forked from OSchip/llvm-project
1121 lines
48 KiB
C++
1121 lines
48 KiB
C++
//===-- CodeGenFunction.h - Per-Function state for LLVM CodeGen -*- C++ -*-===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file is distributed under the University of Illinois Open Source
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// License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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//
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// This is the internal per-function state used for llvm translation.
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//
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//===----------------------------------------------------------------------===//
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#ifndef CLANG_CODEGEN_CODEGENFUNCTION_H
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#define CLANG_CODEGEN_CODEGENFUNCTION_H
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#include "clang/AST/Type.h"
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#include "clang/AST/ExprCXX.h"
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#include "clang/AST/ExprObjC.h"
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#include "clang/Basic/TargetInfo.h"
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#include "llvm/ADT/DenseMap.h"
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#include "llvm/ADT/SmallVector.h"
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#include "llvm/Support/ValueHandle.h"
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#include <map>
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#include "CodeGenModule.h"
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#include "CGBlocks.h"
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#include "CGBuilder.h"
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#include "CGCall.h"
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#include "CGCXX.h"
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#include "CGValue.h"
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namespace llvm {
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class BasicBlock;
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class LLVMContext;
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class Module;
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class SwitchInst;
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class Twine;
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class Value;
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}
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namespace clang {
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class ASTContext;
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class CXXDestructorDecl;
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class CXXTryStmt;
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class Decl;
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class EnumConstantDecl;
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class FunctionDecl;
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class FunctionProtoType;
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class LabelStmt;
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class ObjCContainerDecl;
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class ObjCInterfaceDecl;
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class ObjCIvarDecl;
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class ObjCMethodDecl;
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class ObjCImplementationDecl;
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class ObjCPropertyImplDecl;
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class TargetInfo;
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class VarDecl;
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class ObjCForCollectionStmt;
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class ObjCAtTryStmt;
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class ObjCAtThrowStmt;
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class ObjCAtSynchronizedStmt;
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namespace CodeGen {
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class CodeGenModule;
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class CodeGenTypes;
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class CGDebugInfo;
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class CGFunctionInfo;
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class CGRecordLayout;
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/// CodeGenFunction - This class organizes the per-function state that is used
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/// while generating LLVM code.
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class CodeGenFunction : public BlockFunction {
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CodeGenFunction(const CodeGenFunction&); // DO NOT IMPLEMENT
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void operator=(const CodeGenFunction&); // DO NOT IMPLEMENT
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public:
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CodeGenModule &CGM; // Per-module state.
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const TargetInfo &Target;
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typedef std::pair<llvm::Value *, llvm::Value *> ComplexPairTy;
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CGBuilderTy Builder;
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/// CurFuncDecl - Holds the Decl for the current function or ObjC method.
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/// This excludes BlockDecls.
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const Decl *CurFuncDecl;
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/// CurCodeDecl - This is the inner-most code context, which includes blocks.
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const Decl *CurCodeDecl;
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const CGFunctionInfo *CurFnInfo;
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QualType FnRetTy;
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llvm::Function *CurFn;
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/// ReturnBlock - Unified return block.
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llvm::BasicBlock *ReturnBlock;
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/// ReturnValue - The temporary alloca to hold the return value. This is null
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/// iff the function has no return value.
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llvm::Instruction *ReturnValue;
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/// AllocaInsertPoint - This is an instruction in the entry block before which
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/// we prefer to insert allocas.
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llvm::AssertingVH<llvm::Instruction> AllocaInsertPt;
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const llvm::Type *LLVMIntTy;
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uint32_t LLVMPointerWidth;
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public:
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/// ObjCEHValueStack - Stack of Objective-C exception values, used for
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/// rethrows.
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llvm::SmallVector<llvm::Value*, 8> ObjCEHValueStack;
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/// PushCleanupBlock - Push a new cleanup entry on the stack and set the
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/// passed in block as the cleanup block.
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void PushCleanupBlock(llvm::BasicBlock *CleanupEntryBlock,
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llvm::BasicBlock *CleanupExitBlock = 0);
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/// CleanupBlockInfo - A struct representing a popped cleanup block.
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struct CleanupBlockInfo {
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/// CleanupEntryBlock - the cleanup entry block
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llvm::BasicBlock *CleanupBlock;
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/// SwitchBlock - the block (if any) containing the switch instruction used
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/// for jumping to the final destination.
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llvm::BasicBlock *SwitchBlock;
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/// EndBlock - the default destination for the switch instruction.
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llvm::BasicBlock *EndBlock;
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CleanupBlockInfo(llvm::BasicBlock *cb, llvm::BasicBlock *sb,
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llvm::BasicBlock *eb)
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: CleanupBlock(cb), SwitchBlock(sb), EndBlock(eb) {}
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};
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/// PopCleanupBlock - Will pop the cleanup entry on the stack, process all
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/// branch fixups and return a block info struct with the switch block and end
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/// block.
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CleanupBlockInfo PopCleanupBlock();
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/// CleanupScope - RAII object that will create a cleanup block and set the
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/// insert point to that block. When destructed, it sets the insert point to
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/// the previous block and pushes a new cleanup entry on the stack.
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class CleanupScope {
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CodeGenFunction& CGF;
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llvm::BasicBlock *CurBB;
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llvm::BasicBlock *CleanupEntryBB;
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llvm::BasicBlock *CleanupExitBB;
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public:
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CleanupScope(CodeGenFunction &cgf)
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: CGF(cgf), CurBB(CGF.Builder.GetInsertBlock()),
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CleanupEntryBB(CGF.createBasicBlock("cleanup")), CleanupExitBB(0) {
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CGF.Builder.SetInsertPoint(CleanupEntryBB);
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}
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llvm::BasicBlock *getCleanupExitBlock() {
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if (!CleanupExitBB)
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CleanupExitBB = CGF.createBasicBlock("cleanup.exit");
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return CleanupExitBB;
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}
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~CleanupScope() {
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CGF.PushCleanupBlock(CleanupEntryBB, CleanupExitBB);
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// FIXME: This is silly, move this into the builder.
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if (CurBB)
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CGF.Builder.SetInsertPoint(CurBB);
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else
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CGF.Builder.ClearInsertionPoint();
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}
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};
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/// EmitCleanupBlocks - Takes the old cleanup stack size and emits the cleanup
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/// blocks that have been added.
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void EmitCleanupBlocks(size_t OldCleanupStackSize);
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/// EmitBranchThroughCleanup - Emit a branch from the current insert block
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/// through the cleanup handling code (if any) and then on to \arg Dest.
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///
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/// FIXME: Maybe this should really be in EmitBranch? Don't we always want
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/// this behavior for branches?
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void EmitBranchThroughCleanup(llvm::BasicBlock *Dest);
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/// PushConditionalTempDestruction - Should be called before a conditional
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/// part of an expression is emitted. For example, before the RHS of the
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/// expression below is emitted:
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///
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/// b && f(T());
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///
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/// This is used to make sure that any temporaryes created in the conditional
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/// branch are only destroyed if the branch is taken.
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void PushConditionalTempDestruction();
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/// PopConditionalTempDestruction - Should be called after a conditional
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/// part of an expression has been emitted.
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void PopConditionalTempDestruction();
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private:
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CGDebugInfo *DebugInfo;
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/// IndirectBranch - The first time an indirect goto is seen we create a
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/// block with an indirect branch. Every time we see the address of a label
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/// taken, we add the label to the indirect goto. Every subsequent indirect
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/// goto is codegen'd as a jump to the IndirectBranch's basic block.
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llvm::IndirectBrInst *IndirectBranch;
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/// LocalDeclMap - This keeps track of the LLVM allocas or globals for local C
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/// decls.
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llvm::DenseMap<const Decl*, llvm::Value*> LocalDeclMap;
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/// LabelMap - This keeps track of the LLVM basic block for each C label.
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llvm::DenseMap<const LabelStmt*, llvm::BasicBlock*> LabelMap;
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// BreakContinueStack - This keeps track of where break and continue
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// statements should jump to.
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struct BreakContinue {
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BreakContinue(llvm::BasicBlock *bb, llvm::BasicBlock *cb)
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: BreakBlock(bb), ContinueBlock(cb) {}
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llvm::BasicBlock *BreakBlock;
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llvm::BasicBlock *ContinueBlock;
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};
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llvm::SmallVector<BreakContinue, 8> BreakContinueStack;
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/// SwitchInsn - This is nearest current switch instruction. It is null if if
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/// current context is not in a switch.
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llvm::SwitchInst *SwitchInsn;
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/// CaseRangeBlock - This block holds if condition check for last case
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/// statement range in current switch instruction.
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llvm::BasicBlock *CaseRangeBlock;
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/// InvokeDest - This is the nearest exception target for calls
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/// which can unwind, when exceptions are being used.
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llvm::BasicBlock *InvokeDest;
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// VLASizeMap - This keeps track of the associated size for each VLA type.
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// We track this by the size expression rather than the type itself because
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// in certain situations, like a const qualifier applied to an VLA typedef,
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// multiple VLA types can share the same size expression.
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// FIXME: Maybe this could be a stack of maps that is pushed/popped as we
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// enter/leave scopes.
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llvm::DenseMap<const Expr*, llvm::Value*> VLASizeMap;
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/// DidCallStackSave - Whether llvm.stacksave has been called. Used to avoid
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/// calling llvm.stacksave for multiple VLAs in the same scope.
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bool DidCallStackSave;
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struct CleanupEntry {
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/// CleanupEntryBlock - The block of code that does the actual cleanup.
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llvm::BasicBlock *CleanupEntryBlock;
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/// CleanupExitBlock - The cleanup exit block.
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llvm::BasicBlock *CleanupExitBlock;
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/// Blocks - Basic blocks that were emitted in the current cleanup scope.
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std::vector<llvm::BasicBlock *> Blocks;
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/// BranchFixups - Branch instructions to basic blocks that haven't been
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/// inserted into the current function yet.
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std::vector<llvm::BranchInst *> BranchFixups;
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explicit CleanupEntry(llvm::BasicBlock *CleanupEntryBlock,
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llvm::BasicBlock *CleanupExitBlock)
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: CleanupEntryBlock(CleanupEntryBlock),
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CleanupExitBlock(CleanupExitBlock) {}
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};
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/// CleanupEntries - Stack of cleanup entries.
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llvm::SmallVector<CleanupEntry, 8> CleanupEntries;
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typedef llvm::DenseMap<llvm::BasicBlock*, size_t> BlockScopeMap;
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/// BlockScopes - Map of which "cleanup scope" scope basic blocks have.
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BlockScopeMap BlockScopes;
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/// CXXThisDecl - When parsing an C++ function, this will hold the implicit
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/// 'this' declaration.
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ImplicitParamDecl *CXXThisDecl;
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/// CXXLiveTemporaryInfo - Holds information about a live C++ temporary.
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struct CXXLiveTemporaryInfo {
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/// Temporary - The live temporary.
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const CXXTemporary *Temporary;
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/// ThisPtr - The pointer to the temporary.
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llvm::Value *ThisPtr;
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/// DtorBlock - The destructor block.
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llvm::BasicBlock *DtorBlock;
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/// CondPtr - If this is a conditional temporary, this is the pointer to
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/// the condition variable that states whether the destructor should be
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/// called or not.
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llvm::Value *CondPtr;
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CXXLiveTemporaryInfo(const CXXTemporary *temporary,
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llvm::Value *thisptr, llvm::BasicBlock *dtorblock,
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llvm::Value *condptr)
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: Temporary(temporary), ThisPtr(thisptr), DtorBlock(dtorblock),
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CondPtr(condptr) { }
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};
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llvm::SmallVector<CXXLiveTemporaryInfo, 4> LiveTemporaries;
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/// ConditionalTempDestructionStack - Contains the number of live temporaries
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/// when PushConditionalTempDestruction was called. This is used so that
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/// we know how many temporaries were created by a certain expression.
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llvm::SmallVector<size_t, 4> ConditionalTempDestructionStack;
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/// ByrefValueInfoMap - For each __block variable, contains a pair of the LLVM
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/// type as well as the field number that contains the actual data.
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llvm::DenseMap<const ValueDecl *, std::pair<const llvm::Type *,
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unsigned> > ByRefValueInfo;
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/// getByrefValueFieldNumber - Given a declaration, returns the LLVM field
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/// number that holds the value.
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unsigned getByRefValueLLVMField(const ValueDecl *VD) const;
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public:
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CodeGenFunction(CodeGenModule &cgm);
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ASTContext &getContext() const;
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CGDebugInfo *getDebugInfo() { return DebugInfo; }
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llvm::BasicBlock *getInvokeDest() { return InvokeDest; }
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void setInvokeDest(llvm::BasicBlock *B) { InvokeDest = B; }
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llvm::LLVMContext &getLLVMContext() { return VMContext; }
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//===--------------------------------------------------------------------===//
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// Objective-C
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//===--------------------------------------------------------------------===//
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void GenerateObjCMethod(const ObjCMethodDecl *OMD);
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void StartObjCMethod(const ObjCMethodDecl *MD,
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const ObjCContainerDecl *CD);
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/// GenerateObjCGetter - Synthesize an Objective-C property getter function.
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void GenerateObjCGetter(ObjCImplementationDecl *IMP,
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const ObjCPropertyImplDecl *PID);
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/// GenerateObjCSetter - Synthesize an Objective-C property setter function
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/// for the given property.
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void GenerateObjCSetter(ObjCImplementationDecl *IMP,
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const ObjCPropertyImplDecl *PID);
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//===--------------------------------------------------------------------===//
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// Block Bits
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//===--------------------------------------------------------------------===//
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llvm::Value *BuildBlockLiteralTmp(const BlockExpr *);
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llvm::Constant *BuildDescriptorBlockDecl(bool BlockHasCopyDispose,
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uint64_t Size,
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const llvm::StructType *,
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std::vector<HelperInfo> *);
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llvm::Function *GenerateBlockFunction(const BlockExpr *BExpr,
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const BlockInfo& Info,
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const Decl *OuterFuncDecl,
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llvm::DenseMap<const Decl*, llvm::Value*> ldm,
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uint64_t &Size, uint64_t &Align,
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llvm::SmallVector<const Expr *, 8> &subBlockDeclRefDecls,
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bool &subBlockHasCopyDispose);
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void BlockForwardSelf();
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llvm::Value *LoadBlockStruct();
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uint64_t AllocateBlockDecl(const BlockDeclRefExpr *E);
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llvm::Value *GetAddrOfBlockDecl(const BlockDeclRefExpr *E);
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const llvm::Type *BuildByRefType(const ValueDecl *D);
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void GenerateCode(GlobalDecl GD, llvm::Function *Fn);
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void StartFunction(GlobalDecl GD, QualType RetTy,
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llvm::Function *Fn,
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const FunctionArgList &Args,
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SourceLocation StartLoc);
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/// EmitReturnBlock - Emit the unified return block, trying to avoid its
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/// emission when possible.
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void EmitReturnBlock();
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/// FinishFunction - Complete IR generation of the current function. It is
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/// legal to call this function even if there is no current insertion point.
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void FinishFunction(SourceLocation EndLoc=SourceLocation());
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/// DynamicTypeAdjust - Do the non-virtual and virtual adjustments on an
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/// object pointer to alter the dynamic type of the pointer. Used by
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/// GenerateCovariantThunk for building thunks.
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llvm::Value *DynamicTypeAdjust(llvm::Value *V, int64_t nv, int64_t v);
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/// GenerateThunk - Generate a thunk for the given method
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llvm::Constant *GenerateThunk(llvm::Function *Fn, const CXXMethodDecl *MD,
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bool Extern, int64_t nv, int64_t v);
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llvm::Constant *GenerateCovariantThunk(llvm::Function *Fn,
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const CXXMethodDecl *MD, bool Extern,
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int64_t nv_t, int64_t v_t,
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int64_t nv_r, int64_t v_r);
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void EmitCtorPrologue(const CXXConstructorDecl *CD, CXXCtorType Type);
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void SynthesizeCXXCopyConstructor(const CXXConstructorDecl *Ctor,
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CXXCtorType Type,
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llvm::Function *Fn,
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const FunctionArgList &Args);
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void SynthesizeCXXCopyAssignment(const CXXMethodDecl *CD,
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llvm::Function *Fn,
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const FunctionArgList &Args);
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void SynthesizeDefaultConstructor(const CXXConstructorDecl *Ctor,
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CXXCtorType Type,
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llvm::Function *Fn,
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const FunctionArgList &Args);
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void SynthesizeDefaultDestructor(const CXXDestructorDecl *Dtor,
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CXXDtorType Type,
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llvm::Function *Fn,
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const FunctionArgList &Args);
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/// EmitDtorEpilogue - Emit all code that comes at the end of class's
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/// destructor. This is to call destructors on members and base classes
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/// in reverse order of their construction.
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void EmitDtorEpilogue(const CXXDestructorDecl *Dtor,
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CXXDtorType Type);
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/// EmitFunctionProlog - Emit the target specific LLVM code to load the
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/// arguments for the given function. This is also responsible for naming the
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/// LLVM function arguments.
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void EmitFunctionProlog(const CGFunctionInfo &FI,
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llvm::Function *Fn,
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const FunctionArgList &Args);
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/// EmitFunctionEpilog - Emit the target specific LLVM code to return the
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/// given temporary.
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void EmitFunctionEpilog(const CGFunctionInfo &FI, llvm::Value *ReturnValue);
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const llvm::Type *ConvertTypeForMem(QualType T);
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const llvm::Type *ConvertType(QualType T);
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/// LoadObjCSelf - Load the value of self. This function is only valid while
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/// generating code for an Objective-C method.
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llvm::Value *LoadObjCSelf();
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/// TypeOfSelfObject - Return type of object that this self represents.
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QualType TypeOfSelfObject();
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/// hasAggregateLLVMType - Return true if the specified AST type will map into
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/// an aggregate LLVM type or is void.
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static bool hasAggregateLLVMType(QualType T);
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/// createBasicBlock - Create an LLVM basic block.
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llvm::BasicBlock *createBasicBlock(const char *Name="",
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llvm::Function *Parent=0,
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llvm::BasicBlock *InsertBefore=0) {
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#ifdef NDEBUG
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return llvm::BasicBlock::Create(VMContext, "", Parent, InsertBefore);
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#else
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return llvm::BasicBlock::Create(VMContext, Name, Parent, InsertBefore);
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#endif
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}
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/// getBasicBlockForLabel - Return the LLVM basicblock that the specified
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/// label maps to.
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llvm::BasicBlock *getBasicBlockForLabel(const LabelStmt *S);
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/// SimplifyForwardingBlocks - If the given basic block is only a
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/// branch to another basic block, simplify it. This assumes that no
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/// other code could potentially reference the basic block.
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void SimplifyForwardingBlocks(llvm::BasicBlock *BB);
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/// EmitBlock - Emit the given block \arg BB and set it as the insert point,
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/// adding a fall-through branch from the current insert block if
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/// necessary. It is legal to call this function even if there is no current
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/// insertion point.
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///
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/// IsFinished - If true, indicates that the caller has finished emitting
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/// branches to the given block and does not expect to emit code into it. This
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/// means the block can be ignored if it is unreachable.
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void EmitBlock(llvm::BasicBlock *BB, bool IsFinished=false);
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/// EmitBranch - Emit a branch to the specified basic block from the current
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/// insert block, taking care to avoid creation of branches from dummy
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/// blocks. It is legal to call this function even if there is no current
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/// insertion point.
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///
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/// This function clears the current insertion point. The caller should follow
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/// calls to this function with calls to Emit*Block prior to generation new
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/// code.
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void EmitBranch(llvm::BasicBlock *Block);
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/// HaveInsertPoint - True if an insertion point is defined. If not, this
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/// indicates that the current code being emitted is unreachable.
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bool HaveInsertPoint() const {
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return Builder.GetInsertBlock() != 0;
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}
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/// EnsureInsertPoint - Ensure that an insertion point is defined so that
|
|
/// emitted IR has a place to go. Note that by definition, if this function
|
|
/// creates a block then that block is unreachable; callers may do better to
|
|
/// detect when no insertion point is defined and simply skip IR generation.
|
|
void EnsureInsertPoint() {
|
|
if (!HaveInsertPoint())
|
|
EmitBlock(createBasicBlock());
|
|
}
|
|
|
|
/// ErrorUnsupported - Print out an error that codegen doesn't support the
|
|
/// specified stmt yet.
|
|
void ErrorUnsupported(const Stmt *S, const char *Type,
|
|
bool OmitOnError=false);
|
|
|
|
//===--------------------------------------------------------------------===//
|
|
// Helpers
|
|
//===--------------------------------------------------------------------===//
|
|
|
|
Qualifiers MakeQualifiers(QualType T) {
|
|
Qualifiers Quals = getContext().getCanonicalType(T).getQualifiers();
|
|
Quals.setObjCGCAttr(getContext().getObjCGCAttrKind(T));
|
|
return Quals;
|
|
}
|
|
|
|
/// CreateTempAlloca - This creates a alloca and inserts it into the entry
|
|
/// block.
|
|
llvm::AllocaInst *CreateTempAlloca(const llvm::Type *Ty,
|
|
const llvm::Twine &Name = "tmp");
|
|
|
|
/// EvaluateExprAsBool - Perform the usual unary conversions on the specified
|
|
/// expression and compare the result against zero, returning an Int1Ty value.
|
|
llvm::Value *EvaluateExprAsBool(const Expr *E);
|
|
|
|
/// EmitAnyExpr - Emit code to compute the specified expression which can have
|
|
/// any type. The result is returned as an RValue struct. If this is an
|
|
/// aggregate expression, the aggloc/agglocvolatile arguments indicate where
|
|
/// the result should be returned.
|
|
///
|
|
/// \param IgnoreResult - True if the resulting value isn't used.
|
|
RValue EmitAnyExpr(const Expr *E, llvm::Value *AggLoc = 0,
|
|
bool IsAggLocVolatile = false, bool IgnoreResult = false,
|
|
bool IsInitializer = false);
|
|
|
|
// EmitVAListRef - Emit a "reference" to a va_list; this is either the address
|
|
// or the value of the expression, depending on how va_list is defined.
|
|
llvm::Value *EmitVAListRef(const Expr *E);
|
|
|
|
/// EmitAnyExprToTemp - Similary to EmitAnyExpr(), however, the result will
|
|
/// always be accessible even if no aggregate location is provided.
|
|
RValue EmitAnyExprToTemp(const Expr *E, bool IsAggLocVolatile = false,
|
|
bool IsInitializer = false);
|
|
|
|
/// EmitAggregateCopy - Emit an aggrate copy.
|
|
///
|
|
/// \param isVolatile - True iff either the source or the destination is
|
|
/// volatile.
|
|
void EmitAggregateCopy(llvm::Value *DestPtr, llvm::Value *SrcPtr,
|
|
QualType EltTy, bool isVolatile=false);
|
|
|
|
void EmitAggregateClear(llvm::Value *DestPtr, QualType Ty);
|
|
|
|
/// StartBlock - Start new block named N. If insert block is a dummy block
|
|
/// then reuse it.
|
|
void StartBlock(const char *N);
|
|
|
|
/// GetAddrOfStaticLocalVar - Return the address of a static local variable.
|
|
llvm::Constant *GetAddrOfStaticLocalVar(const VarDecl *BVD);
|
|
|
|
/// GetAddrOfLocalVar - Return the address of a local variable.
|
|
llvm::Value *GetAddrOfLocalVar(const VarDecl *VD);
|
|
|
|
/// getAccessedFieldNo - Given an encoded value and a result number, return
|
|
/// the input field number being accessed.
|
|
static unsigned getAccessedFieldNo(unsigned Idx, const llvm::Constant *Elts);
|
|
|
|
llvm::BlockAddress *GetAddrOfLabel(const LabelStmt *L);
|
|
llvm::BasicBlock *GetIndirectGotoBlock();
|
|
|
|
/// EmitMemSetToZero - Generate code to memset a value of the given type to 0.
|
|
void EmitMemSetToZero(llvm::Value *DestPtr, QualType Ty);
|
|
|
|
// EmitVAArg - Generate code to get an argument from the passed in pointer
|
|
// and update it accordingly. The return value is a pointer to the argument.
|
|
// FIXME: We should be able to get rid of this method and use the va_arg
|
|
// instruction in LLVM instead once it works well enough.
|
|
llvm::Value *EmitVAArg(llvm::Value *VAListAddr, QualType Ty);
|
|
|
|
// EmitVLASize - Generate code for any VLA size expressions that might occur
|
|
// in a variably modified type. If Ty is a VLA, will return the value that
|
|
// corresponds to the size in bytes of the VLA type. Will return 0 otherwise.
|
|
///
|
|
/// This function can be called with a null (unreachable) insert point.
|
|
llvm::Value *EmitVLASize(QualType Ty);
|
|
|
|
// GetVLASize - Returns an LLVM value that corresponds to the size in bytes
|
|
// of a variable length array type.
|
|
llvm::Value *GetVLASize(const VariableArrayType *);
|
|
|
|
/// LoadCXXThis - Load the value of 'this'. This function is only valid while
|
|
/// generating code for an C++ member function.
|
|
llvm::Value *LoadCXXThis();
|
|
|
|
/// GetAddressCXXOfBaseClass - This function will add the necessary delta
|
|
/// to the load of 'this' and returns address of the base class.
|
|
// FIXME. This currently only does a derived to non-virtual base conversion.
|
|
// Other kinds of conversions will come later.
|
|
llvm::Value *GetAddressCXXOfBaseClass(llvm::Value *BaseValue,
|
|
const CXXRecordDecl *ClassDecl,
|
|
const CXXRecordDecl *BaseClassDecl,
|
|
bool NullCheckValue);
|
|
|
|
llvm::Value *
|
|
GetVirtualCXXBaseClassOffset(llvm::Value *This,
|
|
const CXXRecordDecl *ClassDecl,
|
|
const CXXRecordDecl *BaseClassDecl);
|
|
|
|
void EmitClassAggrMemberwiseCopy(llvm::Value *DestValue,
|
|
llvm::Value *SrcValue,
|
|
const ArrayType *Array,
|
|
const CXXRecordDecl *BaseClassDecl,
|
|
QualType Ty);
|
|
|
|
void EmitClassAggrCopyAssignment(llvm::Value *DestValue,
|
|
llvm::Value *SrcValue,
|
|
const ArrayType *Array,
|
|
const CXXRecordDecl *BaseClassDecl,
|
|
QualType Ty);
|
|
|
|
void EmitClassMemberwiseCopy(llvm::Value *DestValue, llvm::Value *SrcValue,
|
|
const CXXRecordDecl *ClassDecl,
|
|
const CXXRecordDecl *BaseClassDecl,
|
|
QualType Ty);
|
|
|
|
void EmitClassCopyAssignment(llvm::Value *DestValue, llvm::Value *SrcValue,
|
|
const CXXRecordDecl *ClassDecl,
|
|
const CXXRecordDecl *BaseClassDecl,
|
|
QualType Ty);
|
|
|
|
void EmitCXXConstructorCall(const CXXConstructorDecl *D, CXXCtorType Type,
|
|
llvm::Value *This,
|
|
CallExpr::const_arg_iterator ArgBeg,
|
|
CallExpr::const_arg_iterator ArgEnd);
|
|
|
|
void EmitCXXAggrConstructorCall(const CXXConstructorDecl *D,
|
|
const ConstantArrayType *ArrayTy,
|
|
llvm::Value *ArrayPtr);
|
|
void EmitCXXAggrConstructorCall(const CXXConstructorDecl *D,
|
|
llvm::Value *NumElements,
|
|
llvm::Value *ArrayPtr);
|
|
|
|
void EmitCXXAggrDestructorCall(const CXXDestructorDecl *D,
|
|
const ArrayType *Array,
|
|
llvm::Value *This);
|
|
|
|
llvm::Constant * GenerateCXXAggrDestructorHelper(const CXXDestructorDecl *D,
|
|
const ArrayType *Array,
|
|
llvm::Value *This);
|
|
|
|
void EmitCXXDestructorCall(const CXXDestructorDecl *D, CXXDtorType Type,
|
|
llvm::Value *This);
|
|
|
|
void PushCXXTemporary(const CXXTemporary *Temporary, llvm::Value *Ptr);
|
|
void PopCXXTemporary();
|
|
|
|
llvm::Value *EmitCXXNewExpr(const CXXNewExpr *E);
|
|
void EmitCXXDeleteExpr(const CXXDeleteExpr *E);
|
|
|
|
//===--------------------------------------------------------------------===//
|
|
// Declaration Emission
|
|
//===--------------------------------------------------------------------===//
|
|
|
|
/// EmitDecl - Emit a declaration.
|
|
///
|
|
/// This function can be called with a null (unreachable) insert point.
|
|
void EmitDecl(const Decl &D);
|
|
|
|
/// EmitBlockVarDecl - Emit a block variable declaration.
|
|
///
|
|
/// This function can be called with a null (unreachable) insert point.
|
|
void EmitBlockVarDecl(const VarDecl &D);
|
|
|
|
/// EmitLocalBlockVarDecl - Emit a local block variable declaration.
|
|
///
|
|
/// This function can be called with a null (unreachable) insert point.
|
|
void EmitLocalBlockVarDecl(const VarDecl &D);
|
|
|
|
void EmitStaticBlockVarDecl(const VarDecl &D);
|
|
|
|
/// EmitParmDecl - Emit a ParmVarDecl or an ImplicitParamDecl.
|
|
void EmitParmDecl(const VarDecl &D, llvm::Value *Arg);
|
|
|
|
//===--------------------------------------------------------------------===//
|
|
// Statement Emission
|
|
//===--------------------------------------------------------------------===//
|
|
|
|
/// EmitStopPoint - Emit a debug stoppoint if we are emitting debug info.
|
|
void EmitStopPoint(const Stmt *S);
|
|
|
|
/// EmitStmt - Emit the code for the statement \arg S. It is legal to call
|
|
/// this function even if there is no current insertion point.
|
|
///
|
|
/// This function may clear the current insertion point; callers should use
|
|
/// EnsureInsertPoint if they wish to subsequently generate code without first
|
|
/// calling EmitBlock, EmitBranch, or EmitStmt.
|
|
void EmitStmt(const Stmt *S);
|
|
|
|
/// EmitSimpleStmt - Try to emit a "simple" statement which does not
|
|
/// necessarily require an insertion point or debug information; typically
|
|
/// because the statement amounts to a jump or a container of other
|
|
/// statements.
|
|
///
|
|
/// \return True if the statement was handled.
|
|
bool EmitSimpleStmt(const Stmt *S);
|
|
|
|
RValue EmitCompoundStmt(const CompoundStmt &S, bool GetLast = false,
|
|
llvm::Value *AggLoc = 0, bool isAggVol = false);
|
|
|
|
/// EmitLabel - Emit the block for the given label. It is legal to call this
|
|
/// function even if there is no current insertion point.
|
|
void EmitLabel(const LabelStmt &S); // helper for EmitLabelStmt.
|
|
|
|
void EmitLabelStmt(const LabelStmt &S);
|
|
void EmitGotoStmt(const GotoStmt &S);
|
|
void EmitIndirectGotoStmt(const IndirectGotoStmt &S);
|
|
void EmitIfStmt(const IfStmt &S);
|
|
void EmitWhileStmt(const WhileStmt &S);
|
|
void EmitDoStmt(const DoStmt &S);
|
|
void EmitForStmt(const ForStmt &S);
|
|
void EmitReturnStmt(const ReturnStmt &S);
|
|
void EmitDeclStmt(const DeclStmt &S);
|
|
void EmitBreakStmt(const BreakStmt &S);
|
|
void EmitContinueStmt(const ContinueStmt &S);
|
|
void EmitSwitchStmt(const SwitchStmt &S);
|
|
void EmitDefaultStmt(const DefaultStmt &S);
|
|
void EmitCaseStmt(const CaseStmt &S);
|
|
void EmitCaseStmtRange(const CaseStmt &S);
|
|
void EmitAsmStmt(const AsmStmt &S);
|
|
|
|
void EmitObjCForCollectionStmt(const ObjCForCollectionStmt &S);
|
|
void EmitObjCAtTryStmt(const ObjCAtTryStmt &S);
|
|
void EmitObjCAtThrowStmt(const ObjCAtThrowStmt &S);
|
|
void EmitObjCAtSynchronizedStmt(const ObjCAtSynchronizedStmt &S);
|
|
|
|
void EmitCXXTryStmt(const CXXTryStmt &S);
|
|
|
|
//===--------------------------------------------------------------------===//
|
|
// LValue Expression Emission
|
|
//===--------------------------------------------------------------------===//
|
|
|
|
/// GetUndefRValue - Get an appropriate 'undef' rvalue for the given type.
|
|
RValue GetUndefRValue(QualType Ty);
|
|
|
|
/// EmitUnsupportedRValue - Emit a dummy r-value using the type of E
|
|
/// and issue an ErrorUnsupported style diagnostic (using the
|
|
/// provided Name).
|
|
RValue EmitUnsupportedRValue(const Expr *E,
|
|
const char *Name);
|
|
|
|
/// EmitUnsupportedLValue - Emit a dummy l-value using the type of E and issue
|
|
/// an ErrorUnsupported style diagnostic (using the provided Name).
|
|
LValue EmitUnsupportedLValue(const Expr *E,
|
|
const char *Name);
|
|
|
|
/// EmitLValue - Emit code to compute a designator that specifies the location
|
|
/// of the expression.
|
|
///
|
|
/// This can return one of two things: a simple address or a bitfield
|
|
/// reference. In either case, the LLVM Value* in the LValue structure is
|
|
/// guaranteed to be an LLVM pointer type.
|
|
///
|
|
/// If this returns a bitfield reference, nothing about the pointee type of
|
|
/// the LLVM value is known: For example, it may not be a pointer to an
|
|
/// integer.
|
|
///
|
|
/// If this returns a normal address, and if the lvalue's C type is fixed
|
|
/// size, this method guarantees that the returned pointer type will point to
|
|
/// an LLVM type of the same size of the lvalue's type. If the lvalue has a
|
|
/// variable length type, this is not possible.
|
|
///
|
|
LValue EmitLValue(const Expr *E);
|
|
|
|
/// EmitLoadOfScalar - Load a scalar value from an address, taking
|
|
/// care to appropriately convert from the memory representation to
|
|
/// the LLVM value representation.
|
|
llvm::Value *EmitLoadOfScalar(llvm::Value *Addr, bool Volatile,
|
|
QualType Ty);
|
|
|
|
/// EmitStoreOfScalar - Store a scalar value to an address, taking
|
|
/// care to appropriately convert from the memory representation to
|
|
/// the LLVM value representation.
|
|
void EmitStoreOfScalar(llvm::Value *Value, llvm::Value *Addr,
|
|
bool Volatile, QualType Ty);
|
|
|
|
/// EmitLoadOfLValue - Given an expression that represents a value lvalue,
|
|
/// this method emits the address of the lvalue, then loads the result as an
|
|
/// rvalue, returning the rvalue.
|
|
RValue EmitLoadOfLValue(LValue V, QualType LVType);
|
|
RValue EmitLoadOfExtVectorElementLValue(LValue V, QualType LVType);
|
|
RValue EmitLoadOfBitfieldLValue(LValue LV, QualType ExprType);
|
|
RValue EmitLoadOfPropertyRefLValue(LValue LV, QualType ExprType);
|
|
RValue EmitLoadOfKVCRefLValue(LValue LV, QualType ExprType);
|
|
|
|
|
|
/// EmitStoreThroughLValue - Store the specified rvalue into the specified
|
|
/// lvalue, where both are guaranteed to the have the same type, and that type
|
|
/// is 'Ty'.
|
|
void EmitStoreThroughLValue(RValue Src, LValue Dst, QualType Ty);
|
|
void EmitStoreThroughExtVectorComponentLValue(RValue Src, LValue Dst,
|
|
QualType Ty);
|
|
void EmitStoreThroughPropertyRefLValue(RValue Src, LValue Dst, QualType Ty);
|
|
void EmitStoreThroughKVCRefLValue(RValue Src, LValue Dst, QualType Ty);
|
|
|
|
/// EmitStoreThroughLValue - Store Src into Dst with same constraints as
|
|
/// EmitStoreThroughLValue.
|
|
///
|
|
/// \param Result [out] - If non-null, this will be set to a Value* for the
|
|
/// bit-field contents after the store, appropriate for use as the result of
|
|
/// an assignment to the bit-field.
|
|
void EmitStoreThroughBitfieldLValue(RValue Src, LValue Dst, QualType Ty,
|
|
llvm::Value **Result=0);
|
|
|
|
// Note: only availabe for agg return types
|
|
LValue EmitBinaryOperatorLValue(const BinaryOperator *E);
|
|
// Note: only available for agg return types
|
|
LValue EmitCallExprLValue(const CallExpr *E);
|
|
// Note: only available for agg return types
|
|
LValue EmitVAArgExprLValue(const VAArgExpr *E);
|
|
LValue EmitDeclRefLValue(const DeclRefExpr *E);
|
|
LValue EmitStringLiteralLValue(const StringLiteral *E);
|
|
LValue EmitObjCEncodeExprLValue(const ObjCEncodeExpr *E);
|
|
LValue EmitPredefinedFunctionName(unsigned Type);
|
|
LValue EmitPredefinedLValue(const PredefinedExpr *E);
|
|
LValue EmitUnaryOpLValue(const UnaryOperator *E);
|
|
LValue EmitArraySubscriptExpr(const ArraySubscriptExpr *E);
|
|
LValue EmitExtVectorElementExpr(const ExtVectorElementExpr *E);
|
|
LValue EmitMemberExpr(const MemberExpr *E);
|
|
LValue EmitCompoundLiteralLValue(const CompoundLiteralExpr *E);
|
|
LValue EmitConditionalOperatorLValue(const ConditionalOperator *E);
|
|
LValue EmitCastLValue(const CastExpr *E);
|
|
LValue EmitNullInitializationLValue(const CXXZeroInitValueExpr *E);
|
|
|
|
LValue EmitPointerToDataMemberLValue(const FieldDecl *Field);
|
|
|
|
llvm::Value *EmitIvarOffset(const ObjCInterfaceDecl *Interface,
|
|
const ObjCIvarDecl *Ivar);
|
|
LValue EmitLValueForField(llvm::Value* Base, FieldDecl* Field,
|
|
bool isUnion, unsigned CVRQualifiers);
|
|
LValue EmitLValueForIvar(QualType ObjectTy,
|
|
llvm::Value* Base, const ObjCIvarDecl *Ivar,
|
|
unsigned CVRQualifiers);
|
|
|
|
LValue EmitLValueForBitfield(llvm::Value* Base, FieldDecl* Field,
|
|
unsigned CVRQualifiers);
|
|
|
|
LValue EmitBlockDeclRefLValue(const BlockDeclRefExpr *E);
|
|
|
|
LValue EmitCXXConditionDeclLValue(const CXXConditionDeclExpr *E);
|
|
LValue EmitCXXConstructLValue(const CXXConstructExpr *E);
|
|
LValue EmitCXXBindTemporaryLValue(const CXXBindTemporaryExpr *E);
|
|
LValue EmitCXXExprWithTemporariesLValue(const CXXExprWithTemporaries *E);
|
|
|
|
LValue EmitObjCMessageExprLValue(const ObjCMessageExpr *E);
|
|
LValue EmitObjCIvarRefLValue(const ObjCIvarRefExpr *E);
|
|
LValue EmitObjCPropertyRefLValue(const ObjCPropertyRefExpr *E);
|
|
LValue EmitObjCKVCRefLValue(const ObjCImplicitSetterGetterRefExpr *E);
|
|
LValue EmitObjCSuperExprLValue(const ObjCSuperExpr *E);
|
|
LValue EmitStmtExprLValue(const StmtExpr *E);
|
|
LValue EmitPointerToDataMemberBinaryExpr(const BinaryOperator *E);
|
|
|
|
//===--------------------------------------------------------------------===//
|
|
// Scalar Expression Emission
|
|
//===--------------------------------------------------------------------===//
|
|
|
|
/// EmitCall - Generate a call of the given function, expecting the given
|
|
/// result type, and using the given argument list which specifies both the
|
|
/// LLVM arguments and the types they were derived from.
|
|
///
|
|
/// \param TargetDecl - If given, the decl of the function in a
|
|
/// direct call; used to set attributes on the call (noreturn,
|
|
/// etc.).
|
|
RValue EmitCall(const CGFunctionInfo &FnInfo,
|
|
llvm::Value *Callee,
|
|
const CallArgList &Args,
|
|
const Decl *TargetDecl = 0);
|
|
|
|
RValue EmitCall(llvm::Value *Callee, QualType FnType,
|
|
CallExpr::const_arg_iterator ArgBeg,
|
|
CallExpr::const_arg_iterator ArgEnd,
|
|
const Decl *TargetDecl = 0);
|
|
RValue EmitCallExpr(const CallExpr *E);
|
|
|
|
llvm::Value *BuildVirtualCall(const CXXMethodDecl *MD, llvm::Value *This,
|
|
const llvm::Type *Ty);
|
|
llvm::Value *BuildVirtualCall(const CXXDestructorDecl *DD, CXXDtorType Type,
|
|
llvm::Value *&This, const llvm::Type *Ty);
|
|
|
|
RValue EmitCXXMemberCall(const CXXMethodDecl *MD,
|
|
llvm::Value *Callee,
|
|
llvm::Value *This,
|
|
CallExpr::const_arg_iterator ArgBeg,
|
|
CallExpr::const_arg_iterator ArgEnd);
|
|
RValue EmitCXXMemberCallExpr(const CXXMemberCallExpr *E);
|
|
RValue EmitCXXMemberPointerCallExpr(const CXXMemberCallExpr *E);
|
|
|
|
RValue EmitCXXOperatorMemberCallExpr(const CXXOperatorCallExpr *E,
|
|
const CXXMethodDecl *MD);
|
|
|
|
|
|
RValue EmitBuiltinExpr(const FunctionDecl *FD,
|
|
unsigned BuiltinID, const CallExpr *E);
|
|
|
|
RValue EmitBlockCallExpr(const CallExpr *E);
|
|
|
|
/// EmitTargetBuiltinExpr - Emit the given builtin call. Returns 0 if the call
|
|
/// is unhandled by the current target.
|
|
llvm::Value *EmitTargetBuiltinExpr(unsigned BuiltinID, const CallExpr *E);
|
|
|
|
llvm::Value *EmitX86BuiltinExpr(unsigned BuiltinID, const CallExpr *E);
|
|
llvm::Value *EmitPPCBuiltinExpr(unsigned BuiltinID, const CallExpr *E);
|
|
|
|
llvm::Value *EmitShuffleVector(llvm::Value* V1, llvm::Value *V2, ...);
|
|
llvm::Value *EmitVector(llvm::Value * const *Vals, unsigned NumVals,
|
|
bool isSplat = false);
|
|
|
|
llvm::Value *EmitObjCProtocolExpr(const ObjCProtocolExpr *E);
|
|
llvm::Value *EmitObjCStringLiteral(const ObjCStringLiteral *E);
|
|
llvm::Value *EmitObjCSelectorExpr(const ObjCSelectorExpr *E);
|
|
RValue EmitObjCMessageExpr(const ObjCMessageExpr *E);
|
|
RValue EmitObjCPropertyGet(const Expr *E);
|
|
RValue EmitObjCSuperPropertyGet(const Expr *Exp, const Selector &S);
|
|
void EmitObjCPropertySet(const Expr *E, RValue Src);
|
|
void EmitObjCSuperPropertySet(const Expr *E, const Selector &S, RValue Src);
|
|
|
|
|
|
/// EmitReferenceBindingToExpr - Emits a reference binding to the passed in
|
|
/// expression. Will emit a temporary variable if E is not an LValue.
|
|
RValue EmitReferenceBindingToExpr(const Expr* E, QualType DestType,
|
|
bool IsInitializer = false);
|
|
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//===--------------------------------------------------------------------===//
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// Expression Emission
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//===--------------------------------------------------------------------===//
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// Expressions are broken into three classes: scalar, complex, aggregate.
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/// EmitScalarExpr - Emit the computation of the specified expression of LLVM
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/// scalar type, returning the result.
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llvm::Value *EmitScalarExpr(const Expr *E , bool IgnoreResultAssign = false);
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/// EmitScalarConversion - Emit a conversion from the specified type to the
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/// specified destination type, both of which are LLVM scalar types.
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llvm::Value *EmitScalarConversion(llvm::Value *Src, QualType SrcTy,
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QualType DstTy);
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/// EmitComplexToScalarConversion - Emit a conversion from the specified
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/// complex type to the specified destination type, where the destination type
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/// is an LLVM scalar type.
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llvm::Value *EmitComplexToScalarConversion(ComplexPairTy Src, QualType SrcTy,
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QualType DstTy);
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/// EmitAggExpr - Emit the computation of the specified expression of
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/// aggregate type. The result is computed into DestPtr. Note that if
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/// DestPtr is null, the value of the aggregate expression is not needed.
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void EmitAggExpr(const Expr *E, llvm::Value *DestPtr, bool VolatileDest,
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bool IgnoreResult = false, bool IsInitializer = false,
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bool RequiresGCollection = false);
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/// EmitGCMemmoveCollectable - Emit special API for structs with object
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/// pointers.
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void EmitGCMemmoveCollectable(llvm::Value *DestPtr, llvm::Value *SrcPtr,
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QualType Ty);
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/// EmitComplexExpr - Emit the computation of the specified expression of
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/// complex type, returning the result.
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ComplexPairTy EmitComplexExpr(const Expr *E, bool IgnoreReal = false,
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bool IgnoreImag = false,
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bool IgnoreRealAssign = false,
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bool IgnoreImagAssign = false);
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/// EmitComplexExprIntoAddr - Emit the computation of the specified expression
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/// of complex type, storing into the specified Value*.
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void EmitComplexExprIntoAddr(const Expr *E, llvm::Value *DestAddr,
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bool DestIsVolatile);
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/// StoreComplexToAddr - Store a complex number into the specified address.
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void StoreComplexToAddr(ComplexPairTy V, llvm::Value *DestAddr,
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bool DestIsVolatile);
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/// LoadComplexFromAddr - Load a complex number from the specified address.
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ComplexPairTy LoadComplexFromAddr(llvm::Value *SrcAddr, bool SrcIsVolatile);
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/// CreateStaticBlockVarDecl - Create a zero-initialized LLVM global
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/// for a static block var decl.
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llvm::GlobalVariable * CreateStaticBlockVarDecl(const VarDecl &D,
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const char *Separator,
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llvm::GlobalValue::LinkageTypes
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Linkage);
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/// EmitStaticCXXBlockVarDeclInit - Create the initializer for a C++
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/// runtime initialized static block var decl.
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void EmitStaticCXXBlockVarDeclInit(const VarDecl &D,
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llvm::GlobalVariable *GV);
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/// EmitCXXGlobalVarDeclInit - Create the initializer for a C++
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/// variable with global storage.
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void EmitCXXGlobalVarDeclInit(const VarDecl &D, llvm::Constant *DeclPtr);
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/// EmitCXXGlobalDtorRegistration - Emits a call to register the global ptr
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/// with the C++ runtime so that its destructor will be called at exit.
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void EmitCXXGlobalDtorRegistration(llvm::Constant *DtorFn,
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llvm::Constant *DeclPtr);
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/// GenerateCXXGlobalInitFunc - Generates code for initializing global
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/// variables.
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void GenerateCXXGlobalInitFunc(llvm::Function *Fn,
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const VarDecl **Decls,
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unsigned NumDecls);
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void EmitCXXConstructExpr(llvm::Value *Dest, const CXXConstructExpr *E);
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RValue EmitCXXExprWithTemporaries(const CXXExprWithTemporaries *E,
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llvm::Value *AggLoc = 0,
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bool IsAggLocVolatile = false,
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bool IsInitializer = false);
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void EmitCXXThrowExpr(const CXXThrowExpr *E);
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//===--------------------------------------------------------------------===//
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// Internal Helpers
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//===--------------------------------------------------------------------===//
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/// ContainsLabel - Return true if the statement contains a label in it. If
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/// this statement is not executed normally, it not containing a label means
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/// that we can just remove the code.
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static bool ContainsLabel(const Stmt *S, bool IgnoreCaseStmts = false);
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/// ConstantFoldsToSimpleInteger - If the specified expression does not fold
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/// to a constant, or if it does but contains a label, return 0. If it
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/// constant folds to 'true' and does not contain a label, return 1, if it
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/// constant folds to 'false' and does not contain a label, return -1.
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int ConstantFoldsToSimpleInteger(const Expr *Cond);
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/// EmitBranchOnBoolExpr - Emit a branch on a boolean condition (e.g. for an
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/// if statement) to the specified blocks. Based on the condition, this might
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/// try to simplify the codegen of the conditional based on the branch.
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void EmitBranchOnBoolExpr(const Expr *Cond, llvm::BasicBlock *TrueBlock,
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llvm::BasicBlock *FalseBlock);
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private:
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void EmitReturnOfRValue(RValue RV, QualType Ty);
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/// ExpandTypeFromArgs - Reconstruct a structure of type \arg Ty
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/// from function arguments into \arg Dst. See ABIArgInfo::Expand.
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///
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/// \param AI - The first function argument of the expansion.
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/// \return The argument following the last expanded function
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/// argument.
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llvm::Function::arg_iterator
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ExpandTypeFromArgs(QualType Ty, LValue Dst,
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llvm::Function::arg_iterator AI);
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/// ExpandTypeToArgs - Expand an RValue \arg Src, with the LLVM type for \arg
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/// Ty, into individual arguments on the provided vector \arg Args. See
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/// ABIArgInfo::Expand.
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void ExpandTypeToArgs(QualType Ty, RValue Src,
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llvm::SmallVector<llvm::Value*, 16> &Args);
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llvm::Value* EmitAsmInput(const AsmStmt &S,
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const TargetInfo::ConstraintInfo &Info,
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const Expr *InputExpr, std::string &ConstraintStr);
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/// EmitCleanupBlock - emits a single cleanup block.
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void EmitCleanupBlock();
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/// AddBranchFixup - adds a branch instruction to the list of fixups for the
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/// current cleanup scope.
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void AddBranchFixup(llvm::BranchInst *BI);
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/// EmitCallArg - Emit a single call argument.
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RValue EmitCallArg(const Expr *E, QualType ArgType);
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/// EmitCallArgs - Emit call arguments for a function.
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/// The CallArgTypeInfo parameter is used for iterating over the known
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/// argument types of the function being called.
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template<typename T>
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void EmitCallArgs(CallArgList& Args, const T* CallArgTypeInfo,
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CallExpr::const_arg_iterator ArgBeg,
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CallExpr::const_arg_iterator ArgEnd) {
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CallExpr::const_arg_iterator Arg = ArgBeg;
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// First, use the argument types that the type info knows about
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if (CallArgTypeInfo) {
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for (typename T::arg_type_iterator I = CallArgTypeInfo->arg_type_begin(),
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E = CallArgTypeInfo->arg_type_end(); I != E; ++I, ++Arg) {
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QualType ArgType = *I;
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assert(getContext().getCanonicalType(ArgType.getNonReferenceType()).
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getTypePtr() ==
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getContext().getCanonicalType(Arg->getType()).getTypePtr() &&
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"type mismatch in call argument!");
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Args.push_back(std::make_pair(EmitCallArg(*Arg, ArgType),
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ArgType));
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}
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// Either we've emitted all the call args, or we have a call to a
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// variadic function.
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assert((Arg == ArgEnd || CallArgTypeInfo->isVariadic()) &&
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"Extra arguments in non-variadic function!");
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}
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// If we still have any arguments, emit them using the type of the argument.
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for (; Arg != ArgEnd; ++Arg) {
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QualType ArgType = Arg->getType();
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Args.push_back(std::make_pair(EmitCallArg(*Arg, ArgType),
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ArgType));
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}
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}
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};
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} // end namespace CodeGen
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} // end namespace clang
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#endif
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