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fa13d015a3
The following test case causes issue with codegen of __enqueue_block
void (^block)(void) = ^{ callee(id, out); };
enqueue_kernel(queue, 0, ndrange, block);
Clang first does codegen for block expression in the first line and deletes its block info.
Clang then tries to do codegen for the same block expression again for the second line,
and fails because the block info is gone.
The fix is to do normal codegen for both lines. Introduce an API to OpenCL runtime to
record llvm block invoke function and llvm block literal emitted for each AST block
expression, and use the recorded information for generating the wrapper kernel.
The EmitBlockLiteral APIs are cleaned up to minimize changes to the normal codegen
of blocks.
Another minor issue is that some clean up AST expression is generated for block
with captures, which can be stripped by IgnoreImplicit.
Differential Revision: https://reviews.llvm.org/D43240
llvm-svn: 325264
163 lines
6.0 KiB
C++
163 lines
6.0 KiB
C++
//===----- CGOpenCLRuntime.cpp - Interface to OpenCL Runtimes -------------===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file is distributed under the University of Illinois Open Source
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// License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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//
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// This provides an abstract class for OpenCL code generation. Concrete
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// subclasses of this implement code generation for specific OpenCL
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// runtime libraries.
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//
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//===----------------------------------------------------------------------===//
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#include "CGOpenCLRuntime.h"
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#include "CodeGenFunction.h"
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#include "TargetInfo.h"
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#include "clang/CodeGen/ConstantInitBuilder.h"
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#include "llvm/IR/DerivedTypes.h"
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#include "llvm/IR/GlobalValue.h"
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#include <assert.h>
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using namespace clang;
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using namespace CodeGen;
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CGOpenCLRuntime::~CGOpenCLRuntime() {}
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void CGOpenCLRuntime::EmitWorkGroupLocalVarDecl(CodeGenFunction &CGF,
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const VarDecl &D) {
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return CGF.EmitStaticVarDecl(D, llvm::GlobalValue::InternalLinkage);
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}
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llvm::Type *CGOpenCLRuntime::convertOpenCLSpecificType(const Type *T) {
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assert(T->isOpenCLSpecificType() &&
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"Not an OpenCL specific type!");
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llvm::LLVMContext& Ctx = CGM.getLLVMContext();
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uint32_t AddrSpc = CGM.getContext().getTargetAddressSpace(
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CGM.getContext().getOpenCLTypeAddrSpace(T));
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switch (cast<BuiltinType>(T)->getKind()) {
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default:
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llvm_unreachable("Unexpected opencl builtin type!");
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return nullptr;
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#define IMAGE_TYPE(ImgType, Id, SingletonId, Access, Suffix) \
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case BuiltinType::Id: \
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return llvm::PointerType::get( \
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llvm::StructType::create(Ctx, "opencl." #ImgType "_" #Suffix "_t"), \
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AddrSpc);
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#include "clang/Basic/OpenCLImageTypes.def"
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case BuiltinType::OCLSampler:
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return getSamplerType(T);
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case BuiltinType::OCLEvent:
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return llvm::PointerType::get(
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llvm::StructType::create(Ctx, "opencl.event_t"), AddrSpc);
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case BuiltinType::OCLClkEvent:
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return llvm::PointerType::get(
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llvm::StructType::create(Ctx, "opencl.clk_event_t"), AddrSpc);
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case BuiltinType::OCLQueue:
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return llvm::PointerType::get(
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llvm::StructType::create(Ctx, "opencl.queue_t"), AddrSpc);
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case BuiltinType::OCLReserveID:
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return llvm::PointerType::get(
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llvm::StructType::create(Ctx, "opencl.reserve_id_t"), AddrSpc);
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}
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}
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llvm::Type *CGOpenCLRuntime::getPipeType(const PipeType *T) {
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if (!PipeTy){
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uint32_t PipeAddrSpc = CGM.getContext().getTargetAddressSpace(
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CGM.getContext().getOpenCLTypeAddrSpace(T));
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PipeTy = llvm::PointerType::get(llvm::StructType::create(
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CGM.getLLVMContext(), "opencl.pipe_t"), PipeAddrSpc);
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}
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return PipeTy;
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}
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llvm::PointerType *CGOpenCLRuntime::getSamplerType(const Type *T) {
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if (!SamplerTy)
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SamplerTy = llvm::PointerType::get(llvm::StructType::create(
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CGM.getLLVMContext(), "opencl.sampler_t"),
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CGM.getContext().getTargetAddressSpace(
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CGM.getContext().getOpenCLTypeAddrSpace(T)));
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return SamplerTy;
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}
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llvm::Value *CGOpenCLRuntime::getPipeElemSize(const Expr *PipeArg) {
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const PipeType *PipeTy = PipeArg->getType()->getAs<PipeType>();
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// The type of the last (implicit) argument to be passed.
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llvm::Type *Int32Ty = llvm::IntegerType::getInt32Ty(CGM.getLLVMContext());
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unsigned TypeSize = CGM.getContext()
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.getTypeSizeInChars(PipeTy->getElementType())
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.getQuantity();
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return llvm::ConstantInt::get(Int32Ty, TypeSize, false);
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}
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llvm::Value *CGOpenCLRuntime::getPipeElemAlign(const Expr *PipeArg) {
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const PipeType *PipeTy = PipeArg->getType()->getAs<PipeType>();
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// The type of the last (implicit) argument to be passed.
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llvm::Type *Int32Ty = llvm::IntegerType::getInt32Ty(CGM.getLLVMContext());
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unsigned TypeSize = CGM.getContext()
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.getTypeAlignInChars(PipeTy->getElementType())
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.getQuantity();
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return llvm::ConstantInt::get(Int32Ty, TypeSize, false);
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}
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llvm::PointerType *CGOpenCLRuntime::getGenericVoidPointerType() {
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assert(CGM.getLangOpts().OpenCL);
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return llvm::IntegerType::getInt8PtrTy(
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CGM.getLLVMContext(),
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CGM.getContext().getTargetAddressSpace(LangAS::opencl_generic));
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}
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/// Record emitted llvm invoke function and llvm block literal for the
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/// corresponding block expression.
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void CGOpenCLRuntime::recordBlockInfo(const BlockExpr *E,
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llvm::Function *InvokeF,
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llvm::Value *Block) {
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assert(EnqueuedBlockMap.find(E) == EnqueuedBlockMap.end() &&
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"Block expression emitted twice");
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assert(isa<llvm::Function>(InvokeF) && "Invalid invoke function");
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assert(Block->getType()->isPointerTy() && "Invalid block literal type");
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EnqueuedBlockMap[E].InvokeFunc = InvokeF;
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EnqueuedBlockMap[E].BlockArg = Block;
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EnqueuedBlockMap[E].Kernel = nullptr;
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}
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CGOpenCLRuntime::EnqueuedBlockInfo
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CGOpenCLRuntime::emitOpenCLEnqueuedBlock(CodeGenFunction &CGF, const Expr *E) {
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CGF.EmitScalarExpr(E);
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// The block literal may be assigned to a const variable. Chasing down
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// to get the block literal.
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if (auto DR = dyn_cast<DeclRefExpr>(E)) {
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E = cast<VarDecl>(DR->getDecl())->getInit();
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}
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E = E->IgnoreImplicit();
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if (auto Cast = dyn_cast<CastExpr>(E)) {
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E = Cast->getSubExpr();
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}
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auto *Block = cast<BlockExpr>(E);
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assert(EnqueuedBlockMap.find(Block) != EnqueuedBlockMap.end() &&
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"Block expression not emitted");
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// Do not emit the block wrapper again if it has been emitted.
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if (EnqueuedBlockMap[Block].Kernel) {
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return EnqueuedBlockMap[Block];
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}
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auto *F = CGF.getTargetHooks().createEnqueuedBlockKernel(
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CGF, EnqueuedBlockMap[Block].InvokeFunc,
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EnqueuedBlockMap[Block].BlockArg->stripPointerCasts());
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// The common part of the post-processing of the kernel goes here.
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F->addFnAttr(llvm::Attribute::NoUnwind);
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F->setCallingConv(
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CGF.getTypes().ClangCallConvToLLVMCallConv(CallingConv::CC_OpenCLKernel));
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EnqueuedBlockMap[Block].Kernel = F;
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return EnqueuedBlockMap[Block];
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}
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