17a51313dSChris Lattner //===--- CGExprComplex.cpp - Emit LLVM Code for Complex Exprs -------------===// 27a51313dSChris Lattner // 37a51313dSChris Lattner // The LLVM Compiler Infrastructure 47a51313dSChris Lattner // 57a51313dSChris Lattner // This file is distributed under the University of Illinois Open Source 67a51313dSChris Lattner // License. See LICENSE.TXT for details. 77a51313dSChris Lattner // 87a51313dSChris Lattner //===----------------------------------------------------------------------===// 97a51313dSChris Lattner // 107a51313dSChris Lattner // This contains code to emit Expr nodes with complex types as LLVM code. 117a51313dSChris Lattner // 127a51313dSChris Lattner //===----------------------------------------------------------------------===// 137a51313dSChris Lattner 147a51313dSChris Lattner #include "CodeGenFunction.h" 157a51313dSChris Lattner #include "CodeGenModule.h" 16ad319a73SDaniel Dunbar #include "clang/AST/ASTContext.h" 17ad319a73SDaniel Dunbar #include "clang/AST/StmtVisitor.h" 180c4b230bSChandler Carruth #include "llvm/ADT/STLExtras.h" 193a02247dSChandler Carruth #include "llvm/ADT/SmallString.h" 20ffd5551bSChandler Carruth #include "llvm/IR/Constants.h" 21ffd5551bSChandler Carruth #include "llvm/IR/Function.h" 220c4b230bSChandler Carruth #include "llvm/IR/Instructions.h" 230c4b230bSChandler Carruth #include "llvm/IR/MDBuilder.h" 240c4b230bSChandler Carruth #include "llvm/IR/Metadata.h" 2527dcbb24SJF Bastien #include <algorithm> 267a51313dSChris Lattner using namespace clang; 277a51313dSChris Lattner using namespace CodeGen; 287a51313dSChris Lattner 297a51313dSChris Lattner //===----------------------------------------------------------------------===// 307a51313dSChris Lattner // Complex Expression Emitter 317a51313dSChris Lattner //===----------------------------------------------------------------------===// 327a51313dSChris Lattner 337a51313dSChris Lattner typedef CodeGenFunction::ComplexPairTy ComplexPairTy; 347a51313dSChris Lattner 3547fb9508SJohn McCall /// Return the complex type that we are meant to emit. 3647fb9508SJohn McCall static const ComplexType *getComplexType(QualType type) { 3747fb9508SJohn McCall type = type.getCanonicalType(); 3847fb9508SJohn McCall if (const ComplexType *comp = dyn_cast<ComplexType>(type)) { 3947fb9508SJohn McCall return comp; 4047fb9508SJohn McCall } else { 4147fb9508SJohn McCall return cast<ComplexType>(cast<AtomicType>(type)->getValueType()); 4247fb9508SJohn McCall } 4347fb9508SJohn McCall } 4447fb9508SJohn McCall 457a51313dSChris Lattner namespace { 46337e3a5fSBenjamin Kramer class ComplexExprEmitter 477a51313dSChris Lattner : public StmtVisitor<ComplexExprEmitter, ComplexPairTy> { 487a51313dSChris Lattner CodeGenFunction &CGF; 49cb463859SDaniel Dunbar CGBuilderTy &Builder; 50df0fe27bSMike Stump bool IgnoreReal; 51df0fe27bSMike Stump bool IgnoreImag; 527a51313dSChris Lattner public: 5307bb1966SJohn McCall ComplexExprEmitter(CodeGenFunction &cgf, bool ir=false, bool ii=false) 5407bb1966SJohn McCall : CGF(cgf), Builder(CGF.Builder), IgnoreReal(ir), IgnoreImag(ii) { 557a51313dSChris Lattner } 567a51313dSChris Lattner 577a51313dSChris Lattner 587a51313dSChris Lattner //===--------------------------------------------------------------------===// 597a51313dSChris Lattner // Utilities 607a51313dSChris Lattner //===--------------------------------------------------------------------===// 617a51313dSChris Lattner 62df0fe27bSMike Stump bool TestAndClearIgnoreReal() { 63df0fe27bSMike Stump bool I = IgnoreReal; 64df0fe27bSMike Stump IgnoreReal = false; 65df0fe27bSMike Stump return I; 66df0fe27bSMike Stump } 67df0fe27bSMike Stump bool TestAndClearIgnoreImag() { 68df0fe27bSMike Stump bool I = IgnoreImag; 69df0fe27bSMike Stump IgnoreImag = false; 70df0fe27bSMike Stump return I; 71df0fe27bSMike Stump } 72df0fe27bSMike Stump 737a51313dSChris Lattner /// EmitLoadOfLValue - Given an expression with complex type that represents a 747a51313dSChris Lattner /// value l-value, this method emits the address of the l-value, then loads 757a51313dSChris Lattner /// and returns the result. 767a51313dSChris Lattner ComplexPairTy EmitLoadOfLValue(const Expr *E) { 772d84e842SNick Lewycky return EmitLoadOfLValue(CGF.EmitLValue(E), E->getExprLoc()); 78e26a872bSJohn McCall } 79e26a872bSJohn McCall 802d84e842SNick Lewycky ComplexPairTy EmitLoadOfLValue(LValue LV, SourceLocation Loc); 81e26a872bSJohn McCall 827a51313dSChris Lattner /// EmitStoreOfComplex - Store the specified real/imag parts into the 837a51313dSChris Lattner /// specified value pointer. 8447fb9508SJohn McCall void EmitStoreOfComplex(ComplexPairTy Val, LValue LV, bool isInit); 857a51313dSChris Lattner 867a51313dSChris Lattner /// EmitComplexToComplexCast - Emit a cast from complex value Val to DestType. 877a51313dSChris Lattner ComplexPairTy EmitComplexToComplexCast(ComplexPairTy Val, QualType SrcType, 887a51313dSChris Lattner QualType DestType); 89f045007fSEli Friedman /// EmitComplexToComplexCast - Emit a cast from scalar value Val to DestType. 90f045007fSEli Friedman ComplexPairTy EmitScalarToComplexCast(llvm::Value *Val, QualType SrcType, 91f045007fSEli Friedman QualType DestType); 927a51313dSChris Lattner 937a51313dSChris Lattner //===--------------------------------------------------------------------===// 947a51313dSChris Lattner // Visitor Methods 957a51313dSChris Lattner //===--------------------------------------------------------------------===// 967a51313dSChris Lattner 978162d4adSFariborz Jahanian ComplexPairTy Visit(Expr *E) { 988162d4adSFariborz Jahanian return StmtVisitor<ComplexExprEmitter, ComplexPairTy>::Visit(E); 998162d4adSFariborz Jahanian } 1008162d4adSFariborz Jahanian 1017a51313dSChris Lattner ComplexPairTy VisitStmt(Stmt *S) { 1027a51313dSChris Lattner S->dump(CGF.getContext().getSourceManager()); 10383d382b1SDavid Blaikie llvm_unreachable("Stmt can't have complex result type!"); 1047a51313dSChris Lattner } 1057a51313dSChris Lattner ComplexPairTy VisitExpr(Expr *S); 1067a51313dSChris Lattner ComplexPairTy VisitParenExpr(ParenExpr *PE) { return Visit(PE->getSubExpr());} 10791147596SPeter Collingbourne ComplexPairTy VisitGenericSelectionExpr(GenericSelectionExpr *GE) { 10891147596SPeter Collingbourne return Visit(GE->getResultExpr()); 10991147596SPeter Collingbourne } 1107a51313dSChris Lattner ComplexPairTy VisitImaginaryLiteral(const ImaginaryLiteral *IL); 1117c454bb8SJohn McCall ComplexPairTy 1127c454bb8SJohn McCall VisitSubstNonTypeTemplateParmExpr(SubstNonTypeTemplateParmExpr *PE) { 1137c454bb8SJohn McCall return Visit(PE->getReplacement()); 1147c454bb8SJohn McCall } 1157a51313dSChris Lattner 1167a51313dSChris Lattner // l-values. 117113bee05SJohn McCall ComplexPairTy VisitDeclRefExpr(DeclRefExpr *E) { 118113bee05SJohn McCall if (CodeGenFunction::ConstantEmission result = CGF.tryEmitAsConstant(E)) { 11971335059SJohn McCall if (result.isReference()) 1202d84e842SNick Lewycky return EmitLoadOfLValue(result.getReferenceLValue(CGF, E), 1212d84e842SNick Lewycky E->getExprLoc()); 12271335059SJohn McCall 12364f23918SEli Friedman llvm::Constant *pair = result.getValue(); 12464f23918SEli Friedman return ComplexPairTy(pair->getAggregateElement(0U), 12564f23918SEli Friedman pair->getAggregateElement(1U)); 12671335059SJohn McCall } 127113bee05SJohn McCall return EmitLoadOfLValue(E); 12871335059SJohn McCall } 12976d864c7SDaniel Dunbar ComplexPairTy VisitObjCIvarRefExpr(ObjCIvarRefExpr *E) { 13076d864c7SDaniel Dunbar return EmitLoadOfLValue(E); 13176d864c7SDaniel Dunbar } 13276d864c7SDaniel Dunbar ComplexPairTy VisitObjCMessageExpr(ObjCMessageExpr *E) { 13376d864c7SDaniel Dunbar return CGF.EmitObjCMessageExpr(E).getComplexVal(); 13476d864c7SDaniel Dunbar } 1357a51313dSChris Lattner ComplexPairTy VisitArraySubscriptExpr(Expr *E) { return EmitLoadOfLValue(E); } 1367a51313dSChris Lattner ComplexPairTy VisitMemberExpr(const Expr *E) { return EmitLoadOfLValue(E); } 1371bf5846aSJohn McCall ComplexPairTy VisitOpaqueValueExpr(OpaqueValueExpr *E) { 138c07a0c7eSJohn McCall if (E->isGLValue()) 1392d84e842SNick Lewycky return EmitLoadOfLValue(CGF.getOpaqueLValueMapping(E), E->getExprLoc()); 140c07a0c7eSJohn McCall return CGF.getOpaqueRValueMapping(E).getComplexVal(); 1411bf5846aSJohn McCall } 1427a51313dSChris Lattner 143fe96e0b6SJohn McCall ComplexPairTy VisitPseudoObjectExpr(PseudoObjectExpr *E) { 144fe96e0b6SJohn McCall return CGF.EmitPseudoObjectRValue(E).getComplexVal(); 145fe96e0b6SJohn McCall } 146fe96e0b6SJohn McCall 1477a51313dSChris Lattner // FIXME: CompoundLiteralExpr 1487a51313dSChris Lattner 149c357f412SDouglas Gregor ComplexPairTy EmitCast(CastExpr::CastKind CK, Expr *Op, QualType DestTy); 1507a51313dSChris Lattner ComplexPairTy VisitImplicitCastExpr(ImplicitCastExpr *E) { 1517a51313dSChris Lattner // Unlike for scalars, we don't have to worry about function->ptr demotion 1527a51313dSChris Lattner // here. 153c357f412SDouglas Gregor return EmitCast(E->getCastKind(), E->getSubExpr(), E->getType()); 1547a51313dSChris Lattner } 1557a51313dSChris Lattner ComplexPairTy VisitCastExpr(CastExpr *E) { 156c357f412SDouglas Gregor return EmitCast(E->getCastKind(), E->getSubExpr(), E->getType()); 1577a51313dSChris Lattner } 1587a51313dSChris Lattner ComplexPairTy VisitCallExpr(const CallExpr *E); 1597a51313dSChris Lattner ComplexPairTy VisitStmtExpr(const StmtExpr *E); 1607a51313dSChris Lattner 1617a51313dSChris Lattner // Operators. 1627a51313dSChris Lattner ComplexPairTy VisitPrePostIncDec(const UnaryOperator *E, 163116ce8f1SChris Lattner bool isInc, bool isPre) { 164116ce8f1SChris Lattner LValue LV = CGF.EmitLValue(E->getSubExpr()); 165116ce8f1SChris Lattner return CGF.EmitComplexPrePostIncDec(E, LV, isInc, isPre); 166116ce8f1SChris Lattner } 1677a51313dSChris Lattner ComplexPairTy VisitUnaryPostDec(const UnaryOperator *E) { 1687a51313dSChris Lattner return VisitPrePostIncDec(E, false, false); 1697a51313dSChris Lattner } 1707a51313dSChris Lattner ComplexPairTy VisitUnaryPostInc(const UnaryOperator *E) { 1717a51313dSChris Lattner return VisitPrePostIncDec(E, true, false); 1727a51313dSChris Lattner } 1737a51313dSChris Lattner ComplexPairTy VisitUnaryPreDec(const UnaryOperator *E) { 1747a51313dSChris Lattner return VisitPrePostIncDec(E, false, true); 1757a51313dSChris Lattner } 1767a51313dSChris Lattner ComplexPairTy VisitUnaryPreInc(const UnaryOperator *E) { 1777a51313dSChris Lattner return VisitPrePostIncDec(E, true, true); 1787a51313dSChris Lattner } 1797a51313dSChris Lattner ComplexPairTy VisitUnaryDeref(const Expr *E) { return EmitLoadOfLValue(E); } 1807a51313dSChris Lattner ComplexPairTy VisitUnaryPlus (const UnaryOperator *E) { 181df0fe27bSMike Stump TestAndClearIgnoreReal(); 182df0fe27bSMike Stump TestAndClearIgnoreImag(); 1837a51313dSChris Lattner return Visit(E->getSubExpr()); 1847a51313dSChris Lattner } 1857a51313dSChris Lattner ComplexPairTy VisitUnaryMinus (const UnaryOperator *E); 1867a51313dSChris Lattner ComplexPairTy VisitUnaryNot (const UnaryOperator *E); 1876f28289aSSebastian Redl // LNot,Real,Imag never return complex. 1887a51313dSChris Lattner ComplexPairTy VisitUnaryExtension(const UnaryOperator *E) { 1897a51313dSChris Lattner return Visit(E->getSubExpr()); 1907a51313dSChris Lattner } 191aa9c7aedSChris Lattner ComplexPairTy VisitCXXDefaultArgExpr(CXXDefaultArgExpr *DAE) { 192aa9c7aedSChris Lattner return Visit(DAE->getExpr()); 193aa9c7aedSChris Lattner } 194852c9db7SRichard Smith ComplexPairTy VisitCXXDefaultInitExpr(CXXDefaultInitExpr *DIE) { 195852c9db7SRichard Smith CodeGenFunction::CXXDefaultInitExprScope Scope(CGF); 196852c9db7SRichard Smith return Visit(DIE->getExpr()); 197852c9db7SRichard Smith } 1985d413781SJohn McCall ComplexPairTy VisitExprWithCleanups(ExprWithCleanups *E) { 19908ef4660SJohn McCall CGF.enterFullExpression(E); 20008ef4660SJohn McCall CodeGenFunction::RunCleanupsScope Scope(CGF); 20108ef4660SJohn McCall return Visit(E->getSubExpr()); 202c0092ad3SAnders Carlsson } 203747eb784SDouglas Gregor ComplexPairTy VisitCXXScalarValueInitExpr(CXXScalarValueInitExpr *E) { 204ce4528f0SArgyrios Kyrtzidis assert(E->getType()->isAnyComplexType() && "Expected complex type!"); 20547fb9508SJohn McCall QualType Elem = E->getType()->castAs<ComplexType>()->getElementType(); 2064a3999feSMike Stump llvm::Constant *Null = llvm::Constant::getNullValue(CGF.ConvertType(Elem)); 207ce4528f0SArgyrios Kyrtzidis return ComplexPairTy(Null, Null); 208ce4528f0SArgyrios Kyrtzidis } 2090202cb40SDouglas Gregor ComplexPairTy VisitImplicitValueInitExpr(ImplicitValueInitExpr *E) { 2100202cb40SDouglas Gregor assert(E->getType()->isAnyComplexType() && "Expected complex type!"); 21147fb9508SJohn McCall QualType Elem = E->getType()->castAs<ComplexType>()->getElementType(); 212ae86c19eSOwen Anderson llvm::Constant *Null = 2130b75f23bSOwen Anderson llvm::Constant::getNullValue(CGF.ConvertType(Elem)); 2140202cb40SDouglas Gregor return ComplexPairTy(Null, Null); 2150202cb40SDouglas Gregor } 2167a51313dSChris Lattner 2177a51313dSChris Lattner struct BinOpInfo { 2187a51313dSChris Lattner ComplexPairTy LHS; 2197a51313dSChris Lattner ComplexPairTy RHS; 2207a51313dSChris Lattner QualType Ty; // Computation Type. 2217a51313dSChris Lattner }; 2227a51313dSChris Lattner 2237a51313dSChris Lattner BinOpInfo EmitBinOps(const BinaryOperator *E); 22407bb1966SJohn McCall LValue EmitCompoundAssignLValue(const CompoundAssignOperator *E, 22507bb1966SJohn McCall ComplexPairTy (ComplexExprEmitter::*Func) 22607bb1966SJohn McCall (const BinOpInfo &), 227f045007fSEli Friedman RValue &Val); 2287a51313dSChris Lattner ComplexPairTy EmitCompoundAssign(const CompoundAssignOperator *E, 2297a51313dSChris Lattner ComplexPairTy (ComplexExprEmitter::*Func) 2307a51313dSChris Lattner (const BinOpInfo &)); 2317a51313dSChris Lattner 2327a51313dSChris Lattner ComplexPairTy EmitBinAdd(const BinOpInfo &Op); 2337a51313dSChris Lattner ComplexPairTy EmitBinSub(const BinOpInfo &Op); 2347a51313dSChris Lattner ComplexPairTy EmitBinMul(const BinOpInfo &Op); 2357a51313dSChris Lattner ComplexPairTy EmitBinDiv(const BinOpInfo &Op); 2367a51313dSChris Lattner 237a216cad0SChandler Carruth ComplexPairTy EmitComplexBinOpLibCall(StringRef LibCallName, 238a216cad0SChandler Carruth const BinOpInfo &Op); 239a216cad0SChandler Carruth 2407a51313dSChris Lattner ComplexPairTy VisitBinAdd(const BinaryOperator *E) { 2417a51313dSChris Lattner return EmitBinAdd(EmitBinOps(E)); 2427a51313dSChris Lattner } 2437a51313dSChris Lattner ComplexPairTy VisitBinSub(const BinaryOperator *E) { 2447a51313dSChris Lattner return EmitBinSub(EmitBinOps(E)); 2457a51313dSChris Lattner } 24607bb1966SJohn McCall ComplexPairTy VisitBinMul(const BinaryOperator *E) { 24707bb1966SJohn McCall return EmitBinMul(EmitBinOps(E)); 24807bb1966SJohn McCall } 2497a51313dSChris Lattner ComplexPairTy VisitBinDiv(const BinaryOperator *E) { 2507a51313dSChris Lattner return EmitBinDiv(EmitBinOps(E)); 2517a51313dSChris Lattner } 2527a51313dSChris Lattner 2537a51313dSChris Lattner // Compound assignments. 2547a51313dSChris Lattner ComplexPairTy VisitBinAddAssign(const CompoundAssignOperator *E) { 2557a51313dSChris Lattner return EmitCompoundAssign(E, &ComplexExprEmitter::EmitBinAdd); 2567a51313dSChris Lattner } 2577a51313dSChris Lattner ComplexPairTy VisitBinSubAssign(const CompoundAssignOperator *E) { 2587a51313dSChris Lattner return EmitCompoundAssign(E, &ComplexExprEmitter::EmitBinSub); 2597a51313dSChris Lattner } 2607a51313dSChris Lattner ComplexPairTy VisitBinMulAssign(const CompoundAssignOperator *E) { 2617a51313dSChris Lattner return EmitCompoundAssign(E, &ComplexExprEmitter::EmitBinMul); 2627a51313dSChris Lattner } 2637a51313dSChris Lattner ComplexPairTy VisitBinDivAssign(const CompoundAssignOperator *E) { 2647a51313dSChris Lattner return EmitCompoundAssign(E, &ComplexExprEmitter::EmitBinDiv); 2657a51313dSChris Lattner } 2667a51313dSChris Lattner 2677a51313dSChris Lattner // GCC rejects rem/and/or/xor for integer complex. 2687a51313dSChris Lattner // Logical and/or always return int, never complex. 2697a51313dSChris Lattner 2707a51313dSChris Lattner // No comparisons produce a complex result. 27107bb1966SJohn McCall 27207bb1966SJohn McCall LValue EmitBinAssignLValue(const BinaryOperator *E, 27307bb1966SJohn McCall ComplexPairTy &Val); 2747a51313dSChris Lattner ComplexPairTy VisitBinAssign (const BinaryOperator *E); 2757a51313dSChris Lattner ComplexPairTy VisitBinComma (const BinaryOperator *E); 2767a51313dSChris Lattner 2777a51313dSChris Lattner 278c07a0c7eSJohn McCall ComplexPairTy 279c07a0c7eSJohn McCall VisitAbstractConditionalOperator(const AbstractConditionalOperator *CO); 2807a51313dSChris Lattner ComplexPairTy VisitChooseExpr(ChooseExpr *CE); 281dd7406e6SEli Friedman 282dd7406e6SEli Friedman ComplexPairTy VisitInitListExpr(InitListExpr *E); 28300079612SDaniel Dunbar 284afa84ae8SEli Friedman ComplexPairTy VisitCompoundLiteralExpr(CompoundLiteralExpr *E) { 285afa84ae8SEli Friedman return EmitLoadOfLValue(E); 286afa84ae8SEli Friedman } 287afa84ae8SEli Friedman 28800079612SDaniel Dunbar ComplexPairTy VisitVAArgExpr(VAArgExpr *E); 289df14b3a8SEli Friedman 290df14b3a8SEli Friedman ComplexPairTy VisitAtomicExpr(AtomicExpr *E) { 291df14b3a8SEli Friedman return CGF.EmitAtomicExpr(E).getComplexVal(); 292df14b3a8SEli Friedman } 2937a51313dSChris Lattner }; 2947a51313dSChris Lattner } // end anonymous namespace. 2957a51313dSChris Lattner 2967a51313dSChris Lattner //===----------------------------------------------------------------------===// 2977a51313dSChris Lattner // Utilities 2987a51313dSChris Lattner //===----------------------------------------------------------------------===// 2997a51313dSChris Lattner 30047fb9508SJohn McCall /// EmitLoadOfLValue - Given an RValue reference for a complex, emit code to 3017a51313dSChris Lattner /// load the real and imaginary pieces, returning them as Real/Imag. 3022d84e842SNick Lewycky ComplexPairTy ComplexExprEmitter::EmitLoadOfLValue(LValue lvalue, 3032d84e842SNick Lewycky SourceLocation loc) { 30447fb9508SJohn McCall assert(lvalue.isSimple() && "non-simple complex l-value?"); 305a8ec7eb9SJohn McCall if (lvalue.getType()->isAtomicType()) 3062d84e842SNick Lewycky return CGF.EmitAtomicLoad(lvalue, loc).getComplexVal(); 307a8ec7eb9SJohn McCall 30847fb9508SJohn McCall llvm::Value *SrcPtr = lvalue.getAddress(); 30947fb9508SJohn McCall bool isVolatile = lvalue.isVolatileQualified(); 31027dcbb24SJF Bastien unsigned AlignR = lvalue.getAlignment().getQuantity(); 31127dcbb24SJF Bastien ASTContext &C = CGF.getContext(); 31227dcbb24SJF Bastien QualType ComplexTy = lvalue.getType(); 31327dcbb24SJF Bastien unsigned ComplexAlign = C.getTypeAlignInChars(ComplexTy).getQuantity(); 31427dcbb24SJF Bastien unsigned AlignI = std::min(AlignR, ComplexAlign); 31547fb9508SJohn McCall 3168a13c418SCraig Topper llvm::Value *Real=nullptr, *Imag=nullptr; 317df0fe27bSMike Stump 31883fe49d1SJohn McCall if (!IgnoreReal || isVolatile) { 319ba9fd986SBenjamin Kramer llvm::Value *RealP = Builder.CreateStructGEP(SrcPtr, 0, 320ba9fd986SBenjamin Kramer SrcPtr->getName() + ".realp"); 32127dcbb24SJF Bastien Real = Builder.CreateAlignedLoad(RealP, AlignR, isVolatile, 32227dcbb24SJF Bastien SrcPtr->getName() + ".real"); 323df0fe27bSMike Stump } 324df0fe27bSMike Stump 32583fe49d1SJohn McCall if (!IgnoreImag || isVolatile) { 326ba9fd986SBenjamin Kramer llvm::Value *ImagP = Builder.CreateStructGEP(SrcPtr, 1, 327ba9fd986SBenjamin Kramer SrcPtr->getName() + ".imagp"); 32827dcbb24SJF Bastien Imag = Builder.CreateAlignedLoad(ImagP, AlignI, isVolatile, 32927dcbb24SJF Bastien SrcPtr->getName() + ".imag"); 330df0fe27bSMike Stump } 3317a51313dSChris Lattner return ComplexPairTy(Real, Imag); 3327a51313dSChris Lattner } 3337a51313dSChris Lattner 3347a51313dSChris Lattner /// EmitStoreOfComplex - Store the specified real/imag parts into the 3357a51313dSChris Lattner /// specified value pointer. 33647fb9508SJohn McCall void ComplexExprEmitter::EmitStoreOfComplex(ComplexPairTy Val, 33747fb9508SJohn McCall LValue lvalue, 33847fb9508SJohn McCall bool isInit) { 339a8ec7eb9SJohn McCall if (lvalue.getType()->isAtomicType()) 340a8ec7eb9SJohn McCall return CGF.EmitAtomicStore(RValue::getComplex(Val), lvalue, isInit); 341a8ec7eb9SJohn McCall 34247fb9508SJohn McCall llvm::Value *Ptr = lvalue.getAddress(); 3433e593cdbSChris Lattner llvm::Value *RealPtr = Builder.CreateStructGEP(Ptr, 0, "real"); 3443e593cdbSChris Lattner llvm::Value *ImagPtr = Builder.CreateStructGEP(Ptr, 1, "imag"); 34527dcbb24SJF Bastien unsigned AlignR = lvalue.getAlignment().getQuantity(); 34627dcbb24SJF Bastien ASTContext &C = CGF.getContext(); 34727dcbb24SJF Bastien QualType ComplexTy = lvalue.getType(); 34827dcbb24SJF Bastien unsigned ComplexAlign = C.getTypeAlignInChars(ComplexTy).getQuantity(); 34927dcbb24SJF Bastien unsigned AlignI = std::min(AlignR, ComplexAlign); 3507a51313dSChris Lattner 35127dcbb24SJF Bastien Builder.CreateAlignedStore(Val.first, RealPtr, AlignR, 35227dcbb24SJF Bastien lvalue.isVolatileQualified()); 35327dcbb24SJF Bastien Builder.CreateAlignedStore(Val.second, ImagPtr, AlignI, 35427dcbb24SJF Bastien lvalue.isVolatileQualified()); 3557a51313dSChris Lattner } 3567a51313dSChris Lattner 3577a51313dSChris Lattner 3587a51313dSChris Lattner 3597a51313dSChris Lattner //===----------------------------------------------------------------------===// 3607a51313dSChris Lattner // Visitor Methods 3617a51313dSChris Lattner //===----------------------------------------------------------------------===// 3627a51313dSChris Lattner 3637a51313dSChris Lattner ComplexPairTy ComplexExprEmitter::VisitExpr(Expr *E) { 364b74711dfSFariborz Jahanian CGF.ErrorUnsupported(E, "complex expression"); 365b74711dfSFariborz Jahanian llvm::Type *EltTy = 36647fb9508SJohn McCall CGF.ConvertType(getComplexType(E->getType())->getElementType()); 367b74711dfSFariborz Jahanian llvm::Value *U = llvm::UndefValue::get(EltTy); 368b74711dfSFariborz Jahanian return ComplexPairTy(U, U); 3697a51313dSChris Lattner } 3707a51313dSChris Lattner 3717a51313dSChris Lattner ComplexPairTy ComplexExprEmitter:: 3727a51313dSChris Lattner VisitImaginaryLiteral(const ImaginaryLiteral *IL) { 3737a51313dSChris Lattner llvm::Value *Imag = CGF.EmitScalarExpr(IL->getSubExpr()); 374294c2db4SJohn McCall return ComplexPairTy(llvm::Constant::getNullValue(Imag->getType()), Imag); 3757a51313dSChris Lattner } 3767a51313dSChris Lattner 3777a51313dSChris Lattner 3787a51313dSChris Lattner ComplexPairTy ComplexExprEmitter::VisitCallExpr(const CallExpr *E) { 379d8b7ae20SAnders Carlsson if (E->getCallReturnType()->isReferenceType()) 380d8b7ae20SAnders Carlsson return EmitLoadOfLValue(E); 381d8b7ae20SAnders Carlsson 3827a51313dSChris Lattner return CGF.EmitCallExpr(E).getComplexVal(); 3837a51313dSChris Lattner } 3847a51313dSChris Lattner 3857a51313dSChris Lattner ComplexPairTy ComplexExprEmitter::VisitStmtExpr(const StmtExpr *E) { 386ce1de617SJohn McCall CodeGenFunction::StmtExprEvaluation eval(CGF); 3874871a46cSEli Friedman llvm::Value *RetAlloca = CGF.EmitCompoundStmt(*E->getSubStmt(), true); 3884871a46cSEli Friedman assert(RetAlloca && "Expected complex return value"); 3892d84e842SNick Lewycky return EmitLoadOfLValue(CGF.MakeAddrLValue(RetAlloca, E->getType()), 3902d84e842SNick Lewycky E->getExprLoc()); 3917a51313dSChris Lattner } 3927a51313dSChris Lattner 3937a51313dSChris Lattner /// EmitComplexToComplexCast - Emit a cast from complex value Val to DestType. 3947a51313dSChris Lattner ComplexPairTy ComplexExprEmitter::EmitComplexToComplexCast(ComplexPairTy Val, 3957a51313dSChris Lattner QualType SrcType, 3967a51313dSChris Lattner QualType DestType) { 3977a51313dSChris Lattner // Get the src/dest element type. 39847fb9508SJohn McCall SrcType = SrcType->castAs<ComplexType>()->getElementType(); 39947fb9508SJohn McCall DestType = DestType->castAs<ComplexType>()->getElementType(); 4007a51313dSChris Lattner 4017a51313dSChris Lattner // C99 6.3.1.6: When a value of complex type is converted to another 4027a51313dSChris Lattner // complex type, both the real and imaginary parts follow the conversion 4037a51313dSChris Lattner // rules for the corresponding real types. 4047a51313dSChris Lattner Val.first = CGF.EmitScalarConversion(Val.first, SrcType, DestType); 4057a51313dSChris Lattner Val.second = CGF.EmitScalarConversion(Val.second, SrcType, DestType); 4067a51313dSChris Lattner return Val; 4077a51313dSChris Lattner } 4087a51313dSChris Lattner 409f045007fSEli Friedman ComplexPairTy ComplexExprEmitter::EmitScalarToComplexCast(llvm::Value *Val, 410f045007fSEli Friedman QualType SrcType, 411f045007fSEli Friedman QualType DestType) { 412f045007fSEli Friedman // Convert the input element to the element type of the complex. 413f045007fSEli Friedman DestType = DestType->castAs<ComplexType>()->getElementType(); 414f045007fSEli Friedman Val = CGF.EmitScalarConversion(Val, SrcType, DestType); 415f045007fSEli Friedman 416f045007fSEli Friedman // Return (realval, 0). 417f045007fSEli Friedman return ComplexPairTy(Val, llvm::Constant::getNullValue(Val->getType())); 418f045007fSEli Friedman } 419f045007fSEli Friedman 420c357f412SDouglas Gregor ComplexPairTy ComplexExprEmitter::EmitCast(CastExpr::CastKind CK, Expr *Op, 421c357f412SDouglas Gregor QualType DestTy) { 42234376a68SJohn McCall switch (CK) { 4235836852eSEli Friedman case CK_Dependent: llvm_unreachable("dependent cast kind in IR gen!"); 42434376a68SJohn McCall 425fa35df62SDavid Chisnall // Atomic to non-atomic casts may be more than a no-op for some platforms and 426fa35df62SDavid Chisnall // for some types. 427fa35df62SDavid Chisnall case CK_AtomicToNonAtomic: 428fa35df62SDavid Chisnall case CK_NonAtomicToAtomic: 42934376a68SJohn McCall case CK_NoOp: 43034376a68SJohn McCall case CK_LValueToRValue: 4315836852eSEli Friedman case CK_UserDefinedConversion: 43234376a68SJohn McCall return Visit(Op); 43334376a68SJohn McCall 4345836852eSEli Friedman case CK_LValueBitCast: { 43547fb9508SJohn McCall LValue origLV = CGF.EmitLValue(Op); 43647fb9508SJohn McCall llvm::Value *V = origLV.getAddress(); 437c357f412SDouglas Gregor V = Builder.CreateBitCast(V, 438c357f412SDouglas Gregor CGF.ConvertType(CGF.getContext().getPointerType(DestTy))); 43947fb9508SJohn McCall return EmitLoadOfLValue(CGF.MakeAddrLValue(V, DestTy, 4402d84e842SNick Lewycky origLV.getAlignment()), 4412d84e842SNick Lewycky Op->getExprLoc()); 442c357f412SDouglas Gregor } 443c357f412SDouglas Gregor 4445836852eSEli Friedman case CK_BitCast: 4455836852eSEli Friedman case CK_BaseToDerived: 4465836852eSEli Friedman case CK_DerivedToBase: 4475836852eSEli Friedman case CK_UncheckedDerivedToBase: 4485836852eSEli Friedman case CK_Dynamic: 4495836852eSEli Friedman case CK_ToUnion: 4505836852eSEli Friedman case CK_ArrayToPointerDecay: 4515836852eSEli Friedman case CK_FunctionToPointerDecay: 4525836852eSEli Friedman case CK_NullToPointer: 4535836852eSEli Friedman case CK_NullToMemberPointer: 4545836852eSEli Friedman case CK_BaseToDerivedMemberPointer: 4555836852eSEli Friedman case CK_DerivedToBaseMemberPointer: 4565836852eSEli Friedman case CK_MemberPointerToBoolean: 457c62bb391SJohn McCall case CK_ReinterpretMemberPointer: 4585836852eSEli Friedman case CK_ConstructorConversion: 4595836852eSEli Friedman case CK_IntegralToPointer: 4605836852eSEli Friedman case CK_PointerToIntegral: 4615836852eSEli Friedman case CK_PointerToBoolean: 4625836852eSEli Friedman case CK_ToVoid: 4635836852eSEli Friedman case CK_VectorSplat: 4645836852eSEli Friedman case CK_IntegralCast: 4655836852eSEli Friedman case CK_IntegralToBoolean: 4665836852eSEli Friedman case CK_IntegralToFloating: 4675836852eSEli Friedman case CK_FloatingToIntegral: 4685836852eSEli Friedman case CK_FloatingToBoolean: 4695836852eSEli Friedman case CK_FloatingCast: 4709320b87cSJohn McCall case CK_CPointerToObjCPointerCast: 4719320b87cSJohn McCall case CK_BlockPointerToObjCPointerCast: 4725836852eSEli Friedman case CK_AnyPointerToBlockPointerCast: 4735836852eSEli Friedman case CK_ObjCObjectLValueCast: 4745836852eSEli Friedman case CK_FloatingComplexToReal: 4755836852eSEli Friedman case CK_FloatingComplexToBoolean: 4765836852eSEli Friedman case CK_IntegralComplexToReal: 4775836852eSEli Friedman case CK_IntegralComplexToBoolean: 4782d637d2eSJohn McCall case CK_ARCProduceObject: 4792d637d2eSJohn McCall case CK_ARCConsumeObject: 4802d637d2eSJohn McCall case CK_ARCReclaimReturnedObject: 4812d637d2eSJohn McCall case CK_ARCExtendBlockObject: 482ed90df38SDouglas Gregor case CK_CopyAndAutoreleaseBlockObject: 48334866c77SEli Friedman case CK_BuiltinFnToFnPtr: 4841b4fb3e0SGuy Benyei case CK_ZeroToOCLEvent: 485e1468322SDavid Tweed case CK_AddressSpaceConversion: 4865836852eSEli Friedman llvm_unreachable("invalid cast kind for complex value"); 4875836852eSEli Friedman 4885836852eSEli Friedman case CK_FloatingRealToComplex: 489f045007fSEli Friedman case CK_IntegralRealToComplex: 490f045007fSEli Friedman return EmitScalarToComplexCast(CGF.EmitScalarExpr(Op), 491f045007fSEli Friedman Op->getType(), DestTy); 4927a51313dSChris Lattner 4935836852eSEli Friedman case CK_FloatingComplexCast: 4945836852eSEli Friedman case CK_FloatingComplexToIntegralComplex: 4955836852eSEli Friedman case CK_IntegralComplexCast: 4965836852eSEli Friedman case CK_IntegralComplexToFloatingComplex: 4975836852eSEli Friedman return EmitComplexToComplexCast(Visit(Op), Op->getType(), DestTy); 4985836852eSEli Friedman } 4995836852eSEli Friedman 5005836852eSEli Friedman llvm_unreachable("unknown cast resulting in complex value"); 5015836852eSEli Friedman } 5025836852eSEli Friedman 5037a51313dSChris Lattner ComplexPairTy ComplexExprEmitter::VisitUnaryMinus(const UnaryOperator *E) { 504df0fe27bSMike Stump TestAndClearIgnoreReal(); 505df0fe27bSMike Stump TestAndClearIgnoreImag(); 5067a51313dSChris Lattner ComplexPairTy Op = Visit(E->getSubExpr()); 50794dfae24SChris Lattner 50894dfae24SChris Lattner llvm::Value *ResR, *ResI; 509998f9d97SDuncan Sands if (Op.first->getType()->isFloatingPointTy()) { 51094dfae24SChris Lattner ResR = Builder.CreateFNeg(Op.first, "neg.r"); 51194dfae24SChris Lattner ResI = Builder.CreateFNeg(Op.second, "neg.i"); 51294dfae24SChris Lattner } else { 51394dfae24SChris Lattner ResR = Builder.CreateNeg(Op.first, "neg.r"); 51494dfae24SChris Lattner ResI = Builder.CreateNeg(Op.second, "neg.i"); 51594dfae24SChris Lattner } 5167a51313dSChris Lattner return ComplexPairTy(ResR, ResI); 5177a51313dSChris Lattner } 5187a51313dSChris Lattner 5197a51313dSChris Lattner ComplexPairTy ComplexExprEmitter::VisitUnaryNot(const UnaryOperator *E) { 520df0fe27bSMike Stump TestAndClearIgnoreReal(); 521df0fe27bSMike Stump TestAndClearIgnoreImag(); 5227a51313dSChris Lattner // ~(a+ib) = a + i*-b 5237a51313dSChris Lattner ComplexPairTy Op = Visit(E->getSubExpr()); 52494dfae24SChris Lattner llvm::Value *ResI; 525998f9d97SDuncan Sands if (Op.second->getType()->isFloatingPointTy()) 52694dfae24SChris Lattner ResI = Builder.CreateFNeg(Op.second, "conj.i"); 52794dfae24SChris Lattner else 52894dfae24SChris Lattner ResI = Builder.CreateNeg(Op.second, "conj.i"); 52994dfae24SChris Lattner 5307a51313dSChris Lattner return ComplexPairTy(Op.first, ResI); 5317a51313dSChris Lattner } 5327a51313dSChris Lattner 5337a51313dSChris Lattner ComplexPairTy ComplexExprEmitter::EmitBinAdd(const BinOpInfo &Op) { 53494dfae24SChris Lattner llvm::Value *ResR, *ResI; 53594dfae24SChris Lattner 536998f9d97SDuncan Sands if (Op.LHS.first->getType()->isFloatingPointTy()) { 53794dfae24SChris Lattner ResR = Builder.CreateFAdd(Op.LHS.first, Op.RHS.first, "add.r"); 538a216cad0SChandler Carruth if (Op.LHS.second && Op.RHS.second) 53994dfae24SChris Lattner ResI = Builder.CreateFAdd(Op.LHS.second, Op.RHS.second, "add.i"); 540a216cad0SChandler Carruth else 541a216cad0SChandler Carruth ResI = Op.LHS.second ? Op.LHS.second : Op.RHS.second; 542a216cad0SChandler Carruth assert(ResI && "Only one operand may be real!"); 54394dfae24SChris Lattner } else { 54494dfae24SChris Lattner ResR = Builder.CreateAdd(Op.LHS.first, Op.RHS.first, "add.r"); 545a216cad0SChandler Carruth assert(Op.LHS.second && Op.RHS.second && 546a216cad0SChandler Carruth "Both operands of integer complex operators must be complex!"); 54794dfae24SChris Lattner ResI = Builder.CreateAdd(Op.LHS.second, Op.RHS.second, "add.i"); 54894dfae24SChris Lattner } 5497a51313dSChris Lattner return ComplexPairTy(ResR, ResI); 5507a51313dSChris Lattner } 5517a51313dSChris Lattner 5527a51313dSChris Lattner ComplexPairTy ComplexExprEmitter::EmitBinSub(const BinOpInfo &Op) { 55394dfae24SChris Lattner llvm::Value *ResR, *ResI; 554998f9d97SDuncan Sands if (Op.LHS.first->getType()->isFloatingPointTy()) { 55594dfae24SChris Lattner ResR = Builder.CreateFSub(Op.LHS.first, Op.RHS.first, "sub.r"); 556a216cad0SChandler Carruth if (Op.LHS.second && Op.RHS.second) 55794dfae24SChris Lattner ResI = Builder.CreateFSub(Op.LHS.second, Op.RHS.second, "sub.i"); 558a216cad0SChandler Carruth else 559a216cad0SChandler Carruth ResI = Op.LHS.second ? Op.LHS.second 560a216cad0SChandler Carruth : Builder.CreateFNeg(Op.RHS.second, "sub.i"); 561a216cad0SChandler Carruth assert(ResI && "Only one operand may be real!"); 56294dfae24SChris Lattner } else { 56394dfae24SChris Lattner ResR = Builder.CreateSub(Op.LHS.first, Op.RHS.first, "sub.r"); 564a216cad0SChandler Carruth assert(Op.LHS.second && Op.RHS.second && 565a216cad0SChandler Carruth "Both operands of integer complex operators must be complex!"); 56694dfae24SChris Lattner ResI = Builder.CreateSub(Op.LHS.second, Op.RHS.second, "sub.i"); 56794dfae24SChris Lattner } 5687a51313dSChris Lattner return ComplexPairTy(ResR, ResI); 5697a51313dSChris Lattner } 5707a51313dSChris Lattner 571a216cad0SChandler Carruth /// \brief Emit a libcall for a binary operation on complex types. 572a216cad0SChandler Carruth ComplexPairTy ComplexExprEmitter::EmitComplexBinOpLibCall(StringRef LibCallName, 573a216cad0SChandler Carruth const BinOpInfo &Op) { 574a216cad0SChandler Carruth CallArgList Args; 575a216cad0SChandler Carruth Args.add(RValue::get(Op.LHS.first), 576a216cad0SChandler Carruth Op.Ty->castAs<ComplexType>()->getElementType()); 577a216cad0SChandler Carruth Args.add(RValue::get(Op.LHS.second), 578a216cad0SChandler Carruth Op.Ty->castAs<ComplexType>()->getElementType()); 579a216cad0SChandler Carruth Args.add(RValue::get(Op.RHS.first), 580a216cad0SChandler Carruth Op.Ty->castAs<ComplexType>()->getElementType()); 581a216cad0SChandler Carruth Args.add(RValue::get(Op.RHS.second), 582a216cad0SChandler Carruth Op.Ty->castAs<ComplexType>()->getElementType()); 5837a51313dSChris Lattner 584a216cad0SChandler Carruth // We *must* use the full CG function call building logic here because the 585a216cad0SChandler Carruth // complex type has special ABI handling. 586a216cad0SChandler Carruth const CGFunctionInfo &FuncInfo = CGF.CGM.getTypes().arrangeFreeFunctionCall( 587a216cad0SChandler Carruth Op.Ty, Args, FunctionType::ExtInfo(), RequiredArgs::All); 588a216cad0SChandler Carruth llvm::FunctionType *FTy = CGF.CGM.getTypes().GetFunctionType(FuncInfo); 589a216cad0SChandler Carruth llvm::Constant *Func = CGF.CGM.CreateRuntimeFunction(FTy, LibCallName); 590a216cad0SChandler Carruth 591686de241SChandler Carruth return CGF.EmitCall(FuncInfo, Func, ReturnValueSlot(), Args).getComplexVal(); 592a216cad0SChandler Carruth } 593a216cad0SChandler Carruth 5940c4b230bSChandler Carruth /// \brief Lookup the libcall name for a given floating point type complex 5950c4b230bSChandler Carruth /// multiply. 5960c4b230bSChandler Carruth static StringRef getComplexMultiplyLibCallName(llvm::Type *Ty) { 5970c4b230bSChandler Carruth switch (Ty->getTypeID()) { 5980c4b230bSChandler Carruth default: 5990c4b230bSChandler Carruth llvm_unreachable("Unsupported floating point type!"); 6000c4b230bSChandler Carruth case llvm::Type::HalfTyID: 6010c4b230bSChandler Carruth return "__mulhc3"; 6020c4b230bSChandler Carruth case llvm::Type::FloatTyID: 6030c4b230bSChandler Carruth return "__mulsc3"; 6040c4b230bSChandler Carruth case llvm::Type::DoubleTyID: 6050c4b230bSChandler Carruth return "__muldc3"; 6060c4b230bSChandler Carruth case llvm::Type::PPC_FP128TyID: 6070c4b230bSChandler Carruth return "__multc3"; 6080c4b230bSChandler Carruth case llvm::Type::X86_FP80TyID: 6090c4b230bSChandler Carruth return "__mulxc3"; 610*444822bbSJiangning Liu case llvm::Type::FP128TyID: 611*444822bbSJiangning Liu return "__multc3"; 6120c4b230bSChandler Carruth } 6130c4b230bSChandler Carruth } 6140c4b230bSChandler Carruth 615a216cad0SChandler Carruth // See C11 Annex G.5.1 for the semantics of multiplicative operators on complex 616a216cad0SChandler Carruth // typed values. 6177a51313dSChris Lattner ComplexPairTy ComplexExprEmitter::EmitBinMul(const BinOpInfo &Op) { 61894dfae24SChris Lattner using llvm::Value; 61994dfae24SChris Lattner Value *ResR, *ResI; 6200c4b230bSChandler Carruth llvm::MDBuilder MDHelper(CGF.getLLVMContext()); 6217a51313dSChris Lattner 622998f9d97SDuncan Sands if (Op.LHS.first->getType()->isFloatingPointTy()) { 623a216cad0SChandler Carruth // The general formulation is: 624a216cad0SChandler Carruth // (a + ib) * (c + id) = (a * c - b * d) + i(a * d + b * c) 625a216cad0SChandler Carruth // 626a216cad0SChandler Carruth // But we can fold away components which would be zero due to a real 627a216cad0SChandler Carruth // operand according to C11 Annex G.5.1p2. 628a216cad0SChandler Carruth // FIXME: C11 also provides for imaginary types which would allow folding 629a216cad0SChandler Carruth // still more of this within the type system. 63094dfae24SChris Lattner 631a216cad0SChandler Carruth if (Op.LHS.second && Op.RHS.second) { 6320c4b230bSChandler Carruth // If both operands are complex, emit the core math directly, and then 6330c4b230bSChandler Carruth // test for NaNs. If we find NaNs in the result, we delegate to a libcall 6340c4b230bSChandler Carruth // to carefully re-compute the correct infinity representation if 6350c4b230bSChandler Carruth // possible. The expectation is that the presence of NaNs here is 6360c4b230bSChandler Carruth // *extremely* rare, and so the cost of the libcall is almost irrelevant. 6370c4b230bSChandler Carruth // This is good, because the libcall re-computes the core multiplication 6380c4b230bSChandler Carruth // exactly the same as we do here and re-tests for NaNs in order to be 6390c4b230bSChandler Carruth // a generic complex*complex libcall. 6400c4b230bSChandler Carruth 6410c4b230bSChandler Carruth // First compute the four products. 6420c4b230bSChandler Carruth Value *AC = Builder.CreateFMul(Op.LHS.first, Op.RHS.first, "mul_ac"); 6430c4b230bSChandler Carruth Value *BD = Builder.CreateFMul(Op.LHS.second, Op.RHS.second, "mul_bd"); 6440c4b230bSChandler Carruth Value *AD = Builder.CreateFMul(Op.LHS.first, Op.RHS.second, "mul_ad"); 6450c4b230bSChandler Carruth Value *BC = Builder.CreateFMul(Op.LHS.second, Op.RHS.first, "mul_bc"); 6460c4b230bSChandler Carruth 6470c4b230bSChandler Carruth // The real part is the difference of the first two, the imaginary part is 6480c4b230bSChandler Carruth // the sum of the second. 6490c4b230bSChandler Carruth ResR = Builder.CreateFSub(AC, BD, "mul_r"); 6500c4b230bSChandler Carruth ResI = Builder.CreateFAdd(AD, BC, "mul_i"); 6510c4b230bSChandler Carruth 6520c4b230bSChandler Carruth // Emit the test for the real part becoming NaN and create a branch to 6530c4b230bSChandler Carruth // handle it. We test for NaN by comparing the number to itself. 6540c4b230bSChandler Carruth Value *IsRNaN = Builder.CreateFCmpUNO(ResR, ResR, "isnan_cmp"); 6550c4b230bSChandler Carruth llvm::BasicBlock *ContBB = CGF.createBasicBlock("complex_mul_cont"); 6560c4b230bSChandler Carruth llvm::BasicBlock *INaNBB = CGF.createBasicBlock("complex_mul_imag_nan"); 6570c4b230bSChandler Carruth llvm::Instruction *Branch = Builder.CreateCondBr(IsRNaN, INaNBB, ContBB); 6580c4b230bSChandler Carruth llvm::BasicBlock *OrigBB = Branch->getParent(); 6590c4b230bSChandler Carruth 6600c4b230bSChandler Carruth // Give hint that we very much don't expect to see NaNs. 6610c4b230bSChandler Carruth // Value chosen to match UR_NONTAKEN_WEIGHT, see BranchProbabilityInfo.cpp 6620c4b230bSChandler Carruth llvm::MDNode *BrWeight = MDHelper.createBranchWeights(1, (1U << 20) - 1); 6630c4b230bSChandler Carruth Branch->setMetadata(llvm::LLVMContext::MD_prof, BrWeight); 6640c4b230bSChandler Carruth 6650c4b230bSChandler Carruth // Now test the imaginary part and create its branch. 6660c4b230bSChandler Carruth CGF.EmitBlock(INaNBB); 6670c4b230bSChandler Carruth Value *IsINaN = Builder.CreateFCmpUNO(ResI, ResI, "isnan_cmp"); 6680c4b230bSChandler Carruth llvm::BasicBlock *LibCallBB = CGF.createBasicBlock("complex_mul_libcall"); 6690c4b230bSChandler Carruth Branch = Builder.CreateCondBr(IsINaN, LibCallBB, ContBB); 6700c4b230bSChandler Carruth Branch->setMetadata(llvm::LLVMContext::MD_prof, BrWeight); 6710c4b230bSChandler Carruth 6720c4b230bSChandler Carruth // Now emit the libcall on this slowest of the slow paths. 6730c4b230bSChandler Carruth CGF.EmitBlock(LibCallBB); 6740c4b230bSChandler Carruth Value *LibCallR, *LibCallI; 6750c4b230bSChandler Carruth std::tie(LibCallR, LibCallI) = EmitComplexBinOpLibCall( 6760c4b230bSChandler Carruth getComplexMultiplyLibCallName(Op.LHS.first->getType()), Op); 6770c4b230bSChandler Carruth Builder.CreateBr(ContBB); 6780c4b230bSChandler Carruth 6790c4b230bSChandler Carruth // Finally continue execution by phi-ing together the different 6800c4b230bSChandler Carruth // computation paths. 6810c4b230bSChandler Carruth CGF.EmitBlock(ContBB); 6820c4b230bSChandler Carruth llvm::PHINode *RealPHI = Builder.CreatePHI(ResR->getType(), 3, "real_mul_phi"); 6830c4b230bSChandler Carruth RealPHI->addIncoming(ResR, OrigBB); 6840c4b230bSChandler Carruth RealPHI->addIncoming(ResR, INaNBB); 6850c4b230bSChandler Carruth RealPHI->addIncoming(LibCallR, LibCallBB); 6860c4b230bSChandler Carruth llvm::PHINode *ImagPHI = Builder.CreatePHI(ResI->getType(), 3, "imag_mul_phi"); 6870c4b230bSChandler Carruth ImagPHI->addIncoming(ResI, OrigBB); 6880c4b230bSChandler Carruth ImagPHI->addIncoming(ResI, INaNBB); 6890c4b230bSChandler Carruth ImagPHI->addIncoming(LibCallI, LibCallBB); 6900c4b230bSChandler Carruth return ComplexPairTy(RealPHI, ImagPHI); 691a216cad0SChandler Carruth } 692a216cad0SChandler Carruth assert((Op.LHS.second || Op.RHS.second) && 693a216cad0SChandler Carruth "At least one operand must be complex!"); 694a216cad0SChandler Carruth 695a216cad0SChandler Carruth // If either of the operands is a real rather than a complex, the 696a216cad0SChandler Carruth // imaginary component is ignored when computing the real component of the 697a216cad0SChandler Carruth // result. 698a216cad0SChandler Carruth ResR = Builder.CreateFMul(Op.LHS.first, Op.RHS.first, "mul.rl"); 699a216cad0SChandler Carruth 700a216cad0SChandler Carruth ResI = Op.LHS.second 701a216cad0SChandler Carruth ? Builder.CreateFMul(Op.LHS.second, Op.RHS.first, "mul.il") 702a216cad0SChandler Carruth : Builder.CreateFMul(Op.LHS.first, Op.RHS.second, "mul.ir"); 70394dfae24SChris Lattner } else { 704a216cad0SChandler Carruth assert(Op.LHS.second && Op.RHS.second && 705a216cad0SChandler Carruth "Both operands of integer complex operators must be complex!"); 70694dfae24SChris Lattner Value *ResRl = Builder.CreateMul(Op.LHS.first, Op.RHS.first, "mul.rl"); 70794dfae24SChris Lattner Value *ResRr = Builder.CreateMul(Op.LHS.second, Op.RHS.second, "mul.rr"); 70894dfae24SChris Lattner ResR = Builder.CreateSub(ResRl, ResRr, "mul.r"); 70994dfae24SChris Lattner 71094dfae24SChris Lattner Value *ResIl = Builder.CreateMul(Op.LHS.second, Op.RHS.first, "mul.il"); 71194dfae24SChris Lattner Value *ResIr = Builder.CreateMul(Op.LHS.first, Op.RHS.second, "mul.ir"); 71294dfae24SChris Lattner ResI = Builder.CreateAdd(ResIl, ResIr, "mul.i"); 71394dfae24SChris Lattner } 7147a51313dSChris Lattner return ComplexPairTy(ResR, ResI); 7157a51313dSChris Lattner } 7167a51313dSChris Lattner 717a216cad0SChandler Carruth // See C11 Annex G.5.1 for the semantics of multiplicative operators on complex 718a216cad0SChandler Carruth // typed values. 7197a51313dSChris Lattner ComplexPairTy ComplexExprEmitter::EmitBinDiv(const BinOpInfo &Op) { 7207a51313dSChris Lattner llvm::Value *LHSr = Op.LHS.first, *LHSi = Op.LHS.second; 7217a51313dSChris Lattner llvm::Value *RHSr = Op.RHS.first, *RHSi = Op.RHS.second; 7227a51313dSChris Lattner 72394dfae24SChris Lattner 72494dfae24SChris Lattner llvm::Value *DSTr, *DSTi; 725a216cad0SChandler Carruth if (LHSr->getType()->isFloatingPointTy()) { 726a216cad0SChandler Carruth // If we have a complex operand on the RHS, we delegate to a libcall to 727a216cad0SChandler Carruth // handle all of the complexities and minimize underflow/overflow cases. 728a216cad0SChandler Carruth // 729a216cad0SChandler Carruth // FIXME: We would be able to avoid the libcall in many places if we 730a216cad0SChandler Carruth // supported imaginary types in addition to complex types. 731a216cad0SChandler Carruth if (RHSi) { 732a216cad0SChandler Carruth BinOpInfo LibCallOp = Op; 733a216cad0SChandler Carruth // If LHS was a real, supply a null imaginary part. 734a216cad0SChandler Carruth if (!LHSi) 735a216cad0SChandler Carruth LibCallOp.LHS.second = llvm::Constant::getNullValue(LHSr->getType()); 73694dfae24SChris Lattner 737a216cad0SChandler Carruth StringRef LibCallName; 738a216cad0SChandler Carruth switch (LHSr->getType()->getTypeID()) { 739a216cad0SChandler Carruth default: 740a216cad0SChandler Carruth llvm_unreachable("Unsupported floating point type!"); 741a216cad0SChandler Carruth case llvm::Type::HalfTyID: 742a216cad0SChandler Carruth return EmitComplexBinOpLibCall("__divhc3", LibCallOp); 743a216cad0SChandler Carruth case llvm::Type::FloatTyID: 744a216cad0SChandler Carruth return EmitComplexBinOpLibCall("__divsc3", LibCallOp); 745a216cad0SChandler Carruth case llvm::Type::DoubleTyID: 746a216cad0SChandler Carruth return EmitComplexBinOpLibCall("__divdc3", LibCallOp); 747aa3e9f5aSJoerg Sonnenberger case llvm::Type::PPC_FP128TyID: 748aa3e9f5aSJoerg Sonnenberger return EmitComplexBinOpLibCall("__divtc3", LibCallOp); 749a216cad0SChandler Carruth case llvm::Type::X86_FP80TyID: 750a216cad0SChandler Carruth return EmitComplexBinOpLibCall("__divxc3", LibCallOp); 751*444822bbSJiangning Liu case llvm::Type::FP128TyID: 752*444822bbSJiangning Liu return EmitComplexBinOpLibCall("__divtc3", LibCallOp); 753a216cad0SChandler Carruth } 754a216cad0SChandler Carruth } 755a216cad0SChandler Carruth assert(LHSi && "Can have at most one non-complex operand!"); 75694dfae24SChris Lattner 757a216cad0SChandler Carruth DSTr = Builder.CreateFDiv(LHSr, RHSr); 758a216cad0SChandler Carruth DSTi = Builder.CreateFDiv(LHSi, RHSr); 75994dfae24SChris Lattner } else { 760a216cad0SChandler Carruth assert(Op.LHS.second && Op.RHS.second && 761a216cad0SChandler Carruth "Both operands of integer complex operators must be complex!"); 7627a51313dSChris Lattner // (a+ib) / (c+id) = ((ac+bd)/(cc+dd)) + i((bc-ad)/(cc+dd)) 76376399eb2SBenjamin Kramer llvm::Value *Tmp1 = Builder.CreateMul(LHSr, RHSr); // a*c 76476399eb2SBenjamin Kramer llvm::Value *Tmp2 = Builder.CreateMul(LHSi, RHSi); // b*d 76576399eb2SBenjamin Kramer llvm::Value *Tmp3 = Builder.CreateAdd(Tmp1, Tmp2); // ac+bd 7667a51313dSChris Lattner 76776399eb2SBenjamin Kramer llvm::Value *Tmp4 = Builder.CreateMul(RHSr, RHSr); // c*c 76876399eb2SBenjamin Kramer llvm::Value *Tmp5 = Builder.CreateMul(RHSi, RHSi); // d*d 76976399eb2SBenjamin Kramer llvm::Value *Tmp6 = Builder.CreateAdd(Tmp4, Tmp5); // cc+dd 7707a51313dSChris Lattner 77176399eb2SBenjamin Kramer llvm::Value *Tmp7 = Builder.CreateMul(LHSi, RHSr); // b*c 77276399eb2SBenjamin Kramer llvm::Value *Tmp8 = Builder.CreateMul(LHSr, RHSi); // a*d 77376399eb2SBenjamin Kramer llvm::Value *Tmp9 = Builder.CreateSub(Tmp7, Tmp8); // bc-ad 7747a51313dSChris Lattner 77547fb9508SJohn McCall if (Op.Ty->castAs<ComplexType>()->getElementType()->isUnsignedIntegerType()) { 77676399eb2SBenjamin Kramer DSTr = Builder.CreateUDiv(Tmp3, Tmp6); 77776399eb2SBenjamin Kramer DSTi = Builder.CreateUDiv(Tmp9, Tmp6); 7787a51313dSChris Lattner } else { 77976399eb2SBenjamin Kramer DSTr = Builder.CreateSDiv(Tmp3, Tmp6); 78076399eb2SBenjamin Kramer DSTi = Builder.CreateSDiv(Tmp9, Tmp6); 7817a51313dSChris Lattner } 7827a51313dSChris Lattner } 7837a51313dSChris Lattner 7847a51313dSChris Lattner return ComplexPairTy(DSTr, DSTi); 7857a51313dSChris Lattner } 7867a51313dSChris Lattner 7877a51313dSChris Lattner ComplexExprEmitter::BinOpInfo 7887a51313dSChris Lattner ComplexExprEmitter::EmitBinOps(const BinaryOperator *E) { 789df0fe27bSMike Stump TestAndClearIgnoreReal(); 790df0fe27bSMike Stump TestAndClearIgnoreImag(); 7917a51313dSChris Lattner BinOpInfo Ops; 792a216cad0SChandler Carruth if (E->getLHS()->getType()->isRealFloatingType()) 793a216cad0SChandler Carruth Ops.LHS = ComplexPairTy(CGF.EmitScalarExpr(E->getLHS()), nullptr); 794a216cad0SChandler Carruth else 7957a51313dSChris Lattner Ops.LHS = Visit(E->getLHS()); 796a216cad0SChandler Carruth if (E->getRHS()->getType()->isRealFloatingType()) 797a216cad0SChandler Carruth Ops.RHS = ComplexPairTy(CGF.EmitScalarExpr(E->getRHS()), nullptr); 798a216cad0SChandler Carruth else 7997a51313dSChris Lattner Ops.RHS = Visit(E->getRHS()); 800a216cad0SChandler Carruth 8017a51313dSChris Lattner Ops.Ty = E->getType(); 8027a51313dSChris Lattner return Ops; 8037a51313dSChris Lattner } 8047a51313dSChris Lattner 8057a51313dSChris Lattner 80607bb1966SJohn McCall LValue ComplexExprEmitter:: 80707bb1966SJohn McCall EmitCompoundAssignLValue(const CompoundAssignOperator *E, 80807bb1966SJohn McCall ComplexPairTy (ComplexExprEmitter::*Func)(const BinOpInfo&), 809f045007fSEli Friedman RValue &Val) { 810df0fe27bSMike Stump TestAndClearIgnoreReal(); 811df0fe27bSMike Stump TestAndClearIgnoreImag(); 8128dfa5f17SJeffrey Yasskin QualType LHSTy = E->getLHS()->getType(); 8137a51313dSChris Lattner 814df0fe27bSMike Stump BinOpInfo OpInfo; 815df0fe27bSMike Stump 816df0fe27bSMike Stump // Load the RHS and LHS operands. 817df0fe27bSMike Stump // __block variables need to have the rhs evaluated first, plus this should 818fa8edb11SJohn McCall // improve codegen a little. 819df0fe27bSMike Stump OpInfo.Ty = E->getComputationResultType(); 820a216cad0SChandler Carruth QualType ComplexElementTy = cast<ComplexType>(OpInfo.Ty)->getElementType(); 821fa8edb11SJohn McCall 822fa8edb11SJohn McCall // The RHS should have been converted to the computation type. 823a216cad0SChandler Carruth if (E->getRHS()->getType()->isRealFloatingType()) { 824a216cad0SChandler Carruth assert( 825a216cad0SChandler Carruth CGF.getContext() 826a216cad0SChandler Carruth .hasSameUnqualifiedType(ComplexElementTy, E->getRHS()->getType())); 827a216cad0SChandler Carruth OpInfo.RHS = ComplexPairTy(CGF.EmitScalarExpr(E->getRHS()), nullptr); 828a216cad0SChandler Carruth } else { 829a216cad0SChandler Carruth assert(CGF.getContext() 830a216cad0SChandler Carruth .hasSameUnqualifiedType(OpInfo.Ty, E->getRHS()->getType())); 831fa8edb11SJohn McCall OpInfo.RHS = Visit(E->getRHS()); 832a216cad0SChandler Carruth } 833df0fe27bSMike Stump 8348c94ffe7SDaniel Dunbar LValue LHS = CGF.EmitLValue(E->getLHS()); 835e26a872bSJohn McCall 836f045007fSEli Friedman // Load from the l-value and convert it. 837f045007fSEli Friedman if (LHSTy->isAnyComplexType()) { 8382d84e842SNick Lewycky ComplexPairTy LHSVal = EmitLoadOfLValue(LHS, E->getExprLoc()); 839f045007fSEli Friedman OpInfo.LHS = EmitComplexToComplexCast(LHSVal, LHSTy, OpInfo.Ty); 840f045007fSEli Friedman } else { 8412d84e842SNick Lewycky llvm::Value *LHSVal = CGF.EmitLoadOfScalar(LHS, E->getExprLoc()); 842a216cad0SChandler Carruth // For floating point real operands we can directly pass the scalar form 843a216cad0SChandler Carruth // to the binary operator emission and potentially get more efficient code. 844a216cad0SChandler Carruth if (LHSTy->isRealFloatingType()) { 845a216cad0SChandler Carruth if (!CGF.getContext().hasSameUnqualifiedType(ComplexElementTy, LHSTy)) 846a216cad0SChandler Carruth LHSVal = CGF.EmitScalarConversion(LHSVal, LHSTy, ComplexElementTy); 847a216cad0SChandler Carruth OpInfo.LHS = ComplexPairTy(LHSVal, nullptr); 848a216cad0SChandler Carruth } else { 849f045007fSEli Friedman OpInfo.LHS = EmitScalarToComplexCast(LHSVal, LHSTy, OpInfo.Ty); 850f045007fSEli Friedman } 851a216cad0SChandler Carruth } 8527a51313dSChris Lattner 8537a51313dSChris Lattner // Expand the binary operator. 8547a51313dSChris Lattner ComplexPairTy Result = (this->*Func)(OpInfo); 8557a51313dSChris Lattner 856f045007fSEli Friedman // Truncate the result and store it into the LHS lvalue. 857f045007fSEli Friedman if (LHSTy->isAnyComplexType()) { 858f045007fSEli Friedman ComplexPairTy ResVal = EmitComplexToComplexCast(Result, OpInfo.Ty, LHSTy); 859f045007fSEli Friedman EmitStoreOfComplex(ResVal, LHS, /*isInit*/ false); 860f045007fSEli Friedman Val = RValue::getComplex(ResVal); 861f045007fSEli Friedman } else { 862f045007fSEli Friedman llvm::Value *ResVal = 863f045007fSEli Friedman CGF.EmitComplexToScalarConversion(Result, OpInfo.Ty, LHSTy); 864f045007fSEli Friedman CGF.EmitStoreOfScalar(ResVal, LHS, /*isInit*/ false); 865f045007fSEli Friedman Val = RValue::get(ResVal); 866f045007fSEli Friedman } 8678c94ffe7SDaniel Dunbar 86807bb1966SJohn McCall return LHS; 8697a51313dSChris Lattner } 8707a51313dSChris Lattner 87107bb1966SJohn McCall // Compound assignments. 87207bb1966SJohn McCall ComplexPairTy ComplexExprEmitter:: 87307bb1966SJohn McCall EmitCompoundAssign(const CompoundAssignOperator *E, 87407bb1966SJohn McCall ComplexPairTy (ComplexExprEmitter::*Func)(const BinOpInfo&)){ 875f045007fSEli Friedman RValue Val; 87607bb1966SJohn McCall LValue LV = EmitCompoundAssignLValue(E, Func, Val); 87707bb1966SJohn McCall 87807bb1966SJohn McCall // The result of an assignment in C is the assigned r-value. 8799c6890a7SRichard Smith if (!CGF.getLangOpts().CPlusPlus) 880f045007fSEli Friedman return Val.getComplexVal(); 88107bb1966SJohn McCall 88207bb1966SJohn McCall // If the lvalue is non-volatile, return the computed value of the assignment. 88307bb1966SJohn McCall if (!LV.isVolatileQualified()) 884f045007fSEli Friedman return Val.getComplexVal(); 88507bb1966SJohn McCall 8862d84e842SNick Lewycky return EmitLoadOfLValue(LV, E->getExprLoc()); 88707bb1966SJohn McCall } 88807bb1966SJohn McCall 88907bb1966SJohn McCall LValue ComplexExprEmitter::EmitBinAssignLValue(const BinaryOperator *E, 89007bb1966SJohn McCall ComplexPairTy &Val) { 891a8a089bfSDouglas Gregor assert(CGF.getContext().hasSameUnqualifiedType(E->getLHS()->getType(), 892a8a089bfSDouglas Gregor E->getRHS()->getType()) && 8930f398c44SChris Lattner "Invalid assignment"); 89407bb1966SJohn McCall TestAndClearIgnoreReal(); 89507bb1966SJohn McCall TestAndClearIgnoreImag(); 89607bb1966SJohn McCall 897d0a30016SJohn McCall // Emit the RHS. __block variables need the RHS evaluated first. 89807bb1966SJohn McCall Val = Visit(E->getRHS()); 8997a51313dSChris Lattner 9007a51313dSChris Lattner // Compute the address to store into. 9017a51313dSChris Lattner LValue LHS = CGF.EmitLValue(E->getLHS()); 9027a51313dSChris Lattner 9038c94ffe7SDaniel Dunbar // Store the result value into the LHS lvalue. 90447fb9508SJohn McCall EmitStoreOfComplex(Val, LHS, /*isInit*/ false); 90576d864c7SDaniel Dunbar 90607bb1966SJohn McCall return LHS; 90707bb1966SJohn McCall } 9088c94ffe7SDaniel Dunbar 90907bb1966SJohn McCall ComplexPairTy ComplexExprEmitter::VisitBinAssign(const BinaryOperator *E) { 91007bb1966SJohn McCall ComplexPairTy Val; 91107bb1966SJohn McCall LValue LV = EmitBinAssignLValue(E, Val); 91207bb1966SJohn McCall 91307bb1966SJohn McCall // The result of an assignment in C is the assigned r-value. 9149c6890a7SRichard Smith if (!CGF.getLangOpts().CPlusPlus) 91576d864c7SDaniel Dunbar return Val; 91607bb1966SJohn McCall 91707bb1966SJohn McCall // If the lvalue is non-volatile, return the computed value of the assignment. 91807bb1966SJohn McCall if (!LV.isVolatileQualified()) 91907bb1966SJohn McCall return Val; 92007bb1966SJohn McCall 9212d84e842SNick Lewycky return EmitLoadOfLValue(LV, E->getExprLoc()); 92276d864c7SDaniel Dunbar } 92376d864c7SDaniel Dunbar 9247a51313dSChris Lattner ComplexPairTy ComplexExprEmitter::VisitBinComma(const BinaryOperator *E) { 925a2342eb8SJohn McCall CGF.EmitIgnoredExpr(E->getLHS()); 9267a51313dSChris Lattner return Visit(E->getRHS()); 9277a51313dSChris Lattner } 9287a51313dSChris Lattner 9297a51313dSChris Lattner ComplexPairTy ComplexExprEmitter:: 930c07a0c7eSJohn McCall VisitAbstractConditionalOperator(const AbstractConditionalOperator *E) { 931df0fe27bSMike Stump TestAndClearIgnoreReal(); 932df0fe27bSMike Stump TestAndClearIgnoreImag(); 933a612e79bSDaniel Dunbar llvm::BasicBlock *LHSBlock = CGF.createBasicBlock("cond.true"); 934a612e79bSDaniel Dunbar llvm::BasicBlock *RHSBlock = CGF.createBasicBlock("cond.false"); 935a612e79bSDaniel Dunbar llvm::BasicBlock *ContBlock = CGF.createBasicBlock("cond.end"); 9367a51313dSChris Lattner 937c07a0c7eSJohn McCall // Bind the common expression if necessary. 93848fd89adSEli Friedman CodeGenFunction::OpaqueValueMapping binding(CGF, E); 939ce1de617SJohn McCall 940ef512b99SJustin Bogner RegionCounter Cnt = CGF.getPGORegionCounter(E); 941c07a0c7eSJohn McCall CodeGenFunction::ConditionalEvaluation eval(CGF); 942ef512b99SJustin Bogner CGF.EmitBranchOnBoolExpr(E->getCond(), LHSBlock, RHSBlock, Cnt.getCount()); 9437a51313dSChris Lattner 944ce1de617SJohn McCall eval.begin(CGF); 9457a51313dSChris Lattner CGF.EmitBlock(LHSBlock); 946ef512b99SJustin Bogner Cnt.beginRegion(Builder); 9478162d4adSFariborz Jahanian ComplexPairTy LHS = Visit(E->getTrueExpr()); 9487a51313dSChris Lattner LHSBlock = Builder.GetInsertBlock(); 949c56e6764SDaniel Dunbar CGF.EmitBranch(ContBlock); 950ce1de617SJohn McCall eval.end(CGF); 9517a51313dSChris Lattner 952ce1de617SJohn McCall eval.begin(CGF); 9537a51313dSChris Lattner CGF.EmitBlock(RHSBlock); 954c07a0c7eSJohn McCall ComplexPairTy RHS = Visit(E->getFalseExpr()); 9557a51313dSChris Lattner RHSBlock = Builder.GetInsertBlock(); 9567a51313dSChris Lattner CGF.EmitBlock(ContBlock); 957ce1de617SJohn McCall eval.end(CGF); 9587a51313dSChris Lattner 9597a51313dSChris Lattner // Create a PHI node for the real part. 96020c0f02cSJay Foad llvm::PHINode *RealPN = Builder.CreatePHI(LHS.first->getType(), 2, "cond.r"); 9617a51313dSChris Lattner RealPN->addIncoming(LHS.first, LHSBlock); 9627a51313dSChris Lattner RealPN->addIncoming(RHS.first, RHSBlock); 9637a51313dSChris Lattner 9647a51313dSChris Lattner // Create a PHI node for the imaginary part. 96520c0f02cSJay Foad llvm::PHINode *ImagPN = Builder.CreatePHI(LHS.first->getType(), 2, "cond.i"); 9667a51313dSChris Lattner ImagPN->addIncoming(LHS.second, LHSBlock); 9677a51313dSChris Lattner ImagPN->addIncoming(RHS.second, RHSBlock); 9687a51313dSChris Lattner 9697a51313dSChris Lattner return ComplexPairTy(RealPN, ImagPN); 9707a51313dSChris Lattner } 9717a51313dSChris Lattner 9727a51313dSChris Lattner ComplexPairTy ComplexExprEmitter::VisitChooseExpr(ChooseExpr *E) { 97375807f23SEli Friedman return Visit(E->getChosenSubExpr()); 9747a51313dSChris Lattner } 9757a51313dSChris Lattner 976dd7406e6SEli Friedman ComplexPairTy ComplexExprEmitter::VisitInitListExpr(InitListExpr *E) { 977df0fe27bSMike Stump bool Ignore = TestAndClearIgnoreReal(); 978df0fe27bSMike Stump (void)Ignore; 979df0fe27bSMike Stump assert (Ignore == false && "init list ignored"); 980df0fe27bSMike Stump Ignore = TestAndClearIgnoreImag(); 981df0fe27bSMike Stump (void)Ignore; 982df0fe27bSMike Stump assert (Ignore == false && "init list ignored"); 9836b9c41eaSEli Friedman 9846b9c41eaSEli Friedman if (E->getNumInits() == 2) { 9856b9c41eaSEli Friedman llvm::Value *Real = CGF.EmitScalarExpr(E->getInit(0)); 9866b9c41eaSEli Friedman llvm::Value *Imag = CGF.EmitScalarExpr(E->getInit(1)); 9876b9c41eaSEli Friedman return ComplexPairTy(Real, Imag); 9886b9c41eaSEli Friedman } else if (E->getNumInits() == 1) { 989dd7406e6SEli Friedman return Visit(E->getInit(0)); 9906b9c41eaSEli Friedman } 991dd7406e6SEli Friedman 992dd7406e6SEli Friedman // Empty init list intializes to null 9936b9c41eaSEli Friedman assert(E->getNumInits() == 0 && "Unexpected number of inits"); 99447fb9508SJohn McCall QualType Ty = E->getType()->castAs<ComplexType>()->getElementType(); 9952192fe50SChris Lattner llvm::Type* LTy = CGF.ConvertType(Ty); 9960b75f23bSOwen Anderson llvm::Value* zeroConstant = llvm::Constant::getNullValue(LTy); 997dd7406e6SEli Friedman return ComplexPairTy(zeroConstant, zeroConstant); 998dd7406e6SEli Friedman } 999dd7406e6SEli Friedman 100000079612SDaniel Dunbar ComplexPairTy ComplexExprEmitter::VisitVAArgExpr(VAArgExpr *E) { 1001e9fcadd2SDaniel Dunbar llvm::Value *ArgValue = CGF.EmitVAListRef(E->getSubExpr()); 100200079612SDaniel Dunbar llvm::Value *ArgPtr = CGF.EmitVAArg(ArgValue, E->getType()); 100300079612SDaniel Dunbar 100400079612SDaniel Dunbar if (!ArgPtr) { 100500079612SDaniel Dunbar CGF.ErrorUnsupported(E, "complex va_arg expression"); 10062192fe50SChris Lattner llvm::Type *EltTy = 100747fb9508SJohn McCall CGF.ConvertType(E->getType()->castAs<ComplexType>()->getElementType()); 100800079612SDaniel Dunbar llvm::Value *U = llvm::UndefValue::get(EltTy); 100900079612SDaniel Dunbar return ComplexPairTy(U, U); 101000079612SDaniel Dunbar } 101100079612SDaniel Dunbar 10122d84e842SNick Lewycky return EmitLoadOfLValue(CGF.MakeNaturalAlignAddrLValue(ArgPtr, E->getType()), 10132d84e842SNick Lewycky E->getExprLoc()); 101400079612SDaniel Dunbar } 101500079612SDaniel Dunbar 10167a51313dSChris Lattner //===----------------------------------------------------------------------===// 10177a51313dSChris Lattner // Entry Point into this File 10187a51313dSChris Lattner //===----------------------------------------------------------------------===// 10197a51313dSChris Lattner 10207a51313dSChris Lattner /// EmitComplexExpr - Emit the computation of the specified expression of 10217a51313dSChris Lattner /// complex type, ignoring the result. 1022df0fe27bSMike Stump ComplexPairTy CodeGenFunction::EmitComplexExpr(const Expr *E, bool IgnoreReal, 102307bb1966SJohn McCall bool IgnoreImag) { 102447fb9508SJohn McCall assert(E && getComplexType(E->getType()) && 10257a51313dSChris Lattner "Invalid complex expression to emit"); 10267a51313dSChris Lattner 102707bb1966SJohn McCall return ComplexExprEmitter(*this, IgnoreReal, IgnoreImag) 1028df0fe27bSMike Stump .Visit(const_cast<Expr*>(E)); 10297a51313dSChris Lattner } 10307a51313dSChris Lattner 103147fb9508SJohn McCall void CodeGenFunction::EmitComplexExprIntoLValue(const Expr *E, LValue dest, 103247fb9508SJohn McCall bool isInit) { 103347fb9508SJohn McCall assert(E && getComplexType(E->getType()) && 10347a51313dSChris Lattner "Invalid complex expression to emit"); 10357a51313dSChris Lattner ComplexExprEmitter Emitter(*this); 10367a51313dSChris Lattner ComplexPairTy Val = Emitter.Visit(const_cast<Expr*>(E)); 103747fb9508SJohn McCall Emitter.EmitStoreOfComplex(Val, dest, isInit); 10387a51313dSChris Lattner } 10397a51313dSChris Lattner 104047fb9508SJohn McCall /// EmitStoreOfComplex - Store a complex number into the specified l-value. 104147fb9508SJohn McCall void CodeGenFunction::EmitStoreOfComplex(ComplexPairTy V, LValue dest, 104247fb9508SJohn McCall bool isInit) { 104347fb9508SJohn McCall ComplexExprEmitter(*this).EmitStoreOfComplex(V, dest, isInit); 10444b8c6db9SDaniel Dunbar } 10454b8c6db9SDaniel Dunbar 104647fb9508SJohn McCall /// EmitLoadOfComplex - Load a complex number from the specified address. 10472d84e842SNick Lewycky ComplexPairTy CodeGenFunction::EmitLoadOfComplex(LValue src, 10482d84e842SNick Lewycky SourceLocation loc) { 10492d84e842SNick Lewycky return ComplexExprEmitter(*this).EmitLoadOfLValue(src, loc); 10507a51313dSChris Lattner } 10514f29b49dSJohn McCall 10524f29b49dSJohn McCall LValue CodeGenFunction::EmitComplexAssignmentLValue(const BinaryOperator *E) { 1053a2342eb8SJohn McCall assert(E->getOpcode() == BO_Assign); 10544f29b49dSJohn McCall ComplexPairTy Val; // ignored 10554f29b49dSJohn McCall return ComplexExprEmitter(*this).EmitBinAssignLValue(E, Val); 1056a2342eb8SJohn McCall } 10574f29b49dSJohn McCall 1058f045007fSEli Friedman typedef ComplexPairTy (ComplexExprEmitter::*CompoundFunc)( 1059f045007fSEli Friedman const ComplexExprEmitter::BinOpInfo &); 10604f29b49dSJohn McCall 1061f045007fSEli Friedman static CompoundFunc getComplexOp(BinaryOperatorKind Op) { 1062f045007fSEli Friedman switch (Op) { 1063f045007fSEli Friedman case BO_MulAssign: return &ComplexExprEmitter::EmitBinMul; 1064f045007fSEli Friedman case BO_DivAssign: return &ComplexExprEmitter::EmitBinDiv; 1065f045007fSEli Friedman case BO_SubAssign: return &ComplexExprEmitter::EmitBinSub; 1066f045007fSEli Friedman case BO_AddAssign: return &ComplexExprEmitter::EmitBinAdd; 10674f29b49dSJohn McCall default: 10684f29b49dSJohn McCall llvm_unreachable("unexpected complex compound assignment"); 10694f29b49dSJohn McCall } 1070f045007fSEli Friedman } 10714f29b49dSJohn McCall 1072f045007fSEli Friedman LValue CodeGenFunction:: 1073f045007fSEli Friedman EmitComplexCompoundAssignmentLValue(const CompoundAssignOperator *E) { 1074f045007fSEli Friedman CompoundFunc Op = getComplexOp(E->getOpcode()); 1075f045007fSEli Friedman RValue Val; 1076a2342eb8SJohn McCall return ComplexExprEmitter(*this).EmitCompoundAssignLValue(E, Op, Val); 10774f29b49dSJohn McCall } 1078f045007fSEli Friedman 1079f045007fSEli Friedman LValue CodeGenFunction:: 1080f045007fSEli Friedman EmitScalarCompooundAssignWithComplex(const CompoundAssignOperator *E, 1081f045007fSEli Friedman llvm::Value *&Result) { 1082f045007fSEli Friedman CompoundFunc Op = getComplexOp(E->getOpcode()); 1083f045007fSEli Friedman RValue Val; 1084f045007fSEli Friedman LValue Ret = ComplexExprEmitter(*this).EmitCompoundAssignLValue(E, Op, Val); 1085f045007fSEli Friedman Result = Val.getScalarVal(); 1086f045007fSEli Friedman return Ret; 1087f045007fSEli Friedman } 1088