CodeGenFunction.cpp revision ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1 
15f016e2cb5d11daeb237544de1c5d59f20fe1a6eReid Spencer//===--- CodeGenFunction.cpp - Emit LLVM Code from ASTs for a Function ----===//
25f016e2cb5d11daeb237544de1c5d59f20fe1a6eReid Spencer//
35f016e2cb5d11daeb237544de1c5d59f20fe1a6eReid Spencer//                     The LLVM Compiler Infrastructure
45f016e2cb5d11daeb237544de1c5d59f20fe1a6eReid Spencer//
50bc735ffcfb223c0186419547abaa5c84482663eChris Lattner// This file is distributed under the University of Illinois Open Source
60bc735ffcfb223c0186419547abaa5c84482663eChris Lattner// License. See LICENSE.TXT for details.
75f016e2cb5d11daeb237544de1c5d59f20fe1a6eReid Spencer//
85f016e2cb5d11daeb237544de1c5d59f20fe1a6eReid Spencer//===----------------------------------------------------------------------===//
95f016e2cb5d11daeb237544de1c5d59f20fe1a6eReid Spencer//
105f016e2cb5d11daeb237544de1c5d59f20fe1a6eReid Spencer// This coordinates the per-function state used while generating code.
115f016e2cb5d11daeb237544de1c5d59f20fe1a6eReid Spencer//
125f016e2cb5d11daeb237544de1c5d59f20fe1a6eReid Spencer//===----------------------------------------------------------------------===//
135f016e2cb5d11daeb237544de1c5d59f20fe1a6eReid Spencer
145f016e2cb5d11daeb237544de1c5d59f20fe1a6eReid Spencer#include "CodeGenFunction.h"
155f016e2cb5d11daeb237544de1c5d59f20fe1a6eReid Spencer#include "CodeGenModule.h"
163f2af1002249c8acc9ce17f1fc50324864feb8e1Eli Friedman#include "CGDebugInfo.h"
17f1549f66a8216a78112286e3978cea2c29d6334cJohn McCall#include "CGException.h"
185f016e2cb5d11daeb237544de1c5d59f20fe1a6eReid Spencer#include "clang/Basic/TargetInfo.h"
1931a0984b5cb4af99d2407c0f25bf5af68df681c6Chris Lattner#include "clang/AST/APValue.h"
20de7fb8413b13651fd85b7125d08b3c9ac2816d9dDaniel Dunbar#include "clang/AST/ASTContext.h"
21c4a1dea2dc56bd1357ec91b829a0b9e68229a13eDaniel Dunbar#include "clang/AST/Decl.h"
222b77ba8bc7a842829ad9193816dc1d7d5e9c5be6Anders Carlsson#include "clang/AST/DeclCXX.h"
236a1e0eb557d47e85185e09bdf8721f53f4bf9c9cMike Stump#include "clang/AST/StmtCXX.h"
247255a2d997b15beae82e627052fdb1b2474495c2Chris Lattner#include "clang/Frontend/CodeGenOptions.h"
254e7a1f7682d94811bd41fca8aefccc38f686db23Mike Stump#include "llvm/Target/TargetData.h"
267255a2d997b15beae82e627052fdb1b2474495c2Chris Lattner#include "llvm/Intrinsics.h"
275f016e2cb5d11daeb237544de1c5d59f20fe1a6eReid Spencerusing namespace clang;
285f016e2cb5d11daeb237544de1c5d59f20fe1a6eReid Spencerusing namespace CodeGen;
295f016e2cb5d11daeb237544de1c5d59f20fe1a6eReid Spencer
301eb4433ac451dc16f4133a88af2d002ac26c58efMike StumpCodeGenFunction::CodeGenFunction(CodeGenModule &cgm)
31a4f668f3b7e03629066a01b04e415cb2b4655dafMike Stump  : BlockFunction(cgm, *this, Builder), CGM(cgm),
32a4f668f3b7e03629066a01b04e415cb2b4655dafMike Stump    Target(CGM.getContext().Target),
33aac8705c046f01a264a4f82832895a5d9e695633Owen Anderson    Builder(cgm.getModule().getContext()),
34ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall    NormalCleanupDest(0), EHCleanupDest(0), NextCleanupDestIndex(1),
35f1549f66a8216a78112286e3978cea2c29d6334cJohn McCall    ExceptionSlot(0), DebugInfo(0), IndirectBranch(0),
36ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall    SwitchInsn(0), CaseRangeBlock(0),
37f1549f66a8216a78112286e3978cea2c29d6334cJohn McCall    DidCallStackSave(false), UnreachableBlock(0),
382504941793b549323f9d29c62507cf21d865fadeJohn McCall    CXXThisDecl(0), CXXThisValue(0), CXXVTTDecl(0), CXXVTTValue(0),
39f1549f66a8216a78112286e3978cea2c29d6334cJohn McCall    ConditionalBranchLevel(0), TerminateLandingPad(0), TerminateHandler(0),
4083252dcfe61aaebcb6bc117e71dc12968729513fChris Lattner    TrapBB(0) {
4177b89b87c3b9220fea1bc80f6d6598d2003cc8a8Chris Lattner
4277b89b87c3b9220fea1bc80f6d6598d2003cc8a8Chris Lattner  // Get some frequently used types.
434e7a1f7682d94811bd41fca8aefccc38f686db23Mike Stump  LLVMPointerWidth = Target.getPointerWidth(0);
4477b89b87c3b9220fea1bc80f6d6598d2003cc8a8Chris Lattner  llvm::LLVMContext &LLVMContext = CGM.getLLVMContext();
4577b89b87c3b9220fea1bc80f6d6598d2003cc8a8Chris Lattner  IntPtrTy = llvm::IntegerType::get(LLVMContext, LLVMPointerWidth);
4677b89b87c3b9220fea1bc80f6d6598d2003cc8a8Chris Lattner  Int32Ty  = llvm::Type::getInt32Ty(LLVMContext);
4777b89b87c3b9220fea1bc80f6d6598d2003cc8a8Chris Lattner  Int64Ty  = llvm::Type::getInt64Ty(LLVMContext);
4877b89b87c3b9220fea1bc80f6d6598d2003cc8a8Chris Lattner
49d88ea5687968640ada2bc5a10211cbeb68a671ecMike Stump  Exceptions = getContext().getLangOptions().Exceptions;
509c276ae0f24d4cee8f7954069d4b8eae45d0447dMike Stump  CatchUndefined = getContext().getLangOptions().CatchUndefined;
5135415f5132f70ad5097a3514ab84251e10db3664Douglas Gregor  CGM.getMangleContext().startNewFunction();
524111024be81e7c0525e42dadcc126d27e5bf2425Chris Lattner}
535f016e2cb5d11daeb237544de1c5d59f20fe1a6eReid Spencer
545f016e2cb5d11daeb237544de1c5d59f20fe1a6eReid SpencerASTContext &CodeGenFunction::getContext() const {
555f016e2cb5d11daeb237544de1c5d59f20fe1a6eReid Spencer  return CGM.getContext();
565f016e2cb5d11daeb237544de1c5d59f20fe1a6eReid Spencer}
575f016e2cb5d11daeb237544de1c5d59f20fe1a6eReid Spencer
585f016e2cb5d11daeb237544de1c5d59f20fe1a6eReid Spencer
590096acf421c4609ce7f43e8b05f8c5ca866d4611Daniel Dunbarllvm::Value *CodeGenFunction::GetAddrOfLocalVar(const VarDecl *VD) {
600096acf421c4609ce7f43e8b05f8c5ca866d4611Daniel Dunbar  llvm::Value *Res = LocalDeclMap[VD];
610096acf421c4609ce7f43e8b05f8c5ca866d4611Daniel Dunbar  assert(Res && "Invalid argument to GetAddrOfLocalVar(), no decl!");
620096acf421c4609ce7f43e8b05f8c5ca866d4611Daniel Dunbar  return Res;
63813733577d33ec56479667b49e1bff42dc6bba90Lauro Ramos Venancio}
645f016e2cb5d11daeb237544de1c5d59f20fe1a6eReid Spencer
650096acf421c4609ce7f43e8b05f8c5ca866d4611Daniel Dunbarllvm::Constant *
660096acf421c4609ce7f43e8b05f8c5ca866d4611Daniel DunbarCodeGenFunction::GetAddrOfStaticLocalVar(const VarDecl *BVD) {
670096acf421c4609ce7f43e8b05f8c5ca866d4611Daniel Dunbar  return cast<llvm::Constant>(GetAddrOfLocalVar(BVD));
68dde0a94120915fa925d1ffcdb997c7b44dc9fa21Anders Carlsson}
69dde0a94120915fa925d1ffcdb997c7b44dc9fa21Anders Carlsson
708b1a343b6b360d63d5dc8a6beb841ce4414c1e00Daniel Dunbarconst llvm::Type *CodeGenFunction::ConvertTypeForMem(QualType T) {
718b1a343b6b360d63d5dc8a6beb841ce4414c1e00Daniel Dunbar  return CGM.getTypes().ConvertTypeForMem(T);
728b1a343b6b360d63d5dc8a6beb841ce4414c1e00Daniel Dunbar}
738b1a343b6b360d63d5dc8a6beb841ce4414c1e00Daniel Dunbar
745f016e2cb5d11daeb237544de1c5d59f20fe1a6eReid Spencerconst llvm::Type *CodeGenFunction::ConvertType(QualType T) {
755f016e2cb5d11daeb237544de1c5d59f20fe1a6eReid Spencer  return CGM.getTypes().ConvertType(T);
765f016e2cb5d11daeb237544de1c5d59f20fe1a6eReid Spencer}
775f016e2cb5d11daeb237544de1c5d59f20fe1a6eReid Spencer
784111024be81e7c0525e42dadcc126d27e5bf2425Chris Lattnerbool CodeGenFunction::hasAggregateLLVMType(QualType T) {
79e9d34dc7afe06c9adaacad7a678a0cbbf749ea75Anders Carlsson  return T->isRecordType() || T->isArrayType() || T->isAnyComplexType() ||
80e9d34dc7afe06c9adaacad7a678a0cbbf749ea75Anders Carlsson    T->isMemberFunctionPointerType();
814111024be81e7c0525e42dadcc126d27e5bf2425Chris Lattner}
82391d77a26382dddf25da73e29fc1fa5aaaea4c6fChris Lattner
831c1d6074f5a0296dd273362655b1b8f9057289e3Daniel Dunbarvoid CodeGenFunction::EmitReturnBlock() {
841c1d6074f5a0296dd273362655b1b8f9057289e3Daniel Dunbar  // For cleanliness, we try to avoid emitting the return block for
851c1d6074f5a0296dd273362655b1b8f9057289e3Daniel Dunbar  // simple cases.
861c1d6074f5a0296dd273362655b1b8f9057289e3Daniel Dunbar  llvm::BasicBlock *CurBB = Builder.GetInsertBlock();
871c1d6074f5a0296dd273362655b1b8f9057289e3Daniel Dunbar
881c1d6074f5a0296dd273362655b1b8f9057289e3Daniel Dunbar  if (CurBB) {
891c1d6074f5a0296dd273362655b1b8f9057289e3Daniel Dunbar    assert(!CurBB->getTerminator() && "Unexpected terminated block.");
901c1d6074f5a0296dd273362655b1b8f9057289e3Daniel Dunbar
9196e18b05ea6b55aa92a1a576f29e9cee73a7e20bDaniel Dunbar    // We have a valid insert point, reuse it if it is empty or there are no
9296e18b05ea6b55aa92a1a576f29e9cee73a7e20bDaniel Dunbar    // explicit jumps to the return block.
93ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall    if (CurBB->empty() || ReturnBlock.getBlock()->use_empty()) {
94ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      ReturnBlock.getBlock()->replaceAllUsesWith(CurBB);
95ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      delete ReturnBlock.getBlock();
9696e18b05ea6b55aa92a1a576f29e9cee73a7e20bDaniel Dunbar    } else
97ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      EmitBlock(ReturnBlock.getBlock());
981c1d6074f5a0296dd273362655b1b8f9057289e3Daniel Dunbar    return;
991c1d6074f5a0296dd273362655b1b8f9057289e3Daniel Dunbar  }
1001c1d6074f5a0296dd273362655b1b8f9057289e3Daniel Dunbar
1011c1d6074f5a0296dd273362655b1b8f9057289e3Daniel Dunbar  // Otherwise, if the return block is the target of a single direct
1021c1d6074f5a0296dd273362655b1b8f9057289e3Daniel Dunbar  // branch then we can just put the code in that block instead. This
1031c1d6074f5a0296dd273362655b1b8f9057289e3Daniel Dunbar  // cleans up functions which started with a unified return block.
104ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall  if (ReturnBlock.getBlock()->hasOneUse()) {
1051eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump    llvm::BranchInst *BI =
106ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      dyn_cast<llvm::BranchInst>(*ReturnBlock.getBlock()->use_begin());
107f1549f66a8216a78112286e3978cea2c29d6334cJohn McCall    if (BI && BI->isUnconditional() &&
108ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall        BI->getSuccessor(0) == ReturnBlock.getBlock()) {
1091c1d6074f5a0296dd273362655b1b8f9057289e3Daniel Dunbar      // Reset insertion point and delete the branch.
1101c1d6074f5a0296dd273362655b1b8f9057289e3Daniel Dunbar      Builder.SetInsertPoint(BI->getParent());
1111c1d6074f5a0296dd273362655b1b8f9057289e3Daniel Dunbar      BI->eraseFromParent();
112ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      delete ReturnBlock.getBlock();
1131c1d6074f5a0296dd273362655b1b8f9057289e3Daniel Dunbar      return;
1141c1d6074f5a0296dd273362655b1b8f9057289e3Daniel Dunbar    }
1151c1d6074f5a0296dd273362655b1b8f9057289e3Daniel Dunbar  }
1161c1d6074f5a0296dd273362655b1b8f9057289e3Daniel Dunbar
117f5408fe484495ee4efbdd709c8a2c2fdbbbdb328Mike Stump  // FIXME: We are at an unreachable point, there is no reason to emit the block
118f5408fe484495ee4efbdd709c8a2c2fdbbbdb328Mike Stump  // unless it has uses. However, we still need a place to put the debug
119f5408fe484495ee4efbdd709c8a2c2fdbbbdb328Mike Stump  // region.end for now.
1201c1d6074f5a0296dd273362655b1b8f9057289e3Daniel Dunbar
121ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall  EmitBlock(ReturnBlock.getBlock());
122f1549f66a8216a78112286e3978cea2c29d6334cJohn McCall}
123f1549f66a8216a78112286e3978cea2c29d6334cJohn McCall
124f1549f66a8216a78112286e3978cea2c29d6334cJohn McCallstatic void EmitIfUsed(CodeGenFunction &CGF, llvm::BasicBlock *BB) {
125f1549f66a8216a78112286e3978cea2c29d6334cJohn McCall  if (!BB) return;
126f1549f66a8216a78112286e3978cea2c29d6334cJohn McCall  if (!BB->use_empty())
127f1549f66a8216a78112286e3978cea2c29d6334cJohn McCall    return CGF.CurFn->getBasicBlockList().push_back(BB);
128f1549f66a8216a78112286e3978cea2c29d6334cJohn McCall  delete BB;
1291c1d6074f5a0296dd273362655b1b8f9057289e3Daniel Dunbar}
1301c1d6074f5a0296dd273362655b1b8f9057289e3Daniel Dunbar
131af05bb9073319d8381b71c4325188853fd4b8ed6Daniel Dunbarvoid CodeGenFunction::FinishFunction(SourceLocation EndLoc) {
132391d77a26382dddf25da73e29fc1fa5aaaea4c6fChris Lattner  assert(BreakContinueStack.empty() &&
133391d77a26382dddf25da73e29fc1fa5aaaea4c6fChris Lattner         "mismatched push/pop in break/continue stack!");
1341eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump
1351eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump  // Emit function epilog (to return).
1361c1d6074f5a0296dd273362655b1b8f9057289e3Daniel Dunbar  EmitReturnBlock();
137f5bd45c8e6fa7519cdc17ec3ff4917e279c6a041Daniel Dunbar
1387255a2d997b15beae82e627052fdb1b2474495c2Chris Lattner  EmitFunctionInstrumentation("__cyg_profile_func_exit");
1397255a2d997b15beae82e627052fdb1b2474495c2Chris Lattner
140f5bd45c8e6fa7519cdc17ec3ff4917e279c6a041Daniel Dunbar  // Emit debug descriptor for function end.
141e896d98548b02223c7740d807a0aa6e20fba7079Anders Carlsson  if (CGDebugInfo *DI = getDebugInfo()) {
142f5bd45c8e6fa7519cdc17ec3ff4917e279c6a041Daniel Dunbar    DI->setLocation(EndLoc);
1435a6fbcfd8c15a2296f94a0473a68ec09d429827fDevang Patel    DI->EmitFunctionEnd(Builder);
144f5bd45c8e6fa7519cdc17ec3ff4917e279c6a041Daniel Dunbar  }
145f5bd45c8e6fa7519cdc17ec3ff4917e279c6a041Daniel Dunbar
14635b21b884e5c3447a52a74d7ffaba966b07ac81fChris Lattner  EmitFunctionEpilog(*CurFnInfo);
147cce3d4f9812182ed4e551b7cf0fc86576be8d9c5Mike Stump  EmitEndEHSpec(CurCodeDecl);
1485ca2084cf9b529563209429857f01fdae9dcdfa5Daniel Dunbar
149f1549f66a8216a78112286e3978cea2c29d6334cJohn McCall  assert(EHStack.empty() &&
150f1549f66a8216a78112286e3978cea2c29d6334cJohn McCall         "did not remove all scopes from cleanup stack!");
151f1549f66a8216a78112286e3978cea2c29d6334cJohn McCall
152d9becd1846e2c72bf6ad283faa1b048f33dd3afeChris Lattner  // If someone did an indirect goto, emit the indirect goto block at the end of
153d9becd1846e2c72bf6ad283faa1b048f33dd3afeChris Lattner  // the function.
154d9becd1846e2c72bf6ad283faa1b048f33dd3afeChris Lattner  if (IndirectBranch) {
155d9becd1846e2c72bf6ad283faa1b048f33dd3afeChris Lattner    EmitBlock(IndirectBranch->getParent());
156d9becd1846e2c72bf6ad283faa1b048f33dd3afeChris Lattner    Builder.ClearInsertionPoint();
157d9becd1846e2c72bf6ad283faa1b048f33dd3afeChris Lattner  }
158d9becd1846e2c72bf6ad283faa1b048f33dd3afeChris Lattner
159391d77a26382dddf25da73e29fc1fa5aaaea4c6fChris Lattner  // Remove the AllocaInsertPt instruction, which is just a convenience for us.
160481769b5dc102b0256b35581e787909ad5edfab5Chris Lattner  llvm::Instruction *Ptr = AllocaInsertPt;
161391d77a26382dddf25da73e29fc1fa5aaaea4c6fChris Lattner  AllocaInsertPt = 0;
162481769b5dc102b0256b35581e787909ad5edfab5Chris Lattner  Ptr->eraseFromParent();
163d9becd1846e2c72bf6ad283faa1b048f33dd3afeChris Lattner
164d9becd1846e2c72bf6ad283faa1b048f33dd3afeChris Lattner  // If someone took the address of a label but never did an indirect goto, we
165d9becd1846e2c72bf6ad283faa1b048f33dd3afeChris Lattner  // made a zero entry PHI node, which is illegal, zap it now.
166d9becd1846e2c72bf6ad283faa1b048f33dd3afeChris Lattner  if (IndirectBranch) {
167d9becd1846e2c72bf6ad283faa1b048f33dd3afeChris Lattner    llvm::PHINode *PN = cast<llvm::PHINode>(IndirectBranch->getAddress());
168d9becd1846e2c72bf6ad283faa1b048f33dd3afeChris Lattner    if (PN->getNumIncomingValues() == 0) {
169d9becd1846e2c72bf6ad283faa1b048f33dd3afeChris Lattner      PN->replaceAllUsesWith(llvm::UndefValue::get(PN->getType()));
170d9becd1846e2c72bf6ad283faa1b048f33dd3afeChris Lattner      PN->eraseFromParent();
171d9becd1846e2c72bf6ad283faa1b048f33dd3afeChris Lattner    }
172d9becd1846e2c72bf6ad283faa1b048f33dd3afeChris Lattner  }
173f1549f66a8216a78112286e3978cea2c29d6334cJohn McCall
174ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall  EmitIfUsed(*this, RethrowBlock.getBlock());
175f1549f66a8216a78112286e3978cea2c29d6334cJohn McCall  EmitIfUsed(*this, TerminateLandingPad);
176f1549f66a8216a78112286e3978cea2c29d6334cJohn McCall  EmitIfUsed(*this, TerminateHandler);
177f1549f66a8216a78112286e3978cea2c29d6334cJohn McCall  EmitIfUsed(*this, UnreachableBlock);
178744016dde06fcffd50931e94a98c850f8b12cd87John McCall
179744016dde06fcffd50931e94a98c850f8b12cd87John McCall  if (CGM.getCodeGenOpts().EmitDeclMetadata)
180744016dde06fcffd50931e94a98c850f8b12cd87John McCall    EmitDeclMetadata();
181c8aa5f1f264fb230c38182adab944232bb160c2bChris Lattner}
182c8aa5f1f264fb230c38182adab944232bb160c2bChris Lattner
1837255a2d997b15beae82e627052fdb1b2474495c2Chris Lattner/// ShouldInstrumentFunction - Return true if the current function should be
1847255a2d997b15beae82e627052fdb1b2474495c2Chris Lattner/// instrumented with __cyg_profile_func_* calls
1857255a2d997b15beae82e627052fdb1b2474495c2Chris Lattnerbool CodeGenFunction::ShouldInstrumentFunction() {
1867255a2d997b15beae82e627052fdb1b2474495c2Chris Lattner  if (!CGM.getCodeGenOpts().InstrumentFunctions)
1877255a2d997b15beae82e627052fdb1b2474495c2Chris Lattner    return false;
1887255a2d997b15beae82e627052fdb1b2474495c2Chris Lattner  if (CurFuncDecl->hasAttr<NoInstrumentFunctionAttr>())
1897255a2d997b15beae82e627052fdb1b2474495c2Chris Lattner    return false;
1907255a2d997b15beae82e627052fdb1b2474495c2Chris Lattner  return true;
1917255a2d997b15beae82e627052fdb1b2474495c2Chris Lattner}
1927255a2d997b15beae82e627052fdb1b2474495c2Chris Lattner
1937255a2d997b15beae82e627052fdb1b2474495c2Chris Lattner/// EmitFunctionInstrumentation - Emit LLVM code to call the specified
1947255a2d997b15beae82e627052fdb1b2474495c2Chris Lattner/// instrumentation function with the current function and the call site, if
1957255a2d997b15beae82e627052fdb1b2474495c2Chris Lattner/// function instrumentation is enabled.
1967255a2d997b15beae82e627052fdb1b2474495c2Chris Lattnervoid CodeGenFunction::EmitFunctionInstrumentation(const char *Fn) {
1977255a2d997b15beae82e627052fdb1b2474495c2Chris Lattner  if (!ShouldInstrumentFunction())
1987255a2d997b15beae82e627052fdb1b2474495c2Chris Lattner    return;
1997255a2d997b15beae82e627052fdb1b2474495c2Chris Lattner
2008dab6571b2cab96f44d0a1d6e3edbfdb68b7ed6bChris Lattner  const llvm::PointerType *PointerTy;
2017255a2d997b15beae82e627052fdb1b2474495c2Chris Lattner  const llvm::FunctionType *FunctionTy;
2027255a2d997b15beae82e627052fdb1b2474495c2Chris Lattner  std::vector<const llvm::Type*> ProfileFuncArgs;
2037255a2d997b15beae82e627052fdb1b2474495c2Chris Lattner
2048dab6571b2cab96f44d0a1d6e3edbfdb68b7ed6bChris Lattner  // void __cyg_profile_func_{enter,exit} (void *this_fn, void *call_site);
2058dab6571b2cab96f44d0a1d6e3edbfdb68b7ed6bChris Lattner  PointerTy = llvm::Type::getInt8PtrTy(VMContext);
2068dab6571b2cab96f44d0a1d6e3edbfdb68b7ed6bChris Lattner  ProfileFuncArgs.push_back(PointerTy);
2078dab6571b2cab96f44d0a1d6e3edbfdb68b7ed6bChris Lattner  ProfileFuncArgs.push_back(PointerTy);
2087255a2d997b15beae82e627052fdb1b2474495c2Chris Lattner  FunctionTy = llvm::FunctionType::get(
2097255a2d997b15beae82e627052fdb1b2474495c2Chris Lattner    llvm::Type::getVoidTy(VMContext),
2107255a2d997b15beae82e627052fdb1b2474495c2Chris Lattner    ProfileFuncArgs, false);
2117255a2d997b15beae82e627052fdb1b2474495c2Chris Lattner
2127255a2d997b15beae82e627052fdb1b2474495c2Chris Lattner  llvm::Constant *F = CGM.CreateRuntimeFunction(FunctionTy, Fn);
2137255a2d997b15beae82e627052fdb1b2474495c2Chris Lattner  llvm::CallInst *CallSite = Builder.CreateCall(
2147255a2d997b15beae82e627052fdb1b2474495c2Chris Lattner    CGM.getIntrinsic(llvm::Intrinsic::returnaddress, 0, 0),
21577b89b87c3b9220fea1bc80f6d6598d2003cc8a8Chris Lattner    llvm::ConstantInt::get(Int32Ty, 0),
2167255a2d997b15beae82e627052fdb1b2474495c2Chris Lattner    "callsite");
2177255a2d997b15beae82e627052fdb1b2474495c2Chris Lattner
2188dab6571b2cab96f44d0a1d6e3edbfdb68b7ed6bChris Lattner  Builder.CreateCall2(F,
2198dab6571b2cab96f44d0a1d6e3edbfdb68b7ed6bChris Lattner                      llvm::ConstantExpr::getBitCast(CurFn, PointerTy),
2208dab6571b2cab96f44d0a1d6e3edbfdb68b7ed6bChris Lattner                      CallSite);
2217255a2d997b15beae82e627052fdb1b2474495c2Chris Lattner}
2227255a2d997b15beae82e627052fdb1b2474495c2Chris Lattner
2230ff8bafde95f6fa51ccea70738c1b99db870bddcAnders Carlssonvoid CodeGenFunction::StartFunction(GlobalDecl GD, QualType RetTy,
2247c086516f3cc9fba2733b1919973206c6ba4b171Daniel Dunbar                                    llvm::Function *Fn,
2252284ac9ec80299fcdefae9a2787cf85105a0f203Daniel Dunbar                                    const FunctionArgList &Args,
2262284ac9ec80299fcdefae9a2787cf85105a0f203Daniel Dunbar                                    SourceLocation StartLoc) {
2270ff8bafde95f6fa51ccea70738c1b99db870bddcAnders Carlsson  const Decl *D = GD.getDecl();
2280ff8bafde95f6fa51ccea70738c1b99db870bddcAnders Carlsson
2294cc1a4703363ff940b6273aeef9d96a87edeb04bAnders Carlsson  DidCallStackSave = false;
230b5437d238752dc297e42410e98d38d5250fe0463Chris Lattner  CurCodeDecl = CurFuncDecl = D;
2317c086516f3cc9fba2733b1919973206c6ba4b171Daniel Dunbar  FnRetTy = RetTy;
232bd012ff1fa088181646a784f385b28867372d434Daniel Dunbar  CurFn = Fn;
2335f016e2cb5d11daeb237544de1c5d59f20fe1a6eReid Spencer  assert(CurFn->isDeclaration() && "Function already has body?");
234ddee4231e9bdfbac1e1f5385ff1a17fd0e0b0e39Chris Lattner
235a3fe2842e0cf953241ccc05809afdf84f13798e9Jakob Stoklund Olesen  // Pass inline keyword to optimizer if it appears explicitly on any
236a3fe2842e0cf953241ccc05809afdf84f13798e9Jakob Stoklund Olesen  // declaration.
237a3fe2842e0cf953241ccc05809afdf84f13798e9Jakob Stoklund Olesen  if (const FunctionDecl *FD = dyn_cast_or_null<FunctionDecl>(D))
238a3fe2842e0cf953241ccc05809afdf84f13798e9Jakob Stoklund Olesen    for (FunctionDecl::redecl_iterator RI = FD->redecls_begin(),
239a3fe2842e0cf953241ccc05809afdf84f13798e9Jakob Stoklund Olesen           RE = FD->redecls_end(); RI != RE; ++RI)
240a3fe2842e0cf953241ccc05809afdf84f13798e9Jakob Stoklund Olesen      if (RI->isInlineSpecified()) {
241a3fe2842e0cf953241ccc05809afdf84f13798e9Jakob Stoklund Olesen        Fn->addFnAttr(llvm::Attribute::InlineHint);
242a3fe2842e0cf953241ccc05809afdf84f13798e9Jakob Stoklund Olesen        break;
243a3fe2842e0cf953241ccc05809afdf84f13798e9Jakob Stoklund Olesen      }
244a3fe2842e0cf953241ccc05809afdf84f13798e9Jakob Stoklund Olesen
24555e874299f2ad827646a4ca9ea38c402aaeb38c9Daniel Dunbar  llvm::BasicBlock *EntryBB = createBasicBlock("entry", CurFn);
2465ca2084cf9b529563209429857f01fdae9dcdfa5Daniel Dunbar
2475f016e2cb5d11daeb237544de1c5d59f20fe1a6eReid Spencer  // Create a marker to make it easy to insert allocas into the entryblock
24855352a2d616cf9fbb621d10faf8b960b4b268bd8Chris Lattner  // later.  Don't create this with the builder, because we don't want it
24955352a2d616cf9fbb621d10faf8b960b4b268bd8Chris Lattner  // folded.
25077b89b87c3b9220fea1bc80f6d6598d2003cc8a8Chris Lattner  llvm::Value *Undef = llvm::UndefValue::get(Int32Ty);
25177b89b87c3b9220fea1bc80f6d6598d2003cc8a8Chris Lattner  AllocaInsertPt = new llvm::BitCastInst(Undef, Int32Ty, "", EntryBB);
252f1466848dce9c4c75d96a6cabdc8db560e26aac8Chris Lattner  if (Builder.isNamePreserving())
253f1466848dce9c4c75d96a6cabdc8db560e26aac8Chris Lattner    AllocaInsertPt->setName("allocapt");
2541eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump
255f1549f66a8216a78112286e3978cea2c29d6334cJohn McCall  ReturnBlock = getJumpDestInCurrentScope("return");
2561eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump
25755352a2d616cf9fbb621d10faf8b960b4b268bd8Chris Lattner  Builder.SetInsertPoint(EntryBB);
2581eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump
259ce056bcaa1c97b89a4b2de2112c62d060863be2bDouglas Gregor  QualType FnType = getContext().getFunctionType(RetTy, 0, 0, false, 0,
260ce056bcaa1c97b89a4b2de2112c62d060863be2bDouglas Gregor                                                 false, false, 0, 0,
261264ba48dc98f3f843935a485d5b086f7e0fdc4f1Rafael Espindola                                                 /*FIXME?*/
262264ba48dc98f3f843935a485d5b086f7e0fdc4f1Rafael Espindola                                                 FunctionType::ExtInfo());
26391cc815ffd13d4a78ae1b5bd617e19dd555de4f4Mike Stump
264af99417156c652a6f04dff643925036dc3241d60Sanjiv Gupta  // Emit subprogram debug descriptor.
265e896d98548b02223c7740d807a0aa6e20fba7079Anders Carlsson  if (CGDebugInfo *DI = getDebugInfo()) {
2662284ac9ec80299fcdefae9a2787cf85105a0f203Daniel Dunbar    DI->setLocation(StartLoc);
2679c6c3a0e3ae09626d2d4b04e4ffa42c3d7cab32bDevang Patel    DI->EmitFunctionStart(GD, FnType, CurFn, Builder);
268af99417156c652a6f04dff643925036dc3241d60Sanjiv Gupta  }
269af99417156c652a6f04dff643925036dc3241d60Sanjiv Gupta
2707255a2d997b15beae82e627052fdb1b2474495c2Chris Lattner  EmitFunctionInstrumentation("__cyg_profile_func_enter");
2717255a2d997b15beae82e627052fdb1b2474495c2Chris Lattner
27288b5396b0897f28d22ae3debf4a0d97b33b6c362Daniel Dunbar  // FIXME: Leaked.
27304a67a6aa3dfdc92d57f7f8d93ba397348c868a4John McCall  // CC info is ignored, hopefully?
27404a67a6aa3dfdc92d57f7f8d93ba397348c868a4John McCall  CurFnInfo = &CGM.getTypes().getFunctionInfo(FnRetTy, Args,
275264ba48dc98f3f843935a485d5b086f7e0fdc4f1Rafael Espindola                                              FunctionType::ExtInfo());
276b17daf9ab790ae71aacad2cc4aa11cd8d86c25d1Eli Friedman
277b17daf9ab790ae71aacad2cc4aa11cd8d86c25d1Eli Friedman  if (RetTy->isVoidType()) {
278b17daf9ab790ae71aacad2cc4aa11cd8d86c25d1Eli Friedman    // Void type; nothing to return.
279b17daf9ab790ae71aacad2cc4aa11cd8d86c25d1Eli Friedman    ReturnValue = 0;
280b17daf9ab790ae71aacad2cc4aa11cd8d86c25d1Eli Friedman  } else if (CurFnInfo->getReturnInfo().getKind() == ABIArgInfo::Indirect &&
281b17daf9ab790ae71aacad2cc4aa11cd8d86c25d1Eli Friedman             hasAggregateLLVMType(CurFnInfo->getReturnType())) {
282b17daf9ab790ae71aacad2cc4aa11cd8d86c25d1Eli Friedman    // Indirect aggregate return; emit returned value directly into sret slot.
283647a1ec397fa13af176d07d9f5d071560a94c7a9Daniel Dunbar    // This reduces code size, and affects correctness in C++.
284b17daf9ab790ae71aacad2cc4aa11cd8d86c25d1Eli Friedman    ReturnValue = CurFn->arg_begin();
285b17daf9ab790ae71aacad2cc4aa11cd8d86c25d1Eli Friedman  } else {
286647a1ec397fa13af176d07d9f5d071560a94c7a9Daniel Dunbar    ReturnValue = CreateIRTemp(RetTy, "retval");
287b17daf9ab790ae71aacad2cc4aa11cd8d86c25d1Eli Friedman  }
288b17daf9ab790ae71aacad2cc4aa11cd8d86c25d1Eli Friedman
289cce3d4f9812182ed4e551b7cf0fc86576be8d9c5Mike Stump  EmitStartEHSpec(CurCodeDecl);
29088b5396b0897f28d22ae3debf4a0d97b33b6c362Daniel Dunbar  EmitFunctionProlog(*CurFnInfo, CurFn, Args);
2911eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump
2922504941793b549323f9d29c62507cf21d865fadeJohn McCall  if (CXXThisDecl)
2932504941793b549323f9d29c62507cf21d865fadeJohn McCall    CXXThisValue = Builder.CreateLoad(LocalDeclMap[CXXThisDecl], "this");
2942504941793b549323f9d29c62507cf21d865fadeJohn McCall  if (CXXVTTDecl)
2952504941793b549323f9d29c62507cf21d865fadeJohn McCall    CXXVTTValue = Builder.CreateLoad(LocalDeclMap[CXXVTTDecl], "vtt");
2962504941793b549323f9d29c62507cf21d865fadeJohn McCall
297751358ff73b155f5384e151e1d18aa3f6e7b061cAnders Carlsson  // If any of the arguments have a variably modified type, make sure to
298751358ff73b155f5384e151e1d18aa3f6e7b061cAnders Carlsson  // emit the type size.
299751358ff73b155f5384e151e1d18aa3f6e7b061cAnders Carlsson  for (FunctionArgList::const_iterator i = Args.begin(), e = Args.end();
300751358ff73b155f5384e151e1d18aa3f6e7b061cAnders Carlsson       i != e; ++i) {
301751358ff73b155f5384e151e1d18aa3f6e7b061cAnders Carlsson    QualType Ty = i->second;
302751358ff73b155f5384e151e1d18aa3f6e7b061cAnders Carlsson
303751358ff73b155f5384e151e1d18aa3f6e7b061cAnders Carlsson    if (Ty->isVariablyModifiedType())
304751358ff73b155f5384e151e1d18aa3f6e7b061cAnders Carlsson      EmitVLASize(Ty);
305751358ff73b155f5384e151e1d18aa3f6e7b061cAnders Carlsson  }
3067c086516f3cc9fba2733b1919973206c6ba4b171Daniel Dunbar}
307eb4b7051a596560ef4a1846e3714707f44e9dc30Eli Friedman
3089fc6a7774643a810c8501dae2323e863fefb623eJohn McCallvoid CodeGenFunction::EmitFunctionBody(FunctionArgList &Args) {
3099fc6a7774643a810c8501dae2323e863fefb623eJohn McCall  const FunctionDecl *FD = cast<FunctionDecl>(CurGD.getDecl());
31006a9f3680d22529a2fcf20c52d71cf221d99d910Douglas Gregor  assert(FD->getBody());
31106a9f3680d22529a2fcf20c52d71cf221d99d910Douglas Gregor  EmitStmt(FD->getBody());
312a355e07454463b19829ac92ffd115a097faff0e0John McCall}
313a355e07454463b19829ac92ffd115a097faff0e0John McCall
314c997d4278d329e18891aac9698fb991b2d4622ebAnders Carlssonvoid CodeGenFunction::GenerateCode(GlobalDecl GD, llvm::Function *Fn) {
3150ff8bafde95f6fa51ccea70738c1b99db870bddcAnders Carlsson  const FunctionDecl *FD = cast<FunctionDecl>(GD.getDecl());
3160ff8bafde95f6fa51ccea70738c1b99db870bddcAnders Carlsson
317e896d98548b02223c7740d807a0aa6e20fba7079Anders Carlsson  // Check if we should generate debug info for this function.
3181feade8e520be483293dbf55eb57a51720899589Mike Stump  if (CGM.getDebugInfo() && !FD->hasAttr<NoDebugAttr>())
319e896d98548b02223c7740d807a0aa6e20fba7079Anders Carlsson    DebugInfo = CGM.getDebugInfo();
3201eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump
3217c086516f3cc9fba2733b1919973206c6ba4b171Daniel Dunbar  FunctionArgList Args;
3221eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump
3236a1e0eb557d47e85185e09bdf8721f53f4bf9c9cMike Stump  CurGD = GD;
3242b77ba8bc7a842829ad9193816dc1d7d5e9c5be6Anders Carlsson  if (const CXXMethodDecl *MD = dyn_cast<CXXMethodDecl>(FD)) {
3252b77ba8bc7a842829ad9193816dc1d7d5e9c5be6Anders Carlsson    if (MD->isInstance()) {
3262b77ba8bc7a842829ad9193816dc1d7d5e9c5be6Anders Carlsson      // Create the implicit 'this' decl.
3272b77ba8bc7a842829ad9193816dc1d7d5e9c5be6Anders Carlsson      // FIXME: I'm not entirely sure I like using a fake decl just for code
3282b77ba8bc7a842829ad9193816dc1d7d5e9c5be6Anders Carlsson      // generation. Maybe we can come up with a better way?
3292504941793b549323f9d29c62507cf21d865fadeJohn McCall      CXXThisDecl = ImplicitParamDecl::Create(getContext(), 0,
3302504941793b549323f9d29c62507cf21d865fadeJohn McCall                                              FD->getLocation(),
3311eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump                                              &getContext().Idents.get("this"),
3322b77ba8bc7a842829ad9193816dc1d7d5e9c5be6Anders Carlsson                                              MD->getThisType(getContext()));
3332b77ba8bc7a842829ad9193816dc1d7d5e9c5be6Anders Carlsson      Args.push_back(std::make_pair(CXXThisDecl, CXXThisDecl->getType()));
334f6c56e2323c3f973253805a2f35629f3253ebed4Anders Carlsson
335f6c56e2323c3f973253805a2f35629f3253ebed4Anders Carlsson      // Check if we need a VTT parameter as well.
336af4403545a50a60d208e6fcae057308d576a92e0Anders Carlsson      if (CodeGenVTables::needsVTTParameter(GD)) {
337f6c56e2323c3f973253805a2f35629f3253ebed4Anders Carlsson        // FIXME: The comment about using a fake decl above applies here too.
338f6c56e2323c3f973253805a2f35629f3253ebed4Anders Carlsson        QualType T = getContext().getPointerType(getContext().VoidPtrTy);
339f6c56e2323c3f973253805a2f35629f3253ebed4Anders Carlsson        CXXVTTDecl =
3402504941793b549323f9d29c62507cf21d865fadeJohn McCall          ImplicitParamDecl::Create(getContext(), 0, FD->getLocation(),
341f6c56e2323c3f973253805a2f35629f3253ebed4Anders Carlsson                                    &getContext().Idents.get("vtt"), T);
342f6c56e2323c3f973253805a2f35629f3253ebed4Anders Carlsson        Args.push_back(std::make_pair(CXXVTTDecl, CXXVTTDecl->getType()));
343f6c56e2323c3f973253805a2f35629f3253ebed4Anders Carlsson      }
3442b77ba8bc7a842829ad9193816dc1d7d5e9c5be6Anders Carlsson    }
3452b77ba8bc7a842829ad9193816dc1d7d5e9c5be6Anders Carlsson  }
3461eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump
347eb4b7051a596560ef4a1846e3714707f44e9dc30Eli Friedman  if (FD->getNumParams()) {
348183700f494ec9b6701b6efe82bcb25f4c79ba561John McCall    const FunctionProtoType* FProto = FD->getType()->getAs<FunctionProtoType>();
349eb4b7051a596560ef4a1846e3714707f44e9dc30Eli Friedman    assert(FProto && "Function def must have prototype!");
3507c086516f3cc9fba2733b1919973206c6ba4b171Daniel Dunbar
3517c086516f3cc9fba2733b1919973206c6ba4b171Daniel Dunbar    for (unsigned i = 0, e = FD->getNumParams(); i != e; ++i)
3521eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump      Args.push_back(std::make_pair(FD->getParamDecl(i),
3537c086516f3cc9fba2733b1919973206c6ba4b171Daniel Dunbar                                    FProto->getArgType(i)));
3545f016e2cb5d11daeb237544de1c5d59f20fe1a6eReid Spencer  }
355af05bb9073319d8381b71c4325188853fd4b8ed6Daniel Dunbar
356a355e07454463b19829ac92ffd115a097faff0e0John McCall  SourceRange BodyRange;
357a355e07454463b19829ac92ffd115a097faff0e0John McCall  if (Stmt *Body = FD->getBody()) BodyRange = Body->getSourceRange();
3584365bba95be15342575b4f030c6583a770a5da3dAnders Carlsson
359a355e07454463b19829ac92ffd115a097faff0e0John McCall  // Emit the standard function prologue.
360a355e07454463b19829ac92ffd115a097faff0e0John McCall  StartFunction(GD, FD->getResultType(), Fn, Args, BodyRange.getBegin());
3611851a12605bc6f1ea70d11974a315340ebaab6ebAnders Carlsson
362a355e07454463b19829ac92ffd115a097faff0e0John McCall  // Generate the body of the function.
3639fc6a7774643a810c8501dae2323e863fefb623eJohn McCall  if (isa<CXXDestructorDecl>(FD))
3649fc6a7774643a810c8501dae2323e863fefb623eJohn McCall    EmitDestructorBody(Args);
3659fc6a7774643a810c8501dae2323e863fefb623eJohn McCall  else if (isa<CXXConstructorDecl>(FD))
3669fc6a7774643a810c8501dae2323e863fefb623eJohn McCall    EmitConstructorBody(Args);
3679fc6a7774643a810c8501dae2323e863fefb623eJohn McCall  else
3689fc6a7774643a810c8501dae2323e863fefb623eJohn McCall    EmitFunctionBody(Args);
369c33e4ba20304e222692e77f2c6ad26a5d8d32f83Anders Carlsson
370a355e07454463b19829ac92ffd115a097faff0e0John McCall  // Emit the standard function epilogue.
371a355e07454463b19829ac92ffd115a097faff0e0John McCall  FinishFunction(BodyRange.getEnd());
3721eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump
3732b77ba8bc7a842829ad9193816dc1d7d5e9c5be6Anders Carlsson  // Destroy the 'this' declaration.
3742b77ba8bc7a842829ad9193816dc1d7d5e9c5be6Anders Carlsson  if (CXXThisDecl)
3752b77ba8bc7a842829ad9193816dc1d7d5e9c5be6Anders Carlsson    CXXThisDecl->Destroy(getContext());
376f6c56e2323c3f973253805a2f35629f3253ebed4Anders Carlsson
377f6c56e2323c3f973253805a2f35629f3253ebed4Anders Carlsson  // Destroy the VTT declaration.
378f6c56e2323c3f973253805a2f35629f3253ebed4Anders Carlsson  if (CXXVTTDecl)
379f6c56e2323c3f973253805a2f35629f3253ebed4Anders Carlsson    CXXVTTDecl->Destroy(getContext());
3805f016e2cb5d11daeb237544de1c5d59f20fe1a6eReid Spencer}
3815f016e2cb5d11daeb237544de1c5d59f20fe1a6eReid Spencer
3820946ccd1e58c1f1da31ddbca67c5b6301ac8b255Chris Lattner/// ContainsLabel - Return true if the statement contains a label in it.  If
3830946ccd1e58c1f1da31ddbca67c5b6301ac8b255Chris Lattner/// this statement is not executed normally, it not containing a label means
3840946ccd1e58c1f1da31ddbca67c5b6301ac8b255Chris Lattner/// that we can just remove the code.
3850946ccd1e58c1f1da31ddbca67c5b6301ac8b255Chris Lattnerbool CodeGenFunction::ContainsLabel(const Stmt *S, bool IgnoreCaseStmts) {
3860946ccd1e58c1f1da31ddbca67c5b6301ac8b255Chris Lattner  // Null statement, not a label!
3870946ccd1e58c1f1da31ddbca67c5b6301ac8b255Chris Lattner  if (S == 0) return false;
3881eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump
3890946ccd1e58c1f1da31ddbca67c5b6301ac8b255Chris Lattner  // If this is a label, we have to emit the code, consider something like:
3900946ccd1e58c1f1da31ddbca67c5b6301ac8b255Chris Lattner  // if (0) {  ...  foo:  bar(); }  goto foo;
3910946ccd1e58c1f1da31ddbca67c5b6301ac8b255Chris Lattner  if (isa<LabelStmt>(S))
3920946ccd1e58c1f1da31ddbca67c5b6301ac8b255Chris Lattner    return true;
3931eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump
3940946ccd1e58c1f1da31ddbca67c5b6301ac8b255Chris Lattner  // If this is a case/default statement, and we haven't seen a switch, we have
3950946ccd1e58c1f1da31ddbca67c5b6301ac8b255Chris Lattner  // to emit the code.
3960946ccd1e58c1f1da31ddbca67c5b6301ac8b255Chris Lattner  if (isa<SwitchCase>(S) && !IgnoreCaseStmts)
3970946ccd1e58c1f1da31ddbca67c5b6301ac8b255Chris Lattner    return true;
3981eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump
3990946ccd1e58c1f1da31ddbca67c5b6301ac8b255Chris Lattner  // If this is a switch statement, we want to ignore cases below it.
4000946ccd1e58c1f1da31ddbca67c5b6301ac8b255Chris Lattner  if (isa<SwitchStmt>(S))
4010946ccd1e58c1f1da31ddbca67c5b6301ac8b255Chris Lattner    IgnoreCaseStmts = true;
4021eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump
4030946ccd1e58c1f1da31ddbca67c5b6301ac8b255Chris Lattner  // Scan subexpressions for verboten labels.
4040946ccd1e58c1f1da31ddbca67c5b6301ac8b255Chris Lattner  for (Stmt::const_child_iterator I = S->child_begin(), E = S->child_end();
4050946ccd1e58c1f1da31ddbca67c5b6301ac8b255Chris Lattner       I != E; ++I)
4060946ccd1e58c1f1da31ddbca67c5b6301ac8b255Chris Lattner    if (ContainsLabel(*I, IgnoreCaseStmts))
4070946ccd1e58c1f1da31ddbca67c5b6301ac8b255Chris Lattner      return true;
4081eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump
4090946ccd1e58c1f1da31ddbca67c5b6301ac8b255Chris Lattner  return false;
4100946ccd1e58c1f1da31ddbca67c5b6301ac8b255Chris Lattner}
4110946ccd1e58c1f1da31ddbca67c5b6301ac8b255Chris Lattner
41231a0984b5cb4af99d2407c0f25bf5af68df681c6Chris Lattner
41331a0984b5cb4af99d2407c0f25bf5af68df681c6Chris Lattner/// ConstantFoldsToSimpleInteger - If the sepcified expression does not fold to
41431a0984b5cb4af99d2407c0f25bf5af68df681c6Chris Lattner/// a constant, or if it does but contains a label, return 0.  If it constant
41531a0984b5cb4af99d2407c0f25bf5af68df681c6Chris Lattner/// folds to 'true' and does not contain a label, return 1, if it constant folds
41631a0984b5cb4af99d2407c0f25bf5af68df681c6Chris Lattner/// to 'false' and does not contain a label, return -1.
41731a0984b5cb4af99d2407c0f25bf5af68df681c6Chris Lattnerint CodeGenFunction::ConstantFoldsToSimpleInteger(const Expr *Cond) {
41836bc14c3a1cf63ee306df5687ac8e85f924f8639Daniel Dunbar  // FIXME: Rename and handle conversion of other evaluatable things
41936bc14c3a1cf63ee306df5687ac8e85f924f8639Daniel Dunbar  // to bool.
42064712f196bffd41fb0552c2643b07a25c3e45082Anders Carlsson  Expr::EvalResult Result;
4211eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump  if (!Cond->Evaluate(Result, getContext()) || !Result.Val.isInt() ||
42264712f196bffd41fb0552c2643b07a25c3e45082Anders Carlsson      Result.HasSideEffects)
423ef5a66d8171eb95e948107f8ee7707b360aaff25Anders Carlsson    return 0;  // Not foldable, not integer or not fully evaluatable.
4241eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump
42531a0984b5cb4af99d2407c0f25bf5af68df681c6Chris Lattner  if (CodeGenFunction::ContainsLabel(Cond))
42631a0984b5cb4af99d2407c0f25bf5af68df681c6Chris Lattner    return 0;  // Contains a label.
4271eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump
42864712f196bffd41fb0552c2643b07a25c3e45082Anders Carlsson  return Result.Val.getInt().getBoolValue() ? 1 : -1;
42931a0984b5cb4af99d2407c0f25bf5af68df681c6Chris Lattner}
43031a0984b5cb4af99d2407c0f25bf5af68df681c6Chris Lattner
43131a0984b5cb4af99d2407c0f25bf5af68df681c6Chris Lattner
43231a0984b5cb4af99d2407c0f25bf5af68df681c6Chris Lattner/// EmitBranchOnBoolExpr - Emit a branch on a boolean condition (e.g. for an if
43331a0984b5cb4af99d2407c0f25bf5af68df681c6Chris Lattner/// statement) to the specified blocks.  Based on the condition, this might try
43431a0984b5cb4af99d2407c0f25bf5af68df681c6Chris Lattner/// to simplify the codegen of the conditional based on the branch.
43531a0984b5cb4af99d2407c0f25bf5af68df681c6Chris Lattner///
43631a0984b5cb4af99d2407c0f25bf5af68df681c6Chris Lattnervoid CodeGenFunction::EmitBranchOnBoolExpr(const Expr *Cond,
43731a0984b5cb4af99d2407c0f25bf5af68df681c6Chris Lattner                                           llvm::BasicBlock *TrueBlock,
43831a0984b5cb4af99d2407c0f25bf5af68df681c6Chris Lattner                                           llvm::BasicBlock *FalseBlock) {
43931a0984b5cb4af99d2407c0f25bf5af68df681c6Chris Lattner  if (const ParenExpr *PE = dyn_cast<ParenExpr>(Cond))
44031a0984b5cb4af99d2407c0f25bf5af68df681c6Chris Lattner    return EmitBranchOnBoolExpr(PE->getSubExpr(), TrueBlock, FalseBlock);
4411eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump
44231a0984b5cb4af99d2407c0f25bf5af68df681c6Chris Lattner  if (const BinaryOperator *CondBOp = dyn_cast<BinaryOperator>(Cond)) {
44331a0984b5cb4af99d2407c0f25bf5af68df681c6Chris Lattner    // Handle X && Y in a condition.
44431a0984b5cb4af99d2407c0f25bf5af68df681c6Chris Lattner    if (CondBOp->getOpcode() == BinaryOperator::LAnd) {
44531a0984b5cb4af99d2407c0f25bf5af68df681c6Chris Lattner      // If we have "1 && X", simplify the code.  "0 && X" would have constant
44631a0984b5cb4af99d2407c0f25bf5af68df681c6Chris Lattner      // folded if the case was simple enough.
44731a0984b5cb4af99d2407c0f25bf5af68df681c6Chris Lattner      if (ConstantFoldsToSimpleInteger(CondBOp->getLHS()) == 1) {
44831a0984b5cb4af99d2407c0f25bf5af68df681c6Chris Lattner        // br(1 && X) -> br(X).
44931a0984b5cb4af99d2407c0f25bf5af68df681c6Chris Lattner        return EmitBranchOnBoolExpr(CondBOp->getRHS(), TrueBlock, FalseBlock);
45031a0984b5cb4af99d2407c0f25bf5af68df681c6Chris Lattner      }
4511eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump
45231a0984b5cb4af99d2407c0f25bf5af68df681c6Chris Lattner      // If we have "X && 1", simplify the code to use an uncond branch.
45331a0984b5cb4af99d2407c0f25bf5af68df681c6Chris Lattner      // "X && 0" would have been constant folded to 0.
45431a0984b5cb4af99d2407c0f25bf5af68df681c6Chris Lattner      if (ConstantFoldsToSimpleInteger(CondBOp->getRHS()) == 1) {
45531a0984b5cb4af99d2407c0f25bf5af68df681c6Chris Lattner        // br(X && 1) -> br(X).
45631a0984b5cb4af99d2407c0f25bf5af68df681c6Chris Lattner        return EmitBranchOnBoolExpr(CondBOp->getLHS(), TrueBlock, FalseBlock);
45731a0984b5cb4af99d2407c0f25bf5af68df681c6Chris Lattner      }
4581eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump
45931a0984b5cb4af99d2407c0f25bf5af68df681c6Chris Lattner      // Emit the LHS as a conditional.  If the LHS conditional is false, we
46031a0984b5cb4af99d2407c0f25bf5af68df681c6Chris Lattner      // want to jump to the FalseBlock.
4619615ecb44f549ae9fa2b4db6ff46bc78befbf62cDaniel Dunbar      llvm::BasicBlock *LHSTrue = createBasicBlock("land.lhs.true");
46231a0984b5cb4af99d2407c0f25bf5af68df681c6Chris Lattner      EmitBranchOnBoolExpr(CondBOp->getLHS(), LHSTrue, FalseBlock);
46331a0984b5cb4af99d2407c0f25bf5af68df681c6Chris Lattner      EmitBlock(LHSTrue);
4641eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump
46508e9e453f40aff95a59bd67db49b8f050765e1f0Anders Carlsson      // Any temporaries created here are conditional.
46672119a887c4af39c90f10b6bdc158389071f42eaAnders Carlsson      BeginConditionalBranch();
46731a0984b5cb4af99d2407c0f25bf5af68df681c6Chris Lattner      EmitBranchOnBoolExpr(CondBOp->getRHS(), TrueBlock, FalseBlock);
46872119a887c4af39c90f10b6bdc158389071f42eaAnders Carlsson      EndConditionalBranch();
46908e9e453f40aff95a59bd67db49b8f050765e1f0Anders Carlsson
47031a0984b5cb4af99d2407c0f25bf5af68df681c6Chris Lattner      return;
47131a0984b5cb4af99d2407c0f25bf5af68df681c6Chris Lattner    } else if (CondBOp->getOpcode() == BinaryOperator::LOr) {
47231a0984b5cb4af99d2407c0f25bf5af68df681c6Chris Lattner      // If we have "0 || X", simplify the code.  "1 || X" would have constant
47331a0984b5cb4af99d2407c0f25bf5af68df681c6Chris Lattner      // folded if the case was simple enough.
47431a0984b5cb4af99d2407c0f25bf5af68df681c6Chris Lattner      if (ConstantFoldsToSimpleInteger(CondBOp->getLHS()) == -1) {
47531a0984b5cb4af99d2407c0f25bf5af68df681c6Chris Lattner        // br(0 || X) -> br(X).
47631a0984b5cb4af99d2407c0f25bf5af68df681c6Chris Lattner        return EmitBranchOnBoolExpr(CondBOp->getRHS(), TrueBlock, FalseBlock);
47731a0984b5cb4af99d2407c0f25bf5af68df681c6Chris Lattner      }
4781eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump
47931a0984b5cb4af99d2407c0f25bf5af68df681c6Chris Lattner      // If we have "X || 0", simplify the code to use an uncond branch.
48031a0984b5cb4af99d2407c0f25bf5af68df681c6Chris Lattner      // "X || 1" would have been constant folded to 1.
48131a0984b5cb4af99d2407c0f25bf5af68df681c6Chris Lattner      if (ConstantFoldsToSimpleInteger(CondBOp->getRHS()) == -1) {
48231a0984b5cb4af99d2407c0f25bf5af68df681c6Chris Lattner        // br(X || 0) -> br(X).
48331a0984b5cb4af99d2407c0f25bf5af68df681c6Chris Lattner        return EmitBranchOnBoolExpr(CondBOp->getLHS(), TrueBlock, FalseBlock);
48431a0984b5cb4af99d2407c0f25bf5af68df681c6Chris Lattner      }
4851eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump
48631a0984b5cb4af99d2407c0f25bf5af68df681c6Chris Lattner      // Emit the LHS as a conditional.  If the LHS conditional is true, we
48731a0984b5cb4af99d2407c0f25bf5af68df681c6Chris Lattner      // want to jump to the TrueBlock.
4889615ecb44f549ae9fa2b4db6ff46bc78befbf62cDaniel Dunbar      llvm::BasicBlock *LHSFalse = createBasicBlock("lor.lhs.false");
48931a0984b5cb4af99d2407c0f25bf5af68df681c6Chris Lattner      EmitBranchOnBoolExpr(CondBOp->getLHS(), TrueBlock, LHSFalse);
49031a0984b5cb4af99d2407c0f25bf5af68df681c6Chris Lattner      EmitBlock(LHSFalse);
4911eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump
49208e9e453f40aff95a59bd67db49b8f050765e1f0Anders Carlsson      // Any temporaries created here are conditional.
49372119a887c4af39c90f10b6bdc158389071f42eaAnders Carlsson      BeginConditionalBranch();
49431a0984b5cb4af99d2407c0f25bf5af68df681c6Chris Lattner      EmitBranchOnBoolExpr(CondBOp->getRHS(), TrueBlock, FalseBlock);
49572119a887c4af39c90f10b6bdc158389071f42eaAnders Carlsson      EndConditionalBranch();
49608e9e453f40aff95a59bd67db49b8f050765e1f0Anders Carlsson
49731a0984b5cb4af99d2407c0f25bf5af68df681c6Chris Lattner      return;
49831a0984b5cb4af99d2407c0f25bf5af68df681c6Chris Lattner    }
499552f4c45ba4f4a01f86d585edabd871a27829867Chris Lattner  }
5001eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump
501552f4c45ba4f4a01f86d585edabd871a27829867Chris Lattner  if (const UnaryOperator *CondUOp = dyn_cast<UnaryOperator>(Cond)) {
502552f4c45ba4f4a01f86d585edabd871a27829867Chris Lattner    // br(!x, t, f) -> br(x, f, t)
503552f4c45ba4f4a01f86d585edabd871a27829867Chris Lattner    if (CondUOp->getOpcode() == UnaryOperator::LNot)
504552f4c45ba4f4a01f86d585edabd871a27829867Chris Lattner      return EmitBranchOnBoolExpr(CondUOp->getSubExpr(), FalseBlock, TrueBlock);
50531a0984b5cb4af99d2407c0f25bf5af68df681c6Chris Lattner  }
5061eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump
50709b14899039d828094c06ac25d60de62608e57b7Daniel Dunbar  if (const ConditionalOperator *CondOp = dyn_cast<ConditionalOperator>(Cond)) {
50809b14899039d828094c06ac25d60de62608e57b7Daniel Dunbar    // Handle ?: operator.
50909b14899039d828094c06ac25d60de62608e57b7Daniel Dunbar
51009b14899039d828094c06ac25d60de62608e57b7Daniel Dunbar    // Just ignore GNU ?: extension.
51109b14899039d828094c06ac25d60de62608e57b7Daniel Dunbar    if (CondOp->getLHS()) {
51209b14899039d828094c06ac25d60de62608e57b7Daniel Dunbar      // br(c ? x : y, t, f) -> br(c, br(x, t, f), br(y, t, f))
51309b14899039d828094c06ac25d60de62608e57b7Daniel Dunbar      llvm::BasicBlock *LHSBlock = createBasicBlock("cond.true");
51409b14899039d828094c06ac25d60de62608e57b7Daniel Dunbar      llvm::BasicBlock *RHSBlock = createBasicBlock("cond.false");
51509b14899039d828094c06ac25d60de62608e57b7Daniel Dunbar      EmitBranchOnBoolExpr(CondOp->getCond(), LHSBlock, RHSBlock);
51609b14899039d828094c06ac25d60de62608e57b7Daniel Dunbar      EmitBlock(LHSBlock);
51709b14899039d828094c06ac25d60de62608e57b7Daniel Dunbar      EmitBranchOnBoolExpr(CondOp->getLHS(), TrueBlock, FalseBlock);
51809b14899039d828094c06ac25d60de62608e57b7Daniel Dunbar      EmitBlock(RHSBlock);
51909b14899039d828094c06ac25d60de62608e57b7Daniel Dunbar      EmitBranchOnBoolExpr(CondOp->getRHS(), TrueBlock, FalseBlock);
52009b14899039d828094c06ac25d60de62608e57b7Daniel Dunbar      return;
52109b14899039d828094c06ac25d60de62608e57b7Daniel Dunbar    }
52209b14899039d828094c06ac25d60de62608e57b7Daniel Dunbar  }
52309b14899039d828094c06ac25d60de62608e57b7Daniel Dunbar
52431a0984b5cb4af99d2407c0f25bf5af68df681c6Chris Lattner  // Emit the code with the fully general case.
52531a0984b5cb4af99d2407c0f25bf5af68df681c6Chris Lattner  llvm::Value *CondV = EvaluateExprAsBool(Cond);
52631a0984b5cb4af99d2407c0f25bf5af68df681c6Chris Lattner  Builder.CreateCondBr(CondV, TrueBlock, FalseBlock);
52731a0984b5cb4af99d2407c0f25bf5af68df681c6Chris Lattner}
52831a0984b5cb4af99d2407c0f25bf5af68df681c6Chris Lattner
529488e993a135ce700b982bf099c3d6b856301d642Daniel Dunbar/// ErrorUnsupported - Print out an error that codegen doesn't support the
530dc5e8268292046114ffe02e48773572a91a310f1Chris Lattner/// specified stmt yet.
53190df4b6661968a84bf64baee489bb2f6d948fcc1Daniel Dunbarvoid CodeGenFunction::ErrorUnsupported(const Stmt *S, const char *Type,
53290df4b6661968a84bf64baee489bb2f6d948fcc1Daniel Dunbar                                       bool OmitOnError) {
53390df4b6661968a84bf64baee489bb2f6d948fcc1Daniel Dunbar  CGM.ErrorUnsupported(S, Type, OmitOnError);
534dc5e8268292046114ffe02e48773572a91a310f1Chris Lattner}
535dc5e8268292046114ffe02e48773572a91a310f1Chris Lattner
5361884eb0b5c55edda4893ddec45e7dbad79758782Anders Carlssonvoid
5371884eb0b5c55edda4893ddec45e7dbad79758782Anders CarlssonCodeGenFunction::EmitNullInitialization(llvm::Value *DestPtr, QualType Ty) {
5381884eb0b5c55edda4893ddec45e7dbad79758782Anders Carlsson  // If the type contains a pointer to data member we can't memset it to zero.
5391884eb0b5c55edda4893ddec45e7dbad79758782Anders Carlsson  // Instead, create a null constant and copy it to the destination.
5401884eb0b5c55edda4893ddec45e7dbad79758782Anders Carlsson  if (CGM.getTypes().ContainsPointerToDataMember(Ty)) {
5411884eb0b5c55edda4893ddec45e7dbad79758782Anders Carlsson    llvm::Constant *NullConstant = CGM.EmitNullConstant(Ty);
5421884eb0b5c55edda4893ddec45e7dbad79758782Anders Carlsson
5431884eb0b5c55edda4893ddec45e7dbad79758782Anders Carlsson    llvm::GlobalVariable *NullVariable =
5441884eb0b5c55edda4893ddec45e7dbad79758782Anders Carlsson      new llvm::GlobalVariable(CGM.getModule(), NullConstant->getType(),
5451884eb0b5c55edda4893ddec45e7dbad79758782Anders Carlsson                               /*isConstant=*/true,
5461884eb0b5c55edda4893ddec45e7dbad79758782Anders Carlsson                               llvm::GlobalVariable::PrivateLinkage,
5471884eb0b5c55edda4893ddec45e7dbad79758782Anders Carlsson                               NullConstant, llvm::Twine());
5481884eb0b5c55edda4893ddec45e7dbad79758782Anders Carlsson    EmitAggregateCopy(DestPtr, NullVariable, Ty, /*isVolatile=*/false);
5491884eb0b5c55edda4893ddec45e7dbad79758782Anders Carlsson    return;
5501884eb0b5c55edda4893ddec45e7dbad79758782Anders Carlsson  }
5511884eb0b5c55edda4893ddec45e7dbad79758782Anders Carlsson
5521884eb0b5c55edda4893ddec45e7dbad79758782Anders Carlsson
5530d7c583a4b4d0f57c6b69c66fd73babec4ef3799Anders Carlsson  // Ignore empty classes in C++.
5540d7c583a4b4d0f57c6b69c66fd73babec4ef3799Anders Carlsson  if (getContext().getLangOptions().CPlusPlus) {
5550d7c583a4b4d0f57c6b69c66fd73babec4ef3799Anders Carlsson    if (const RecordType *RT = Ty->getAs<RecordType>()) {
5560d7c583a4b4d0f57c6b69c66fd73babec4ef3799Anders Carlsson      if (cast<CXXRecordDecl>(RT->getDecl())->isEmpty())
5570d7c583a4b4d0f57c6b69c66fd73babec4ef3799Anders Carlsson        return;
5580d7c583a4b4d0f57c6b69c66fd73babec4ef3799Anders Carlsson    }
5590d7c583a4b4d0f57c6b69c66fd73babec4ef3799Anders Carlsson  }
5600d7c583a4b4d0f57c6b69c66fd73babec4ef3799Anders Carlsson
5611884eb0b5c55edda4893ddec45e7dbad79758782Anders Carlsson  // Otherwise, just memset the whole thing to zero.  This is legal
5621884eb0b5c55edda4893ddec45e7dbad79758782Anders Carlsson  // because in LLVM, all default initializers (other than the ones we just
5631884eb0b5c55edda4893ddec45e7dbad79758782Anders Carlsson  // handled above) are guaranteed to have a bit pattern of all zeros.
56436afd38fb749ab34c8341a1dc70366bca904eaa3Chris Lattner  const llvm::Type *BP = llvm::Type::getInt8PtrTy(VMContext);
5653d8400d9a61aa4b63ff35e5cede405b32a41425eAnders Carlsson  if (DestPtr->getType() != BP)
5663d8400d9a61aa4b63ff35e5cede405b32a41425eAnders Carlsson    DestPtr = Builder.CreateBitCast(DestPtr, BP, "tmp");
5673d8400d9a61aa4b63ff35e5cede405b32a41425eAnders Carlsson
5683d8400d9a61aa4b63ff35e5cede405b32a41425eAnders Carlsson  // Get size and alignment info for this aggregate.
5693d8400d9a61aa4b63ff35e5cede405b32a41425eAnders Carlsson  std::pair<uint64_t, unsigned> TypeInfo = getContext().getTypeInfo(Ty);
5703d8400d9a61aa4b63ff35e5cede405b32a41425eAnders Carlsson
57188207c9ca218486b93ae7df14e9764cd0c2c3383Chris Lattner  // Don't bother emitting a zero-byte memset.
57288207c9ca218486b93ae7df14e9764cd0c2c3383Chris Lattner  if (TypeInfo.first == 0)
57388207c9ca218486b93ae7df14e9764cd0c2c3383Chris Lattner    return;
5741eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump
5753d8400d9a61aa4b63ff35e5cede405b32a41425eAnders Carlsson  // FIXME: Handle variable sized types.
57677b89b87c3b9220fea1bc80f6d6598d2003cc8a8Chris Lattner  Builder.CreateCall5(CGM.getMemSetFn(BP, IntPtrTy), DestPtr,
5770032b2781b4deb131f8c9b7968f2030bf2489cddOwen Anderson                 llvm::Constant::getNullValue(llvm::Type::getInt8Ty(VMContext)),
5783d8400d9a61aa4b63ff35e5cede405b32a41425eAnders Carlsson                      // TypeInfo.first describes size in bits.
57977b89b87c3b9220fea1bc80f6d6598d2003cc8a8Chris Lattner                      llvm::ConstantInt::get(IntPtrTy, TypeInfo.first/8),
58077b89b87c3b9220fea1bc80f6d6598d2003cc8a8Chris Lattner                      llvm::ConstantInt::get(Int32Ty, TypeInfo.second/8),
5813ecd785aff34381f3704d9cb28fe3ef85af759deMon P Wang                      llvm::ConstantInt::get(llvm::Type::getInt1Ty(VMContext),
5823ecd785aff34381f3704d9cb28fe3ef85af759deMon P Wang                                             0));
5833d8400d9a61aa4b63ff35e5cede405b32a41425eAnders Carlsson}
5843d8400d9a61aa4b63ff35e5cede405b32a41425eAnders Carlsson
585d9becd1846e2c72bf6ad283faa1b048f33dd3afeChris Lattnerllvm::BlockAddress *CodeGenFunction::GetAddrOfLabel(const LabelStmt *L) {
586d9becd1846e2c72bf6ad283faa1b048f33dd3afeChris Lattner  // Make sure that there is a block for the indirect goto.
587d9becd1846e2c72bf6ad283faa1b048f33dd3afeChris Lattner  if (IndirectBranch == 0)
588d9becd1846e2c72bf6ad283faa1b048f33dd3afeChris Lattner    GetIndirectGotoBlock();
5893d00fdc82fd550ae4bfbb2e700a1fc85bbd6d6fdChris Lattner
590ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall  llvm::BasicBlock *BB = getJumpDestForLabel(L).getBlock();
5913d00fdc82fd550ae4bfbb2e700a1fc85bbd6d6fdChris Lattner
592d9becd1846e2c72bf6ad283faa1b048f33dd3afeChris Lattner  // Make sure the indirect branch includes all of the address-taken blocks.
593d9becd1846e2c72bf6ad283faa1b048f33dd3afeChris Lattner  IndirectBranch->addDestination(BB);
594d9becd1846e2c72bf6ad283faa1b048f33dd3afeChris Lattner  return llvm::BlockAddress::get(CurFn, BB);
5953d00fdc82fd550ae4bfbb2e700a1fc85bbd6d6fdChris Lattner}
5961eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump
5973d00fdc82fd550ae4bfbb2e700a1fc85bbd6d6fdChris Lattnerllvm::BasicBlock *CodeGenFunction::GetIndirectGotoBlock() {
598d9becd1846e2c72bf6ad283faa1b048f33dd3afeChris Lattner  // If we already made the indirect branch for indirect goto, return its block.
599d9becd1846e2c72bf6ad283faa1b048f33dd3afeChris Lattner  if (IndirectBranch) return IndirectBranch->getParent();
6003d00fdc82fd550ae4bfbb2e700a1fc85bbd6d6fdChris Lattner
601d9becd1846e2c72bf6ad283faa1b048f33dd3afeChris Lattner  CGBuilderTy TmpBuilder(createBasicBlock("indirectgoto"));
6023d00fdc82fd550ae4bfbb2e700a1fc85bbd6d6fdChris Lattner
603d9becd1846e2c72bf6ad283faa1b048f33dd3afeChris Lattner  const llvm::Type *Int8PtrTy = llvm::Type::getInt8PtrTy(VMContext);
60485e74acfcfb0c835a2e6c1adab314e997917039aChris Lattner
6053d00fdc82fd550ae4bfbb2e700a1fc85bbd6d6fdChris Lattner  // Create the PHI node that indirect gotos will add entries to.
606d9becd1846e2c72bf6ad283faa1b048f33dd3afeChris Lattner  llvm::Value *DestVal = TmpBuilder.CreatePHI(Int8PtrTy, "indirect.goto.dest");
6073d00fdc82fd550ae4bfbb2e700a1fc85bbd6d6fdChris Lattner
608d9becd1846e2c72bf6ad283faa1b048f33dd3afeChris Lattner  // Create the indirect branch instruction.
609d9becd1846e2c72bf6ad283faa1b048f33dd3afeChris Lattner  IndirectBranch = TmpBuilder.CreateIndirectBr(DestVal);
610d9becd1846e2c72bf6ad283faa1b048f33dd3afeChris Lattner  return IndirectBranch->getParent();
6110ffb125996336fc7602b162c0a9e392f1a93060fDaniel Dunbar}
612ddf7cac45d85b73127adbbd91a2b28fc7291c57eAnders Carlsson
613d286f05f1234bac289173f0eed88d7ecbaea0099Daniel Dunbarllvm::Value *CodeGenFunction::GetVLASize(const VariableArrayType *VAT) {
614bbed6b964414145b29e7b60b3e538093734ea3f8Eli Friedman  llvm::Value *&SizeEntry = VLASizeMap[VAT->getSizeExpr()];
6151eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump
616f666b7780d04186521adcaedb0e15dfa4d5e6933Anders Carlsson  assert(SizeEntry && "Did not emit size for type");
617f666b7780d04186521adcaedb0e15dfa4d5e6933Anders Carlsson  return SizeEntry;
618f666b7780d04186521adcaedb0e15dfa4d5e6933Anders Carlsson}
619dcc90d87e6430c643b4311ae5b0089535bca41f7Anders Carlsson
620d286f05f1234bac289173f0eed88d7ecbaea0099Daniel Dunbarllvm::Value *CodeGenFunction::EmitVLASize(QualType Ty) {
62160d35413662ebdcd1d31e34a8a7c665eb6977f1eAnders Carlsson  assert(Ty->isVariablyModifiedType() &&
62260d35413662ebdcd1d31e34a8a7c665eb6977f1eAnders Carlsson         "Must pass variably modified type to EmitVLASizes!");
6231eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump
624d286f05f1234bac289173f0eed88d7ecbaea0099Daniel Dunbar  EnsureInsertPoint();
6251eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump
62660d35413662ebdcd1d31e34a8a7c665eb6977f1eAnders Carlsson  if (const VariableArrayType *VAT = getContext().getAsVariableArrayType(Ty)) {
627bbed6b964414145b29e7b60b3e538093734ea3f8Eli Friedman    llvm::Value *&SizeEntry = VLASizeMap[VAT->getSizeExpr()];
6281eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump
629fcdbb93749ed69aa9022437052c390522355ec3dAnders Carlsson    if (!SizeEntry) {
63096f214776c0f69069fee4d67557c8c7f416009a8Anders Carlsson      const llvm::Type *SizeTy = ConvertType(getContext().getSizeType());
6311eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump
632ec18ddd33d5dc2cba5f64fa903bac7a83dc1e01eChris Lattner      // Get the element size;
633ec18ddd33d5dc2cba5f64fa903bac7a83dc1e01eChris Lattner      QualType ElemTy = VAT->getElementType();
634ec18ddd33d5dc2cba5f64fa903bac7a83dc1e01eChris Lattner      llvm::Value *ElemSize;
635fcdbb93749ed69aa9022437052c390522355ec3dAnders Carlsson      if (ElemTy->isVariableArrayType())
636fcdbb93749ed69aa9022437052c390522355ec3dAnders Carlsson        ElemSize = EmitVLASize(ElemTy);
637ec18ddd33d5dc2cba5f64fa903bac7a83dc1e01eChris Lattner      else
6384a28d5deeba33722aa009eab488591fb9055cc7eOwen Anderson        ElemSize = llvm::ConstantInt::get(SizeTy,
639199c3d6cd16aebbb9c7f0d42af9d922c9628bf70Ken Dyck            getContext().getTypeSizeInChars(ElemTy).getQuantity());
6401eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump
641fcdbb93749ed69aa9022437052c390522355ec3dAnders Carlsson      llvm::Value *NumElements = EmitScalarExpr(VAT->getSizeExpr());
64296f214776c0f69069fee4d67557c8c7f416009a8Anders Carlsson      NumElements = Builder.CreateIntCast(NumElements, SizeTy, false, "tmp");
6431eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump
644fcdbb93749ed69aa9022437052c390522355ec3dAnders Carlsson      SizeEntry = Builder.CreateMul(ElemSize, NumElements);
645fcdbb93749ed69aa9022437052c390522355ec3dAnders Carlsson    }
6461eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump
64760d35413662ebdcd1d31e34a8a7c665eb6977f1eAnders Carlsson    return SizeEntry;
648dcc90d87e6430c643b4311ae5b0089535bca41f7Anders Carlsson  }
6491eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump
650ec18ddd33d5dc2cba5f64fa903bac7a83dc1e01eChris Lattner  if (const ArrayType *AT = dyn_cast<ArrayType>(Ty)) {
651ec18ddd33d5dc2cba5f64fa903bac7a83dc1e01eChris Lattner    EmitVLASize(AT->getElementType());
652ec18ddd33d5dc2cba5f64fa903bac7a83dc1e01eChris Lattner    return 0;
6531eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump  }
6541eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump
655ec18ddd33d5dc2cba5f64fa903bac7a83dc1e01eChris Lattner  const PointerType *PT = Ty->getAs<PointerType>();
656ec18ddd33d5dc2cba5f64fa903bac7a83dc1e01eChris Lattner  assert(PT && "unknown VM type!");
657ec18ddd33d5dc2cba5f64fa903bac7a83dc1e01eChris Lattner  EmitVLASize(PT->getPointeeType());
65860d35413662ebdcd1d31e34a8a7c665eb6977f1eAnders Carlsson  return 0;
659dcc90d87e6430c643b4311ae5b0089535bca41f7Anders Carlsson}
6604fd0aa5803357d8c72eeac2cae15e12649ea08feEli Friedman
6614fd0aa5803357d8c72eeac2cae15e12649ea08feEli Friedmanllvm::Value* CodeGenFunction::EmitVAListRef(const Expr* E) {
662fbe02ffb573ac2aa51351278af1c7970573b6ed5Chris Lattner  if (CGM.getContext().getBuiltinVaListType()->isArrayType())
6634fd0aa5803357d8c72eeac2cae15e12649ea08feEli Friedman    return EmitScalarExpr(E);
6644fd0aa5803357d8c72eeac2cae15e12649ea08feEli Friedman  return EmitLValue(E).getAddress();
6654fd0aa5803357d8c72eeac2cae15e12649ea08feEli Friedman}
6666ccc47698d0311ddabf32fa0f6db8e4f09ac96f8Anders Carlsson
667f1549f66a8216a78112286e3978cea2c29d6334cJohn McCall/// Pops cleanup blocks until the given savepoint is reached.
668f1549f66a8216a78112286e3978cea2c29d6334cJohn McCallvoid CodeGenFunction::PopCleanupBlocks(EHScopeStack::stable_iterator Old) {
669f1549f66a8216a78112286e3978cea2c29d6334cJohn McCall  assert(Old.isValid());
670f1549f66a8216a78112286e3978cea2c29d6334cJohn McCall
671ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall  while (EHStack.stable_begin() != Old) {
672ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall    EHCleanupScope &Scope = cast<EHCleanupScope>(*EHStack.begin());
673ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall
674ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall    // As long as Old strictly encloses the scope's enclosing normal
675ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall    // cleanup, we're going to emit another normal cleanup which
676ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall    // fallthrough can propagate through.
677ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall    bool FallThroughIsBranchThrough =
678ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      Old.strictlyEncloses(Scope.getEnclosingNormalCleanup());
679ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall
680ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall    PopCleanupBlock(FallThroughIsBranchThrough);
681ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall  }
6826ccc47698d0311ddabf32fa0f6db8e4f09ac96f8Anders Carlsson}
683c71c845fe77ee1f891d60232ec320912d88557eeAnders Carlsson
684ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCallstatic llvm::BasicBlock *CreateNormalEntry(CodeGenFunction &CGF,
685ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall                                           EHCleanupScope &Scope) {
686ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall  assert(Scope.isNormalCleanup());
687ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall  llvm::BasicBlock *Entry = Scope.getNormalBlock();
688ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall  if (!Entry) {
689ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall    Entry = CGF.createBasicBlock("cleanup");
690ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall    Scope.setNormalBlock(Entry);
691f1549f66a8216a78112286e3978cea2c29d6334cJohn McCall  }
692ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall  return Entry;
693ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall}
694f1549f66a8216a78112286e3978cea2c29d6334cJohn McCall
695ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCallstatic llvm::BasicBlock *CreateEHEntry(CodeGenFunction &CGF,
696ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall                                       EHCleanupScope &Scope) {
697ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall  assert(Scope.isEHCleanup());
698ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall  llvm::BasicBlock *Entry = Scope.getEHBlock();
699ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall  if (!Entry) {
700ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall    Entry = CGF.createBasicBlock("eh.cleanup");
701ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall    Scope.setEHBlock(Entry);
702ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall  }
703ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall  return Entry;
704ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall}
705f1549f66a8216a78112286e3978cea2c29d6334cJohn McCall
706ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall/// Transitions the terminator of the given exit-block of a cleanup to
707ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall/// be a cleanup switch.
708ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCallstatic llvm::SwitchInst *TransitionToCleanupSwitch(CodeGenFunction &CGF,
709ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall                                                   llvm::BasicBlock *Block) {
710ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall  // If it's a branch, turn it into a switch whose default
711ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall  // destination is its original target.
712ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall  llvm::TerminatorInst *Term = Block->getTerminator();
713ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall  assert(Term && "can't transition block without terminator");
714ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall
715ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall  if (llvm::BranchInst *Br = dyn_cast<llvm::BranchInst>(Term)) {
716ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall    assert(Br->isUnconditional());
717ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall    llvm::LoadInst *Load =
718ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      new llvm::LoadInst(CGF.getNormalCleanupDestSlot(), "cleanup.dest", Term);
719ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall    llvm::SwitchInst *Switch =
720ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      llvm::SwitchInst::Create(Load, Br->getSuccessor(0), 4, Block);
721ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall    Br->eraseFromParent();
722ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall    return Switch;
723ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall  } else {
724ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall    return cast<llvm::SwitchInst>(Term);
725ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall  }
726c71c845fe77ee1f891d60232ec320912d88557eeAnders Carlsson}
727c71c845fe77ee1f891d60232ec320912d88557eeAnders Carlsson
728f1549f66a8216a78112286e3978cea2c29d6334cJohn McCall/// Attempts to reduce a cleanup's entry block to a fallthrough.  This
729f1549f66a8216a78112286e3978cea2c29d6334cJohn McCall/// is basically llvm::MergeBlockIntoPredecessor, except
730ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall/// simplified/optimized for the tighter constraints on cleanup blocks.
731ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall///
732ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall/// Returns the new block, whatever it is.
733ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCallstatic llvm::BasicBlock *SimplifyCleanupEntry(CodeGenFunction &CGF,
734ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall                                              llvm::BasicBlock *Entry) {
735f1549f66a8216a78112286e3978cea2c29d6334cJohn McCall  llvm::BasicBlock *Pred = Entry->getSinglePredecessor();
736ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall  if (!Pred) return Entry;
7371eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump
738f1549f66a8216a78112286e3978cea2c29d6334cJohn McCall  llvm::BranchInst *Br = dyn_cast<llvm::BranchInst>(Pred->getTerminator());
739ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall  if (!Br || Br->isConditional()) return Entry;
740f1549f66a8216a78112286e3978cea2c29d6334cJohn McCall  assert(Br->getSuccessor(0) == Entry);
7411eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump
742f1549f66a8216a78112286e3978cea2c29d6334cJohn McCall  // If we were previously inserting at the end of the cleanup entry
743f1549f66a8216a78112286e3978cea2c29d6334cJohn McCall  // block, we'll need to continue inserting at the end of the
744f1549f66a8216a78112286e3978cea2c29d6334cJohn McCall  // predecessor.
745f1549f66a8216a78112286e3978cea2c29d6334cJohn McCall  bool WasInsertBlock = CGF.Builder.GetInsertBlock() == Entry;
746f1549f66a8216a78112286e3978cea2c29d6334cJohn McCall  assert(!WasInsertBlock || CGF.Builder.GetInsertPoint() == Entry->end());
7471eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump
748f1549f66a8216a78112286e3978cea2c29d6334cJohn McCall  // Kill the branch.
749f1549f66a8216a78112286e3978cea2c29d6334cJohn McCall  Br->eraseFromParent();
7501eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump
751f1549f66a8216a78112286e3978cea2c29d6334cJohn McCall  // Merge the blocks.
752f1549f66a8216a78112286e3978cea2c29d6334cJohn McCall  Pred->getInstList().splice(Pred->end(), Entry->getInstList());
75399533834ba8f3658559f334e68a518ebb6388ceaMike Stump
754f1549f66a8216a78112286e3978cea2c29d6334cJohn McCall  // Kill the entry block.
755f1549f66a8216a78112286e3978cea2c29d6334cJohn McCall  Entry->eraseFromParent();
756d88ea5687968640ada2bc5a10211cbeb68a671ecMike Stump
757f1549f66a8216a78112286e3978cea2c29d6334cJohn McCall  if (WasInsertBlock)
758f1549f66a8216a78112286e3978cea2c29d6334cJohn McCall    CGF.Builder.SetInsertPoint(Pred);
759f1549f66a8216a78112286e3978cea2c29d6334cJohn McCall
760ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall  return Pred;
761f1549f66a8216a78112286e3978cea2c29d6334cJohn McCall}
762f1549f66a8216a78112286e3978cea2c29d6334cJohn McCall
7631f0fca54676cfa8616e7f3cd7a26788ab937e3cdJohn McCallstatic void EmitCleanup(CodeGenFunction &CGF,
7641f0fca54676cfa8616e7f3cd7a26788ab937e3cdJohn McCall                        EHScopeStack::Cleanup *Fn,
7651f0fca54676cfa8616e7f3cd7a26788ab937e3cdJohn McCall                        bool ForEH) {
766da65ea86482bc116906edfb9ba1d7124f76cc867John McCall  if (ForEH) CGF.EHStack.pushTerminate();
767da65ea86482bc116906edfb9ba1d7124f76cc867John McCall  Fn->Emit(CGF, ForEH);
768da65ea86482bc116906edfb9ba1d7124f76cc867John McCall  if (ForEH) CGF.EHStack.popTerminate();
769da65ea86482bc116906edfb9ba1d7124f76cc867John McCall  assert(CGF.HaveInsertPoint() && "cleanup ended with no insertion point?");
770da65ea86482bc116906edfb9ba1d7124f76cc867John McCall}
771da65ea86482bc116906edfb9ba1d7124f76cc867John McCall
7721f0fca54676cfa8616e7f3cd7a26788ab937e3cdJohn McCall/// Pops a cleanup block.  If the block includes a normal cleanup, the
7731f0fca54676cfa8616e7f3cd7a26788ab937e3cdJohn McCall/// current insertion point is threaded through the cleanup, as are
7741f0fca54676cfa8616e7f3cd7a26788ab937e3cdJohn McCall/// any branch fixups on the cleanup.
775ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCallvoid CodeGenFunction::PopCleanupBlock(bool FallthroughIsBranchThrough) {
7761f0fca54676cfa8616e7f3cd7a26788ab937e3cdJohn McCall  assert(!EHStack.empty() && "cleanup stack is empty!");
7771f0fca54676cfa8616e7f3cd7a26788ab937e3cdJohn McCall  assert(isa<EHCleanupScope>(*EHStack.begin()) && "top not a cleanup!");
7781f0fca54676cfa8616e7f3cd7a26788ab937e3cdJohn McCall  EHCleanupScope &Scope = cast<EHCleanupScope>(*EHStack.begin());
7791f0fca54676cfa8616e7f3cd7a26788ab937e3cdJohn McCall  assert(Scope.getFixupDepth() <= EHStack.getNumBranchFixups());
780da65ea86482bc116906edfb9ba1d7124f76cc867John McCall
781da65ea86482bc116906edfb9ba1d7124f76cc867John McCall  // Check whether we need an EH cleanup.  This is only true if we've
782da65ea86482bc116906edfb9ba1d7124f76cc867John McCall  // generated a lazy EH cleanup block.
783ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall  bool RequiresEHCleanup = Scope.hasEHBranches();
784da65ea86482bc116906edfb9ba1d7124f76cc867John McCall
785da65ea86482bc116906edfb9ba1d7124f76cc867John McCall  // Check the three conditions which might require a normal cleanup:
786da65ea86482bc116906edfb9ba1d7124f76cc867John McCall
787da65ea86482bc116906edfb9ba1d7124f76cc867John McCall  // - whether there are branch fix-ups through this cleanup
788da65ea86482bc116906edfb9ba1d7124f76cc867John McCall  unsigned FixupDepth = Scope.getFixupDepth();
7891f0fca54676cfa8616e7f3cd7a26788ab937e3cdJohn McCall  bool HasFixups = EHStack.getNumBranchFixups() != FixupDepth;
790da65ea86482bc116906edfb9ba1d7124f76cc867John McCall
791ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall  // - whether there are branch-throughs or branch-afters
792ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall  bool HasExistingBranches = Scope.hasBranches();
793da65ea86482bc116906edfb9ba1d7124f76cc867John McCall
794da65ea86482bc116906edfb9ba1d7124f76cc867John McCall  // - whether there's a fallthrough
7951f0fca54676cfa8616e7f3cd7a26788ab937e3cdJohn McCall  llvm::BasicBlock *FallthroughSource = Builder.GetInsertBlock();
796da65ea86482bc116906edfb9ba1d7124f76cc867John McCall  bool HasFallthrough = (FallthroughSource != 0);
797da65ea86482bc116906edfb9ba1d7124f76cc867John McCall
798da65ea86482bc116906edfb9ba1d7124f76cc867John McCall  bool RequiresNormalCleanup = false;
799da65ea86482bc116906edfb9ba1d7124f76cc867John McCall  if (Scope.isNormalCleanup() &&
800da65ea86482bc116906edfb9ba1d7124f76cc867John McCall      (HasFixups || HasExistingBranches || HasFallthrough)) {
801da65ea86482bc116906edfb9ba1d7124f76cc867John McCall    RequiresNormalCleanup = true;
802da65ea86482bc116906edfb9ba1d7124f76cc867John McCall  }
803da65ea86482bc116906edfb9ba1d7124f76cc867John McCall
804da65ea86482bc116906edfb9ba1d7124f76cc867John McCall  // If we don't need the cleanup at all, we're done.
805da65ea86482bc116906edfb9ba1d7124f76cc867John McCall  if (!RequiresNormalCleanup && !RequiresEHCleanup) {
806ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall    EHStack.popCleanup(); // safe because there are no fixups
8071f0fca54676cfa8616e7f3cd7a26788ab937e3cdJohn McCall    assert(EHStack.getNumBranchFixups() == 0 ||
8081f0fca54676cfa8616e7f3cd7a26788ab937e3cdJohn McCall           EHStack.hasNormalCleanups());
809da65ea86482bc116906edfb9ba1d7124f76cc867John McCall    return;
810da65ea86482bc116906edfb9ba1d7124f76cc867John McCall  }
811da65ea86482bc116906edfb9ba1d7124f76cc867John McCall
812da65ea86482bc116906edfb9ba1d7124f76cc867John McCall  // Copy the cleanup emission data out.  Note that SmallVector
813da65ea86482bc116906edfb9ba1d7124f76cc867John McCall  // guarantees maximal alignment for its buffer regardless of its
814da65ea86482bc116906edfb9ba1d7124f76cc867John McCall  // type parameter.
815da65ea86482bc116906edfb9ba1d7124f76cc867John McCall  llvm::SmallVector<char, 8*sizeof(void*)> CleanupBuffer;
816da65ea86482bc116906edfb9ba1d7124f76cc867John McCall  CleanupBuffer.reserve(Scope.getCleanupSize());
817da65ea86482bc116906edfb9ba1d7124f76cc867John McCall  memcpy(CleanupBuffer.data(),
818da65ea86482bc116906edfb9ba1d7124f76cc867John McCall         Scope.getCleanupBuffer(), Scope.getCleanupSize());
819da65ea86482bc116906edfb9ba1d7124f76cc867John McCall  CleanupBuffer.set_size(Scope.getCleanupSize());
8201f0fca54676cfa8616e7f3cd7a26788ab937e3cdJohn McCall  EHScopeStack::Cleanup *Fn =
8211f0fca54676cfa8616e7f3cd7a26788ab937e3cdJohn McCall    reinterpret_cast<EHScopeStack::Cleanup*>(CleanupBuffer.data());
822da65ea86482bc116906edfb9ba1d7124f76cc867John McCall
823ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall  // We want to emit the EH cleanup after the normal cleanup, but go
824ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall  // ahead and do the setup for the EH cleanup while the scope is still
825ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall  // alive.
826ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall  llvm::BasicBlock *EHEntry = 0;
827ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall  llvm::SmallVector<llvm::Instruction*, 2> EHInstsToAppend;
828ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall  if (RequiresEHCleanup) {
829ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall    EHEntry = CreateEHEntry(*this, Scope);
830ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall
831ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall    // Figure out the branch-through dest if necessary.
832ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall    llvm::BasicBlock *EHBranchThroughDest = 0;
833ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall    if (Scope.hasEHBranchThroughs()) {
834ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      assert(Scope.getEnclosingEHCleanup() != EHStack.stable_end());
835ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      EHScope &S = *EHStack.find(Scope.getEnclosingEHCleanup());
836ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      EHBranchThroughDest = CreateEHEntry(*this, cast<EHCleanupScope>(S));
837ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall    }
838ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall
839ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall    // If we have exactly one branch-after and no branch-throughs, we
840ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall    // can dispatch it without a switch.
841ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall    if (!Scope.hasBranchThroughs() &&
842ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall        Scope.getNumEHBranchAfters() == 1) {
843ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      assert(!EHBranchThroughDest);
844ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall
845ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      // TODO: remove the spurious eh.cleanup.dest stores if this edge
846ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      // never went through any switches.
847ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      llvm::BasicBlock *BranchAfterDest = Scope.getEHBranchAfterBlock(0);
848ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      EHInstsToAppend.push_back(llvm::BranchInst::Create(BranchAfterDest));
849ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall
850ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall    // Otherwise, if we have any branch-afters, we need a switch.
851ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall    } else if (Scope.getNumEHBranchAfters()) {
852ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      // The default of the switch belongs to the branch-throughs if
853ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      // they exist.
854ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      llvm::BasicBlock *Default =
855ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall        (EHBranchThroughDest ? EHBranchThroughDest : getUnreachableBlock());
856ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall
857ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      const unsigned SwitchCapacity = Scope.getNumEHBranchAfters();
858ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall
859ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      llvm::LoadInst *Load =
860ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall        new llvm::LoadInst(getEHCleanupDestSlot(), "cleanup.dest");
861ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      llvm::SwitchInst *Switch =
862ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall        llvm::SwitchInst::Create(Load, Default, SwitchCapacity);
863ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall
864ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      EHInstsToAppend.push_back(Load);
865ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      EHInstsToAppend.push_back(Switch);
866ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall
867ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      for (unsigned I = 0, E = Scope.getNumEHBranchAfters(); I != E; ++I)
868ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall        Switch->addCase(Scope.getEHBranchAfterIndex(I),
869ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall                        Scope.getEHBranchAfterBlock(I));
870ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall
871ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall    // Otherwise, we have only branch-throughs; jump to the next EH
872ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall    // cleanup.
873ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall    } else {
874ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      assert(EHBranchThroughDest);
875ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      EHInstsToAppend.push_back(llvm::BranchInst::Create(EHBranchThroughDest));
876ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall    }
877ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall  }
878ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall
879ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall  if (!RequiresNormalCleanup) {
880ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall    EHStack.popCleanup();
881ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall  } else {
882ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall    // As a kindof crazy internal case, branch-through fall-throughs
883ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall    // leave the insertion point set to the end of the last cleanup.
884ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall    bool HasPrebranchedFallthrough =
885ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      (HasFallthrough && FallthroughSource->getTerminator());
886ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall    assert(!HasPrebranchedFallthrough ||
887ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall           FallthroughSource->getTerminator()->getSuccessor(0)
888ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall             == Scope.getNormalBlock());
889da65ea86482bc116906edfb9ba1d7124f76cc867John McCall
890da65ea86482bc116906edfb9ba1d7124f76cc867John McCall    // If we have a fallthrough and no other need for the cleanup,
891da65ea86482bc116906edfb9ba1d7124f76cc867John McCall    // emit it directly.
892ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall    if (HasFallthrough && !HasPrebranchedFallthrough &&
893ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall        !HasFixups && !HasExistingBranches) {
894ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall
895ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      // Fixups can cause us to optimistically create a normal block,
896ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      // only to later have no real uses for it.  Just delete it in
897ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      // this case.
898ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      // TODO: we can potentially simplify all the uses after this.
899ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      if (Scope.getNormalBlock()) {
900ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall        Scope.getNormalBlock()->replaceAllUsesWith(getUnreachableBlock());
901ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall        delete Scope.getNormalBlock();
902ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      }
903ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall
904ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      EHStack.popCleanup();
905ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall
9061f0fca54676cfa8616e7f3cd7a26788ab937e3cdJohn McCall      EmitCleanup(*this, Fn, /*ForEH*/ false);
907da65ea86482bc116906edfb9ba1d7124f76cc867John McCall
908da65ea86482bc116906edfb9ba1d7124f76cc867John McCall    // Otherwise, the best approach is to thread everything through
909da65ea86482bc116906edfb9ba1d7124f76cc867John McCall    // the cleanup block and then try to clean up after ourselves.
910da65ea86482bc116906edfb9ba1d7124f76cc867John McCall    } else {
911da65ea86482bc116906edfb9ba1d7124f76cc867John McCall      // Force the entry block to exist.
912ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      llvm::BasicBlock *NormalEntry = CreateNormalEntry(*this, Scope);
913da65ea86482bc116906edfb9ba1d7124f76cc867John McCall
914ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      // If there's a fallthrough, we need to store the cleanup
915ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      // destination index.  For fall-throughs this is always zero.
916ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      if (HasFallthrough && !HasPrebranchedFallthrough)
917ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall        Builder.CreateStore(Builder.getInt32(0), getNormalCleanupDestSlot());
918ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall
919ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      // Emit the entry block.  This implicitly branches to it if we
920ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      // have fallthrough.  All the fixups and existing branches should
921ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      // already be branched to it.
9221f0fca54676cfa8616e7f3cd7a26788ab937e3cdJohn McCall      EmitBlock(NormalEntry);
923da65ea86482bc116906edfb9ba1d7124f76cc867John McCall
924ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      bool HasEnclosingCleanups =
925ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall        (Scope.getEnclosingNormalCleanup() != EHStack.stable_end());
926ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall
927ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      // Compute the branch-through dest if we need it:
928ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      //   - if there are branch-throughs threaded through the scope
929ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      //   - if fall-through is a branch-through
930ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      //   - if there are fixups that will be optimistically forwarded
931ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      //     to the enclosing cleanup
932ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      llvm::BasicBlock *BranchThroughDest = 0;
933ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      if (Scope.hasBranchThroughs() ||
934ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall          (HasFallthrough && FallthroughIsBranchThrough) ||
935ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall          (HasFixups && HasEnclosingCleanups)) {
936ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall        assert(HasEnclosingCleanups);
937ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall        EHScope &S = *EHStack.find(Scope.getEnclosingNormalCleanup());
938ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall        BranchThroughDest = CreateNormalEntry(*this, cast<EHCleanupScope>(S));
939da65ea86482bc116906edfb9ba1d7124f76cc867John McCall      }
940da65ea86482bc116906edfb9ba1d7124f76cc867John McCall
941ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      llvm::BasicBlock *FallthroughDest = 0;
942ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      llvm::SmallVector<llvm::Instruction*, 2> InstsToAppend;
943ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall
944ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      // If there's exactly one branch-after and no other threads,
945ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      // we can route it without a switch.
946ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      if (!Scope.hasBranchThroughs() && !HasFixups && !HasFallthrough &&
947ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall          Scope.getNumBranchAfters() == 1) {
948ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall        assert(!BranchThroughDest);
949ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall
950ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall        // TODO: clean up the possibly dead stores to the cleanup dest slot.
951ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall        llvm::BasicBlock *BranchAfter = Scope.getBranchAfterBlock(0);
952ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall        InstsToAppend.push_back(llvm::BranchInst::Create(BranchAfter));
953ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall
954ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      // Build a switch-out if we need it:
955ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      //   - if there are branch-afters threaded through the scope
956ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      //   - if fall-through is a branch-after
957ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      //   - if there are fixups that have nowhere left to go and
958ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      //     so must be immediately resolved
959ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      } else if (Scope.getNumBranchAfters() ||
960ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall                 (HasFallthrough && !FallthroughIsBranchThrough) ||
961ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall                 (HasFixups && !HasEnclosingCleanups)) {
962ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall
963ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall        llvm::BasicBlock *Default =
964ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall          (BranchThroughDest ? BranchThroughDest : getUnreachableBlock());
965ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall
966ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall        // TODO: base this on the number of branch-afters and fixups
967ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall        const unsigned SwitchCapacity = 10;
968ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall
969ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall        llvm::LoadInst *Load =
970ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall          new llvm::LoadInst(getNormalCleanupDestSlot(), "cleanup.dest");
971ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall        llvm::SwitchInst *Switch =
972ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall          llvm::SwitchInst::Create(Load, Default, SwitchCapacity);
973ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall
974ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall        InstsToAppend.push_back(Load);
975ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall        InstsToAppend.push_back(Switch);
976ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall
977ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall        // Branch-after fallthrough.
978ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall        if (HasFallthrough && !FallthroughIsBranchThrough) {
979ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall          FallthroughDest = createBasicBlock("cleanup.cont");
980ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall          Switch->addCase(Builder.getInt32(0), FallthroughDest);
981ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall        }
982ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall
983ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall        for (unsigned I = 0, E = Scope.getNumBranchAfters(); I != E; ++I) {
984ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall          Switch->addCase(Scope.getBranchAfterIndex(I),
985ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall                          Scope.getBranchAfterBlock(I));
986ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall        }
987ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall
988ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall        if (HasFixups && !HasEnclosingCleanups)
989ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall          ResolveAllBranchFixups(Switch);
990ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      } else {
991ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall        // We should always have a branch-through destination in this case.
992ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall        assert(BranchThroughDest);
993ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall        InstsToAppend.push_back(llvm::BranchInst::Create(BranchThroughDest));
994ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      }
995da65ea86482bc116906edfb9ba1d7124f76cc867John McCall
996ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      // We're finally ready to pop the cleanup.
997ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      EHStack.popCleanup();
998ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      assert(EHStack.hasNormalCleanups() == HasEnclosingCleanups);
999da65ea86482bc116906edfb9ba1d7124f76cc867John McCall
1000ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      EmitCleanup(*this, Fn, /*ForEH*/ false);
1001ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall
1002ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      // Append the prepared cleanup prologue from above.
1003ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      llvm::BasicBlock *NormalExit = Builder.GetInsertBlock();
1004ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      for (unsigned I = 0, E = InstsToAppend.size(); I != E; ++I)
1005ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall        NormalExit->getInstList().push_back(InstsToAppend[I]);
1006ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall
1007ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      // Optimistically hope that any fixups will continue falling through.
1008ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      for (unsigned I = FixupDepth, E = EHStack.getNumBranchFixups();
1009ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall           I < E; ++I) {
1010ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall        BranchFixup &Fixup = CGF.EHStack.getBranchFixup(I);
1011ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall        if (!Fixup.Destination) continue;
1012ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall        if (!Fixup.OptimisticBranchBlock) {
1013ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall          new llvm::StoreInst(Builder.getInt32(Fixup.DestinationIndex),
1014ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall                              getNormalCleanupDestSlot(),
1015ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall                              Fixup.InitialBranch);
1016ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall          Fixup.InitialBranch->setSuccessor(0, NormalEntry);
1017ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall        }
1018ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall        Fixup.OptimisticBranchBlock = NormalExit;
1019ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      }
1020ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall
1021ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      if (FallthroughDest)
1022ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall        EmitBlock(FallthroughDest);
1023ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      else if (!HasFallthrough)
1024ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall        Builder.ClearInsertionPoint();
1025ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall
1026ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      // Check whether we can merge NormalEntry into a single predecessor.
1027ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      // This might invalidate (non-IR) pointers to NormalEntry.
1028ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      llvm::BasicBlock *NewNormalEntry =
1029ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall        SimplifyCleanupEntry(*this, NormalEntry);
1030ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall
1031ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      // If it did invalidate those pointers, and NormalEntry was the same
1032ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      // as NormalExit, go back and patch up the fixups.
1033ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      if (NewNormalEntry != NormalEntry && NormalEntry == NormalExit)
1034ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall        for (unsigned I = FixupDepth, E = EHStack.getNumBranchFixups();
1035ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall               I < E; ++I)
1036ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall          CGF.EHStack.getBranchFixup(I).OptimisticBranchBlock = NewNormalEntry;
1037da65ea86482bc116906edfb9ba1d7124f76cc867John McCall    }
1038da65ea86482bc116906edfb9ba1d7124f76cc867John McCall  }
1039da65ea86482bc116906edfb9ba1d7124f76cc867John McCall
1040ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall  assert(EHStack.hasNormalCleanups() || EHStack.getNumBranchFixups() == 0);
1041ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall
1042da65ea86482bc116906edfb9ba1d7124f76cc867John McCall  // Emit the EH cleanup if required.
1043da65ea86482bc116906edfb9ba1d7124f76cc867John McCall  if (RequiresEHCleanup) {
10441f0fca54676cfa8616e7f3cd7a26788ab937e3cdJohn McCall    CGBuilderTy::InsertPoint SavedIP = Builder.saveAndClearIP();
1045ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall
10461f0fca54676cfa8616e7f3cd7a26788ab937e3cdJohn McCall    EmitBlock(EHEntry);
1047ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall    EmitCleanup(*this, Fn, /*ForEH*/ true);
1048ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall
1049ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall    // Append the prepared cleanup prologue from above.
1050ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall    llvm::BasicBlock *EHExit = Builder.GetInsertBlock();
1051ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall    for (unsigned I = 0, E = EHInstsToAppend.size(); I != E; ++I)
1052ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      EHExit->getInstList().push_back(EHInstsToAppend[I]);
1053ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall
10541f0fca54676cfa8616e7f3cd7a26788ab937e3cdJohn McCall    Builder.restoreIP(SavedIP);
1055ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall
1056ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall    SimplifyCleanupEntry(*this, EHEntry);
1057da65ea86482bc116906edfb9ba1d7124f76cc867John McCall  }
1058da65ea86482bc116906edfb9ba1d7124f76cc867John McCall}
1059da65ea86482bc116906edfb9ba1d7124f76cc867John McCall
1060ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall/// Terminate the current block by emitting a branch which might leave
1061ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall/// the current cleanup-protected scope.  The target scope may not yet
1062ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall/// be known, in which case this will require a fixup.
1063ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall///
1064ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall/// As a side-effect, this method clears the insertion point.
1065f1549f66a8216a78112286e3978cea2c29d6334cJohn McCallvoid CodeGenFunction::EmitBranchThroughCleanup(JumpDest Dest) {
106646831a93e1805ddaebd68f37cdb5496a86b44cf0Anders Carlsson  if (!HaveInsertPoint())
106746831a93e1805ddaebd68f37cdb5496a86b44cf0Anders Carlsson    return;
10681eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump
1069f1549f66a8216a78112286e3978cea2c29d6334cJohn McCall  // Create the branch.
1070ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall  llvm::BranchInst *BI = Builder.CreateBr(Dest.getBlock());
10711eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump
1072ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall  // If we're not in a cleanup scope, or if the destination scope is
1073ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall  // the current normal-cleanup scope, we don't need to worry about
1074f1549f66a8216a78112286e3978cea2c29d6334cJohn McCall  // fixups.
1075ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall  if (!EHStack.hasNormalCleanups() ||
1076ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      Dest.getScopeDepth() == EHStack.getInnermostNormalCleanup()) {
1077f1549f66a8216a78112286e3978cea2c29d6334cJohn McCall    Builder.ClearInsertionPoint();
107887eaf17cc88516277e4389dfa15df93ecfdce559Anders Carlsson    return;
1079f1549f66a8216a78112286e3978cea2c29d6334cJohn McCall  }
10801eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump
1081f1549f66a8216a78112286e3978cea2c29d6334cJohn McCall  // If we can't resolve the destination cleanup scope, just add this
1082ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall  // to the current cleanup scope as a branch fixup.
1083ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall  if (!Dest.getScopeDepth().isValid()) {
1084ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall    BranchFixup &Fixup = EHStack.addBranchFixup();
1085ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall    Fixup.Destination = Dest.getBlock();
1086ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall    Fixup.DestinationIndex = Dest.getDestIndex();
1087ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall    Fixup.InitialBranch = BI;
1088ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall    Fixup.OptimisticBranchBlock = 0;
1089ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall
1090f1549f66a8216a78112286e3978cea2c29d6334cJohn McCall    Builder.ClearInsertionPoint();
109187eaf17cc88516277e4389dfa15df93ecfdce559Anders Carlsson    return;
109287eaf17cc88516277e4389dfa15df93ecfdce559Anders Carlsson  }
10931eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump
1094ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall  // Otherwise, thread through all the normal cleanups in scope.
1095ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall
1096ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall  // Store the index at the start.
1097ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall  llvm::ConstantInt *Index = Builder.getInt32(Dest.getDestIndex());
1098ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall  new llvm::StoreInst(Index, getNormalCleanupDestSlot(), BI);
1099ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall
1100ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall  // Adjust BI to point to the first cleanup block.
1101ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall  {
1102ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall    EHCleanupScope &Scope =
1103ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      cast<EHCleanupScope>(*EHStack.find(EHStack.getInnermostNormalCleanup()));
1104ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall    BI->setSuccessor(0, CreateNormalEntry(*this, Scope));
1105ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall  }
1106ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall
1107ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall  // Add this destination to all the scopes involved.
1108ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall  EHScopeStack::stable_iterator I = EHStack.getInnermostNormalCleanup();
1109ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall  EHScopeStack::stable_iterator E = Dest.getScopeDepth();
1110ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall  if (E.strictlyEncloses(I)) {
1111ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall    while (true) {
1112ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      EHCleanupScope &Scope = cast<EHCleanupScope>(*EHStack.find(I));
1113ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      assert(Scope.isNormalCleanup());
1114ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      I = Scope.getEnclosingNormalCleanup();
1115ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall
1116ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      // If this is the last cleanup we're propagating through, tell it
1117ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      // that there's a resolved jump moving through it.
1118ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      if (!E.strictlyEncloses(I)) {
1119ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall        Scope.addBranchAfter(Index, Dest.getBlock());
1120ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall        break;
1121da65ea86482bc116906edfb9ba1d7124f76cc867John McCall      }
1122ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall
1123ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      // Otherwise, tell the scope that there's a jump propoagating
1124ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      // through it.  If this isn't new information, all the rest of
1125ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      // the work has been done before.
1126ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      if (!Scope.addBranchThrough(Dest.getBlock()))
1127ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall        break;
1128f1549f66a8216a78112286e3978cea2c29d6334cJohn McCall    }
112987eaf17cc88516277e4389dfa15df93ecfdce559Anders Carlsson  }
1130f1549f66a8216a78112286e3978cea2c29d6334cJohn McCall
1131f1549f66a8216a78112286e3978cea2c29d6334cJohn McCall  Builder.ClearInsertionPoint();
1132f1549f66a8216a78112286e3978cea2c29d6334cJohn McCall}
11331eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump
1134ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCallvoid CodeGenFunction::EmitBranchThroughEHCleanup(UnwindDest Dest) {
1135ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall  // We should never get invalid scope depths for an UnwindDest; that
1136ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall  // implies that the destination wasn't set up correctly.
1137ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall  assert(Dest.getScopeDepth().isValid() && "invalid scope depth on EH dest?");
1138ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall
1139f1549f66a8216a78112286e3978cea2c29d6334cJohn McCall  if (!HaveInsertPoint())
1140f1549f66a8216a78112286e3978cea2c29d6334cJohn McCall    return;
11411eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump
1142f1549f66a8216a78112286e3978cea2c29d6334cJohn McCall  // Create the branch.
1143ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall  llvm::BranchInst *BI = Builder.CreateBr(Dest.getBlock());
1144f1549f66a8216a78112286e3978cea2c29d6334cJohn McCall
1145ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall  // If the destination is in the same EH cleanup scope as us, we
1146ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall  // don't need to thread through anything.
1147ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall  if (Dest.getScopeDepth() == EHStack.getInnermostEHCleanup()) {
1148f1549f66a8216a78112286e3978cea2c29d6334cJohn McCall    Builder.ClearInsertionPoint();
114987eaf17cc88516277e4389dfa15df93ecfdce559Anders Carlsson    return;
115087eaf17cc88516277e4389dfa15df93ecfdce559Anders Carlsson  }
1151ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall  assert(EHStack.hasEHCleanups());
11521eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump
1153ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall  // Store the index at the start.
1154ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall  llvm::ConstantInt *Index = Builder.getInt32(Dest.getDestIndex());
1155ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall  new llvm::StoreInst(Index, getEHCleanupDestSlot(), BI);
1156ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall
1157ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall  // Adjust BI to point to the first cleanup block.
1158ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall  {
1159ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall    EHCleanupScope &Scope =
1160ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      cast<EHCleanupScope>(*EHStack.find(EHStack.getInnermostEHCleanup()));
1161ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall    BI->setSuccessor(0, CreateEHEntry(*this, Scope));
1162ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall  }
1163ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall
1164ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall  // Add this destination to all the scopes involved.
1165ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall  for (EHScopeStack::stable_iterator
1166ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall         I = EHStack.getInnermostEHCleanup(),
1167ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall         E = Dest.getScopeDepth(); ; ) {
1168ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall    assert(E.strictlyEncloses(I));
1169ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall    EHCleanupScope &Scope = cast<EHCleanupScope>(*EHStack.find(I));
1170ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall    assert(Scope.isEHCleanup());
1171ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall    I = Scope.getEnclosingEHCleanup();
1172ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall
1173ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall    // If this is the last cleanup we're propagating through, add this
1174ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall    // as a branch-after.
1175ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall    if (I == E) {
1176ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      Scope.addEHBranchAfter(Index, Dest.getBlock());
1177ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      break;
1178f1549f66a8216a78112286e3978cea2c29d6334cJohn McCall    }
1179ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall
1180ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall    // Otherwise, add it as a branch-through.  If this isn't new
1181ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall    // information, all the rest of the work has been done before.
1182ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall    if (!Scope.addEHBranchThrough(Dest.getBlock()))
1183ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      break;
1184f1549f66a8216a78112286e3978cea2c29d6334cJohn McCall  }
1185f1549f66a8216a78112286e3978cea2c29d6334cJohn McCall
1186f1549f66a8216a78112286e3978cea2c29d6334cJohn McCall  Builder.ClearInsertionPoint();
118787eaf17cc88516277e4389dfa15df93ecfdce559Anders Carlsson}
1188ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall
1189ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall/// All the branch fixups on the EH stack have propagated out past the
1190ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall/// outermost normal cleanup; resolve them all by adding cases to the
1191ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall/// given switch instruction.
1192ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCallvoid CodeGenFunction::ResolveAllBranchFixups(llvm::SwitchInst *Switch) {
1193ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall  llvm::SmallPtrSet<llvm::BasicBlock*, 4> CasesAdded;
1194ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall
1195ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall  for (unsigned I = 0, E = EHStack.getNumBranchFixups(); I != E; ++I) {
1196ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall    // Skip this fixup if its destination isn't set or if we've
1197ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall    // already treated it.
1198ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall    BranchFixup &Fixup = EHStack.getBranchFixup(I);
1199ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall    if (Fixup.Destination == 0) continue;
1200ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall    if (!CasesAdded.insert(Fixup.Destination)) continue;
1201ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall
1202ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall    Switch->addCase(Builder.getInt32(Fixup.DestinationIndex),
1203ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall                    Fixup.Destination);
1204ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall  }
1205ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall
1206ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall  EHStack.clearFixups();
1207ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall}
1208ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall
1209ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCallvoid CodeGenFunction::ResolveBranchFixups(llvm::BasicBlock *Block) {
1210ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall  assert(Block && "resolving a null target block");
1211ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall  if (!EHStack.getNumBranchFixups()) return;
1212ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall
1213ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall  assert(EHStack.hasNormalCleanups() &&
1214ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall         "branch fixups exist with no normal cleanups on stack");
1215ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall
1216ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall  llvm::SmallPtrSet<llvm::BasicBlock*, 4> ModifiedOptimisticBlocks;
1217ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall  bool ResolvedAny = false;
1218ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall
1219ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall  for (unsigned I = 0, E = EHStack.getNumBranchFixups(); I != E; ++I) {
1220ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall    // Skip this fixup if its destination doesn't match.
1221ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall    BranchFixup &Fixup = EHStack.getBranchFixup(I);
1222ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall    if (Fixup.Destination != Block) continue;
1223ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall
1224ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall    Fixup.Destination = 0;
1225ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall    ResolvedAny = true;
1226ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall
1227ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall    // If it doesn't have an optimistic branch block, LatestBranch is
1228ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall    // already pointing to the right place.
1229ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall    llvm::BasicBlock *BranchBB = Fixup.OptimisticBranchBlock;
1230ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall    if (!BranchBB)
1231ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      continue;
1232ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall
1233ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall    // Don't process the same optimistic branch block twice.
1234ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall    if (!ModifiedOptimisticBlocks.insert(BranchBB))
1235ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      continue;
1236ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall
1237ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall    llvm::SwitchInst *Switch = TransitionToCleanupSwitch(*this, BranchBB);
1238ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall
1239ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall    // Add a case to the switch.
1240ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall    Switch->addCase(Builder.getInt32(Fixup.DestinationIndex), Block);
1241ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall  }
1242ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall
1243ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall  if (ResolvedAny)
1244ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall    EHStack.popNullFixups();
1245ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall}
1246ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall
1247ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCallllvm::Value *CodeGenFunction::getNormalCleanupDestSlot() {
1248ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall  if (!NormalCleanupDest)
1249ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall    NormalCleanupDest =
1250ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      CreateTempAlloca(Builder.getInt32Ty(), "cleanup.dest.slot");
1251ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall  return NormalCleanupDest;
1252ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall}
1253ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall
1254ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCallllvm::Value *CodeGenFunction::getEHCleanupDestSlot() {
1255ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall  if (!EHCleanupDest)
1256ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall    EHCleanupDest =
1257ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall      CreateTempAlloca(Builder.getInt32Ty(), "eh.cleanup.dest.slot");
1258ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall  return EHCleanupDest;
1259ff8e11579fc904aa4032d90d2be6ce1ac5fc9fe1John McCall}
1260