lib/CodeGen/CGExprAgg.cpp

7a51313dSChris Lattner//===--- CGExprAgg.cpp - Emit LLVM Code from Aggregate Expressions --------===//
7a51313dSChris Lattner//
7a51313dSChris Lattner//                     The LLVM Compiler Infrastructure
7a51313dSChris Lattner//
7a51313dSChris Lattner// This file is distributed under the University of Illinois Open Source
7a51313dSChris Lattner// License. See LICENSE.TXT for details.
7a51313dSChris Lattner//
7a51313dSChris Lattner//===----------------------------------------------------------------------===//
7a51313dSChris Lattner//
7a51313dSChris Lattner// This contains code to emit Aggregate Expr nodes as LLVM code.
7a51313dSChris Lattner//
7a51313dSChris Lattner//===----------------------------------------------------------------------===//
7a51313dSChris Lattner
7a51313dSChris Lattner#include "CodeGenFunction.h"
7a51313dSChris Lattner#include "CodeGenModule.h"
ad319a73SDaniel Dunbar#include "clang/AST/ASTContext.h"
ad319a73SDaniel Dunbar#include "clang/AST/StmtVisitor.h"
7a51313dSChris Lattner#include "llvm/Constants.h"
7a51313dSChris Lattner#include "llvm/Function.h"
7a51313dSChris Lattner#include "llvm/GlobalVariable.h"
7a51313dSChris Lattner#include "llvm/Support/Compiler.h"
579a05d7SChris Lattner#include "llvm/Intrinsics.h"
7a51313dSChris Lattnerusing namespace clang;
7a51313dSChris Lattnerusing namespace CodeGen;
7a51313dSChris Lattner
7a51313dSChris Lattner//===----------------------------------------------------------------------===//
7a51313dSChris Lattner//                        Aggregate Expression Emitter
7a51313dSChris Lattner//===----------------------------------------------------------------------===//
7a51313dSChris Lattner
7a51313dSChris Lattnernamespace  {
7a51313dSChris Lattnerclass VISIBILITY_HIDDEN AggExprEmitter : public StmtVisitor<AggExprEmitter> {
7a51313dSChris Lattner  CodeGenFunction &CGF;
cb463859SDaniel Dunbar  CGBuilderTy &Builder;
7a51313dSChris Lattner  llvm::Value *DestPtr;
7a51313dSChris Lattner  bool VolatileDest;
7a51313dSChris Lattnerpublic:
7a51313dSChris Lattner  AggExprEmitter(CodeGenFunction &cgf, llvm::Value *destPtr, bool volatileDest)
7a51313dSChris Lattner    : CGF(cgf), Builder(CGF.Builder),
7a51313dSChris Lattner      DestPtr(destPtr), VolatileDest(volatileDest) {
7a51313dSChris Lattner  }
7a51313dSChris Lattner
7a51313dSChris Lattner  //===--------------------------------------------------------------------===//
7a51313dSChris Lattner  //                               Utilities
7a51313dSChris Lattner  //===--------------------------------------------------------------------===//
7a51313dSChris Lattner
7a51313dSChris Lattner  /// EmitAggLoadOfLValue - Given an expression with aggregate type that
7a51313dSChris Lattner  /// represents a value lvalue, this method emits the address of the lvalue,
7a51313dSChris Lattner  /// then loads the result into DestPtr.
7a51313dSChris Lattner  void EmitAggLoadOfLValue(const Expr *E);
7a51313dSChris Lattner
7a51313dSChris Lattner  //===--------------------------------------------------------------------===//
7a51313dSChris Lattner  //                            Visitor Methods
7a51313dSChris Lattner  //===--------------------------------------------------------------------===//
7a51313dSChris Lattner
7a51313dSChris Lattner  void VisitStmt(Stmt *S) {
a7c8cf62SDaniel Dunbar    CGF.ErrorUnsupported(S, "aggregate expression");
7a51313dSChris Lattner  }
7a51313dSChris Lattner  void VisitParenExpr(ParenExpr *PE) { Visit(PE->getSubExpr()); }
3f66b84cSEli Friedman  void VisitUnaryExtension(UnaryOperator *E) { Visit(E->getSubExpr()); }
7a51313dSChris Lattner
7a51313dSChris Lattner  // l-values.
7a51313dSChris Lattner  void VisitDeclRefExpr(DeclRefExpr *DRE) { EmitAggLoadOfLValue(DRE); }
7a51313dSChris Lattner  void VisitMemberExpr(MemberExpr *ME) { EmitAggLoadOfLValue(ME); }
7a51313dSChris Lattner  void VisitUnaryDeref(UnaryOperator *E) { EmitAggLoadOfLValue(E); }
7a51313dSChris Lattner  void VisitStringLiteral(StringLiteral *E) { EmitAggLoadOfLValue(E); }
21911e89SEli Friedman  void VisitCompoundLiteralExpr(CompoundLiteralExpr *E)
21911e89SEli Friedman      { EmitAggLoadOfLValue(E); }
7a51313dSChris Lattner
7a51313dSChris Lattner  void VisitArraySubscriptExpr(ArraySubscriptExpr *E) {
7a51313dSChris Lattner    EmitAggLoadOfLValue(E);
7a51313dSChris Lattner  }
7a51313dSChris Lattner
bc7d67ceSMike Stump  void VisitBlockDeclRefExpr(const BlockDeclRefExpr *E)
bc7d67ceSMike Stump      { EmitAggLoadOfLValue(E); }
bc7d67ceSMike Stump
7a51313dSChris Lattner  // Operators.
7a51313dSChris Lattner  //  case Expr::UnaryOperatorClass:
7a51313dSChris Lattner  //  case Expr::CastExprClass:
7ffcf93bSNuno Lopes  void VisitCStyleCastExpr(CStyleCastExpr *E);
7a51313dSChris Lattner  void VisitImplicitCastExpr(ImplicitCastExpr *E);
7a51313dSChris Lattner  void VisitCallExpr(const CallExpr *E);
7a51313dSChris Lattner  void VisitStmtExpr(const StmtExpr *E);
7a51313dSChris Lattner  void VisitBinaryOperator(const BinaryOperator *BO);
7a51313dSChris Lattner  void VisitBinAssign(const BinaryOperator *E);
4b0e2a30SEli Friedman  void VisitBinComma(const BinaryOperator *E);
7a51313dSChris Lattner
b1d329daSChris Lattner  void VisitObjCMessageExpr(ObjCMessageExpr *E);
c8317a44SDaniel Dunbar  void VisitObjCIvarRefExpr(ObjCIvarRefExpr *E) {
c8317a44SDaniel Dunbar    EmitAggLoadOfLValue(E);
c8317a44SDaniel Dunbar  }
55310df7SDaniel Dunbar  void VisitObjCPropertyRefExpr(ObjCPropertyRefExpr *E);
8a1810f0SFariborz Jahanian  void VisitObjCKVCRefExpr(ObjCKVCRefExpr *E);
7a51313dSChris Lattner
7a51313dSChris Lattner  void VisitConditionalOperator(const ConditionalOperator *CO);
7a51313dSChris Lattner  void VisitInitListExpr(InitListExpr *E);
aa9c7aedSChris Lattner  void VisitCXXDefaultArgExpr(CXXDefaultArgExpr *DAE) {
aa9c7aedSChris Lattner    Visit(DAE->getExpr());
aa9c7aedSChris Lattner  }
21911e89SEli Friedman  void VisitVAArgExpr(VAArgExpr *E);
579a05d7SChris Lattner
579a05d7SChris Lattner  void EmitInitializationToLValue(Expr *E, LValue Address);
579a05d7SChris Lattner  void EmitNullInitializationToLValue(LValue Address, QualType T);
7a51313dSChris Lattner  //  case Expr::ChooseExprClass:
7a51313dSChris Lattner
7a51313dSChris Lattner};
7a51313dSChris Lattner}  // end anonymous namespace.
7a51313dSChris Lattner
7a51313dSChris Lattner//===----------------------------------------------------------------------===//
7a51313dSChris Lattner//                                Utilities
7a51313dSChris Lattner//===----------------------------------------------------------------------===//
7a51313dSChris Lattner
7a51313dSChris Lattner/// EmitAggLoadOfLValue - Given an expression with aggregate type that
7a51313dSChris Lattner/// represents a value lvalue, this method emits the address of the lvalue,
7a51313dSChris Lattner/// then loads the result into DestPtr.
7a51313dSChris Lattnervoid AggExprEmitter::EmitAggLoadOfLValue(const Expr *E) {
7a51313dSChris Lattner  LValue LV = CGF.EmitLValue(E);
7a51313dSChris Lattner  assert(LV.isSimple() && "Can't have aggregate bitfield, vector, etc");
7a51313dSChris Lattner  llvm::Value *SrcPtr = LV.getAddress();
7a51313dSChris Lattner
7a51313dSChris Lattner  // If the result is ignored, don't copy from the value.
7a51313dSChris Lattner  if (DestPtr == 0)
7a51313dSChris Lattner    // FIXME: If the source is volatile, we must read from it.
7a51313dSChris Lattner    return;
7a51313dSChris Lattner
0bc8e86dSDaniel Dunbar  CGF.EmitAggregateCopy(DestPtr, SrcPtr, E->getType());
7a51313dSChris Lattner}
7a51313dSChris Lattner
7a51313dSChris Lattner//===----------------------------------------------------------------------===//
7a51313dSChris Lattner//                            Visitor Methods
7a51313dSChris Lattner//===----------------------------------------------------------------------===//
7a51313dSChris Lattner
7ffcf93bSNuno Lopesvoid AggExprEmitter::VisitCStyleCastExpr(CStyleCastExpr *E) {
7ffcf93bSNuno Lopes  // GCC union extension
7ffcf93bSNuno Lopes  if (E->getType()->isUnionType()) {
7ffcf93bSNuno Lopes    RecordDecl *SD = E->getType()->getAsRecordType()->getDecl();
7ffcf93bSNuno Lopes    LValue FieldLoc = CGF.EmitLValueForField(DestPtr, *SD->field_begin(), true, 0);
7ffcf93bSNuno Lopes    EmitInitializationToLValue(E->getSubExpr(), FieldLoc);
7ffcf93bSNuno Lopes    return;
7ffcf93bSNuno Lopes  }
7ffcf93bSNuno Lopes
7ffcf93bSNuno Lopes  Visit(E->getSubExpr());
7ffcf93bSNuno Lopes}
7ffcf93bSNuno Lopes
0f398c44SChris Lattnervoid AggExprEmitter::VisitImplicitCastExpr(ImplicitCastExpr *E) {
7a51313dSChris Lattner  assert(CGF.getContext().typesAreCompatible(
0f398c44SChris Lattner                          E->getSubExpr()->getType().getUnqualifiedType(),
0f398c44SChris Lattner                          E->getType().getUnqualifiedType()) &&
0f398c44SChris Lattner         "Implicit cast types must be compatible");
7a51313dSChris Lattner  Visit(E->getSubExpr());
7a51313dSChris Lattner}
7a51313dSChris Lattner
0f398c44SChris Lattnervoid AggExprEmitter::VisitCallExpr(const CallExpr *E) {
7a51313dSChris Lattner  RValue RV = CGF.EmitCallExpr(E);
7a51313dSChris Lattner  assert(RV.isAggregate() && "Return value must be aggregate value!");
7a51313dSChris Lattner
7a51313dSChris Lattner  // If the result is ignored, don't copy from the value.
7a51313dSChris Lattner  if (DestPtr == 0)
7a51313dSChris Lattner    // FIXME: If the source is volatile, we must read from it.
7a51313dSChris Lattner    return;
7a51313dSChris Lattner
0bc8e86dSDaniel Dunbar  CGF.EmitAggregateCopy(DestPtr, RV.getAggregateAddr(), E->getType());
7a51313dSChris Lattner}
0f398c44SChris Lattner
0f398c44SChris Lattnervoid AggExprEmitter::VisitObjCMessageExpr(ObjCMessageExpr *E) {
97db84ceSDaniel Dunbar  RValue RV = CGF.EmitObjCMessageExpr(E);
97db84ceSDaniel Dunbar  assert(RV.isAggregate() && "Return value must be aggregate value!");
b1d329daSChris Lattner
b1d329daSChris Lattner  // If the result is ignored, don't copy from the value.
b1d329daSChris Lattner  if (DestPtr == 0)
97db84ceSDaniel Dunbar    // FIXME: If the source is volatile, we must read from it.
b1d329daSChris Lattner    return;
b1d329daSChris Lattner
0bc8e86dSDaniel Dunbar  CGF.EmitAggregateCopy(DestPtr, RV.getAggregateAddr(), E->getType());
b1d329daSChris Lattner}
7a51313dSChris Lattner
55310df7SDaniel Dunbarvoid AggExprEmitter::VisitObjCPropertyRefExpr(ObjCPropertyRefExpr *E) {
55310df7SDaniel Dunbar  RValue RV = CGF.EmitObjCPropertyGet(E);
55310df7SDaniel Dunbar  assert(RV.isAggregate() && "Return value must be aggregate value!");
55310df7SDaniel Dunbar
55310df7SDaniel Dunbar  // If the result is ignored, don't copy from the value.
55310df7SDaniel Dunbar  if (DestPtr == 0)
55310df7SDaniel Dunbar    // FIXME: If the source is volatile, we must read from it.
55310df7SDaniel Dunbar    return;
55310df7SDaniel Dunbar
0bc8e86dSDaniel Dunbar  CGF.EmitAggregateCopy(DestPtr, RV.getAggregateAddr(), E->getType());
55310df7SDaniel Dunbar}
55310df7SDaniel Dunbar
8a1810f0SFariborz Jahanianvoid AggExprEmitter::VisitObjCKVCRefExpr(ObjCKVCRefExpr *E) {
8a1810f0SFariborz Jahanian  RValue RV = CGF.EmitObjCPropertyGet(E);
8a1810f0SFariborz Jahanian  assert(RV.isAggregate() && "Return value must be aggregate value!");
8a1810f0SFariborz Jahanian
8a1810f0SFariborz Jahanian  // If the result is ignored, don't copy from the value.
8a1810f0SFariborz Jahanian  if (DestPtr == 0)
8a1810f0SFariborz Jahanian    // FIXME: If the source is volatile, we must read from it.
8a1810f0SFariborz Jahanian    return;
8a1810f0SFariborz Jahanian
8a1810f0SFariborz Jahanian  CGF.EmitAggregateCopy(DestPtr, RV.getAggregateAddr(), E->getType());
8a1810f0SFariborz Jahanian}
8a1810f0SFariborz Jahanian
0f398c44SChris Lattnervoid AggExprEmitter::VisitBinComma(const BinaryOperator *E) {
4b0e2a30SEli Friedman  CGF.EmitAnyExpr(E->getLHS());
4b0e2a30SEli Friedman  CGF.EmitAggExpr(E->getRHS(), DestPtr, false);
4b0e2a30SEli Friedman}
4b0e2a30SEli Friedman
7a51313dSChris Lattnervoid AggExprEmitter::VisitStmtExpr(const StmtExpr *E) {
7a51313dSChris Lattner  CGF.EmitCompoundStmt(*E->getSubStmt(), true, DestPtr, VolatileDest);
7a51313dSChris Lattner}
7a51313dSChris Lattner
7a51313dSChris Lattnervoid AggExprEmitter::VisitBinaryOperator(const BinaryOperator *E) {
a7c8cf62SDaniel Dunbar  CGF.ErrorUnsupported(E, "aggregate binary expression");
7a51313dSChris Lattner}
7a51313dSChris Lattner
7a51313dSChris Lattnervoid AggExprEmitter::VisitBinAssign(const BinaryOperator *E) {
7a51313dSChris Lattner  // For an assignment to work, the value on the right has
7a51313dSChris Lattner  // to be compatible with the value on the left.
7a51313dSChris Lattner  assert(CGF.getContext().typesAreCompatible(
7a51313dSChris Lattner             E->getLHS()->getType().getUnqualifiedType(),
7a51313dSChris Lattner             E->getRHS()->getType().getUnqualifiedType())
7a51313dSChris Lattner         && "Invalid assignment");
7a51313dSChris Lattner  LValue LHS = CGF.EmitLValue(E->getLHS());
7a51313dSChris Lattner
4b8c6db9SDaniel Dunbar  // We have to special case property setters, otherwise we must have
4b8c6db9SDaniel Dunbar  // a simple lvalue (no aggregates inside vectors, bitfields).
4b8c6db9SDaniel Dunbar  if (LHS.isPropertyRef()) {
4b8c6db9SDaniel Dunbar    // FIXME: Volatility?
4b8c6db9SDaniel Dunbar    llvm::Value *AggLoc = DestPtr;
4b8c6db9SDaniel Dunbar    if (!AggLoc)
4b8c6db9SDaniel Dunbar      AggLoc = CGF.CreateTempAlloca(CGF.ConvertType(E->getRHS()->getType()));
4b8c6db9SDaniel Dunbar    CGF.EmitAggExpr(E->getRHS(), AggLoc, false);
4b8c6db9SDaniel Dunbar    CGF.EmitObjCPropertySet(LHS.getPropertyRefExpr(),
4b8c6db9SDaniel Dunbar                            RValue::getAggregate(AggLoc));
9ac53516SFariborz Jahanian  }
9ac53516SFariborz Jahanian  else if (LHS.isKVCRef()) {
9ac53516SFariborz Jahanian    // FIXME: Volatility?
9ac53516SFariborz Jahanian    llvm::Value *AggLoc = DestPtr;
9ac53516SFariborz Jahanian    if (!AggLoc)
9ac53516SFariborz Jahanian      AggLoc = CGF.CreateTempAlloca(CGF.ConvertType(E->getRHS()->getType()));
9ac53516SFariborz Jahanian    CGF.EmitAggExpr(E->getRHS(), AggLoc, false);
9ac53516SFariborz Jahanian    CGF.EmitObjCPropertySet(LHS.getKVCRefExpr(),
9ac53516SFariborz Jahanian                            RValue::getAggregate(AggLoc));
4b8c6db9SDaniel Dunbar  } else {
7a51313dSChris Lattner    // Codegen the RHS so that it stores directly into the LHS.
7a51313dSChris Lattner    CGF.EmitAggExpr(E->getRHS(), LHS.getAddress(), false /*FIXME: VOLATILE LHS*/);
7a51313dSChris Lattner
7a51313dSChris Lattner    if (DestPtr == 0)
7a51313dSChris Lattner      return;
7a51313dSChris Lattner
7a51313dSChris Lattner    // If the result of the assignment is used, copy the RHS there also.
0bc8e86dSDaniel Dunbar    CGF.EmitAggregateCopy(DestPtr, LHS.getAddress(), E->getType());
7a51313dSChris Lattner  }
4b8c6db9SDaniel Dunbar}
7a51313dSChris Lattner
7a51313dSChris Lattnervoid AggExprEmitter::VisitConditionalOperator(const ConditionalOperator *E) {
a612e79bSDaniel Dunbar  llvm::BasicBlock *LHSBlock = CGF.createBasicBlock("cond.true");
a612e79bSDaniel Dunbar  llvm::BasicBlock *RHSBlock = CGF.createBasicBlock("cond.false");
a612e79bSDaniel Dunbar  llvm::BasicBlock *ContBlock = CGF.createBasicBlock("cond.end");
7a51313dSChris Lattner
7a51313dSChris Lattner  llvm::Value *Cond = CGF.EvaluateExprAsBool(E->getCond());
7a51313dSChris Lattner  Builder.CreateCondBr(Cond, LHSBlock, RHSBlock);
7a51313dSChris Lattner
7a51313dSChris Lattner  CGF.EmitBlock(LHSBlock);
7a51313dSChris Lattner
7a51313dSChris Lattner  // Handle the GNU extension for missing LHS.
7a51313dSChris Lattner  assert(E->getLHS() && "Must have LHS for aggregate value");
7a51313dSChris Lattner
7a51313dSChris Lattner  Visit(E->getLHS());
c56e6764SDaniel Dunbar  CGF.EmitBranch(ContBlock);
7a51313dSChris Lattner
7a51313dSChris Lattner  CGF.EmitBlock(RHSBlock);
7a51313dSChris Lattner
7a51313dSChris Lattner  Visit(E->getRHS());
c56e6764SDaniel Dunbar  CGF.EmitBranch(ContBlock);
7a51313dSChris Lattner
7a51313dSChris Lattner  CGF.EmitBlock(ContBlock);
7a51313dSChris Lattner}
7a51313dSChris Lattner
21911e89SEli Friedmanvoid AggExprEmitter::VisitVAArgExpr(VAArgExpr *VE) {
e9fcadd2SDaniel Dunbar  llvm::Value *ArgValue = CGF.EmitVAListRef(VE->getSubExpr());
13abd7e9SAnders Carlsson  llvm::Value *ArgPtr = CGF.EmitVAArg(ArgValue, VE->getType());
13abd7e9SAnders Carlsson
020cddcfSSebastian Redl  if (!ArgPtr) {
13abd7e9SAnders Carlsson    CGF.ErrorUnsupported(VE, "aggregate va_arg expression");
020cddcfSSebastian Redl    return;
020cddcfSSebastian Redl  }
13abd7e9SAnders Carlsson
21911e89SEli Friedman  if (DestPtr)
327944b3SEli Friedman    // FIXME: volatility
13abd7e9SAnders Carlsson    CGF.EmitAggregateCopy(DestPtr, ArgPtr, VE->getType());
21911e89SEli Friedman}
21911e89SEli Friedman
579a05d7SChris Lattnervoid AggExprEmitter::EmitInitializationToLValue(Expr* E, LValue LV) {
579a05d7SChris Lattner  // FIXME: Are initializers affected by volatile?
0202cb40SDouglas Gregor  if (isa<ImplicitValueInitExpr>(E)) {
347f7eabSDouglas Gregor    EmitNullInitializationToLValue(LV, E->getType());
0202cb40SDouglas Gregor  } else if (E->getType()->isComplexType()) {
0202cb40SDouglas Gregor    CGF.EmitComplexExprIntoAddr(E, LV.getAddress(), false);
6e313210SEli Friedman  } else if (CGF.hasAggregateLLVMType(E->getType())) {
6e313210SEli Friedman    CGF.EmitAnyExpr(E, LV.getAddress(), false);
6e313210SEli Friedman  } else {
6e313210SEli Friedman    CGF.EmitStoreThroughLValue(CGF.EmitAnyExpr(E), LV, E->getType());
7a51313dSChris Lattner  }
579a05d7SChris Lattner}
579a05d7SChris Lattner
579a05d7SChris Lattnervoid AggExprEmitter::EmitNullInitializationToLValue(LValue LV, QualType T) {
579a05d7SChris Lattner  if (!CGF.hasAggregateLLVMType(T)) {
579a05d7SChris Lattner    // For non-aggregates, we can store zero
e8bdce44SDaniel Dunbar    llvm::Value *Null = llvm::Constant::getNullValue(CGF.ConvertType(T));
e8bdce44SDaniel Dunbar    CGF.EmitStoreThroughLValue(RValue::get(Null), LV, T);
579a05d7SChris Lattner  } else {
579a05d7SChris Lattner    // Otherwise, just memset the whole thing to zero.  This is legal
579a05d7SChris Lattner    // because in LLVM, all default initializers are guaranteed to have a
579a05d7SChris Lattner    // bit pattern of all zeros.
579a05d7SChris Lattner    // There's a potential optimization opportunity in combining
579a05d7SChris Lattner    // memsets; that would be easy for arrays, but relatively
579a05d7SChris Lattner    // difficult for structures with the current code.
*9127aa1cSEli Friedman    CGF.EmitMemSetToZero(LV.getAddress(), T);
579a05d7SChris Lattner  }
579a05d7SChris Lattner}
579a05d7SChris Lattner
579a05d7SChris Lattnervoid AggExprEmitter::VisitInitListExpr(InitListExpr *E) {
f5d08c9eSEli Friedman#if 0
f5d08c9eSEli Friedman  // FIXME: Disabled while we figure out what to do about
f5d08c9eSEli Friedman  // test/CodeGen/bitfield.c
f5d08c9eSEli Friedman  //
c59bb48eSEli Friedman  // If we can, prefer a copy from a global; this is a lot less
c59bb48eSEli Friedman  // code for long globals, and it's easier for the current optimizers
c59bb48eSEli Friedman  // to analyze.
c59bb48eSEli Friedman  // FIXME: Should we really be doing this? Should we try to avoid
c59bb48eSEli Friedman  // cases where we emit a global with a lot of zeros?  Should
c59bb48eSEli Friedman  // we try to avoid short globals?
7139af42SEli Friedman  if (E->isConstantInitializer(CGF.getContext(), 0)) {
c59bb48eSEli Friedman    llvm::Constant* C = CGF.CGM.EmitConstantExpr(E, &CGF);
c59bb48eSEli Friedman    llvm::GlobalVariable* GV =
c59bb48eSEli Friedman    new llvm::GlobalVariable(C->getType(), true,
c59bb48eSEli Friedman                             llvm::GlobalValue::InternalLinkage,
c59bb48eSEli Friedman                             C, "", &CGF.CGM.getModule(), 0);
c59bb48eSEli Friedman    CGF.EmitAggregateCopy(DestPtr, GV, E->getType());
c59bb48eSEli Friedman    return;
c59bb48eSEli Friedman  }
f5d08c9eSEli Friedman#endif
bf7207a1SDouglas Gregor  if (E->hadArrayRangeDesignator()) {
bf7207a1SDouglas Gregor    CGF.ErrorUnsupported(E, "GNU array range designator extension");
bf7207a1SDouglas Gregor  }
bf7207a1SDouglas Gregor
579a05d7SChris Lattner  // Handle initialization of an array.
579a05d7SChris Lattner  if (E->getType()->isArrayType()) {
579a05d7SChris Lattner    const llvm::PointerType *APType =
579a05d7SChris Lattner      cast<llvm::PointerType>(DestPtr->getType());
579a05d7SChris Lattner    const llvm::ArrayType *AType =
579a05d7SChris Lattner      cast<llvm::ArrayType>(APType->getElementType());
579a05d7SChris Lattner
579a05d7SChris Lattner    uint64_t NumInitElements = E->getNumInits();
f23b6fa4SEli Friedman
0f398c44SChris Lattner    if (E->getNumInits() > 0) {
0f398c44SChris Lattner      QualType T1 = E->getType();
0f398c44SChris Lattner      QualType T2 = E->getInit(0)->getType();
0f398c44SChris Lattner      if (CGF.getContext().getCanonicalType(T1).getUnqualifiedType() ==
0f398c44SChris Lattner          CGF.getContext().getCanonicalType(T2).getUnqualifiedType()) {
f23b6fa4SEli Friedman        EmitAggLoadOfLValue(E->getInit(0));
f23b6fa4SEli Friedman        return;
f23b6fa4SEli Friedman      }
0f398c44SChris Lattner    }
f23b6fa4SEli Friedman
579a05d7SChris Lattner    uint64_t NumArrayElements = AType->getNumElements();
7adf0760SChris Lattner    QualType ElementType = CGF.getContext().getCanonicalType(E->getType());
7adf0760SChris Lattner    ElementType = CGF.getContext().getAsArrayType(ElementType)->getElementType();
579a05d7SChris Lattner
7adf0760SChris Lattner    unsigned CVRqualifier = ElementType.getCVRQualifiers();
327944b3SEli Friedman
579a05d7SChris Lattner    for (uint64_t i = 0; i != NumArrayElements; ++i) {
579a05d7SChris Lattner      llvm::Value *NextVal = Builder.CreateStructGEP(DestPtr, i, ".array");
579a05d7SChris Lattner      if (i < NumInitElements)
327944b3SEli Friedman        EmitInitializationToLValue(E->getInit(i),
327944b3SEli Friedman                                   LValue::MakeAddr(NextVal, CVRqualifier));
579a05d7SChris Lattner      else
327944b3SEli Friedman        EmitNullInitializationToLValue(LValue::MakeAddr(NextVal, CVRqualifier),
579a05d7SChris Lattner                                       ElementType);
579a05d7SChris Lattner    }
579a05d7SChris Lattner    return;
579a05d7SChris Lattner  }
579a05d7SChris Lattner
579a05d7SChris Lattner  assert(E->getType()->isRecordType() && "Only support structs/unions here!");
579a05d7SChris Lattner
579a05d7SChris Lattner  // Do struct initialization; this code just sets each individual member
579a05d7SChris Lattner  // to the approprate value.  This makes bitfield support automatic;
579a05d7SChris Lattner  // the disadvantage is that the generated code is more difficult for
579a05d7SChris Lattner  // the optimizer, especially with bitfields.
579a05d7SChris Lattner  unsigned NumInitElements = E->getNumInits();
579a05d7SChris Lattner  RecordDecl *SD = E->getType()->getAsRecordType()->getDecl();
579a05d7SChris Lattner  unsigned CurInitVal = 0;
5169570eSDouglas Gregor
5169570eSDouglas Gregor  if (E->getType()->isUnionType()) {
5169570eSDouglas Gregor    // Only initialize one field of a union. The field itself is
5169570eSDouglas Gregor    // specified by the initializer list.
5169570eSDouglas Gregor    if (!E->getInitializedFieldInUnion()) {
5169570eSDouglas Gregor      // Empty union; we have nothing to do.
5169570eSDouglas Gregor
5169570eSDouglas Gregor#ifndef NDEBUG
5169570eSDouglas Gregor      // Make sure that it's really an empty and not a failure of
5169570eSDouglas Gregor      // semantic analysis.
5169570eSDouglas Gregor      for (RecordDecl::field_iterator Field = SD->field_begin(),
5169570eSDouglas Gregor                                   FieldEnd = SD->field_end();
5169570eSDouglas Gregor           Field != FieldEnd; ++Field)
5169570eSDouglas Gregor        assert(Field->isUnnamedBitfield() && "Only unnamed bitfields allowed");
5169570eSDouglas Gregor#endif
5169570eSDouglas Gregor      return;
5169570eSDouglas Gregor    }
5169570eSDouglas Gregor
5169570eSDouglas Gregor    // FIXME: volatility
5169570eSDouglas Gregor    FieldDecl *Field = E->getInitializedFieldInUnion();
5169570eSDouglas Gregor    LValue FieldLoc = CGF.EmitLValueForField(DestPtr, Field, true, 0);
5169570eSDouglas Gregor
5169570eSDouglas Gregor    if (NumInitElements) {
5169570eSDouglas Gregor      // Store the initializer into the field
5169570eSDouglas Gregor      EmitInitializationToLValue(E->getInit(0), FieldLoc);
5169570eSDouglas Gregor    } else {
5169570eSDouglas Gregor      // Default-initialize to null
5169570eSDouglas Gregor      EmitNullInitializationToLValue(FieldLoc, Field->getType());
5169570eSDouglas Gregor    }
5169570eSDouglas Gregor
5169570eSDouglas Gregor    return;
5169570eSDouglas Gregor  }
579a05d7SChris Lattner
579a05d7SChris Lattner  // Here we iterate over the fields; this makes it simpler to both
579a05d7SChris Lattner  // default-initialize fields and skip over unnamed fields.
91f84216SDouglas Gregor  for (RecordDecl::field_iterator Field = SD->field_begin(),
91f84216SDouglas Gregor                               FieldEnd = SD->field_end();
91f84216SDouglas Gregor       Field != FieldEnd; ++Field) {
91f84216SDouglas Gregor    // We're done once we hit the flexible array member
91f84216SDouglas Gregor    if (Field->getType()->isIncompleteArrayType())
91f84216SDouglas Gregor      break;
91f84216SDouglas Gregor
17bd094aSDouglas Gregor    if (Field->isUnnamedBitfield())
579a05d7SChris Lattner      continue;
17bd094aSDouglas Gregor
327944b3SEli Friedman    // FIXME: volatility
5169570eSDouglas Gregor    LValue FieldLoc = CGF.EmitLValueForField(DestPtr, *Field, false, 0);
579a05d7SChris Lattner    if (CurInitVal < NumInitElements) {
579a05d7SChris Lattner      // Store the initializer into the field
579a05d7SChris Lattner      EmitInitializationToLValue(E->getInit(CurInitVal++), FieldLoc);
579a05d7SChris Lattner    } else {
579a05d7SChris Lattner      // We're out of initalizers; default-initialize to null
91f84216SDouglas Gregor      EmitNullInitializationToLValue(FieldLoc, Field->getType());
579a05d7SChris Lattner    }
7a51313dSChris Lattner  }
7a51313dSChris Lattner}
7a51313dSChris Lattner
7a51313dSChris Lattner//===----------------------------------------------------------------------===//
7a51313dSChris Lattner//                        Entry Points into this File
7a51313dSChris Lattner//===----------------------------------------------------------------------===//
7a51313dSChris Lattner
7a51313dSChris Lattner/// EmitAggExpr - Emit the computation of the specified expression of
7a51313dSChris Lattner/// aggregate type.  The result is computed into DestPtr.  Note that if
7a51313dSChris Lattner/// DestPtr is null, the value of the aggregate expression is not needed.
7a51313dSChris Lattnervoid CodeGenFunction::EmitAggExpr(const Expr *E, llvm::Value *DestPtr,
7a51313dSChris Lattner                                  bool VolatileDest) {
7a51313dSChris Lattner  assert(E && hasAggregateLLVMType(E->getType()) &&
7a51313dSChris Lattner         "Invalid aggregate expression to emit");
7a51313dSChris Lattner
7a51313dSChris Lattner  AggExprEmitter(*this, DestPtr, VolatileDest).Visit(const_cast<Expr*>(E));
7a51313dSChris Lattner}
0bc8e86dSDaniel Dunbar
0bc8e86dSDaniel Dunbarvoid CodeGenFunction::EmitAggregateClear(llvm::Value *DestPtr, QualType Ty) {
0bc8e86dSDaniel Dunbar  assert(!Ty->isAnyComplexType() && "Shouldn't happen for complex");
0bc8e86dSDaniel Dunbar
0bc8e86dSDaniel Dunbar  EmitMemSetToZero(DestPtr, Ty);
0bc8e86dSDaniel Dunbar}
0bc8e86dSDaniel Dunbar
0bc8e86dSDaniel Dunbarvoid CodeGenFunction::EmitAggregateCopy(llvm::Value *DestPtr,
0bc8e86dSDaniel Dunbar                                        llvm::Value *SrcPtr, QualType Ty) {
0bc8e86dSDaniel Dunbar  assert(!Ty->isAnyComplexType() && "Shouldn't happen for complex");
0bc8e86dSDaniel Dunbar
ca05dfefSChris Lattner  // Aggregate assignment turns into llvm.memcpy.  This is almost valid per
3ef668c2SChris Lattner  // C99 6.5.16.1p3, which states "If the value being stored in an object is
3ef668c2SChris Lattner  // read from another object that overlaps in anyway the storage of the first
3ef668c2SChris Lattner  // object, then the overlap shall be exact and the two objects shall have
3ef668c2SChris Lattner  // qualified or unqualified versions of a compatible type."
3ef668c2SChris Lattner  //
ca05dfefSChris Lattner  // memcpy is not defined if the source and destination pointers are exactly
3ef668c2SChris Lattner  // equal, but other compilers do this optimization, and almost every memcpy
3ef668c2SChris Lattner  // implementation handles this case safely.  If there is a libc that does not
3ef668c2SChris Lattner  // safely handle this, we can add a target hook.
0bc8e86dSDaniel Dunbar  const llvm::Type *BP = llvm::PointerType::getUnqual(llvm::Type::Int8Ty);
0bc8e86dSDaniel Dunbar  if (DestPtr->getType() != BP)
0bc8e86dSDaniel Dunbar    DestPtr = Builder.CreateBitCast(DestPtr, BP, "tmp");
0bc8e86dSDaniel Dunbar  if (SrcPtr->getType() != BP)
0bc8e86dSDaniel Dunbar    SrcPtr = Builder.CreateBitCast(SrcPtr, BP, "tmp");
0bc8e86dSDaniel Dunbar
0bc8e86dSDaniel Dunbar  // Get size and alignment info for this aggregate.
0bc8e86dSDaniel Dunbar  std::pair<uint64_t, unsigned> TypeInfo = getContext().getTypeInfo(Ty);
0bc8e86dSDaniel Dunbar
0bc8e86dSDaniel Dunbar  // FIXME: Handle variable sized types.
0bc8e86dSDaniel Dunbar  const llvm::Type *IntPtr = llvm::IntegerType::get(LLVMPointerWidth);
0bc8e86dSDaniel Dunbar
3ef668c2SChris Lattner  Builder.CreateCall4(CGM.getMemCpyFn(),
0bc8e86dSDaniel Dunbar                      DestPtr, SrcPtr,
0bc8e86dSDaniel Dunbar                      // TypeInfo.first describes size in bits.
0bc8e86dSDaniel Dunbar                      llvm::ConstantInt::get(IntPtr, TypeInfo.first/8),
0bc8e86dSDaniel Dunbar                      llvm::ConstantInt::get(llvm::Type::Int32Ty,
0bc8e86dSDaniel Dunbar                                             TypeInfo.second/8));
0bc8e86dSDaniel Dunbar}