/*
* Copyright 2015, The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include "bcc/Renderscript/RSScriptGroupFusion.h"
#include "bcc/Assert.h"
#include "bcc/BCCContext.h"
#include "bcc/Source.h"
#include "bcc/Support/Log.h"
#include "bcinfo/MetadataExtractor.h"
#include "llvm/ADT/StringExtras.h"
#include "llvm/IR/DataLayout.h"
#include "llvm/IR/IRBuilder.h"
#include "llvm/IR/Module.h"
#include "llvm/Support/raw_ostream.h"
using llvm::Function;
using llvm::Module;
using std::string;
namespace bcc {
namespace {
const Function* getInvokeFunction(const Source& source, const int slot,
Module* newModule) {
bcinfo::MetadataExtractor &metadata = *source.getMetadata();
const char* functionName = metadata.getExportFuncNameList()[slot];
Function* func = newModule->getFunction(functionName);
// Materialize the function so that later the caller can inspect its argument
// and return types.
newModule->materialize(func);
return func;
}
const Function*
getFunction(Module* mergedModule, const Source* source, const int slot,
uint32_t* signature) {
bcinfo::MetadataExtractor &metadata = *source->getMetadata();
const char* functionName = metadata.getExportForEachNameList()[slot];
if (functionName == nullptr || !functionName[0]) {
ALOGE("Kernel fusion (module %s slot %d): failed to find kernel function",
source->getName().c_str(), slot);
return nullptr;
}
if (metadata.getExportForEachInputCountList()[slot] > 1) {
ALOGE("Kernel fusion (module %s function %s): cannot handle multiple inputs",
source->getName().c_str(), functionName);
return nullptr;
}
if (signature != nullptr) {
*signature = metadata.getExportForEachSignatureList()[slot];
}
const Function* function = mergedModule->getFunction(functionName);
return function;
}
// The whitelist of supported signature bits. Context or user data arguments are
// not currently supported in kernel fusion. To support them or any new kinds of
// arguments in the future, it requires not only listing the signature bits here,
// but also implementing additional necessary fusion logic in the getFusedFuncSig(),
// getFusedFuncType(), and fuseKernels() functions below.
constexpr uint32_t ExpectedSignatureBits =
bcinfo::MD_SIG_In |
bcinfo::MD_SIG_Out |
bcinfo::MD_SIG_X |
bcinfo::MD_SIG_Y |
bcinfo::MD_SIG_Z |
bcinfo::MD_SIG_Kernel;
int getFusedFuncSig(const std::vector<Source*>& sources,
const std::vector<int>& slots,
uint32_t* retSig) {
*retSig = 0;
uint32_t firstSignature = 0;
uint32_t signature = 0;
auto slotIter = slots.begin();
for (const Source* source : sources) {
const int slot = *slotIter++;
bcinfo::MetadataExtractor &metadata = *source->getMetadata();
if (metadata.getExportForEachInputCountList()[slot] > 1) {
ALOGE("Kernel fusion (module %s slot %d): cannot handle multiple inputs",
source->getName().c_str(), slot);
return -1;
}
signature = metadata.getExportForEachSignatureList()[slot];
if (signature & ~ExpectedSignatureBits) {
ALOGE("Kernel fusion (module %s slot %d): Unexpected signature %x",
source->getName().c_str(), slot, signature);
return -1;
}
if (firstSignature == 0) {
firstSignature = signature;
}
*retSig |= signature;
}
if (!bcinfo::MetadataExtractor::hasForEachSignatureIn(firstSignature)) {
*retSig &= ~bcinfo::MD_SIG_In;
}
if (!bcinfo::MetadataExtractor::hasForEachSignatureOut(signature)) {
*retSig &= ~bcinfo::MD_SIG_Out;
}
return 0;
}
llvm::FunctionType* getFusedFuncType(bcc::BCCContext& Context,
const std::vector<Source*>& sources,
const std::vector<int>& slots,
Module* M,
uint32_t* signature) {
int error = getFusedFuncSig(sources, slots, signature);
if (error < 0) {
return nullptr;
}
const Function* firstF = getFunction(M, sources.front(), slots.front(), nullptr);
bccAssert (firstF != nullptr);
llvm::SmallVector<llvm::Type*, 8> ArgTys;
if (bcinfo::MetadataExtractor::hasForEachSignatureIn(*signature)) {
ArgTys.push_back(firstF->arg_begin()->getType());
}
llvm::Type* I32Ty = llvm::IntegerType::get(Context.getLLVMContext(), 32);
if (bcinfo::MetadataExtractor::hasForEachSignatureX(*signature)) {
ArgTys.push_back(I32Ty);
}
if (bcinfo::MetadataExtractor::hasForEachSignatureY(*signature)) {
ArgTys.push_back(I32Ty);
}
if (bcinfo::MetadataExtractor::hasForEachSignatureZ(*signature)) {
ArgTys.push_back(I32Ty);
}
const Function* lastF = getFunction(M, sources.back(), slots.back(), nullptr);
bccAssert (lastF != nullptr);
llvm::Type* retTy = lastF->getReturnType();
return llvm::FunctionType::get(retTy, ArgTys, false);
}
} // anonymous namespace
bool fuseKernels(bcc::BCCContext& Context,
const std::vector<Source *>& sources,
const std::vector<int>& slots,
const std::string& fusedName,
Module* mergedModule) {
bccAssert(sources.size() == slots.size() && "sources and slots differ in size");
uint32_t fusedFunctionSignature;
llvm::FunctionType* fusedType =
getFusedFuncType(Context, sources, slots, mergedModule, &fusedFunctionSignature);
if (fusedType == nullptr) {
return false;
}
Function* fusedKernel =
(Function*)(mergedModule->getOrInsertFunction(fusedName, fusedType));
llvm::LLVMContext& ctxt = Context.getLLVMContext();
llvm::BasicBlock* block = llvm::BasicBlock::Create(ctxt, "entry", fusedKernel);
llvm::IRBuilder<> builder(block);
Function::arg_iterator argIter = fusedKernel->arg_begin();
llvm::Value* dataElement = nullptr;
if (bcinfo::MetadataExtractor::hasForEachSignatureIn(fusedFunctionSignature)) {
dataElement = &*(argIter++);
dataElement->setName("DataIn");
}
llvm::Value* X = nullptr;
if (bcinfo::MetadataExtractor::hasForEachSignatureX(fusedFunctionSignature)) {
X = &*(argIter++);
X->setName("x");
}
llvm::Value* Y = nullptr;
if (bcinfo::MetadataExtractor::hasForEachSignatureY(fusedFunctionSignature)) {
Y = &*(argIter++);
Y->setName("y");
}
llvm::Value* Z = nullptr;
if (bcinfo::MetadataExtractor::hasForEachSignatureZ(fusedFunctionSignature)) {
Z = &*(argIter++);
Z->setName("z");
}
auto slotIter = slots.begin();
for (const Source* source : sources) {
int slot = *slotIter;
uint32_t inputFunctionSignature;
const Function* inputFunction =
getFunction(mergedModule, source, slot, &inputFunctionSignature);
if (inputFunction == nullptr) {
// Either failed to find the kernel function, or the function has multiple inputs.
return false;
}
// Don't try to fuse a non-kernel
if (!bcinfo::MetadataExtractor::hasForEachSignatureKernel(inputFunctionSignature)) {
ALOGE("Kernel fusion (module %s function %s): not a kernel",
source->getName().c_str(), inputFunction->getName().str().c_str());
return false;
}
std::vector<llvm::Value*> args;
if (bcinfo::MetadataExtractor::hasForEachSignatureIn(inputFunctionSignature)) {
if (dataElement == nullptr) {
ALOGE("Kernel fusion (module %s function %s): expected input, but got null",
source->getName().c_str(), inputFunction->getName().str().c_str());
return false;
}
const llvm::FunctionType* funcTy = inputFunction->getFunctionType();
llvm::Type* firstArgType = funcTy->getParamType(0);
if (dataElement->getType() != firstArgType) {
std::string msg;
llvm::raw_string_ostream rso(msg);
rso << "Mismatching argument type, expected ";
firstArgType->print(rso);
rso << ", received ";
dataElement->getType()->print(rso);
ALOGE("Kernel fusion (module %s function %s): %s", source->getName().c_str(),
inputFunction->getName().str().c_str(), rso.str().c_str());
return false;
}
args.push_back(dataElement);
} else {
// Only the first kernel in a batch is allowed to have no input
if (slotIter != slots.begin()) {
ALOGE("Kernel fusion (module %s function %s): function not first in batch takes no input",
source->getName().c_str(), inputFunction->getName().str().c_str());
return false;
}
}
if (bcinfo::MetadataExtractor::hasForEachSignatureX(inputFunctionSignature)) {
args.push_back(X);
}
if (bcinfo::MetadataExtractor::hasForEachSignatureY(inputFunctionSignature)) {
args.push_back(Y);
}
if (bcinfo::MetadataExtractor::hasForEachSignatureZ(inputFunctionSignature)) {
args.push_back(Z);
}
dataElement = builder.CreateCall((llvm::Value*)inputFunction, args);
slotIter++;
}
if (fusedKernel->getReturnType()->isVoidTy()) {
builder.CreateRetVoid();
} else {
builder.CreateRet(dataElement);
}
llvm::NamedMDNode* ExportForEachNameMD =
mergedModule->getOrInsertNamedMetadata("#rs_export_foreach_name");
llvm::MDString* nameMDStr = llvm::MDString::get(ctxt, fusedName);
llvm::MDNode* nameMDNode = llvm::MDNode::get(ctxt, nameMDStr);
ExportForEachNameMD->addOperand(nameMDNode);
llvm::NamedMDNode* ExportForEachMD =
mergedModule->getOrInsertNamedMetadata("#rs_export_foreach");
llvm::MDString* sigMDStr = llvm::MDString::get(ctxt,
llvm::utostr_32(fusedFunctionSignature));
llvm::MDNode* sigMDNode = llvm::MDNode::get(ctxt, sigMDStr);
ExportForEachMD->addOperand(sigMDNode);
return true;
}
bool renameInvoke(BCCContext& Context, const Source* source, const int slot,
const std::string& newName, Module* module) {
const llvm::Function* F = getInvokeFunction(*source, slot, module);
std::vector<llvm::Type*> params;
for (auto I = F->arg_begin(), E = F->arg_end(); I != E; ++I) {
params.push_back(I->getType());
}
llvm::Type* returnTy = F->getReturnType();
llvm::FunctionType* batchFuncTy =
llvm::FunctionType::get(returnTy, params, false);
llvm::Function* newF =
llvm::Function::Create(batchFuncTy,
llvm::GlobalValue::ExternalLinkage, newName,
module);
llvm::BasicBlock* block = llvm::BasicBlock::Create(Context.getLLVMContext(),
"entry", newF);
llvm::IRBuilder<> builder(block);
llvm::Function::arg_iterator argIter = newF->arg_begin();
llvm::Value* arg1 = &*(argIter++);
builder.CreateCall((llvm::Value*)F, arg1);
builder.CreateRetVoid();
llvm::NamedMDNode* ExportFuncNameMD =
module->getOrInsertNamedMetadata("#rs_export_func");
llvm::MDString* strMD = llvm::MDString::get(module->getContext(), newName);
llvm::MDNode* nodeMD = llvm::MDNode::get(module->getContext(), strMD);
ExportFuncNameMD->addOperand(nodeMD);
return true;
}
} // namespace bcc