME};
cuda2hipRename["CUDA_ERROR_PEER_ACCESS_NOT_ENABLED"] = {"hipErrorPeerAccessNotEnabled", CONV_ERR, API_DRIVER};
cuda2hipRename["cudaErrorPeerAccessNotEnabled"] = {"hipErrorPeerAccessNotEnabled", CONV_ERR, API_RUNTIME};
cuda2hipRename["CUDA_ERROR_PEER_ACCESS_ALREADY_ENABLED"] = {"hipErrorPeerAccessAlreadyEnabled", CONV_ERR, API_DRIVER};
cuda2hipRename["cudaErrorPeerAccessAlreadyEnabled"] = {"hipErrorPeerAccessAlreadyEnabled", CONV_ERR, API_RUNTIME};
cuda2hipRename["CUDA_ERROR_PEER_ACCESS_UNSUPPORTED"] = {"hipErrorPeerAccessUnsupported", CONV_ERR, API_DRIVER};
cuda2hipRename["cudaErrorPeerAccessUnsupported"] = {"hipErrorPeerAccessUnsupported", CONV_ERR, API_RUNTIME};
cuda2hipRename["CUDA_ERROR_INVALID_PTX"] = {"hipErrorInvalidKernelFile", CONV_ERR, API_DRIVER};
cuda2hipRename["cudaErrorInvalidPtx"] = {"hipErrorInvalidKernelFile", CONV_ERR, API_RUNTIME};
cuda2hipRename["CUDA_ERROR_INVALID_GRAPHICS_CONTEXT"] = {"hipErrorInvalidGraphicsContext", CONV_ERR, API_DRIVER};
cuda2hipRename["cudaErrorInvalidGraphicsContext"] = {"hipErrorInvalidGraphicsContext", CONV_ERR, API_RUNTIME};
cuda2hipRename["CUDA_ERROR_SHARED_OBJECT_SYMBOL_NOT_FOUND"] = {"hipErrorSharedObjectSymbolNotFound", CONV_ERR, API_DRIVER};
cuda2hipRename["cudaErrorSharedObjectSymbolNotFound"] = {"hipErrorSharedObjectSymbolNotFound", CONV_ERR, API_RUNTIME};
cuda2hipRename["CUDA_ERROR_SHARED_OBJECT_INIT_FAILED"] = {"hipErrorSharedObjectInitFailed", CONV_ERR, API_DRIVER};
cuda2hipRename["cudaErrorSharedObjectInitFailed"] = {"hipErrorSharedObjectInitFailed", CONV_ERR, API_RUNTIME};
cuda2hipRename["CUDA_ERROR_OPERATING_SYSTEM"] = {"hipErrorOperatingSystem", CONV_ERR, API_DRIVER};
cuda2hipRename["cudaErrorOperatingSystem"] = {"hipErrorOperatingSystem", CONV_ERR, API_RUNTIME};
cuda2hipRename["CUDA_ERROR_ILLEGAL_ADDRESS"] = {"hipErrorIllegalAddress", CONV_ERR, API_DRIVER};
cuda2hipRename["cudaErrorIllegalAddress"] = {"hipErrorIllegalAddress", CONV_ERR, API_RUNTIME};
cuda2hipRename["CUDA_ERROR_LAUNCH_FAILED"] = {"hipErrorLaunchFailure", CONV_ERR, API_DRIVER};
cuda2hipRename["cudaErrorLaunchFailure"] = {"hipErrorLaunchFailure", CONV_ERR, API_RUNTIME};
cuda2hipRename["CUDA_ERROR_LAUNCH_TIMEOUT"] = {"hipErrorLaunchTimeOut", CONV_ERR, API_DRIVER};
cuda2hipRename["cudaErrorLaunchTimeout"] = {"hipErrorLaunchTimeOut", CONV_ERR, API_RUNTIME};
cuda2hipRename["CUDA_ERROR_LAUNCH_OUT_OF_RESOURCES"] = {"hipErrorLaunchOutOfResources", CONV_ERR, API_DRIVER};
cuda2hipRename["cudaErrorLaunchOutOfResources"] = {"hipErrorLaunchOutOfResources", CONV_ERR, API_RUNTIME};
cuda2hipRename["CUDA_ERROR_ECC_UNCORRECTABLE"] = {"hipErrorECCNotCorrectable", CONV_ERR, API_DRIVER};
cuda2hipRename["cudaErrorECCUncorrectable"] = {"hipErrorECCNotCorrectable", CONV_ERR, API_RUNTIME};
cuda2hipRename["CUDA_ERROR_HOST_MEMORY_ALREADY_REGISTERED"] = {"hipErrorHostMemoryAlreadyRegistered", CONV_ERR, API_DRIVER};
cuda2hipRename["cudaErrorHostMemoryAlreadyRegistered"] = {"hipErrorHostMemoryAlreadyRegistered", CONV_ERR, API_RUNTIME};
cuda2hipRename["CUDA_ERROR_HOST_MEMORY_NOT_REGISTERED"] = {"hipErrorHostMemoryNotRegistered", CONV_ERR, API_DRIVER};
cuda2hipRename["cudaErrorHostMemoryNotRegistered"] = {"hipErrorHostMemoryNotRegistered", CONV_ERR, API_RUNTIME};
cuda2hipRename["CUDA_ERROR_NO_BINARY_FOR_GPU"] = {"hipErrorNoBinaryForGpu", CONV_ERR, API_DRIVER};
cuda2hipRename["cudaErrorNoKernelImageForDevice"] = {"hipErrorNoBinaryForGpu", CONV_ERR, API_RUNTIME};
cuda2hipRename["CUDA_ERROR_UNSUPPORTED_LIMIT"] = {"hipErrorUnsupportedLimit", CONV_ERR, API_DRIVER};
cuda2hipRename["cudaErrorUnsupportedLimit"] = {"hipErrorUnsupportedLimit", CONV_ERR, API_RUNTIME};
cuda2hipRename["CUDA_ERROR_INVALID_IMAGE"] = {"hipErrorInvalidImage", CONV_ERR, API_DRIVER};
cuda2hipRename["cudaErrorInvalidKernelImage"] = {"hipErrorInvalidImage", CONV_ERR, API_RUNTIME};
cuda2hipRename["CUDA_ERROR_PROFILER_DISABLED"] = {"hipErrorProfilerDisabled", CONV_ERR, API_DRIVER};
cuda2hipRename["cudaErrorProfilerDisabled"] = {"hipErrorProfilerDisabled", CONV_ERR, API_RUNTIME};
cuda2hipRename["CUDA_ERROR_PROFILER_NOT_INITIALIZED"] = {"hipErrorProfilerNotInitialized", CONV_ERR, API_DRIVER};
cuda2hipRename["cudaErrorProfilerNotInitialized"] = {"hipErrorProfilerNotInitialized", CONV_ERR, API_RUNTIME};
cuda2hipRename["CUDA_ERROR_PROFILER_ALREADY_STARTED"] = {"hipErrorProfilerAlreadyStarted", CONV_ERR, API_DRIVER};
cuda2hipRename["cudaErrorProfilerAlreadyStarted"] = {"hipErrorProfilerAlreadyStarted", CONV_ERR, API_RUNTIME};
cuda2hipRename["CUDA_ERROR_PROFILER_ALREADY_STOPPED"] = {"hipErrorProfilerAlreadyStopped", CONV_ERR, API_DRIVER};
cuda2hipRename["cudaErrorProfilerAlreadyStopped"] = {"hipErrorProfilerAlreadyStopped", CONV_ERR, API_RUNTIME};
///////////////////////////// CUDA DRIVER API /////////////////////////////
// Types
// NOTE: CUdevice might be changed to typedef int in the future.
cuda2hipRename["CUdevice"] = {"hipDevice_t", CONV_TYPE, API_DRIVER};
cuda2hipRename["CUdevice_attribute_enum"] = {"hipDeviceAttribute_t", CONV_TYPE, API_DRIVER};
cuda2hipRename["CUdevice_attribute"] = {"hipDeviceAttribute_t", CONV_TYPE, API_DRIVER};
cuda2hipRename["CU_DEVICE_ATTRIBUTE_MAX_THREADS_PER_BLOCK"] = {"hipDeviceAttributeMaxThreadsPerBlock", CONV_DEV, API_DRIVER};
cuda2hipRename["CU_DEVICE_ATTRIBUTE_MAX_BLOCK_DIM_X"] = {"hipDeviceAttributeMaxBlockDimX", CONV_DEV, API_DRIVER};
cuda2hipRename["CU_DEVICE_ATTRIBUTE_MAX_BLOCK_DIM_Y"] = {"hipDeviceAttributeMaxBlockDimY", CONV_DEV, API_DRIVER};
cuda2hipRename["CU_DEVICE_ATTRIBUTE_MAX_BLOCK_DIM_Z"] = {"hipDeviceAttributeMaxBlockDimZ", CONV_DEV, API_DRIVER};
cuda2hipRename["CU_DEVICE_ATTRIBUTE_MAX_GRID_DIM_X"] = {"hipDeviceAttributeMaxGridDimX", CONV_DEV, API_DRIVER};
cuda2hipRename["CU_DEVICE_ATTRIBUTE_MAX_GRID_DIM_Y"] = {"hipDeviceAttributeMaxGridDimY", CONV_DEV, API_DRIVER};
cuda2hipRename["CU_DEVICE_ATTRIBUTE_MAX_GRID_DIM_Z"] = {"hipDeviceAttributeMaxGridDimZ", CONV_DEV, API_DRIVER};
cuda2hipRename["CU_DEVICE_ATTRIBUTE_MAX_SHARED_MEMORY_PER_BLOCK"] = {"hipDeviceAttributeMaxSharedMemoryPerBlock", CONV_DEV, API_DRIVER};
cuda2hipRename["CU_DEVICE_ATTRIBUTE_TOTAL_CONSTANT_MEMORY"] = {"hipDeviceAttributeTotalConstantMemory", CONV_DEV, API_DRIVER};
cuda2hipRename["CU_DEVICE_ATTRIBUTE_WARP_SIZE"] = {"hipDeviceAttributeWarpSize", CONV_DEV, API_DRIVER};
cuda2hipRename["CU_DEVICE_ATTRIBUTE_MAX_REGISTERS_PER_BLOCK"] = {"hipDeviceAttributeMaxRegistersPerBlock", CONV_DEV, API_DRIVER};
cuda2hipRename["CU_DEVICE_ATTRIBUTE_CLOCK_RATE"] = {"hipDeviceAttributeClockRate", CONV_DEV, API_DRIVER};
cuda2hipRename["CU_DEVICE_ATTRIBUTE_MEMORY_CLOCK_RATE"] = {"hipDeviceAttributeMemoryClockRate", CONV_DEV, API_DRIVER};
cuda2hipRename["CU_DEVICE_ATTRIBUTE_GLOBAL_MEMORY_BUS_WIDTH"] = {"hipDeviceAttributeMemoryBusWidth", CONV_DEV, API_DRIVER};
cuda2hipRename["CU_DEVICE_ATTRIBUTE_GLOBAL_MEMORY_BUS_WIDTH"] = {"hipDeviceAttributeMultiprocessorCount", CONV_DEV, API_DRIVER};
cuda2hipRename["CU_DEVICE_ATTRIBUTE_COMPUTE_MODE"] = {"hipDeviceAttributeComputeMode", CONV_DEV, API_DRIVER};
cuda2hipRename["CU_DEVICE_ATTRIBUTE_L2_CACHE_SIZE"] = {"hipDeviceAttributeL2CacheSize", CONV_DEV, API_DRIVER};
cuda2hipRename["CU_DEVICE_ATTRIBUTE_MAX_THREADS_PER_MULTIPROCESSOR"] = {"hipDeviceAttributeMaxThreadsPerMultiProcessor", CONV_DEV, API_DRIVER};
cuda2hipRename["CU_DEVICE_ATTRIBUTE_COMPUTE_CAPABILITY_MAJOR"] = {"hipDeviceAttributeComputeCapabilityMajor", CONV_DEV, API_DRIVER};
cuda2hipRename["CU_DEVICE_ATTRIBUTE_COMPUTE_CAPABILITY_MINOR"] = {"hipDeviceAttributeComputeCapabilityMinor", CONV_DEV, API_DRIVER};
cuda2hipRename["CU_DEVICE_ATTRIBUTE_CONCURRENT_KERNELS"] = {"hipDeviceAttributeConcurrentKernels", CONV_DEV, API_DRIVER};
cuda2hipRename["CU_DEVICE_ATTRIBUTE_PCI_BUS_ID"] = {"hipDeviceAttributePciBusId", CONV_DEV, API_DRIVER};
cuda2hipRename["CU_DEVICE_ATTRIBUTE_PCI_DEVICE_ID"] = {"hipDeviceAttributePciDeviceId", CONV_DEV, API_DRIVER};
cuda2hipRename["CU_DEVICE_ATTRIBUTE_MAX_SHARED_MEMORY_PER_MULTIPROCESSOR"] = {"hipDeviceAttributeMaxSharedMemoryPerMultiprocessor", CONV_DEV, API_DRIVER};
cuda2hipRename["CU_DEVICE_ATTRIBUTE_MULTI_GPU_BOARD"] = {"hipDeviceAttributeIsMultiGpuBoard", CONV_DEV, API_DRIVER};
cuda2hipRename["CUdevprop_st"] = {"hipDeviceProp_t", CONV_TYPE, API_DRIVER};
cuda2hipRename["CUdevprop"] = {"hipDeviceProp_t", CONV_TYPE, API_DRIVER};
// TODO: Analogues enum is needed in HIP. Couldn't map enum to struct hipPointerAttribute_t.
// TODO: Do for Pointer Attributes the same as for Device Attributes.
// cuda2hipRename["CUpointer_attribute_enum"] = {"hipPointerAttribute_t", CONV_TYPE, API_DRIVER};
// cuda2hipRename["CUpointer_attribute"] = {"hipPointerAttribute_t", CONV_TYPE, API_DRIVER};
cuda2hipRename["CUfunction"] = {"hipFunction_t", CONV_TYPE, API_DRIVER};
// unsupported yet by HIP
// cuda2hipRename["CUfunction_attribute_enum"] = {"hipFuncAttribute_t", CONV_TYPE, API_DRIVER};
// cuda2hipRename["CUfunction_attribute"] = {"hipFuncAttribute_t", CONV_TYPE, API_DRIVER};
cuda2hipRename["CUfunc_cache_enum"] = {"hipFuncCache", CONV_TYPE, API_DRIVER};
cuda2hipRename["CUfunc_cache"] = {"hipFuncCache", CONV_TYPE, API_DRIVER};
cuda2hipRename["CU_FUNC_CACHE_PREFER_NONE"] = {"hipFuncCachePreferNone", CONV_DEV, API_DRIVER};
cuda2hipRename["CU_FUNC_CACHE_PREFER_SHARED"] = {"hipFuncCachePreferShared", CONV_DEV, API_DRIVER};
cuda2hipRename["CU_FUNC_CACHE_PREFER_L1"] = {"hipFuncCachePreferL1", CONV_DEV, API_DRIVER};
cuda2hipRename["CU_FUNC_CACHE_PREFER_EQUAL"] = {"hipFuncCachePreferEqual", CONV_DEV, API_DRIVER};
cuda2hipRename["CUsharedconfig_enum"] = {"hipSharedMemConfig", CONV_TYPE, API_DRIVER};
cuda2hipRename["CUsharedconfig"] = {"hipSharedMemConfig", CONV_TYPE, API_DRIVER};
cuda2hipRename["CU_SHARED_MEM_CONFIG_DEFAULT_BANK_SIZE"] = {"hipSharedMemBankSizeDefault", CONV_DEV, API_DRIVER};
cuda2hipRename["CU_SHARED_MEM_CONFIG_FOUR_BYTE_BANK_SIZE"] = {"hipSharedMemBankSizeFourByte", CONV_DEV, API_DRIVER};
cuda2hipRename["CU_SHARED_MEM_CONFIG_EIGHT_BYTE_BANK_SIZE"] = {"hipSharedMemBankSizeEightByte", CONV_DEV, API_DRIVER};
cuda2hipRename["CUcontext"] = {"hipCtx_t", CONV_TYPE, API_DRIVER};
cuda2hipRename["CUmodule"] = {"hipModule_t", CONV_TYPE, API_DRIVER};
cuda2hipRename["CUevent"] = {"hipEvent_t", CONV_TYPE, API_DRIVER};
cuda2hipRename["CUstream"] = {"hipStream_t", CONV_TYPE, API_DRIVER};
/////////////////////////////// CUDA RT API ///////////////////////////////
// Error API
cuda2hipRename["cudaGetLastError"] = {"hipGetLastError", CONV_ERR, API_RUNTIME};
cuda2hipRename["cudaPeekAtLastError"] = {"hipPeekAtLastError", CONV_ERR, API_RUNTIME};
cuda2hipRename["cudaGetErrorName"] = {"hipGetErrorName", CONV_ERR, API_RUNTIME};
cuda2hipRename["cudaGetErrorString"] = {"hipGetErrorString", CONV_ERR, API_RUNTIME};
// Memcpy
cuda2hipRename["cudaMemcpy"] = {"hipMemcpy", CONV_MEM, API_RUNTIME};
cuda2hipRename["cudaMemcpyToSymbol"] = {"hipMemcpyToSymbol", CONV_MEM, API_RUNTIME};
cuda2hipRename["cudaMemset"] = {"hipMemset", CONV_MEM, API_RUNTIME};
cuda2hipRename["cudaMemsetAsync"] = {"hipMemsetAsync", CONV_MEM, API_RUNTIME};
cuda2hipRename["cudaMemcpyAsync"] = {"hipMemcpyAsync", CONV_MEM, API_RUNTIME};
cuda2hipRename["cudaMemGetInfo"] = {"hipMemGetInfo", CONV_MEM, API_RUNTIME};
// Memcpy kind
cuda2hipRename["cudaMemcpyKind"] = {"hipMemcpyKind", CONV_MEM, API_RUNTIME};
cuda2hipRename["cudaMemcpyHostToHost"] = {"hipMemcpyHostToHost", CONV_MEM, API_RUNTIME};
cuda2hipRename["cudaMemcpyHostToDevice"] = {"hipMemcpyHostToDevice", CONV_MEM, API_RUNTIME};
cuda2hipRename["cudaMemcpyDeviceToHost"] = {"hipMemcpyDeviceToHost", CONV_MEM, API_RUNTIME};
cuda2hipRename["cudaMemcpyDeviceToDevice"] = {"hipMemcpyDeviceToDevice", CONV_MEM, API_RUNTIME};
cuda2hipRename["cudaMemcpyDefault"] = {"hipMemcpyDefault", CONV_MEM, API_RUNTIME};
// Memory management
cuda2hipRename["cudaMalloc"] = {"hipMalloc", CONV_MEM, API_RUNTIME};
cuda2hipRename["cudaMallocHost"] = {"hipHostMalloc", CONV_MEM, API_RUNTIME};
cuda2hipRename["cudaFree"] = {"hipFree", CONV_MEM, API_RUNTIME};
cuda2hipRename["cudaFreeHost"] = {"hipHostFree", CONV_MEM, API_RUNTIME};
cuda2hipRename["cudaHostRegister"] = {"hipHostRegister", CONV_MEM, API_RUNTIME};
cuda2hipRename["cudaHostUnregister"] = {"hipHostUnregister", CONV_MEM, API_RUNTIME};
// Memory types
cuda2hipRename["cudaMemoryType"] = {"hipMemoryType", CONV_MEM, API_RUNTIME};
cuda2hipRename["cudaMemoryTypeHost"] = {"hipMemoryTypeHost", CONV_MEM, API_RUNTIME};
cuda2hipRename["cudaMemoryTypeDevice"] = {"hipMemoryTypeDevice", CONV_MEM, API_RUNTIME};
// Host Malloc Flags
cuda2hipRename["cudaHostAllocDefault"] = {"hipHostMallocDefault", CONV_MEM, API_RUNTIME};
cuda2hipRename["cudaHostAllocPortable"] = {"hipHostMallocPortable", CONV_MEM, API_RUNTIME};
cuda2hipRename["cudaHostAllocMapped"] = {"hipHostMallocMapped", CONV_MEM, API_RUNTIME};
cuda2hipRename["cudaHostAllocWriteCombined"] = {"hipHostMallocWriteCombined", CONV_MEM, API_RUNTIME};
// Host Register Flags
cuda2hipRename["cudaHostGetFlags"] = {"hipHostGetFlags", CONV_MEM, API_RUNTIME};
cuda2hipRename["cudaHostRegisterDefault"] = {"hipHostRegisterDefault", CONV_MEM, API_RUNTIME};
cuda2hipRename["cudaHostRegisterPortable"] = {"hipHostRegisterPortable", CONV_MEM, API_RUNTIME};
cuda2hipRename["cudaHostRegisterMapped"] = {"hipHostRegisterMapped", CONV_MEM, API_RUNTIME};
cuda2hipRename["cudaHostRegisterIoMemory"] = {"hipHostRegisterIoMemory", CONV_MEM, API_RUNTIME};
// Coordinate Indexing and Dimensions
cuda2hipRename["threadIdx.x"] = {"hipThreadIdx_x", CONV_COORD_FUNC, API_RUNTIME};
cuda2hipRename["threadIdx.y"] = {"hipThreadIdx_y", CONV_COORD_FUNC, API_RUNTIME};
cuda2hipRename["threadIdx.z"] = {"hipThreadIdx_z", CONV_COORD_FUNC, API_RUNTIME};
cuda2hipRename["blockIdx.x"] = {"hipBlockIdx_x", CONV_COORD_FUNC, API_RUNTIME};
cuda2hipRename["blockIdx.y"] = {"hipBlockIdx_y", CONV_COORD_FUNC, API_RUNTIME};
cuda2hipRename["blockIdx.z"] = {"hipBlockIdx_z", CONV_COORD_FUNC, API_RUNTIME};
cuda2hipRename["blockDim.x"] = {"hipBlockDim_x", CONV_COORD_FUNC, API_RUNTIME};
cuda2hipRename["blockDim.y"] = {"hipBlockDim_y", CONV_COORD_FUNC, API_RUNTIME};
cuda2hipRename["blockDim.z"] = {"hipBlockDim_z", CONV_COORD_FUNC, API_RUNTIME};
cuda2hipRename["gridDim.x"] = {"hipGridDim_x", CONV_COORD_FUNC, API_RUNTIME};
cuda2hipRename["gridDim.y"] = {"hipGridDim_y", CONV_COORD_FUNC, API_RUNTIME};
cuda2hipRename["gridDim.z"] = {"hipGridDim_z", CONV_COORD_FUNC, API_RUNTIME};
cuda2hipRename["blockIdx.x"] = {"hipBlockIdx_x", CONV_COORD_FUNC, API_RUNTIME};
cuda2hipRename["blockIdx.y"] = {"hipBlockIdx_y", CONV_COORD_FUNC, API_RUNTIME};
cuda2hipRename["blockIdx.z"] = {"hipBlockIdx_z", CONV_COORD_FUNC, API_RUNTIME};
cuda2hipRename["blockDim.x"] = {"hipBlockDim_x", CONV_COORD_FUNC, API_RUNTIME};
cuda2hipRename["blockDim.y"] = {"hipBlockDim_y", CONV_COORD_FUNC, API_RUNTIME};
cuda2hipRename["blockDim.z"] = {"hipBlockDim_z", CONV_COORD_FUNC, API_RUNTIME};
cuda2hipRename["gridDim.x"] = {"hipGridDim_x", CONV_COORD_FUNC, API_RUNTIME};
cuda2hipRename["gridDim.y"] = {"hipGridDim_y", CONV_COORD_FUNC, API_RUNTIME};
cuda2hipRename["gridDim.z"] = {"hipGridDim_z", CONV_COORD_FUNC, API_RUNTIME};
cuda2hipRename["warpSize"] = {"hipWarpSize", CONV_SPECIAL_FUNC, API_RUNTIME};
// Events
cuda2hipRename["cudaEvent_t"] = {"hipEvent_t", CONV_TYPE, API_RUNTIME};
cuda2hipRename["cudaEventCreate"] = {"hipEventCreate", CONV_EVENT, API_RUNTIME};
cuda2hipRename["cudaEventCreateWithFlags"] = {"hipEventCreateWithFlags", CONV_EVENT, API_RUNTIME};
cuda2hipRename["cudaEventDestroy"] = {"hipEventDestroy", CONV_EVENT, API_RUNTIME};
cuda2hipRename["cudaEventRecord"] = {"hipEventRecord", CONV_EVENT, API_RUNTIME};
cuda2hipRename["cudaEventElapsedTime"] = {"hipEventElapsedTime", CONV_EVENT, API_RUNTIME};
cuda2hipRename["cudaEventSynchronize"] = {"hipEventSynchronize", CONV_EVENT, API_RUNTIME};
cuda2hipRename["cudaEventQuery"] = {"hipEventQuery", CONV_EVENT, API_RUNTIME};
// Event Flags
cuda2hipRename["cudaEventDefault"] = {"hipEventDefault", CONV_EVENT, API_RUNTIME};
cuda2hipRename["cudaEventBlockingSync"] = {"hipEventBlockingSync", CONV_EVENT, API_RUNTIME};
cuda2hipRename["cudaEventDisableTiming"] = {"hipEventDisableTiming", CONV_EVENT, API_RUNTIME};
cuda2hipRename["cudaEventInterprocess"] = {"hipEventInterprocess", CONV_EVENT, API_RUNTIME};
// Streams
cuda2hipRename["cudaStream_t"] = {"hipStream_t", CONV_TYPE, API_RUNTIME};
cuda2hipRename["cudaStreamCreate"] = {"hipStreamCreate", CONV_STREAM, API_RUNTIME};
cuda2hipRename["cudaStreamCreateWithFlags"] = {"hipStreamCreateWithFlags", CONV_STREAM, API_RUNTIME};
cuda2hipRename["cudaStreamDestroy"] = {"hipStreamDestroy", CONV_STREAM, API_RUNTIME};
cuda2hipRename["cudaStreamWaitEvent"] = {"hipStreamWaitEvent", CONV_STREAM, API_RUNTIME};
cuda2hipRename["cudaStreamSynchronize"] = {"hipStreamSynchronize", CONV_STREAM, API_RUNTIME};
// Stream Flags
cuda2hipRename["cudaStreamGetFlags"] = {"hipStreamGetFlags", CONV_STREAM, API_RUNTIME};
cuda2hipRename["cudaStreamDefault"] = {"hipStreamDefault", CONV_STREAM, API_RUNTIME};
cuda2hipRename["cudaStreamNonBlocking"] = {"hipStreamNonBlocking", CONV_STREAM, API_RUNTIME};
// Other synchronization
cuda2hipRename["cudaDeviceSynchronize"] = {"hipDeviceSynchronize", CONV_DEV, API_RUNTIME};
// translate deprecated cudaThreadSynchronize
cuda2hipRename["cudaThreadSynchronize"] = {"hipDeviceSynchronize", CONV_DEV, API_RUNTIME};
cuda2hipRename["cudaDeviceReset"] = {"hipDeviceReset", CONV_DEV, API_RUNTIME};
// translate deprecated cudaThreadExit
cuda2hipRename["cudaThreadExit"] = {"hipDeviceReset", CONV_DEV, API_RUNTIME};
cuda2hipRename["cudaSetDevice"] = {"hipSetDevice", CONV_DEV, API_RUNTIME};
cuda2hipRename["cudaGetDevice"] = {"hipGetDevice", CONV_DEV, API_RUNTIME};
// Attributes
cuda2hipRename["cudaDeviceAttr"] = {"hipDeviceAttribute_t", CONV_TYPE, API_RUNTIME};
cuda2hipRename["cudaDeviceGetAttribute"] = {"hipDeviceGetAttribute", CONV_DEV, API_RUNTIME};
cuda2hipRename["cudaDevAttrMaxThreadsPerBlock"] = {"hipDeviceAttributeMaxThreadsPerBlock", CONV_DEV, API_RUNTIME};
cuda2hipRename["cudaDevAttrMaxBlockDimX"] = {"hipDeviceAttributeMaxBlockDimX", CONV_DEV, API_RUNTIME};
cuda2hipRename["cudaDevAttrMaxBlockDimY"] = {"hipDeviceAttributeMaxBlockDimY", CONV_DEV, API_RUNTIME};
cuda2hipRename["cudaDevAttrMaxBlockDimZ"] = {"hipDeviceAttributeMaxBlockDimZ", CONV_DEV, API_RUNTIME};
cuda2hipRename["cudaDevAttrMaxGridDimX"] = {"hipDeviceAttributeMaxGridDimX", CONV_DEV, API_RUNTIME};
cuda2hipRename["cudaDevAttrMaxGridDimY"] = {"hipDeviceAttributeMaxGridDimY", CONV_DEV, API_RUNTIME};
cuda2hipRename["cudaDevAttrMaxGridDimZ"] = {"hipDeviceAttributeMaxGridDimZ", CONV_DEV, API_RUNTIME};
cuda2hipRename["cudaDevAttrMaxSharedMemoryPerBlock"] = {"hipDeviceAttributeMaxSharedMemoryPerBlock", CONV_DEV, API_RUNTIME};
cuda2hipRename["cudaDevAttrTotalConstantMemory"] = {"hipDeviceAttributeTotalConstantMemory", CONV_DEV, API_RUNTIME};
cuda2hipRename["cudaDevAttrWarpSize"] = {"hipDeviceAttributeWarpSize", CONV_DEV, API_RUNTIME};
cuda2hipRename["cudaDevAttrMaxRegistersPerBlock"] = {"hipDeviceAttributeMaxRegistersPerBlock", CONV_DEV, API_RUNTIME};
cuda2hipRename["cudaDevAttrClockRate"] = {"hipDeviceAttributeClockRate", CONV_DEV, API_RUNTIME};
cuda2hipRename["cudaDevAttrMemoryClockRate"] = {"hipDeviceAttributeMemoryClockRate", CONV_DEV, API_RUNTIME};
cuda2hipRename["cudaDevAttrGlobalMemoryBusWidth"] = {"hipDeviceAttributeMemoryBusWidth", CONV_DEV, API_RUNTIME};
cuda2hipRename["cudaDevAttrMultiProcessorCount"] = {"hipDeviceAttributeMultiprocessorCount", CONV_DEV, API_RUNTIME};
cuda2hipRename["cudaDevAttrComputeMode"] = {"hipDeviceAttributeComputeMode", CONV_DEV, API_RUNTIME};
cuda2hipRename["cudaDevAttrL2CacheSize"] = {"hipDeviceAttributeL2CacheSize", CONV_DEV, API_RUNTIME};
cuda2hipRename["cudaDevAttrMaxThreadsPerMultiProcessor"] = {"hipDeviceAttributeMaxThreadsPerMultiProcessor", CONV_DEV, API_RUNTIME};
cuda2hipRename["cudaDevAttrComputeCapabilityMajor"] = {"hipDeviceAttributeComputeCapabilityMajor", CONV_DEV, API_RUNTIME};
cuda2hipRename["cudaDevAttrComputeCapabilityMinor"] = {"hipDeviceAttributeComputeCapabilityMinor", CONV_DEV, API_RUNTIME};
cuda2hipRename["cudaDevAttrConcurrentKernels"] = {"hipDeviceAttributeConcurrentKernels", CONV_DEV, API_RUNTIME};
cuda2hipRename["cudaDevAttrPciBusId"] = {"hipDeviceAttributePciBusId", CONV_DEV, API_RUNTIME};
cuda2hipRename["cudaDevAttrPciDeviceId"] = {"hipDeviceAttributePciDeviceId", CONV_DEV, API_RUNTIME};
cuda2hipRename["cudaDevAttrMaxSharedMemoryPerMultiprocessor"] = {"hipDeviceAttributeMaxSharedMemoryPerMultiprocessor", CONV_DEV, API_RUNTIME};
cuda2hipRename["cudaDevAttrIsMultiGpuBoard"] = {"hipDeviceAttributeIsMultiGpuBoard", CONV_DEV, API_RUNTIME};
// Pointer Attributes
cuda2hipRename["cudaPointerAttributes"] = {"hipPointerAttribute_t", CONV_TYPE, API_RUNTIME};
cuda2hipRename["cudaPointerGetAttributes"] = {"hipPointerGetAttributes", CONV_MEM, API_RUNTIME};
cuda2hipRename["cudaHostGetDevicePointer"] = {"hipHostGetDevicePointer", CONV_MEM, API_RUNTIME};
// Device
cuda2hipRename["cudaDeviceProp"] = {"hipDeviceProp_t", CONV_TYPE, API_RUNTIME};
cuda2hipRename["cudaGetDeviceProperties"] = {"hipGetDeviceProperties", CONV_DEV, API_RUNTIME};
// Device Flags
cuda2hipRename["cudaSetDeviceFlags"] = {"hipSetDeviceFlags", CONV_DEV, API_RUNTIME};
cuda2hipRename["cudaDeviceScheduleAuto"] = {"hipDeviceScheduleAuto", CONV_DEV, API_RUNTIME};
cuda2hipRename["cudaDeviceScheduleSpin"] = {"hipDeviceScheduleSpin", CONV_DEV, API_RUNTIME};
cuda2hipRename["cudaDeviceScheduleYield"] = {"hipDeviceScheduleYield", CONV_DEV, API_RUNTIME};
// deprecated as of CUDA 4.0 and replaced with cudaDeviceScheduleBlockingSync
cuda2hipRename["cudaDeviceBlockingSync"] = {"hipDeviceBlockingSync", CONV_DEV, API_RUNTIME};
// unsupported yet
//cuda2hipRename["cudaDeviceScheduleBlockingSync"] = {"hipDeviceScheduleBlockingSync", CONV_DEV, API_RUNTIME};
//cuda2hipRename["cudaDeviceScheduleMask"] = {"hipDeviceScheduleMask", CONV_DEV, API_RUNTIME};
cuda2hipRename["cudaDeviceMapHost"] = {"hipDeviceMapHost", CONV_DEV, API_RUNTIME};
// unsupported yet
//cuda2hipRename["cudaDeviceLmemResizeToMax"] = {"hipDeviceLmemResizeToMax", CONV_DEV, API_RUNTIME};
//cuda2hipRename["cudaDeviceMask"] = {"hipDeviceMask", CONV_DEV, API_RUNTIME};
// Cache config
cuda2hipRename["cudaDeviceSetCacheConfig"] = {"hipDeviceSetCacheConfig", CONV_DEV, API_RUNTIME};
// translate deprecated
cuda2hipRename["cudaThreadSetCacheConfig"] = {"hipDeviceSetCacheConfig", CONV_DEV, API_RUNTIME};
cuda2hipRename["cudaDeviceGetCacheConfig"] = {"hipDeviceGetCacheConfig", CONV_DEV, API_RUNTIME};
// translate deprecated
cuda2hipRename["cudaThreadGetCacheConfig"] = {"hipDeviceGetCacheConfig", CONV_DEV, API_RUNTIME};
cuda2hipRename["cudaFuncCache"] = {"hipFuncCache", CONV_DEV, API_RUNTIME};
cuda2hipRename["cudaFuncCachePreferNone"] = {"hipFuncCachePreferNone", CONV_DEV, API_RUNTIME};
cuda2hipRename["cudaFuncCachePreferShared"] = {"hipFuncCachePreferShared", CONV_DEV, API_RUNTIME};
cuda2hipRename["cudaFuncCachePreferL1"] = {"hipFuncCachePreferL1", CONV_DEV, API_RUNTIME};
cuda2hipRename["cudaFuncCachePreferEqual"] = {"hipFuncCachePreferEqual", CONV_DEV, API_RUNTIME};
cuda2hipRename["cudaFuncSetCacheConfig"] = {"hipFuncSetCacheConfig", CONV_DEV, API_RUNTIME};
// Driver/Runtime
cuda2hipRename["cudaDriverGetVersion"] = {"hipDriverGetVersion", CONV_DEV, API_RUNTIME};
cuda2hipRename["cudaGetDeviceCount"] = {"hipGetDeviceCount", CONV_DEV, API_RUNTIME};
// unsupported yet
//cuda2hipRename["cudaRuntimeGetVersion"] = {"hipRuntimeGetVersion", CONV_DEV, API_RUNTIME};
// Peer2Peer
cuda2hipRename["cudaDeviceCanAccessPeer"] = {"hipDeviceCanAccessPeer", CONV_DEV, API_RUNTIME};
cuda2hipRename["cudaDeviceDisablePeerAccess"] = {"hipDeviceDisablePeerAccess", CONV_DEV, API_RUNTIME};
cuda2hipRename["cudaDeviceEnablePeerAccess"] = {"hipDeviceEnablePeerAccess", CONV_DEV, API_RUNTIME};
cuda2hipRename["cudaMemcpyPeerAsync"] = {"hipMemcpyPeerAsync", CONV_MEM, API_RUNTIME};
cuda2hipRename["cudaMemcpyPeer"] = {"hipMemcpyPeer", CONV_MEM, API_RUNTIME};
// Shared memory
cuda2hipRename["cudaDeviceSetSharedMemConfig"] = {"hipDeviceSetSharedMemConfig", CONV_DEV, API_RUNTIME};
// translate deprecated
cuda2hipRename["cudaThreadSetSharedMemConfig"] = {"hipDeviceSetSharedMemConfig", CONV_DEV, API_RUNTIME};
cuda2hipRename["cudaDeviceGetSharedMemConfig"] = {"hipDeviceGetSharedMemConfig", CONV_DEV, API_RUNTIME};
// translate deprecated
cuda2hipRename["cudaThreadGetSharedMemConfig"] = {"hipDeviceGetSharedMemConfig", CONV_DEV, API_RUNTIME};
cuda2hipRename["cudaSharedMemConfig"] = {"hipSharedMemConfig", CONV_DEV, API_RUNTIME};
cuda2hipRename["cudaSharedMemBankSizeDefault"] = {"hipSharedMemBankSizeDefault", CONV_DEV, API_RUNTIME};
cuda2hipRename["cudaSharedMemBankSizeFourByte"] = {"hipSharedMemBankSizeFourByte", CONV_DEV, API_RUNTIME};
cuda2hipRename["cudaSharedMemBankSizeEightByte"] = {"hipSharedMemBankSizeEightByte", CONV_DEV, API_RUNTIME};
// Profiler
// unsupported yet
//cuda2hipRename["cudaProfilerInitialize"] = {"hipProfilerInitialize", CONV_OTHER, API_RUNTIME};
cuda2hipRename["cudaProfilerStart"] = {"hipProfilerStart", CONV_OTHER, API_RUNTIME};
cuda2hipRename["cudaProfilerStop"] = {"hipProfilerStop", CONV_OTHER, API_RUNTIME};
cuda2hipRename["cudaChannelFormatDesc"] = {"hipChannelFormatDesc", CONV_TEX, API_RUNTIME};
cuda2hipRename["cudaFilterModePoint"] = {"hipFilterModePoint", CONV_TEX, API_RUNTIME};
cuda2hipRename["cudaReadModeElementType"] = {"hipReadModeElementType", CONV_TEX, API_RUNTIME};
// Channel descriptor
cuda2hipRename["cudaCreateChannelDesc"] = {"hipCreateChannelDesc", CONV_TEX, API_RUNTIME};
cuda2hipRename["cudaBindTexture"] = {"hipBindTexture", CONV_TEX, API_RUNTIME};
cuda2hipRename["cudaUnbindTexture"] = {"hipUnbindTexture", CONV_TEX, API_RUNTIME};
//---------------------------------------BLAS-------------------------------------//
// Blas types
cuda2hipRename["cublasHandle_t"] = {"hipblasHandle_t", CONV_TYPE, API_BLAS};
// Blas operations
cuda2hipRename["cublasOperation_t"] = {"hipblasOperation_t", CONV_TYPE, API_BLAS};
cuda2hipRename["CUBLAS_OP_N"] = {"HIPBLAS_OP_N", CONV_NUMERIC_LITERAL, API_BLAS};
cuda2hipRename["CUBLAS_OP_T"] = {"HIPBLAS_OP_T", CONV_NUMERIC_LITERAL, API_BLAS};
cuda2hipRename["CUBLAS_OP_C"] = {"HIPBLAS_OP_C", CONV_NUMERIC_LITERAL, API_BLAS};
// Blas statuses
cuda2hipRename["cublasStatus_t"] = {"hipblasStatus_t", CONV_TYPE, API_BLAS};
cuda2hipRename["CUBLAS_STATUS_SUCCESS"] = {"HIPBLAS_STATUS_SUCCESS", CONV_NUMERIC_LITERAL, API_BLAS};
cuda2hipRename["CUBLAS_STATUS_NOT_INITIALIZED"] = {"HIPBLAS_STATUS_NOT_INITIALIZED", CONV_NUMERIC_LITERAL, API_BLAS};
cuda2hipRename["CUBLAS_STATUS_ALLOC_FAILED"] = {"HIPBLAS_STATUS_ALLOC_FAILED", CONV_NUMERIC_LITERAL, API_BLAS};
cuda2hipRename["CUBLAS_STATUS_INVALID_VALUE"] = {"HIPBLAS_STATUS_INVALID_VALUE", CONV_NUMERIC_LITERAL, API_BLAS};
cuda2hipRename["CUBLAS_STATUS_MAPPING_ERROR"] = {"HIPBLAS_STATUS_MAPPING_ERROR", CONV_NUMERIC_LITERAL, API_BLAS};
cuda2hipRename["CUBLAS_STATUS_EXECUTION_FAILED"] = {"HIPBLAS_STATUS_EXECUTION_FAILED", CONV_NUMERIC_LITERAL, API_BLAS};
cuda2hipRename["CUBLAS_STATUS_INTERNAL_ERROR"] = {"HIPBLAS_STATUS_INTERNAL_ERROR", CONV_NUMERIC_LITERAL, API_BLAS};
cuda2hipRename["CUBLAS_STATUS_NOT_SUPPORTED"] = {"HIPBLAS_STATUS_INTERNAL_ERROR", CONV_NUMERIC_LITERAL, API_BLAS};
// Blas Fill Modes
// unsupported yet by hipblas/hcblas
//cuda2hipRename["cublasFillMode_t"] = {"hipblasFillMode_t", CONV_TYPE, API_BLAS};
//cuda2hipRename["CUBLAS_FILL_MODE_LOWER"] = {"HIPBLAS_FILL_MODE_LOWER", CONV_NUMERIC_LITERAL, API_BLAS};
//cuda2hipRename["CUBLAS_FILL_MODE_UPPER"] = {"HIPBLAS_FILL_MODE_UPPER", CONV_NUMERIC_LITERAL, API_BLAS};
// Blas Diag Types
// unsupported yet by hipblas/hcblas
//cuda2hipRename["cublasDiagType_t"] = {"hipblasDiagType_t", CONV_TYPE, API_BLAS};
//cuda2hipRename["CUBLAS_DIAG_NON_UNIT"] = {"HIPBLAS_DIAG_NON_UNIT", CONV_NUMERIC_LITERAL, API_BLAS};
//cuda2hipRename["CUBLAS_DIAG_UNIT"] = {"HIPBLAS_DIAG_UNIT", CONV_NUMERIC_LITERAL, API_BLAS};
// Blas Side Modes
// unsupported yet by hipblas/hcblas
//cuda2hipRename["cublasSideMode_t"] = {"hipblasSideMode_t", CONV_TYPE, API_BLAS};
//cuda2hipRename["CUBLAS_SIDE_LEFT"] = {"HIPBLAS_SIDE_LEFT", CONV_NUMERIC_LITERAL, API_BLAS};
//cuda2hipRename["CUBLAS_SIDE_RIGHT"] = {"HIPBLAS_SIDE_RIGHT", CONV_NUMERIC_LITERAL, API_BLAS};
// Blas Pointer Modes
// unsupported yet by hipblas/hcblas
//cuda2hipRename["cublasPointerMode_t"] = {"hipblasPointerMode_t", CONV_TYPE, API_BLAS};
//cuda2hipRename["CUBLAS_POINTER_MODE_HOST"] = {"HIPBLAS_POINTER_MODE_HOST", CONV_NUMERIC_LITERAL, API_BLAS};
//cuda2hipRename["CUBLAS_POINTER_MODE_DEVICE"] = {"HIPBLAS_POINTER_MODE_DEVICE", CONV_NUMERIC_LITERAL, API_BLAS};
// Blas Atomics Modes
// unsupported yet by hipblas/hcblas
//cuda2hipRename["cublasAtomicsMode_t"] = {"hipblasAtomicsMode_t", CONV_TYPE, API_BLAS};
//cuda2hipRename["CUBLAS_ATOMICS_NOT_ALLOWED"] = {"HIPBLAS_ATOMICS_NOT_ALLOWED", CONV_NUMERIC_LITERAL, API_BLAS};
//cuda2hipRename["CUBLAS_ATOMICS_ALLOWED"] = {"HIPBLAS_ATOMICS_ALLOWED", CONV_NUMERIC_LITERAL, API_BLAS};
// Blas Data Type
// unsupported yet by hipblas/hcblas
//cuda2hipRename["cublasDataType_t"] = {"hipblasDataType_t", CONV_TYPE, API_BLAS};
//cuda2hipRename["CUBLAS_DATA_FLOAT"] = {"HIPBLAS_DATA_FLOAT", CONV_NUMERIC_LITERAL, API_BLAS};
//cuda2hipRename["CUBLAS_DATA_DOUBLE"] = {"HIPBLAS_DATA_DOUBLE", CONV_NUMERIC_LITERAL, API_BLAS};
//cuda2hipRename["CUBLAS_DATA_HALF"] = {"HIPBLAS_DATA_HALF", CONV_NUMERIC_LITERAL, API_BLAS};
//cuda2hipRename["CUBLAS_DATA_INT8"] = {"HIPBLAS_DATA_INT8", CONV_NUMERIC_LITERAL, API_BLAS};
// Blas1 (v1) Routines
cuda2hipRename["cublasCreate"] = {"hipblasCreate", CONV_MATH_FUNC, API_BLAS};
cuda2hipRename["cublasDestroy"] = {"hipblasDestroy", CONV_MATH_FUNC, API_BLAS};
cuda2hipRename["cublasSetVector"] = {"hipblasSetVector", CONV_MATH_FUNC, API_BLAS};
cuda2hipRename["cublasGetVector"] = {"hipblasGetVector", CONV_MATH_FUNC, API_BLAS};
cuda2hipRename["cublasSetMatrix"] = {"hipblasSetMatrix", CONV_MATH_FUNC, API_BLAS};
cuda2hipRename["cublasGetMatrix"] = {"hipblasGetMatrix", CONV_MATH_FUNC, API_BLAS};
// unsupported yet by hipblas/hcblas
//cuda2hipRename["cublasGetMatrixAsync"] = {"hipblasGetMatrixAsync", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasSetMatrixAsync"] = {"hipblasSetMatrixAsync", CONV_MATH_FUNC, API_BLAS};
// NRM2
//cuda2hipRename["cublasSnrm2"] = {"hipblasSnrm2", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasDnrm2"] = {"hipblasDnrm2", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasScnrm2"] = {"hipblasScnrm2", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasDznrm2"] = {"hipblasDznrm2", CONV_MATH_FUNC, API_BLAS};
// DOT
cuda2hipRename["cublasSdot"] = {"hipblasSdot", CONV_MATH_FUNC, API_BLAS};
// there is no such a function in CUDA
cuda2hipRename["cublasSdotBatched"] = {"hipblasSdotBatched",CONV_MATH_FUNC, API_BLAS};
cuda2hipRename["cublasDdot"] = {"hipblasDdot", CONV_MATH_FUNC, API_BLAS};
// there is no such a function in CUDA
cuda2hipRename["cublasDdotBatched"] = {"hipblasDdotBatched", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasCdotu"] = {"hipblasCdotu", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasCdotc"] = {"hipblasCdotc", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasZdotu"] = {"hipblasZdotu", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasZdotc"] = {"hipblasZdotc", CONV_MATH_FUNC, API_BLAS};
// SCAL
cuda2hipRename["cublasSscal"] = {"hipblasSscal", CONV_MATH_FUNC, API_BLAS};
// there is no such a function in CUDA
cuda2hipRename["cublasSscalBatched"] = {"hipblasSscalBatched", CONV_MATH_FUNC, API_BLAS};
cuda2hipRename["cublasDscal"] = {"hipblasDscal", CONV_MATH_FUNC, API_BLAS};
// there is no such a function in CUDA
cuda2hipRename["cublasDscalBatched"] = {"hipblasDscalBatched", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasCscal"] = {"hipblasCscal", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasCsscal"] = {"hipblasCsscal", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasZscal"] = {"hipblasZscal", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasZdscal"] = {"hipblasZdscal", CONV_MATH_FUNC, API_BLAS};
// AXPY
cuda2hipRename["cublasSaxpy"] = {"hipblasSaxpy", CONV_MATH_FUNC, API_BLAS};
// there is no such a function in CUDA
cuda2hipRename["cublasSaxpyBatched"] = {"hipblasSaxpyBatched", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasDaxpy"] = {"hipblasDaxpy", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasCaxpy"] = {"hipblasCaxpy", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasZaxpy"] = {"hipblasZaxpy", CONV_MATH_FUNC, API_BLAS};
// COPY
cuda2hipRename["cublasScopy"] = {"hipblasScopy", CONV_MATH_FUNC, API_BLAS};
// there is no such a function in CUDA
cuda2hipRename["cublasScopyBatched"] = {"hipblasScopyBatched", CONV_MATH_FUNC, API_BLAS};
cuda2hipRename["cublasDcopy"] = {"hipblasDcopy", CONV_MATH_FUNC, API_BLAS};
// there is no such a function in CUDA
cuda2hipRename["cublasDcopyBatched"] = {"hipblasDcopyBatched", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasCcopy"] = {"hipblasCcopy", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasZcopy"] = {"hipblasZcopy", CONV_MATH_FUNC, API_BLAS};
// SWAP
//cuda2hipRename["cublasSswap"] = {"hipblasSswap", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasDswap"] = {"hipblasDswap", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasCswap"] = {"hipblasCswap", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasZswap"] = {"hipblasZswap", CONV_MATH_FUNC, API_BLAS};
// AMAX
//cuda2hipRename["cublasIsamax"] = {"hipblasIsamax", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasIdamax"] = {"hipblasIdamax", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasIcamax"] = {"hipblasIcamax", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasIzamax"] = {"hipblasIzamax", CONV_MATH_FUNC, API_BLAS};
// AMIN
//cuda2hipRename["cublasIsamin"] = {"hipblasIsamin", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasIdamin"] = {"hipblasIdamin", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasIcamin"] = {"hipblasIcamin", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasIzamin"] = {"hipblasIzamin", CONV_MATH_FUNC, API_BLAS};
// ASUM
cuda2hipRename["cublasSasum"] = {"hipblasSasum", CONV_MATH_FUNC, API_BLAS};
// there is no such a function in CUDA
cuda2hipRename["cublasSasumBatched"] = {"hipblasSasumBatched", CONV_MATH_FUNC, API_BLAS};
cuda2hipRename["cublasDasum"] = {"hipblasDasum", CONV_MATH_FUNC, API_BLAS};
// there is no such a function in CUDA
cuda2hipRename["cublasDasumBatched"] = {"hipblasDasumBatched", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasScasum"] = {"hipblasScasum", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasDzasum"] = {"hipblasDzasum", CONV_MATH_FUNC, API_BLAS};
// ROT
//cuda2hipRename["cublasSrot"] = {"hipblasSrot", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasDrot"] = {"hipblasDrot", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasCrot"] = {"hipblasCrot", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasCsrot"] = {"hipblasCsrot", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasZrot"] = {"hipblasZrot", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasZdrot"] = {"hipblasZdrot", CONV_MATH_FUNC, API_BLAS};
// ROTG
//cuda2hipRename["cublasSrotg"] = {"hipblasSrotg", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasDrotg"] = {"hipblasDrotg", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasCrotg"] = {"hipblasCrotg", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasZrotg"] = {"hipblasZrotg", CONV_MATH_FUNC, API_BLAS};
// ROTM
//cuda2hipRename["cublasSrotm"] = {"hipblasSrotm", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasDrotm"] = {"hipblasDrotm", CONV_MATH_FUNC, API_BLAS};
// ROTMG
//cuda2hipRename["cublasSrotmg"] = {"hipblasSrotmg", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasDrotmg"] = {"hipblasDrotmg", CONV_MATH_FUNC, API_BLAS};
// GEMV
cuda2hipRename["cublasSgemv"] = {"hipblasSgemv", CONV_MATH_FUNC, API_BLAS};
// there is no such a function in CUDA
cuda2hipRename["cublasSgemvBatched"] = {"hipblasSgemvBatched", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasDgemv"] = {"hipblasDgemv", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasCgemv"] = {"hipblasCgemv", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasZgemv"] = {"hipblasZgemv", CONV_MATH_FUNC, API_BLAS};
// GBMV
//cuda2hipRename["cublasSgbmv"] = {"hipblasSgbmv", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasDgbmv"] = {"hipblasDgbmv", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasCgbmv"] = {"hipblasCgbmv", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasZgbmv"] = {"hipblasZgbmv", CONV_MATH_FUNC, API_BLAS};
// TRMV
//cuda2hipRename["cublasStrmv"] = {"hipblasStrmv", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasDtrmv"] = {"hipblasDtrmv", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasCtrmv"] = {"hipblasCtrmv", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasZtrmv"] = {"hipblasZtrmv", CONV_MATH_FUNC, API_BLAS};
// TBMV
//cuda2hipRename["cublasStbmv"] = {"hipblasStbmv", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasDtbmv"] = {"hipblasDtbmv", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasCtbmv"] = {"hipblasCtbmv", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasZtbmv"] = {"hipblasZtbmv", CONV_MATH_FUNC, API_BLAS};
// TPMV
//cuda2hipRename["cublasStpmv"] = {"hipblasStpmv", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasDtpmv"] = {"hipblasDtpmv", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasCtpmv"] = {"hipblasCtpmv", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasZtpmv"] = {"hipblasZtpmv", CONV_MATH_FUNC, API_BLAS};
// TRSV
//cuda2hipRename["cublasStrsv"] = {"hipblasStrsv", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasDtrsv"] = {"hipblasDtrsv", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasCtrsv"] = {"hipblasCtrsv", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasZtrsv"] = {"hipblasZtrsv", CONV_MATH_FUNC, API_BLAS};
// TPSV
//cuda2hipRename["cublasStpsv"] = {"hipblasStpsv", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasDtpsv"] = {"hipblasDtpsv", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasCtpsv"] = {"hipblasCtpsv", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasZtpsv"] = {"hipblasZtpsv", CONV_MATH_FUNC, API_BLAS};
// TBSV
//cuda2hipRename["cublasStbsv"] = {"hipblasStbsv", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasDtbsv"] = {"hipblasDtbsv", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasCtbsv"] = {"hipblasCtbsv", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasZtbsv"] = {"hipblasZtbsv", CONV_MATH_FUNC, API_BLAS};
// SYMV/HEMV
//cuda2hipRename["cublasSsymv"] = {"hipblasSsymv", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasDsymv"] = {"hipblasDsymv", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasCsymv"] = {"hipblasCsymv", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasZsymv"] = {"hipblasZsymv", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasChemv"] = {"hipblasChemv", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasZhemv"] = {"hipblasZhemv", CONV_MATH_FUNC, API_BLAS};
// SBMV/HBMV
//cuda2hipRename["cublasSsbmv"] = {"hipblasSsbmv", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasDsbmv"] = {"hpiblasDsbmv", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasChbmv"] = {"hipblasChbmv", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasZhbmv"] = {"hipblasZhbmv", CONV_MATH_FUNC, API_BLAS};
// SPMV/HPMV
//cuda2hipRename["cublasSspmv"] = {"hipblasSspmv", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasDspmv"] = {"hipblasDspmv", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasChpmv"] = {"hipblasChpmv", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasZhpmv"] = {"hipblasZhpmv", CONV_MATH_FUNC, API_BLAS};
// GER
cuda2hipRename["cublasSger"] = {"hipblasSger", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasDger"] = {"hipblasDger", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasCgeru"] = {"hipblasCgeru", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasCgerc"] = {"hipblasCgerc", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasZgeru"] = {"hipblasZgeru", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasZgerc"] = {"hipblasZgerc", CONV_MATH_FUNC, API_BLAS};
// SYR/HER
//cuda2hipRename["cublasSsyr"] = {"hipblasSsyr", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasDsyr"] = {"hipblasDsyr", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasCher"] = {"hipblasCher", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasZher"] = {"hipblasZher", CONV_MATH_FUNC, API_BLAS};
// SPR/HPR
//cuda2hipRename["cublasSspr"] = {"hipblasSspr", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasDspr"] = {"hipblasDspr", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasChpr"] = {"hipblasChpr", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasZhpr"] = {"hipblasZhpr", CONV_MATH_FUNC, API_BLAS};
// SYR2/HER2
//cuda2hipRename["cublasSsyr2"] = {"hipblasSsyr2", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasDsyr2"] = {"hipblasDsyr2", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasCher2"] = {"hipblasCher2", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasZher2"] = {"hipblasZher2", CONV_MATH_FUNC, API_BLAS};
// SPR2/HPR2
//cuda2hipRename["cublasSspr2"] = {"hipblasSspr2", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasDspr2"] = {"hipblasDspr2", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasChpr2"] = {"hipblasChpr2", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasZhpr2"] = {"hipblasZhpr2", CONV_MATH_FUNC, API_BLAS};
// Blas3 (v1) Routines
// GEMM
cuda2hipRename["cublasSgemm"] = {"hipblasSgemm", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasDgemm"] = {"hipblasDgemm", CONV_MATH_FUNC, API_BLAS};
cuda2hipRename["cublasCgemm"] = {"hipblasCgemm", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasZgemm"] = {"hipblasZgemm", CONV_MATH_FUNC, API_BLAS};
// BATCH GEMM
cuda2hipRename["cublasSgemmBatched"] = {"hipblasSgemmBatched", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasDgemmBatched"] = {"hipblasDgemmBatched", CONV_MATH_FUNC, API_BLAS};
cuda2hipRename["cublasCgemmBatched"] = {"hipblasCgemmBatched", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasZgemmBatched"] = {"hipblasZgemmBatched", CONV_MATH_FUNC, API_BLAS};
// SYRK
//cuda2hipRename["cublasSsyrk"] = {"hipblasSsyrk", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasDsyrk"] = {"hipblasDsyrk", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasCsyrk"] = {"hipblasCsyrk", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasZsyrk"] = {"hipblasZsyrk", CONV_MATH_FUNC, API_BLAS};
// HERK
//cuda2hipRename["cublasCherk"] = {"hipblasCherk", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasZherk"] = {"hipblasZherk", CONV_MATH_FUNC, API_BLAS};
// SYR2K
//cuda2hipRename["cublasSsyr2k"] = {"hipblasSsyr2k", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasDsyr2k"] = {"hipblasDsyr2k", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasCsyr2k"] = {"hipblasCsyr2k", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasZsyr2k"] = {"hipblasZsyr2k", CONV_MATH_FUNC, API_BLAS};
// SYRKX - eXtended SYRK
// cublasSsyrkx
// cublasDsyrkx
// cublasCsyrkx
// cublasZsyrkx
// HER2K
//cuda2hipRename["cublasCher2k"] = {"hipblasCher2k", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasZher2k"] = {"hipblasZher2k", CONV_MATH_FUNC, API_BLAS};
// HERKX - eXtended HERK
// cublasCherkx
// cublasZherkx
// SYMM
//cuda2hipRename["cublasSsymm"] = {"hipblasSsymm", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasDsymm"] = {"hipblasDsymm", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasCsymm"] = {"hipblasCsymm", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasZsymm"] = {"hipblasZsymm", CONV_MATH_FUNC, API_BLAS};
// HEMM
//cuda2hipRename["cublasChemm"] = {"hipblasChemm", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasZhemm"] = {"hipblasZhemm", CONV_MATH_FUNC, API_BLAS};
// TRSM
//cuda2hipRename["cublasStrsm"] = {"hipblasStrsm", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasDtrsm"] = {"hipblasDtrsm", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasCtrsm"] = {"hipblasCtrsm", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasZtrsm"] = {"hipblasZtrsm", CONV_MATH_FUNC, API_BLAS};
// TRSM - Batched Triangular Solver
//cuda2hipRename["cublasStrsmBatched"] = {"hipblasStrsmBatched", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasDtrsmBatched"] = {"hipblasDtrsmBatched", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasCtrsmBatched"] = {"hipblasCtrsmBatched", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasZtrsmBatched"] = {"hipblasZtrsmBatched", CONV_MATH_FUNC, API_BLAS};
// TRMM
//cuda2hipRename["cublasStrmm"] = {"hipblasStrmm", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasDtrmm"] = {"hipblasDtrmm", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasCtrmm"] = {"hipblasCtrmm", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasZtrmm"] = {"hipblasZtrmm", CONV_MATH_FUNC, API_BLAS};
// TO SUPPORT OR NOT? (cublas_api.h)
// ------------------------ CUBLAS BLAS - like extension
// GEAM
// cublasSgeam
// cublasDgeam
// cublasCgeam
// cublasZgeam
// GETRF - Batched LU
// cublasSgetrfBatched
// cublasDgetrfBatched
// cublasCgetrfBatched
// cublasZgetrfBatched
// Batched inversion based on LU factorization from getrf
// cublasSgetriBatched
// cublasDgetriBatched
// cublasCgetriBatched
// cublasZgetriBatched
// Batched solver based on LU factorization from getrf
// cublasSgetrsBatched
// cublasDgetrsBatched
// cublasCgetrsBatched
// cublasZgetrsBatched
// TRSM - Batched Triangular Solver
// cublasStrsmBatched
// cublasDtrsmBatched
// cublasCtrsmBatched
// cublasZtrsmBatched
// MATINV - Batched
// cublasSmatinvBatched
// cublasDmatinvBatched
// cublasCmatinvBatched
// cublasZmatinvBatched
// Batch QR Factorization
// cublasSgeqrfBatched
// cublasDgeqrfBatched
// cublasCgeqrfBatched
// cublasZgeqrfBatched
// Least Square Min only m >= n and Non-transpose supported
// cublasSgelsBatched
// cublasDgelsBatched
// cublasCgelsBatched
// cublasZgelsBatched
// DGMM
// cublasSdgmm
// cublasDdgmm
// cublasCdgmm
// cublasZdgmm
// TPTTR - Triangular Pack format to Triangular format
// cublasStpttr
// cublasDtpttr
// cublasCtpttr
// cublasZtpttr
// TRTTP - Triangular format to Triangular Pack format
// cublasStrttp
// cublasDtrttp
// cublasCtrttp
// cublasZtrttp
// Blas2 (v2) Routines
cuda2hipRename["cublasCreate_v2"] = {"hipblasCreate", CONV_MATH_FUNC, API_BLAS};
cuda2hipRename["cublasDestroy_v2"] = {"hipblasDestroy", CONV_MATH_FUNC, API_BLAS};
// unsupported yet by hipblas/hcblas
//cuda2hipRename["cublasGetVersion_v2"] = {"hipblasGetVersion", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasSetStream_v2"] = {"hipblasSetStream", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasGetStream_v2"] = {"hipblasGetStream", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasGetPointerMode_v2"] = {"hipblasGetPointerMode", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasSetPointerMode_v2"] = {"hipblasSetPointerMode", CONV_MATH_FUNC, API_BLAS};
// GEMV
cuda2hipRename["cublasSgemv_v2"] = {"hipblasSgemv", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasDgemv_v2"] = {"hipblasDgemv", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasCgemv_v2"] = {"hipblasCgemv", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasZgemv_v2"] = {"hipblasZgemv", CONV_MATH_FUNC, API_BLAS};
// GBMV
//cuda2hipRename["cublasSgbmv_v2"] = {"hipblasSgbmv", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasDgbmv_v2"] = {"hipblasDgbmv", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasCgbmv_v2"] = {"hipblasCgbmv", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasZgbmv_v2"] = {"hipblasZgbmv", CONV_MATH_FUNC, API_BLAS};
// TRMV
//cuda2hipRename["cublasStrmv_v2"] = {"hipblasStrmv", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasDtrmv_v2"] = {"hipblasDtrmv", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasCtrmv_v2"] = {"hipblasCtrmv", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasZtrmv_v2"] = {"hipblasZtrmv", CONV_MATH_FUNC, API_BLAS};
// TBMV
//cuda2hipRename["cublasStbmv_v2"] = {"hipblasStbmv", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasDtbmv_v2"] = {"hipblasDtbmv", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasCtbmv_v2"] = {"hipblasCtbmv", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasZtbmv_v2"] = {"hipblasZtbmv", CONV_MATH_FUNC, API_BLAS};
// TPMV
//cuda2hipRename["cublasStpmv_v2"] = {"hipblasStpmv", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasDtpmv_v2"] = {"hipblasDtpmv", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasCtpmv_v2"] = {"hipblasCtpmv", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasZtpmv_v2"] = {"hipblasZtpmv", CONV_MATH_FUNC, API_BLAS};
// TRSV
//cuda2hipRename["cublasStrsv_v2"] = {"hipblasStrsv", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasDtrsv_v2"] = {"hipblasDtrsv", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasCtrsv_v2"] = {"hipblasCtrsv", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasZtrsv_v2"] = {"hipblasZtrsv", CONV_MATH_FUNC, API_BLAS};
// TPSV
//cuda2hipRename["cublasStpsv_v2"] = {"hipblasStpsv", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasDtpsv_v2"] = {"hipblasDtpsv", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasCtpsv_v2"] = {"hipblasCtpsv", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasZtpsv_v2"] = {"hipblasZtpsv", CONV_MATH_FUNC, API_BLAS};
// TBSV
//cuda2hipRename["cublasStbsv_v2"] = {"hipblasStbsv", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasDtbsv_v2"] = {"hipblasDtbsv", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasCtbsv_v2"] = {"hipblasCtbsv", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasZtbsv_v2"] = {"hipblasZtbsv", CONV_MATH_FUNC, API_BLAS};
// SYMV/HEMV
//cuda2hipRename["cublasSsymv_v2"] = {"hipblasSsymv", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasDsymv_v2"] = {"hipblasDsymv", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasCsymv_v2"] = {"hipblasCsymv", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasZsymv_v2"] = {"hipblasZsymv", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasChemv_v2"] = {"hipblasChemv", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasZhemv_v2"] = {"hipblasZhemv", CONV_MATH_FUNC, API_BLAS};
// SBMV/HBMV
//cuda2hipRename["cublasSsbmv_v2"] = {"hipblasSsbmv", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasDsbmv_v2"] = {"hpiblasDsbmv", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasChbmv_v2"] = {"hipblasChbmv", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasZhbmv_v2"] = {"hipblasZhbmv", CONV_MATH_FUNC, API_BLAS};
// SPMV/HPMV
//cuda2hipRename["cublasSspmv_v2"] = {"hipblasSspmv", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasDspmv_v2"] = {"hipblasDspmv", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasChpmv_v2"] = {"hipblasChpmv", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasZhpmv_v2"] = {"hipblasZhpmv", CONV_MATH_FUNC, API_BLAS};
// GER
cuda2hipRename["cublasSger_v2"] = {"hipblasSger", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasDger_v2"] = {"hipblasDger", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasCgeru_v2"] = {"hipblasCgeru", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasCgerc_v2"] = {"hipblasCgerc", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasZgeru_v2"] = {"hipblasZgeru", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasZgerc_v2"] = {"hipblasZgerc", CONV_MATH_FUNC, API_BLAS};
// SYR/HER
//cuda2hipRename["cublasSsyr_v2"] = {"hipblasSsyr", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasDsyr_v2"] = {"hipblasDsyr", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasCsyr_v2"] = {"hipblasCsyr", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasZsyr_v2"] = {"hipblasZsyr", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasCher_v2"] = {"hipblasCher", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasZher_v2"] = {"hipblasZher", CONV_MATH_FUNC, API_BLAS};
// SPR/HPR
//cuda2hipRename["cublasSspr_v2"] = {"hipblasSspr", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasDspr_v2"] = {"hipblasDspr", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasChpr_v2"] = {"hipblasChpr", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasZhpr_v2"] = {"hipblasZhpr", CONV_MATH_FUNC, API_BLAS};
// SYR2/HER2
//cuda2hipRename["cublasSsyr2_v2"] = {"hipblasSsyr2", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasDsyr2_v2"] = {"hipblasDsyr2", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasCsyr2_v2"] = {"hipblasCsyr2", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasZsyr2_v2"] = {"hipblasZsyr2", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasCher2_v2"] = {"hipblasCher2", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasZher2_v2"] = {"hipblasZher2", CONV_MATH_FUNC, API_BLAS};
// SPR2/HPR2
//cuda2hipRename["cublasSspr2_v2"] = {"hipblasSspr2", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasDspr2_v2"] = {"hipblasDspr2", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasChpr2_v2"] = {"hipblasChpr2", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasZhpr2_v2"] = {"hipblasZhpr2", CONV_MATH_FUNC, API_BLAS};
// Blas3 (v2) Routines
// GEMM
cuda2hipRename["cublasSgemm_v2"] = {"hipblasSgemm", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasDgemm_v2"] = {"hipblasDgemm", CONV_MATH_FUNC, API_BLAS};
cuda2hipRename["cublasCgemm_v2"] = {"hipblasCgemm", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasZgemm_v2"] = {"hipblasZgemm", CONV_MATH_FUNC, API_BLAS};
//IO in FP16 / FP32, computation in float
// cublasSgemmEx
// SYRK
//cuda2hipRename["cublasSsyrk_v2"] = {"hipblasSsyrk", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasDsyrk_v2"] = {"hipblasDsyrk", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasCsyrk_v2"] = {"hipblasCsyrk", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasZsyrk_v2"] = {"hipblasZsyrk", CONV_MATH_FUNC, API_BLAS};
// HERK
//cuda2hipRename["cublasCherk_v2"] = {"hipblasCherk", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasZherk_v2"] = {"hipblasZherk", CONV_MATH_FUNC, API_BLAS};
// SYR2K
//cuda2hipRename["cublasSsyr2k_v2"] = {"hipblasSsyr2k", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasDsyr2k_v2"] = {"hipblasDsyr2k", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasCsyr2k_v2"] = {"hipblasCsyr2k", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasZsyr2k_v2"] = {"hipblasZsyr2k", CONV_MATH_FUNC, API_BLAS};
// HER2K
//cuda2hipRename["cublasCher2k_v2"] = {"hipblasCher2k", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasZher2k_v2"] = {"hipblasZher2k", CONV_MATH_FUNC, API_BLAS};
// SYMM
//cuda2hipRename["cublasSsymm_v2"] = {"hipblasSsymm", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasDsymm_v2"] = {"hipblasDsymm", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasCsymm_v2"] = {"hipblasCsymm", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasZsymm_v2"] = {"hipblasZsymm", CONV_MATH_FUNC, API_BLAS};
// HEMM
//cuda2hipRename["cublasChemm_v2"] = {"hipblasChemm", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasZhemm_v2"] = {"hipblasZhemm", CONV_MATH_FUNC, API_BLAS};
// TRSM
//cuda2hipRename["cublasStrsm_v2"] = {"hipblasStrsm", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasDtrsm_v2"] = {"hipblasDtrsm", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasCtrsm_v2"] = {"hipblasCtrsm", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasZtrsm_v2"] = {"hipblasZtrsm", CONV_MATH_FUNC, API_BLAS};
// TRMM
//cuda2hipRename["cublasStrmm_v2"] = {"hipblasStrmm", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasDtrmm_v2"] = {"hipblasDtrmm", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasCtrmm_v2"] = {"hipblasCtrmm", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasZtrmm_v2"] = {"hipblasZtrmm", CONV_MATH_FUNC, API_BLAS};
// NRM2
//cuda2hipRename["cublasSnrm2_v2"] = {"hipblasSnrm2", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasDnrm2_v2"] = {"hipblasDnrm2", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasScnrm2_v2"] = {"hipblasScnrm2", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasDznrm2_v2"] = {"hipblasDznrm2", CONV_MATH_FUNC, API_BLAS};
// DOT
cuda2hipRename["cublasSdot_v2"] = {"hipblasSdot", CONV_MATH_FUNC, API_BLAS};
cuda2hipRename["cublasDdot_v2"] = {"hipblasDdot", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasCdotu_v2"] = {"hipblasCdotu", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasCdotc_v2"] = {"hipblasCdotc", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasZdotu_v2"] = {"hipblasZdotu", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasZdotc_v2"] = {"hipblasZdotc", CONV_MATH_FUNC, API_BLAS};
// SCAL
cuda2hipRename["cublasSscal_v2"] = {"hipblasSscal", CONV_MATH_FUNC, API_BLAS};
cuda2hipRename["cublasDscal_v2"] = {"hipblasDscal", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasCscal_v2"] = {"hipblasCscal", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasCsscal_v2"] = {"hipblasCsscal", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasZscal_v2"] = {"hipblasZscal", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasZdscal_v2"] = {"hipblasZdscal", CONV_MATH_FUNC, API_BLAS};
// AXPY
cuda2hipRename["cublasSaxpy_v2"] = {"hipblasSaxpy", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasDaxpy_v2"] = {"hipblasDaxpy", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasCaxpy_v2"] = {"hipblasCaxpy", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasZaxpy_v2"] = {"hipblasZaxpy", CONV_MATH_FUNC, API_BLAS};
// COPY
cuda2hipRename["cublasScopy_v2"] = {"hipblasScopy", CONV_MATH_FUNC, API_BLAS};
cuda2hipRename["cublasDcopy_v2"] = {"hipblasDcopy", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasCcopy_v2"] = {"hipblasCcopy", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasZcopy_v2"] = {"hipblasZcopy", CONV_MATH_FUNC, API_BLAS};
// SWAP
//cuda2hipRename["cublasSswap_v2"] = {"hipblasSswap", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasDswap_v2"] = {"hipblasDswap", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasCswap_v2"] = {"hipblasCswap", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasZswap_v2"] = {"hipblasZswap", CONV_MATH_FUNC, API_BLAS};
// AMAX
//cuda2hipRename["cublasIsamax_v2"] = {"hipblasIsamax", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasIdamax_v2"] = {"hipblasIdamax", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasIcamax_v2"] = {"hipblasIcamax", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasIzamax_v2"] = {"hipblasIzamax", CONV_MATH_FUNC, API_BLAS};
// AMIN
//cuda2hipRename["cublasIsamin_v2"] = {"hipblasIsamin", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasIdamin_v2"] = {"hipblasIdamin", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasIcamin_v2"] = {"hipblasIcamin", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasIzamin_v2"] = {"hipblasIzamin", CONV_MATH_FUNC, API_BLAS};
// ASUM
cuda2hipRename["cublasSasum_v2"] = {"hipblasSasum", CONV_MATH_FUNC, API_BLAS};
cuda2hipRename["cublasDasum_v2"] = {"hipblasDasum", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasScasum_v2"] = {"hipblasScasum", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasDzasum_v2"] = {"hipblasDzasum", CONV_MATH_FUNC, API_BLAS};
// ROT
//cuda2hipRename["cublasSrot_v2"] = {"hipblasSrot", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasDrot_v2"] = {"hipblasDrot", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasCrot_v2"] = {"hipblasCrot", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasCsrot_v2"] = {"hipblasCsrot", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasZrot_v2"] = {"hipblasZrot", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasZdrot_v2"] = {"hipblasZdrot", CONV_MATH_FUNC, API_BLAS};
// ROTG
//cuda2hipRename["cublasSrotg_v2"] = {"hipblasSrotg", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasDrotg_v2"] = {"hipblasDrotg", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasCrotg_v2"] = {"hipblasCrotg", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasZrotg_v2"] = {"hipblasZrotg", CONV_MATH_FUNC, API_BLAS};
// ROTM
//cuda2hipRename["cublasSrotm_v2"] = {"hipblasSrotm", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasDrotm_v2"] = {"hipblasDrotm", CONV_MATH_FUNC, API_BLAS};
// ROTMG
//cuda2hipRename["cublasSrotmg_v2"] = {"hipblasSrotmg", CONV_MATH_FUNC, API_BLAS};
//cuda2hipRename["cublasDrotmg_v2"] = {"hipblasDrotmg", CONV_MATH_FUNC, API_BLAS};
}
struct HipNames {
StringRef hipName;
ConvTypes countType;
ApiTypes countApiType;
};
SmallDenseMap<StringRef, HipNames> cuda2hipRename;
std::set<StringRef> cudaExcludes;
};
StringRef unquoteStr(StringRef s) {
if (s.size() > 1 && s.front() == '"' && s.back() == '"')
return s.substr(1, s.size() - 2);
return s;
}
static void processString(StringRef s, const cuda2hipMap &map,
Replacements *Replace, SourceManager &SM,
SourceLocation start,
int64_t countReps[CONV_LAST],
int64_t countApiReps[API_LAST]) {
size_t begin = 0;
while ((begin = s.find("cu", begin)) != StringRef::npos) {
const size_t end = s.find_first_of(" ", begin + 4);
StringRef name = s.slice(begin, end);
const auto found = map.cuda2hipRename.find(name);
if (found != map.cuda2hipRename.end()) {
StringRef repName = found->second.hipName;
countReps[CONV_LITERAL]++;
countApiReps[API_RUNTIME]++;
SourceLocation sl = start.getLocWithOffset(begin + 1);
Replacement Rep(SM, sl, name.size(), repName);
Replace->insert(Rep);
}
if (end == StringRef::npos)
break;
begin = end + 1;
}
}
class Cuda2HipCallback;
class HipifyPPCallbacks : public PPCallbacks, public SourceFileCallbacks {
public:
HipifyPPCallbacks(Replacements *R)
: SeenEnd(false), _sm(nullptr), _pp(nullptr), Replace(R) {}
virtual bool handleBeginSource(CompilerInstance &CI,
StringRef Filename) override {
Preprocessor &PP = CI.getPreprocessor();
SourceManager &SM = CI.getSourceManager();
setSourceManager(&SM);
PP.addPPCallbacks(std::unique_ptr<HipifyPPCallbacks>(this));
PP.Retain();
setPreprocessor(&PP);
return true;
}
virtual void handleEndSource() override;
virtual void InclusionDirective(SourceLocation hash_loc,
const Token &include_token,
StringRef file_name, bool is_angled,
CharSourceRange filename_range,
const FileEntry *file, StringRef search_path,
StringRef relative_path,
const clang::Module *imported) override {
if (_sm->isWrittenInMainFile(hash_loc)) {
if (is_angled) {
const auto found = N.cuda2hipRename.find(file_name);
if (found != N.cuda2hipRename.end()) {
StringRef repName = found->second.hipName;
countReps[found->second.countType]++;
countApiReps[found->second.countApiType]++;
DEBUG(dbgs() << "Include file found: " << file_name << "\n"
<< "SourceLocation:"
<< filename_range.getBegin().printToString(*_sm) << "\n"
<< "Will be replaced with " << repName << "\n");
SourceLocation sl = filename_range.getBegin();
SourceLocation sle = filename_range.getEnd();
const char *B = _sm->getCharacterData(sl);
const char *E = _sm->getCharacterData(sle);
SmallString<128> tmpData;
Replacement Rep(*_sm, sl, E - B,
Twine("<" + repName + ">").toStringRef(tmpData));
Replace->insert(Rep);
}
}
}
}
virtual void MacroDefined(const Token &MacroNameTok,
const MacroDirective *MD) override {
if (_sm->isWrittenInMainFile(MD->getLocation()) &&
MD->getKind() == MacroDirective::MD_Define) {
for (auto T : MD->getMacroInfo()->tokens()) {
if (T.isAnyIdentifier()) {
StringRef name = T.getIdentifierInfo()->getName();
const auto found = N.cuda2hipRename.find(name);
if (found != N.cuda2hipRename.end()) {
StringRef repName = found->second.hipName;
countReps[found->second.countType]++;
countApiReps[found->second.countApiType]++;
SourceLocation sl = T.getLocation();
DEBUG(dbgs() << "Identifier " << name
<< " found in definition of macro "
<< MacroNameTok.getIdentifierInfo()->getName() << "\n"
<< "will be replaced with: " << repName << "\n"
<< "SourceLocation: " << sl.printToString(*_sm)
<< "\n");
Replacement Rep(*_sm, sl, name.size(), repName);
Replace->insert(Rep);
}
}
}
}
}
virtual void MacroExpands(const Token &MacroNameTok,
const MacroDefinition &MD, SourceRange Range,
const MacroArgs *Args) override {
if (_sm->isWrittenInMainFile(MacroNameTok.getLocation())) {
StringRef macroName = MacroNameTok.getIdentifierInfo()->getName();
if (N.cudaExcludes.end() == N.cudaExcludes.find(macroName)) {
for (unsigned int i = 0; Args && i < MD.getMacroInfo()->getNumArgs(); i++) {
std::vector<Token> toks;
// Code below is a kind of stolen from 'MacroArgs::getPreExpArgument'
// to workaround the 'const' MacroArgs passed into this hook.
const Token *start = Args->getUnexpArgument(i);
size_t len = Args->getArgLength(start) + 1;
#if (LLVM_VERSION_MAJOR >= 3) && (LLVM_VERSION_MINOR >= 9)
_pp->EnterTokenStream(ArrayRef<Token>(start, len), false);
#else
_pp->EnterTokenStream(start, len, false, false);
#endif
do {
toks.push_back(Token());
Token &tk = toks.back();
_pp->Lex(tk);
} while (toks.back().isNot(tok::eof));
_pp->RemoveTopOfLexerStack();
// end of stolen code
for (auto tok : toks) {
if (tok.isAnyIdentifier()) {
StringRef name = tok.getIdentifierInfo()->getName();
const auto found = N.cuda2hipRename.find(name);
if (found != N.cuda2hipRename.end()) {
StringRef repName = found->second.hipName;
countReps[found->second.countType]++;
countApiReps[found->second.countApiType]++;
DEBUG(dbgs()
<< "Identifier " << name
<< " found as an actual argument in expansion of macro "
<< macroName << "\n"
<< "will be replaced with: " << repName << "\n");
SourceLocation sl = tok.getLocation();
Replacement Rep(*_sm, sl, name.size(), repName);
Replace->insert(Rep);
}
} else if (tok.isLiteral()) {
SourceLocation sl = tok.getLocation();
if (_sm->isMacroBodyExpansion(sl)) {
LangOptions DefaultLangOptions;
SourceLocation sl_macro = _sm->getExpansionLoc(sl);
SourceLocation sl_end = Lexer::getLocForEndOfToken(sl_macro, 0, *_sm, DefaultLangOptions);
size_t length = _sm->getCharacterData(sl_end) - _sm->getCharacterData(sl_macro);
StringRef name = StringRef(_sm->getCharacterData(sl_macro), length);
const auto found = N.cuda2hipRename.find(name);
if (found != N.cuda2hipRename.end()) {
sl = sl_macro;
StringRef repName = found->second.hipName;
countReps[found->second.countType]++;
countApiReps[found->second.countApiType]++;
Replacement Rep(*_sm, sl, length, repName);
Replace->insert(Rep);
}
} else {
if (tok.is(tok::string_literal)) {
StringRef s(tok.getLiteralData(), tok.getLength());
processString(unquoteStr(s), N, Replace, *_sm, tok.getLocation(),
countReps, countApiReps);
}
}
}
}
}
}
}
}
void EndOfMainFile() override {}
bool SeenEnd;
void setSourceManager(SourceManager *sm) { _sm = sm; }
void setPreprocessor(Preprocessor *pp) { _pp = pp; }
void setMatch(Cuda2HipCallback *match) { Match = match; }
int64_t countReps[CONV_LAST] = { 0 };
int64_t countApiReps[API_LAST] = { 0 };
private:
SourceManager *_sm;
Preprocessor *_pp;
Cuda2HipCallback *Match;
Replacements *Replace;
struct cuda2hipMap N;
};
class Cuda2HipCallback : public MatchFinder::MatchCallback {
private:
void convertKernelDecl(const FunctionDecl *kernelDecl, const MatchFinder::MatchResult &Result) {
SourceManager *SM = Result.SourceManager;
LangOptions DefaultLangOptions;
SmallString<40> XStr;
raw_svector_ostream OS(XStr);
StringRef initialParamList;
OS << "hipLaunchParm lp";
size_t repLength = OS.str().size();
SourceLocation sl = kernelDecl->getNameInfo().getEndLoc();
SourceLocation kernelArgListStart = Lexer::findLocationAfterToken(
sl, tok::l_paren, *SM, DefaultLangOptions, true);
DEBUG(dbgs() << kernelArgListStart.printToString(*SM));
if (kernelDecl->getNumParams() > 0) {
const ParmVarDecl *pvdFirst = kernelDecl->getParamDecl(0);
const ParmVarDecl *pvdLast = kernelDecl->getParamDecl(kernelDecl->getNumParams() - 1);
SourceLocation kernelArgListStart(pvdFirst->getLocStart());
SourceLocation kernelArgListEnd(pvdLast->getLocEnd());
SourceLocation stop = Lexer::getLocForEndOfToken(kernelArgListEnd, 0, *SM, DefaultLangOptions);
repLength += SM->getCharacterData(stop) - SM->getCharacterData(kernelArgListStart);
initialParamList = StringRef(SM->getCharacterData(kernelArgListStart), repLength);
OS << ", " << initialParamList;
}
DEBUG(dbgs() << "initial paramlist: " << initialParamList << "\n" << "new paramlist: " << OS.str() << "\n");
Replacement Rep0(*(Result.SourceManager), kernelArgListStart, repLength, OS.str());
Replace->insert(Rep0);
}
bool cudaCall(const MatchFinder::MatchResult &Result) {
if (const CallExpr *call = Result.Nodes.getNodeAs<CallExpr>("cudaCall")) {
const FunctionDecl *funcDcl = call->getDirectCallee();
StringRef name = funcDcl->getDeclName().getAsString();
const auto found = N.cuda2hipRename.find(name);
if (found != N.cuda2hipRename.end()) {
SourceManager *SM = Result.SourceManager;
StringRef repName = found->second.hipName;
SourceLocation sl = call->getLocStart();
size_t length = name.size();
bool bReplace = true;
if (SM->isMacroArgExpansion(sl)) {
sl = SM->getImmediateSpellingLoc(sl);
} else if (SM->isMacroBodyExpansion(sl)) {
LangOptions DefaultLangOptions;
SourceLocation sl_macro = SM->getExpansionLoc(sl);
SourceLocation sl_end = Lexer::getLocForEndOfToken(sl_macro, 0, *SM, DefaultLangOptions);
length = SM->getCharacterData(sl_end) - SM->getCharacterData(sl_macro);
StringRef macroName = StringRef(SM->getCharacterData(sl_macro), length);
if (N.cudaExcludes.end() != N.cudaExcludes.find(macroName)) {
bReplace = false;
} else {
sl = sl_macro;
}
}
if (bReplace) {
countReps[found->second.countType]++;
countApiReps[found->second.countApiType]++;
Replacement Rep(*SM, sl, length, repName);
Replace->insert(Rep);
}
}
return true;
}
return false;
}
bool cudaLaunchKernel(const MatchFinder::MatchResult &Result) {
if (const CUDAKernelCallExpr *launchKernel = Result.Nodes.getNodeAs<CUDAKernelCallExpr>("cudaLaunchKernel")) {
SmallString<40> XStr;
raw_svector_ostream OS(XStr);
StringRef calleeName;
const FunctionDecl *kernelDecl = launchKernel->getDirectCallee();
if (kernelDecl) {
calleeName = kernelDecl->getName();
convertKernelDecl(kernelDecl, Result);
} else {
const Expr *e = launchKernel->getCallee();
if (const UnresolvedLookupExpr *ule =
dyn_cast<UnresolvedLookupExpr>(e)) {
calleeName = ule->getName().getAsIdentifierInfo()->getName();
owner->addMatcher(functionTemplateDecl(hasName(calleeName))
.bind("unresolvedTemplateName"),
this);
}
}
XStr.clear();
OS << "hipLaunchKernel(HIP_KERNEL_NAME(" << calleeName << "),";
const CallExpr *config = launchKernel->getConfig();
DEBUG(dbgs() << "Kernel config arguments:" << "\n");
SourceManager *SM = Result.SourceManager;
LangOptions DefaultLangOptions;
for (unsigned argno = 0; argno < config->getNumArgs(); argno++) {
const Expr *arg = config->getArg(argno);
if (!isa<CXXDefaultArgExpr>(arg)) {
const ParmVarDecl *pvd = config->getDirectCallee()->getParamDecl(argno);
SourceLocation sl(arg->getLocStart());
SourceLocation el(arg->getLocEnd());
SourceLocation stop = Lexer::getLocForEndOfToken(el, 0, *SM, DefaultLangOptions);
StringRef outs(SM->getCharacterData(sl), SM->getCharacterData(stop) - SM->getCharacterData(sl));
DEBUG(dbgs() << "args[ " << argno << "]" << outs << " <" << pvd->getType().getAsString() << ">\n");
if (pvd->getType().getAsString().compare("dim3") == 0) {
OS << " dim3(" << outs << "),";
} else {
OS << " " << outs << ",";
}
} else {
OS << " 0,";
}
}
for (unsigned argno = 0; argno < launchKernel->getNumArgs(); argno++) {
const Expr *arg = launchKernel->getArg(argno);
SourceLocation sl(arg->getLocStart());
SourceLocation el(arg->getLocEnd());
SourceLocation stop = Lexer::getLocForEndOfToken(el, 0, *SM, DefaultLangOptions);
std::string outs(SM->getCharacterData(sl), SM->getCharacterData(stop) - SM->getCharacterData(sl));
DEBUG(dbgs() << outs << "\n");
OS << " " << outs << ",";
}
XStr.pop_back();
OS << ")";
size_t length = SM->getCharacterData(Lexer::getLocForEndOfToken(
launchKernel->getLocEnd(), 0, *SM, DefaultLangOptions)) -
SM->getCharacterData(launchKernel->getLocStart());
Replacement Rep(*SM, launchKernel->getLocStart(), length, OS.str());
Replace->insert(Rep);
countReps[CONV_KERN]++;
countApiReps[API_RUNTIME]++;
return true;
}
return false;
}
bool cudaBuiltin(const MatchFinder::MatchResult &Result) {
if (const MemberExpr *threadIdx = Result.Nodes.getNodeAs<MemberExpr>("cudaBuiltin")) {
if (const OpaqueValueExpr *refBase =
dyn_cast<OpaqueValueExpr>(threadIdx->getBase())) {
if (const DeclRefExpr *declRef =
dyn_cast<DeclRefExpr>(refBase->getSourceExpr())) {
StringRef name = declRef->getDecl()->getName();
StringRef memberName = threadIdx->getMemberDecl()->getName();
size_t pos = memberName.find_first_not_of("__fetch_builtin_");
memberName = memberName.slice(pos, memberName.size());
SmallString<128> tmpData;
name = Twine(name + "." + memberName).toStringRef(tmpData);
const auto found = N.cuda2hipRename.find(name);
if (found != N.cuda2hipRename.end()) {
StringRef repName = found->second.hipName;
countReps[found->second.countType]++;
countApiReps[found->second.countApiType]++;
SourceLocation sl = threadIdx->getLocStart();
SourceManager *SM = Result.SourceManager;
Replacement Rep(*SM, sl, name.size(), repName);
Replace->insert(Rep);
}
}
}
return true;
}
return false;
}
bool cudaEnumConstantRef(const MatchFinder::MatchResult &Result) {
if (const DeclRefExpr *enumConstantRef = Result.Nodes.getNodeAs<DeclRefExpr>("cudaEnumConstantRef")) {
StringRef name = enumConstantRef->getDecl()->getNameAsString();
const auto found = N.cuda2hipRename.find(name);
if (found != N.cuda2hipRename.end()) {
StringRef repName = found->second.hipName;
countReps[found->second.countType]++;
countApiReps[found->second.countApiType]++;
SourceLocation sl = enumConstantRef->getLocStart();
SourceManager *SM = Result.SourceManager;
Replacement Rep(*SM, sl, name.size(), repName);
Replace->insert(Rep);
}
return true;
}
return false;
}
bool cudaEnumConstantDecl(const MatchFinder::MatchResult &Result) {
if (const VarDecl *enumConstantDecl = Result.Nodes.getNodeAs<VarDecl>("cudaEnumConstantDecl")) {
StringRef name =
enumConstantDecl->getType()->getAsTagDecl()->getNameAsString();
// anonymous typedef enum
if (name.empty()) {
QualType QT = enumConstantDecl->getType().getUnqualifiedType();
name = QT.getAsString();
}
const auto found = N.cuda2hipRename.find(name);
if (found != N.cuda2hipRename.end()) {
StringRef repName = found->second.hipName;
countReps[found->second.countType]++;
countApiReps[found->second.countApiType]++;
SourceLocation sl = enumConstantDecl->getLocStart();
SourceManager *SM = Result.SourceManager;
Replacement Rep(*SM, sl, name.size(), repName);
Replace->insert(Rep);
}
return true;
}
return false;
}
bool cudaTypedefVar(const MatchFinder::MatchResult &Result) {
if (const VarDecl *typedefVar = Result.Nodes.getNodeAs<VarDecl>("cudaTypedefVar")) {
QualType QT = typedefVar->getType();
if (QT->isArrayType()) {
QT = QT.getTypePtr()->getAsArrayTypeUnsafe()->getElementType();
}
QT = QT.getUnqualifiedType();
StringRef name = QT.getAsString();
const auto found = N.cuda2hipRename.find(name);
if (found != N.cuda2hipRename.end()) {
StringRef repName = found->second.hipName;
countReps[found->second.countType]++;
countApiReps[found->second.countApiType]++;
SourceLocation sl = typedefVar->getLocStart();
SourceManager *SM = Result.SourceManager;
Replacement Rep(*SM, sl, name.size(), repName);
Replace->insert(Rep);
}
return true;
}
return false;
}
bool cudaStructVar(const MatchFinder::MatchResult &Result) {
if (const VarDecl *structVar = Result.Nodes.getNodeAs<VarDecl>("cudaStructVar")) {
StringRef name = structVar->getType()
->getAsStructureType()
->getDecl()
->getNameAsString();
const auto found = N.cuda2hipRename.find(name);
if (found != N.cuda2hipRename.end()) {
StringRef repName = found->second.hipName;
countReps[found->second.countType]++;
countApiReps[found->second.countApiType]++;
TypeLoc TL = structVar->getTypeSourceInfo()->getTypeLoc();
SourceLocation sl = TL.getUnqualifiedLoc().getLocStart();
SourceManager *SM = Result.SourceManager;
Replacement Rep(*SM, sl, name.size(), repName);
Replace->insert(Rep);
}
return true;
}
return false;
}
bool cudaStructVarPtr(const MatchFinder::MatchResult &Result) {
if (const VarDecl *structVarPtr = Result.Nodes.getNodeAs<VarDecl>("cudaStructVarPtr")) {
const Type *t = structVarPtr->getType().getTypePtrOrNull();
if (t) {
StringRef name = t->getPointeeCXXRecordDecl()->getName();
const auto found = N.cuda2hipRename.find(name);
if (found != N.cuda2hipRename.end()) {
StringRef repName = found->second.hipName;
countReps[found->second.countType]++;
countApiReps[found->second.countApiType]++;
TypeLoc TL = structVarPtr->getTypeSourceInfo()->getTypeLoc();
SourceLocation sl = TL.getUnqualifiedLoc().getLocStart();
SourceManager *SM = Result.SourceManager;
Replacement Rep(*SM, sl, name.size(), repName);
Replace->insert(Rep);
}
}
return true;
}
return false;
}
bool cudaStructSizeOf(const MatchFinder::MatchResult &Result) {
if (const UnaryExprOrTypeTraitExpr *expr = Result.Nodes.getNodeAs<UnaryExprOrTypeTraitExpr>("cudaStructSizeOf")) {
TypeSourceInfo *typeInfo = expr->getArgumentTypeInfo();
QualType QT = typeInfo->getType().getUnqualifiedType();
const Type *type = QT.getTypePtr();
StringRef name = type->getAsCXXRecordDecl()->getName();
const auto found = N.cuda2hipRename.find(name);
if (found != N.cuda2hipRename.end()) {
StringRef repName = found->second.hipName;
countReps[found->second.countType]++;
countApiReps[found->second.countApiType]++;
TypeLoc TL = typeInfo->getTypeLoc();
SourceLocation sl = TL.getUnqualifiedLoc().getLocStart();
SourceManager *SM = Result.SourceManager;
Replacement Rep(*SM, sl, name.size(), repName);
Replace->insert(Rep);
}
return true;
}
return false;
}
bool cudaSharedIncompleteArrayVar(const MatchFinder::MatchResult &Result) {
if (const VarDecl *sharedVar = Result.Nodes.getNodeAs<VarDecl>("cudaSharedIncompleteArrayVar")) {
// Example: extern __shared__ uint sRadix1[];
if (sharedVar->hasExternalFormalLinkage()) {
QualType QT = sharedVar->getType();
StringRef typeName;
if (QT->isIncompleteArrayType()) {
const ArrayType *AT = QT.getTypePtr()->getAsArrayTypeUnsafe();
QT = AT->getElementType();
if (QT.getTypePtr()->isBuiltinType()) {
QT = QT.getCanonicalType();
const BuiltinType *BT = dyn_cast<BuiltinType>(QT);
if (BT) {
LangOptions LO;
LO.CUDA = true;
PrintingPolicy policy(LO);
typeName = BT->getName(policy);
}
} else {
typeName = QT.getAsString();
}
}
if (!typeName.empty()) {
SourceLocation slStart = sharedVar->getLocStart();
SourceLocation slEnd = sharedVar->getLocEnd();
SourceManager *SM = Result.SourceManager;
size_t repLength = SM->getCharacterData(slEnd) - SM->getCharacterData(slStart) + 1;
SmallString<128> tmpData;
StringRef varName = sharedVar->getNameAsString();
StringRef repName = Twine("HIP_DYNAMIC_SHARED(" + typeName + ", " + varName + ")").toStringRef(tmpData);
Replacement Rep(*SM, slStart, repLength, repName);
Replace->insert(Rep);
countReps[CONV_MEM]++;
countApiReps[API_RUNTIME]++;
}
}
return true;
}
return false;
}
bool cudaParamDecl(const MatchFinder::MatchResult &Result) {
if (const ParmVarDecl *paramDecl = Result.Nodes.getNodeAs<ParmVarDecl>("cudaParamDecl")) {
QualType QT = paramDecl->getOriginalType().getUnqualifiedType();
StringRef name = QT.getAsString();
const Type *t = QT.getTypePtr();
if (t->isStructureOrClassType()) {
name = t->getAsCXXRecordDecl()->getName();
}
const auto found = N.cuda2hipRename.find(name);
if (found != N.cuda2hipRename.end()) {
StringRef repName = found->second.hipName;
countReps[found->second.countType]++;
countApiReps[found->second.countApiType]++;
TypeLoc TL = paramDecl->getTypeSourceInfo()->getTypeLoc();
SourceLocation sl = TL.getUnqualifiedLoc().getLocStart();
SourceManager *SM = Result.SourceManager;
Replacement Rep(*SM, sl, name.size(), repName);
Replace->insert(Rep);
}
return true;
}
return false;
}
bool cudaParamDeclPtr(const MatchFinder::MatchResult &Result) {
if (const ParmVarDecl *paramDeclPtr = Result.Nodes.getNodeAs<ParmVarDecl>("cudaParamDeclPtr")) {
const Type *pt = paramDeclPtr->getType().getTypePtrOrNull();
if (pt) {
QualType QT = pt->getPointeeType();
const Type *t = QT.getTypePtr();
StringRef name = t->isStructureOrClassType()
? t->getAsCXXRecordDecl()->getName()
: StringRef(QT.getAsString());
const auto found = N.cuda2hipRename.find(name);
if (found != N.cuda2hipRename.end()) {
StringRef repName = found->second.hipName;
countReps[found->second.countType]++;
countApiReps[found->second.countApiType]++;
TypeLoc TL = paramDeclPtr->getTypeSourceInfo()->getTypeLoc();
SourceLocation sl = TL.getUnqualifiedLoc().getLocStart();
SourceManager *SM = Result.SourceManager;
Replacement Rep(*SM, sl, name.size(), repName);
Replace->insert(Rep);
}
}
return true;
}
return false;
}
bool unresolvedTemplateName(const MatchFinder::MatchResult &Result) {
if (const FunctionTemplateDecl *templateDecl = Result.Nodes.getNodeAs<FunctionTemplateDecl>("unresolvedTemplateName")) {
FunctionDecl *kernelDecl = templateDecl->getTemplatedDecl();
convertKernelDecl(kernelDecl, Result);
return true;
}
return false;
}
bool stringLiteral(const MatchFinder::MatchResult &Result) {
if (const StringLiteral *sLiteral = Result.Nodes.getNodeAs<StringLiteral>("stringLiteral")) {
if (sLiteral->getCharByteWidth() == 1) {
StringRef s = sLiteral->getString();
SourceManager *SM = Result.SourceManager;
processString(s, N, Replace, *SM, sLiteral->getLocStart(), countReps, countApiReps);
}
return true;
}
return false;
}
public:
Cuda2HipCallback(Replacements *Replace, ast_matchers::MatchFinder *parent, HipifyPPCallbacks *PPCallbacks)
: Replace(Replace), owner(parent), PP(PPCallbacks) {
PP->setMatch(this);
}
void run(const MatchFinder::MatchResult &Result) override {
do {
if (cudaCall(Result)) break;
if (cudaLaunchKernel(Result)) break;
if (cudaBuiltin(Result)) break;
if (cudaEnumConstantRef(Result)) break;
if (cudaEnumConstantDecl(Result)) break;
if (cudaTypedefVar(Result)) break;
if (cudaStructVar(Result)) break;
if (cudaStructVarPtr(Result)) break;
if (cudaStructSizeOf(Result)) break;
if (cudaSharedIncompleteArrayVar(Result)) break;
if (cudaParamDecl(Result)) break;
if (cudaParamDeclPtr(Result)) break;
if (stringLiteral(Result)) break;
if (unresolvedTemplateName(Result)) break;
break;
} while (false);
if (PP->countReps[CONV_INCLUDE_CUDA_MAIN_H] == 0 &&
countReps[CONV_INCLUDE_CUDA_MAIN_H] == 0 && Replace->size() > 0) {
StringRef repName = "#include <hip_runtime.h>\n";
SourceManager *SM = Result.SourceManager;
Replacement Rep(*SM, SM->getLocForStartOfFile(SM->getMainFileID()), 0, repName);
Replace->insert(Rep);
countReps[CONV_INCLUDE_CUDA_MAIN_H]++;
countApiReps[API_RUNTIME]++;
}
}
int64_t countReps[CONV_LAST] = { 0 };
int64_t countApiReps[API_LAST] = { 0 };
private:
Replacements *Replace;
ast_matchers::MatchFinder *owner;
HipifyPPCallbacks *PP;
struct cuda2hipMap N;
};
void HipifyPPCallbacks::handleEndSource() {
if (Match->countReps[CONV_INCLUDE_CUDA_MAIN_H] == 0 &&
countReps[CONV_INCLUDE_CUDA_MAIN_H] == 0 && Replace->size() > 0) {
StringRef repName = "#include <hip_runtime.h>\n";
Replacement Rep(*_sm, _sm->getLocForStartOfFile(_sm->getMainFileID()), 0, repName);
Replace->insert(Rep);
countReps[CONV_INCLUDE_CUDA_MAIN_H]++;
countApiReps[API_RUNTIME]++;
}
}
} // end anonymous namespace
// Set up the command line options
static cl::OptionCategory ToolTemplateCategory("CUDA to HIP source translator options");
static cl::opt<std::string> OutputFilename("o", cl::desc("Output filename"),
cl::value_desc("filename"), cl::cat(ToolTemplateCategory));
static cl::opt<bool>
Inplace("inplace",
cl::desc("Modify input file inplace, replacing input with hipified "
"output, save backup in .prehip file. "),
cl::value_desc("inplace"));
static cl::opt<bool>
NoOutput("no-output",
cl::desc("don't write any translated output to stdout"),
cl::value_desc("no-output"));
static cl::opt<bool>
PrintStats("print-stats", cl::desc("print the command-line, like a header"),
cl::value_desc("print-stats"));
void addAllMatchers(ast_matchers::MatchFinder &Finder, Cuda2HipCallback *Callback) {
Finder.addMatcher(callExpr(isExpansionInMainFile(),
callee(functionDecl(matchesName("cu.*"))))
.bind("cudaCall"),
Callback);
Finder.addMatcher(cudaKernelCallExpr().bind("cudaLaunchKernel"), Callback);
Finder.addMatcher(memberExpr(isExpansionInMainFile(),
hasObjectExpression(hasType(cxxRecordDecl(
matchesName("__cuda_builtin_")))))
.bind("cudaBuiltin"),
Callback);
Finder.addMatcher(declRefExpr(isExpansionInMainFile(),
to(enumConstantDecl(
matchesName("cu.*|CU.*"))))
.bind("cudaEnumConstantRef"),
Callback);
Finder.addMatcher(varDecl(isExpansionInMainFile(),
hasType(enumDecl()))
.bind("cudaEnumConstantDecl"),
Callback);
Finder.addMatcher(varDecl(isExpansionInMainFile(),
hasType(typedefDecl(matchesName("cu.*|CU.*"))))
.bind("cudaTypedefVar"),
Callback);
// Array of elements of typedef type, Example: cudaStream_t streams[2];
Finder.addMatcher(varDecl(isExpansionInMainFile(),
hasType(arrayType(hasElementType(typedefType(
hasDeclaration(typedefDecl(matchesName("cu.*|CU.*"))))))))
.bind("cudaTypedefVar"),
Callback);
Finder.addMatcher(varDecl(isExpansionInMainFile(),
hasType(cxxRecordDecl(matchesName("cu.*|CU.*"))))
.bind("cudaStructVar"),
Callback);
Finder.addMatcher(varDecl(isExpansionInMainFile(),
hasType(pointsTo(cxxRecordDecl(
matchesName("cu.*|CU.*")))))
.bind("cudaStructVarPtr"),
Callback);
Finder.addMatcher(parmVarDecl(isExpansionInMainFile(),
hasType(namedDecl(matchesName("cu.*|CU.*"))))
.bind("cudaParamDecl"),
Callback);
Finder.addMatcher(parmVarDecl(isExpansionInMainFile(),
hasType(pointsTo(namedDecl(
matchesName("cu.*|CU.*")))))
.bind("cudaParamDeclPtr"),
Callback);
Finder.addMatcher(expr(isExpansionInMainFile(),
sizeOfExpr(hasArgumentOfType(recordType(hasDeclaration(
cxxRecordDecl(matchesName("cu.*|CU.*")))))))
.bind("cudaStructSizeOf"),
Callback);
Finder.addMatcher(stringLiteral(isExpansionInMainFile()).bind("stringLiteral"),
Callback);
Finder.addMatcher(varDecl(isExpansionInMainFile(), allOf(
hasAttr(attr::CUDAShared),
hasType(incompleteArrayType())))
.bind("cudaSharedIncompleteArrayVar"),
Callback);
}
void printStats(std::string fileSource, HipifyPPCallbacks &PPCallbacks, Cuda2HipCallback &Callback) {
int64_t sum = 0;
for (int i = 0; i < CONV_LAST; i++) {
sum += Callback.countReps[i] + PPCallbacks.countReps[i];
}
llvm::outs() << "info: converted " << sum << " CUDA->HIP refs ( ";
for (int i = 0; i < CONV_LAST; i++) {
llvm::outs() << counterNames[i] << ':' << Callback.countReps[i] + PPCallbacks.countReps[i] << ' ';
}
llvm::outs() << "), by APIs ( ";
for (int i = 0; i < API_LAST; i++) {
llvm::outs() << apiNames[i] << ':' << Callback.countApiReps[i] + PPCallbacks.countApiReps[i] << ' ';
}
llvm::outs() << ") in \'" << fileSource << "\'\n";
}
int main(int argc, const char **argv) {
llvm::sys::PrintStackTraceOnErrorSignal();
CommonOptionsParser OptionsParser(argc, argv, ToolTemplateCategory, llvm::cl::Required);
std::vector<std::string> fileSources = OptionsParser.getSourcePathList();
std::string dst = OutputFilename;
if (dst.empty()) {
dst = fileSources[0];
if (!Inplace) {
size_t pos = dst.rfind(".cu");
if (pos != std::string::npos) {
dst = dst.substr(0, pos) + ".hip.cu";
} else {
llvm::errs() << "Input .cu file was not specified.\n";
return 1;
}
}
} else {
if (Inplace) {
llvm::errs() << "Conflict: both -o and -inplace options are specified.";
}
dst += ".cu";
}
// copy source file since tooling makes changes "inplace"
std::ifstream source(fileSources[0], std::ios::binary);
std::ofstream dest(Inplace ? dst + ".prehip" : dst, std::ios::binary);
dest << source.rdbuf();
source.close();
dest.close();
RefactoringTool Tool(OptionsParser.getCompilations(), dst);
ast_matchers::MatchFinder Finder;
HipifyPPCallbacks PPCallbacks(&Tool.getReplacements());
Cuda2HipCallback Callback(&Tool.getReplacements(), &Finder, &PPCallbacks);
addAllMatchers(Finder, &Callback);
auto action = newFrontendActionFactory(&Finder, &PPCallbacks);
std::vector<const char*> compilationStages;
compilationStages.push_back("--cuda-host-only");
Tool.appendArgumentsAdjuster(getInsertArgumentAdjuster(compilationStages[0], ArgumentInsertPosition::BEGIN));
Tool.appendArgumentsAdjuster(getInsertArgumentAdjuster("-std=c++11"));
#if defined(HIPIFY_CLANG_RES)
Tool.appendArgumentsAdjuster(getInsertArgumentAdjuster("-resource-dir=" HIPIFY_CLANG_RES));
#endif
Tool.appendArgumentsAdjuster(getClangSyntaxOnlyAdjuster());
int Result = Tool.run(action.get());
Tool.clearArgumentsAdjusters();
LangOptions DefaultLangOptions;
IntrusiveRefCntPtr<DiagnosticOptions> DiagOpts = new DiagnosticOptions();
TextDiagnosticPrinter DiagnosticPrinter(llvm::errs(), &*DiagOpts);
DiagnosticsEngine Diagnostics(
IntrusiveRefCntPtr<DiagnosticIDs>(new DiagnosticIDs()), &*DiagOpts,
&DiagnosticPrinter, false);
DEBUG(dbgs() << "Replacements collected by the tool:\n");
for (const auto &r : Tool.getReplacements()) {
DEBUG(dbgs() << r.toString() << "\n");
}
SourceManager Sources(Diagnostics, Tool.getFiles());
Rewriter Rewrite(Sources, DefaultLangOptions);
if (!Tool.applyAllReplacements(Rewrite)) {
DEBUG(dbgs() << "Skipped some replacements.\n");
}
Result = Rewrite.overwriteChangedFiles();
if (!Inplace) {
size_t pos = dst.rfind(".cu");
if (pos != std::string::npos) {
rename(dst.c_str(), dst.substr(0, pos).c_str());
}
}
if (PrintStats) {
printStats(fileSources[0], PPCallbacks, Callback);
}
return Result;
}