159907c4d8f6fc8aacfdaa0273bd7a9c140fbb45fChris Lattner//===--- SemaChecking.cpp - Extra Semantic Checking -----------------------===// 259907c4d8f6fc8aacfdaa0273bd7a9c140fbb45fChris Lattner// 359907c4d8f6fc8aacfdaa0273bd7a9c140fbb45fChris Lattner// The LLVM Compiler Infrastructure 459907c4d8f6fc8aacfdaa0273bd7a9c140fbb45fChris Lattner// 50bc735ffcfb223c0186419547abaa5c84482663eChris Lattner// This file is distributed under the University of Illinois Open Source 60bc735ffcfb223c0186419547abaa5c84482663eChris Lattner// License. See LICENSE.TXT for details. 759907c4d8f6fc8aacfdaa0273bd7a9c140fbb45fChris Lattner// 859907c4d8f6fc8aacfdaa0273bd7a9c140fbb45fChris Lattner//===----------------------------------------------------------------------===// 959907c4d8f6fc8aacfdaa0273bd7a9c140fbb45fChris Lattner// 101eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump// This file implements extra semantic analysis beyond what is enforced 1159907c4d8f6fc8aacfdaa0273bd7a9c140fbb45fChris Lattner// by the C type system. 1259907c4d8f6fc8aacfdaa0273bd7a9c140fbb45fChris Lattner// 1359907c4d8f6fc8aacfdaa0273bd7a9c140fbb45fChris Lattner//===----------------------------------------------------------------------===// 1459907c4d8f6fc8aacfdaa0273bd7a9c140fbb45fChris Lattner 152d88708cbe4e4ec5e04e4acb6bd7f5be68557379John McCall#include "clang/Sema/SemaInternal.h" 1659907c4d8f6fc8aacfdaa0273bd7a9c140fbb45fChris Lattner#include "clang/AST/ASTContext.h" 17199c3d6cd16aebbb9c7f0d42af9d922c9628bf70Ken Dyck#include "clang/AST/CharUnits.h" 18384aff8b94bb0d1ad6c5667b90621e5699815bb2John McCall#include "clang/AST/DeclCXX.h" 19c4a1dea2dc56bd1357ec91b829a0b9e68229a13eDaniel Dunbar#include "clang/AST/DeclObjC.h" 2055fc873017f10f6f566b182b70f6fc22aefa3464Chandler Carruth#include "clang/AST/EvaluatedExprVisitor.h" 21be0ee875d8a91c031a085cbbd73ad9e8dc1aa8ffDavid Blaikie#include "clang/AST/Expr.h" 222324512285caac0332bbbc6e4cab6245d2a370a1Ted Kremenek#include "clang/AST/ExprCXX.h" 237ff22b259d4d4729f701679e3a7f0e242365e07fTed Kremenek#include "clang/AST/ExprObjC.h" 24f8c4921c73d73123e2b79221ad4f1775ce984cfdMike Stump#include "clang/AST/StmtCXX.h" 25f8c4921c73d73123e2b79221ad4f1775ce984cfdMike Stump#include "clang/AST/StmtObjC.h" 2655fc873017f10f6f566b182b70f6fc22aefa3464Chandler Carruth#include "clang/Analysis/Analyses/FormatString.h" 273f6f51e28231f65de9c2dd150a2d757b2162cfa3Jordan Rose#include "clang/Basic/CharInfo.h" 2855fc873017f10f6f566b182b70f6fc22aefa3464Chandler Carruth#include "clang/Basic/TargetBuiltins.h" 2955fc873017f10f6f566b182b70f6fc22aefa3464Chandler Carruth#include "clang/Basic/TargetInfo.h" 3059907c4d8f6fc8aacfdaa0273bd7a9c140fbb45fChris Lattner#include "clang/Lex/Preprocessor.h" 3155fc873017f10f6f566b182b70f6fc22aefa3464Chandler Carruth#include "clang/Sema/Initialization.h" 3255fc873017f10f6f566b182b70f6fc22aefa3464Chandler Carruth#include "clang/Sema/Lookup.h" 3355fc873017f10f6f566b182b70f6fc22aefa3464Chandler Carruth#include "clang/Sema/ScopeInfo.h" 3455fc873017f10f6f566b182b70f6fc22aefa3464Chandler Carruth#include "clang/Sema/Sema.h" 350e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith#include "llvm/ADT/SmallBitVector.h" 3655fc873017f10f6f566b182b70f6fc22aefa3464Chandler Carruth#include "llvm/ADT/SmallString.h" 370e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith#include "llvm/ADT/STLExtras.h" 38cb5620c9b213f4bd323912159fdddda35e258a14Dmitri Gribenko#include "llvm/Support/ConvertUTF.h" 393bfc5f49e0e37e235bb0d33bcbcb36af9d1f84abTom Care#include "llvm/Support/raw_ostream.h" 40a1f3dba77b7418575c1ff539ffa74ebaa068280cZhongxing Xu#include <limits> 4159907c4d8f6fc8aacfdaa0273bd7a9c140fbb45fChris Lattnerusing namespace clang; 42781472fe99a120098c631b0cbe33c89f8cef5e70John McCallusing namespace sema; 4359907c4d8f6fc8aacfdaa0273bd7a9c140fbb45fChris Lattner 4460800081361b0ffc114877b8abbc81cb57b4edf6Chris LattnerSourceLocation Sema::getLocationOfStringLiteralByte(const StringLiteral *SL, 4560800081361b0ffc114877b8abbc81cb57b4edf6Chris Lattner unsigned ByteNo) const { 4608f92e3a5dead1f1ee656678a7f06e43279d6e50Chris Lattner return SL->getLocationOfByte(ByteNo, PP.getSourceManager(), 474e4d08403ca5cfd4d558fa2936215d3a4e5a528dDavid Blaikie PP.getLangOpts(), PP.getTargetInfo()); 4860800081361b0ffc114877b8abbc81cb57b4edf6Chris Lattner} 4960800081361b0ffc114877b8abbc81cb57b4edf6Chris Lattner 508e10f3b9cc1db43645bbc2999eb163af8997d468John McCall/// Checks that a call expression's argument count is the desired number. 518e10f3b9cc1db43645bbc2999eb163af8997d468John McCall/// This is useful when doing custom type-checking. Returns true on error. 528e10f3b9cc1db43645bbc2999eb163af8997d468John McCallstatic bool checkArgCount(Sema &S, CallExpr *call, unsigned desiredArgCount) { 538e10f3b9cc1db43645bbc2999eb163af8997d468John McCall unsigned argCount = call->getNumArgs(); 548e10f3b9cc1db43645bbc2999eb163af8997d468John McCall if (argCount == desiredArgCount) return false; 558e10f3b9cc1db43645bbc2999eb163af8997d468John McCall 568e10f3b9cc1db43645bbc2999eb163af8997d468John McCall if (argCount < desiredArgCount) 578e10f3b9cc1db43645bbc2999eb163af8997d468John McCall return S.Diag(call->getLocEnd(), diag::err_typecheck_call_too_few_args) 588e10f3b9cc1db43645bbc2999eb163af8997d468John McCall << 0 /*function call*/ << desiredArgCount << argCount 598e10f3b9cc1db43645bbc2999eb163af8997d468John McCall << call->getSourceRange(); 608e10f3b9cc1db43645bbc2999eb163af8997d468John McCall 618e10f3b9cc1db43645bbc2999eb163af8997d468John McCall // Highlight all the excess arguments. 628e10f3b9cc1db43645bbc2999eb163af8997d468John McCall SourceRange range(call->getArg(desiredArgCount)->getLocStart(), 638e10f3b9cc1db43645bbc2999eb163af8997d468John McCall call->getArg(argCount - 1)->getLocEnd()); 648e10f3b9cc1db43645bbc2999eb163af8997d468John McCall 658e10f3b9cc1db43645bbc2999eb163af8997d468John McCall return S.Diag(range.getBegin(), diag::err_typecheck_call_too_many_args) 668e10f3b9cc1db43645bbc2999eb163af8997d468John McCall << 0 /*function call*/ << desiredArgCount << argCount 678e10f3b9cc1db43645bbc2999eb163af8997d468John McCall << call->getArg(1)->getSourceRange(); 688e10f3b9cc1db43645bbc2999eb163af8997d468John McCall} 698e10f3b9cc1db43645bbc2999eb163af8997d468John McCall 70e59392176c2369df2bdd11b7786cb38abac00198Julien Lerouge/// Check that the first argument to __builtin_annotation is an integer 71e59392176c2369df2bdd11b7786cb38abac00198Julien Lerouge/// and the second argument is a non-wide string literal. 72e59392176c2369df2bdd11b7786cb38abac00198Julien Lerougestatic bool SemaBuiltinAnnotation(Sema &S, CallExpr *TheCall) { 73e59392176c2369df2bdd11b7786cb38abac00198Julien Lerouge if (checkArgCount(S, TheCall, 2)) 74e59392176c2369df2bdd11b7786cb38abac00198Julien Lerouge return true; 75e59392176c2369df2bdd11b7786cb38abac00198Julien Lerouge 76e59392176c2369df2bdd11b7786cb38abac00198Julien Lerouge // First argument should be an integer. 77e59392176c2369df2bdd11b7786cb38abac00198Julien Lerouge Expr *ValArg = TheCall->getArg(0); 78e59392176c2369df2bdd11b7786cb38abac00198Julien Lerouge QualType Ty = ValArg->getType(); 79e59392176c2369df2bdd11b7786cb38abac00198Julien Lerouge if (!Ty->isIntegerType()) { 80e59392176c2369df2bdd11b7786cb38abac00198Julien Lerouge S.Diag(ValArg->getLocStart(), diag::err_builtin_annotation_first_arg) 81e59392176c2369df2bdd11b7786cb38abac00198Julien Lerouge << ValArg->getSourceRange(); 82e59392176c2369df2bdd11b7786cb38abac00198Julien Lerouge return true; 83e59392176c2369df2bdd11b7786cb38abac00198Julien Lerouge } 84e59392176c2369df2bdd11b7786cb38abac00198Julien Lerouge 85e59392176c2369df2bdd11b7786cb38abac00198Julien Lerouge // Second argument should be a constant string. 86e59392176c2369df2bdd11b7786cb38abac00198Julien Lerouge Expr *StrArg = TheCall->getArg(1)->IgnoreParenCasts(); 87e59392176c2369df2bdd11b7786cb38abac00198Julien Lerouge StringLiteral *Literal = dyn_cast<StringLiteral>(StrArg); 8877f68bb90af93b95045fb994e7cd68137adcc132Julien Lerouge if (!Literal || !Literal->isAscii()) { 89e59392176c2369df2bdd11b7786cb38abac00198Julien Lerouge S.Diag(StrArg->getLocStart(), diag::err_builtin_annotation_second_arg) 90e59392176c2369df2bdd11b7786cb38abac00198Julien Lerouge << StrArg->getSourceRange(); 9177f68bb90af93b95045fb994e7cd68137adcc132Julien Lerouge return true; 9277f68bb90af93b95045fb994e7cd68137adcc132Julien Lerouge } 93e59392176c2369df2bdd11b7786cb38abac00198Julien Lerouge 94e59392176c2369df2bdd11b7786cb38abac00198Julien Lerouge TheCall->setType(Ty); 9577f68bb90af93b95045fb994e7cd68137adcc132Julien Lerouge return false; 9677f68bb90af93b95045fb994e7cd68137adcc132Julien Lerouge} 9777f68bb90af93b95045fb994e7cd68137adcc132Julien Lerouge 985154dce6388e3aaa445467030df7a45ed1211abeRichard Smith/// Check that the argument to __builtin_addressof is a glvalue, and set the 995154dce6388e3aaa445467030df7a45ed1211abeRichard Smith/// result type to the corresponding pointer type. 1005154dce6388e3aaa445467030df7a45ed1211abeRichard Smithstatic bool SemaBuiltinAddressof(Sema &S, CallExpr *TheCall) { 1015154dce6388e3aaa445467030df7a45ed1211abeRichard Smith if (checkArgCount(S, TheCall, 1)) 1025154dce6388e3aaa445467030df7a45ed1211abeRichard Smith return true; 1035154dce6388e3aaa445467030df7a45ed1211abeRichard Smith 1045154dce6388e3aaa445467030df7a45ed1211abeRichard Smith ExprResult Arg(S.Owned(TheCall->getArg(0))); 1055154dce6388e3aaa445467030df7a45ed1211abeRichard Smith QualType ResultType = S.CheckAddressOfOperand(Arg, TheCall->getLocStart()); 1065154dce6388e3aaa445467030df7a45ed1211abeRichard Smith if (ResultType.isNull()) 1075154dce6388e3aaa445467030df7a45ed1211abeRichard Smith return true; 1085154dce6388e3aaa445467030df7a45ed1211abeRichard Smith 1095154dce6388e3aaa445467030df7a45ed1211abeRichard Smith TheCall->setArg(0, Arg.take()); 1105154dce6388e3aaa445467030df7a45ed1211abeRichard Smith TheCall->setType(ResultType); 1115154dce6388e3aaa445467030df7a45ed1211abeRichard Smith return false; 1125154dce6388e3aaa445467030df7a45ed1211abeRichard Smith} 1135154dce6388e3aaa445467030df7a45ed1211abeRichard Smith 11460d7b3a319d84d688752be3870615ac0f111fb16John McCallExprResult 115d406bf0e8c17012110a8476d03c6f9a97b56ecf7Anders CarlssonSema::CheckBuiltinFunctionCall(unsigned BuiltinID, CallExpr *TheCall) { 11660d7b3a319d84d688752be3870615ac0f111fb16John McCall ExprResult TheCallResult(Owned(TheCall)); 1172def48394f6d48bde0dec2b514193c2b533265b5Douglas Gregor 118946928f48c96bddf3cfa126862f5ab69c2d904a0Chris Lattner // Find out if any arguments are required to be integer constant expressions. 119946928f48c96bddf3cfa126862f5ab69c2d904a0Chris Lattner unsigned ICEArguments = 0; 120946928f48c96bddf3cfa126862f5ab69c2d904a0Chris Lattner ASTContext::GetBuiltinTypeError Error; 121946928f48c96bddf3cfa126862f5ab69c2d904a0Chris Lattner Context.GetBuiltinType(BuiltinID, Error, &ICEArguments); 122946928f48c96bddf3cfa126862f5ab69c2d904a0Chris Lattner if (Error != ASTContext::GE_None) 123946928f48c96bddf3cfa126862f5ab69c2d904a0Chris Lattner ICEArguments = 0; // Don't diagnose previously diagnosed errors. 124946928f48c96bddf3cfa126862f5ab69c2d904a0Chris Lattner 125946928f48c96bddf3cfa126862f5ab69c2d904a0Chris Lattner // If any arguments are required to be ICE's, check and diagnose. 126946928f48c96bddf3cfa126862f5ab69c2d904a0Chris Lattner for (unsigned ArgNo = 0; ICEArguments != 0; ++ArgNo) { 127946928f48c96bddf3cfa126862f5ab69c2d904a0Chris Lattner // Skip arguments not required to be ICE's. 128946928f48c96bddf3cfa126862f5ab69c2d904a0Chris Lattner if ((ICEArguments & (1 << ArgNo)) == 0) continue; 129946928f48c96bddf3cfa126862f5ab69c2d904a0Chris Lattner 130946928f48c96bddf3cfa126862f5ab69c2d904a0Chris Lattner llvm::APSInt Result; 131946928f48c96bddf3cfa126862f5ab69c2d904a0Chris Lattner if (SemaBuiltinConstantArg(TheCall, ArgNo, Result)) 132946928f48c96bddf3cfa126862f5ab69c2d904a0Chris Lattner return true; 133946928f48c96bddf3cfa126862f5ab69c2d904a0Chris Lattner ICEArguments &= ~(1 << ArgNo); 134946928f48c96bddf3cfa126862f5ab69c2d904a0Chris Lattner } 135946928f48c96bddf3cfa126862f5ab69c2d904a0Chris Lattner 136d406bf0e8c17012110a8476d03c6f9a97b56ecf7Anders Carlsson switch (BuiltinID) { 13730ce344307f8a8b00054021307015571f83c7364Chris Lattner case Builtin::BI__builtin___CFStringMakeConstantString: 138925e60d3fa706f31886027c876989af79eb0e0d2Chris Lattner assert(TheCall->getNumArgs() == 1 && 1391b9a0793955070738cac6f04b5abe9496be9b317Chris Lattner "Wrong # arguments to builtin CFStringMakeConstantString"); 140690398188ea5b428f06aa13c7d4ce6eb741ad4f9Chris Lattner if (CheckObjCString(TheCall->getArg(0))) 1410eb23307222bda7ad95d968eac4e1ab30864b213Sebastian Redl return ExprError(); 142d406bf0e8c17012110a8476d03c6f9a97b56ecf7Anders Carlsson break; 14349ff7a1c8c67d56e62d3b4627463b705c0d5008cTed Kremenek case Builtin::BI__builtin_stdarg_start: 14430ce344307f8a8b00054021307015571f83c7364Chris Lattner case Builtin::BI__builtin_va_start: 1450eb23307222bda7ad95d968eac4e1ab30864b213Sebastian Redl if (SemaBuiltinVAStart(TheCall)) 1460eb23307222bda7ad95d968eac4e1ab30864b213Sebastian Redl return ExprError(); 147d406bf0e8c17012110a8476d03c6f9a97b56ecf7Anders Carlsson break; 1481b9a0793955070738cac6f04b5abe9496be9b317Chris Lattner case Builtin::BI__builtin_isgreater: 1491b9a0793955070738cac6f04b5abe9496be9b317Chris Lattner case Builtin::BI__builtin_isgreaterequal: 1501b9a0793955070738cac6f04b5abe9496be9b317Chris Lattner case Builtin::BI__builtin_isless: 1511b9a0793955070738cac6f04b5abe9496be9b317Chris Lattner case Builtin::BI__builtin_islessequal: 1521b9a0793955070738cac6f04b5abe9496be9b317Chris Lattner case Builtin::BI__builtin_islessgreater: 1531b9a0793955070738cac6f04b5abe9496be9b317Chris Lattner case Builtin::BI__builtin_isunordered: 1540eb23307222bda7ad95d968eac4e1ab30864b213Sebastian Redl if (SemaBuiltinUnorderedCompare(TheCall)) 1550eb23307222bda7ad95d968eac4e1ab30864b213Sebastian Redl return ExprError(); 156d406bf0e8c17012110a8476d03c6f9a97b56ecf7Anders Carlsson break; 157e771a7ac11fb27f0e734e5de4d858f2c268895e5Benjamin Kramer case Builtin::BI__builtin_fpclassify: 158e771a7ac11fb27f0e734e5de4d858f2c268895e5Benjamin Kramer if (SemaBuiltinFPClassification(TheCall, 6)) 159e771a7ac11fb27f0e734e5de4d858f2c268895e5Benjamin Kramer return ExprError(); 160e771a7ac11fb27f0e734e5de4d858f2c268895e5Benjamin Kramer break; 1619ac6f62a77be5b281a7ddc24a16669b457ac47c2Eli Friedman case Builtin::BI__builtin_isfinite: 1629ac6f62a77be5b281a7ddc24a16669b457ac47c2Eli Friedman case Builtin::BI__builtin_isinf: 1639ac6f62a77be5b281a7ddc24a16669b457ac47c2Eli Friedman case Builtin::BI__builtin_isinf_sign: 1649ac6f62a77be5b281a7ddc24a16669b457ac47c2Eli Friedman case Builtin::BI__builtin_isnan: 1659ac6f62a77be5b281a7ddc24a16669b457ac47c2Eli Friedman case Builtin::BI__builtin_isnormal: 1663b1e26b708e8d00d4ba10ff857201bae2aff6baeBenjamin Kramer if (SemaBuiltinFPClassification(TheCall, 1)) 1679ac6f62a77be5b281a7ddc24a16669b457ac47c2Eli Friedman return ExprError(); 1689ac6f62a77be5b281a7ddc24a16669b457ac47c2Eli Friedman break; 169d38617c8a50f9729c254ab76cd359af797c6739bEli Friedman case Builtin::BI__builtin_shufflevector: 1700eb23307222bda7ad95d968eac4e1ab30864b213Sebastian Redl return SemaBuiltinShuffleVector(TheCall); 1710eb23307222bda7ad95d968eac4e1ab30864b213Sebastian Redl // TheCall will be freed by the smart pointer here, but that's fine, since 1720eb23307222bda7ad95d968eac4e1ab30864b213Sebastian Redl // SemaBuiltinShuffleVector guts it, but then doesn't release it. 1734493f79fce48cd9cbd9f55fa9d452cde736747a0Daniel Dunbar case Builtin::BI__builtin_prefetch: 1740eb23307222bda7ad95d968eac4e1ab30864b213Sebastian Redl if (SemaBuiltinPrefetch(TheCall)) 1750eb23307222bda7ad95d968eac4e1ab30864b213Sebastian Redl return ExprError(); 176d406bf0e8c17012110a8476d03c6f9a97b56ecf7Anders Carlsson break; 177d5f8a4fd4d6dfb0415b93bb7ab721bba5cab1332Daniel Dunbar case Builtin::BI__builtin_object_size: 1780eb23307222bda7ad95d968eac4e1ab30864b213Sebastian Redl if (SemaBuiltinObjectSize(TheCall)) 1790eb23307222bda7ad95d968eac4e1ab30864b213Sebastian Redl return ExprError(); 180d406bf0e8c17012110a8476d03c6f9a97b56ecf7Anders Carlsson break; 181d875fed28578835de89cd407e9db4be788596d7cEli Friedman case Builtin::BI__builtin_longjmp: 182d875fed28578835de89cd407e9db4be788596d7cEli Friedman if (SemaBuiltinLongjmp(TheCall)) 183d875fed28578835de89cd407e9db4be788596d7cEli Friedman return ExprError(); 184d406bf0e8c17012110a8476d03c6f9a97b56ecf7Anders Carlsson break; 1858e10f3b9cc1db43645bbc2999eb163af8997d468John McCall 1868e10f3b9cc1db43645bbc2999eb163af8997d468John McCall case Builtin::BI__builtin_classify_type: 1878e10f3b9cc1db43645bbc2999eb163af8997d468John McCall if (checkArgCount(*this, TheCall, 1)) return true; 1888e10f3b9cc1db43645bbc2999eb163af8997d468John McCall TheCall->setType(Context.IntTy); 1898e10f3b9cc1db43645bbc2999eb163af8997d468John McCall break; 19075c29a012793292ff4578015a9113bf086156d7fChris Lattner case Builtin::BI__builtin_constant_p: 1918e10f3b9cc1db43645bbc2999eb163af8997d468John McCall if (checkArgCount(*this, TheCall, 1)) return true; 1928e10f3b9cc1db43645bbc2999eb163af8997d468John McCall TheCall->setType(Context.IntTy); 19375c29a012793292ff4578015a9113bf086156d7fChris Lattner break; 1945caa370ea6f70bd3e7e4a9cc3b69ac1a849c8534Chris Lattner case Builtin::BI__sync_fetch_and_add: 195a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_fetch_and_add_1: 196a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_fetch_and_add_2: 197a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_fetch_and_add_4: 198a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_fetch_and_add_8: 199a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_fetch_and_add_16: 2005caa370ea6f70bd3e7e4a9cc3b69ac1a849c8534Chris Lattner case Builtin::BI__sync_fetch_and_sub: 201a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_fetch_and_sub_1: 202a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_fetch_and_sub_2: 203a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_fetch_and_sub_4: 204a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_fetch_and_sub_8: 205a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_fetch_and_sub_16: 2065caa370ea6f70bd3e7e4a9cc3b69ac1a849c8534Chris Lattner case Builtin::BI__sync_fetch_and_or: 207a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_fetch_and_or_1: 208a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_fetch_and_or_2: 209a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_fetch_and_or_4: 210a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_fetch_and_or_8: 211a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_fetch_and_or_16: 2125caa370ea6f70bd3e7e4a9cc3b69ac1a849c8534Chris Lattner case Builtin::BI__sync_fetch_and_and: 213a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_fetch_and_and_1: 214a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_fetch_and_and_2: 215a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_fetch_and_and_4: 216a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_fetch_and_and_8: 217a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_fetch_and_and_16: 2185caa370ea6f70bd3e7e4a9cc3b69ac1a849c8534Chris Lattner case Builtin::BI__sync_fetch_and_xor: 219a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_fetch_and_xor_1: 220a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_fetch_and_xor_2: 221a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_fetch_and_xor_4: 222a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_fetch_and_xor_8: 223a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_fetch_and_xor_16: 2245caa370ea6f70bd3e7e4a9cc3b69ac1a849c8534Chris Lattner case Builtin::BI__sync_add_and_fetch: 225a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_add_and_fetch_1: 226a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_add_and_fetch_2: 227a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_add_and_fetch_4: 228a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_add_and_fetch_8: 229a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_add_and_fetch_16: 2305caa370ea6f70bd3e7e4a9cc3b69ac1a849c8534Chris Lattner case Builtin::BI__sync_sub_and_fetch: 231a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_sub_and_fetch_1: 232a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_sub_and_fetch_2: 233a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_sub_and_fetch_4: 234a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_sub_and_fetch_8: 235a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_sub_and_fetch_16: 2365caa370ea6f70bd3e7e4a9cc3b69ac1a849c8534Chris Lattner case Builtin::BI__sync_and_and_fetch: 237a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_and_and_fetch_1: 238a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_and_and_fetch_2: 239a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_and_and_fetch_4: 240a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_and_and_fetch_8: 241a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_and_and_fetch_16: 2425caa370ea6f70bd3e7e4a9cc3b69ac1a849c8534Chris Lattner case Builtin::BI__sync_or_and_fetch: 243a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_or_and_fetch_1: 244a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_or_and_fetch_2: 245a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_or_and_fetch_4: 246a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_or_and_fetch_8: 247a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_or_and_fetch_16: 2485caa370ea6f70bd3e7e4a9cc3b69ac1a849c8534Chris Lattner case Builtin::BI__sync_xor_and_fetch: 249a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_xor_and_fetch_1: 250a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_xor_and_fetch_2: 251a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_xor_and_fetch_4: 252a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_xor_and_fetch_8: 253a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_xor_and_fetch_16: 2545caa370ea6f70bd3e7e4a9cc3b69ac1a849c8534Chris Lattner case Builtin::BI__sync_val_compare_and_swap: 255a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_val_compare_and_swap_1: 256a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_val_compare_and_swap_2: 257a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_val_compare_and_swap_4: 258a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_val_compare_and_swap_8: 259a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_val_compare_and_swap_16: 2605caa370ea6f70bd3e7e4a9cc3b69ac1a849c8534Chris Lattner case Builtin::BI__sync_bool_compare_and_swap: 261a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_bool_compare_and_swap_1: 262a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_bool_compare_and_swap_2: 263a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_bool_compare_and_swap_4: 264a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_bool_compare_and_swap_8: 265a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_bool_compare_and_swap_16: 2665caa370ea6f70bd3e7e4a9cc3b69ac1a849c8534Chris Lattner case Builtin::BI__sync_lock_test_and_set: 267a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_lock_test_and_set_1: 268a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_lock_test_and_set_2: 269a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_lock_test_and_set_4: 270a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_lock_test_and_set_8: 271a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_lock_test_and_set_16: 2725caa370ea6f70bd3e7e4a9cc3b69ac1a849c8534Chris Lattner case Builtin::BI__sync_lock_release: 273a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_lock_release_1: 274a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_lock_release_2: 275a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_lock_release_4: 276a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_lock_release_8: 277a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_lock_release_16: 27823aa9c8ca0bc441aab2a38a4c9fc7a1c9e9ac16aChris Lattner case Builtin::BI__sync_swap: 279a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_swap_1: 280a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_swap_2: 281a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_swap_4: 282a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_swap_8: 283a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_swap_16: 2843fe198bf0d6118c7b080c17c3bb28d7c84e458b9Benjamin Kramer return SemaBuiltinAtomicOverloaded(TheCallResult); 285ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith#define BUILTIN(ID, TYPE, ATTRS) 286ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith#define ATOMIC_BUILTIN(ID, TYPE, ATTRS) \ 287ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith case Builtin::BI##ID: \ 2883fe198bf0d6118c7b080c17c3bb28d7c84e458b9Benjamin Kramer return SemaAtomicOpsOverloaded(TheCallResult, AtomicExpr::AO##ID); 289ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith#include "clang/Basic/Builtins.def" 29077f68bb90af93b95045fb994e7cd68137adcc132Julien Lerouge case Builtin::BI__builtin_annotation: 291e59392176c2369df2bdd11b7786cb38abac00198Julien Lerouge if (SemaBuiltinAnnotation(*this, TheCall)) 29277f68bb90af93b95045fb994e7cd68137adcc132Julien Lerouge return ExprError(); 29377f68bb90af93b95045fb994e7cd68137adcc132Julien Lerouge break; 2945154dce6388e3aaa445467030df7a45ed1211abeRichard Smith case Builtin::BI__builtin_addressof: 2955154dce6388e3aaa445467030df7a45ed1211abeRichard Smith if (SemaBuiltinAddressof(*this, TheCall)) 2965154dce6388e3aaa445467030df7a45ed1211abeRichard Smith return ExprError(); 2975154dce6388e3aaa445467030df7a45ed1211abeRichard Smith break; 29826a31428f130b66f61834d1b4d1cf72f590f70b9Nate Begeman } 29926a31428f130b66f61834d1b4d1cf72f590f70b9Nate Begeman 30026a31428f130b66f61834d1b4d1cf72f590f70b9Nate Begeman // Since the target specific builtins for each arch overlap, only check those 30126a31428f130b66f61834d1b4d1cf72f590f70b9Nate Begeman // of the arch we are compiling for. 30226a31428f130b66f61834d1b4d1cf72f590f70b9Nate Begeman if (BuiltinID >= Builtin::FirstTSBuiltin) { 303bcfd1f55bfbb3e5944cd5e03d07b343e280838c4Douglas Gregor switch (Context.getTargetInfo().getTriple().getArch()) { 30426a31428f130b66f61834d1b4d1cf72f590f70b9Nate Begeman case llvm::Triple::arm: 30526a31428f130b66f61834d1b4d1cf72f590f70b9Nate Begeman case llvm::Triple::thumb: 30626a31428f130b66f61834d1b4d1cf72f590f70b9Nate Begeman if (CheckARMBuiltinFunctionCall(BuiltinID, TheCall)) 30726a31428f130b66f61834d1b4d1cf72f590f70b9Nate Begeman return ExprError(); 30826a31428f130b66f61834d1b4d1cf72f590f70b9Nate Begeman break; 309b793f0d3448a15277cd6b6cc4ba558ded39a8084Tim Northover case llvm::Triple::aarch64: 310b793f0d3448a15277cd6b6cc4ba558ded39a8084Tim Northover if (CheckAArch64BuiltinFunctionCall(BuiltinID, TheCall)) 311b793f0d3448a15277cd6b6cc4ba558ded39a8084Tim Northover return ExprError(); 312b793f0d3448a15277cd6b6cc4ba558ded39a8084Tim Northover break; 313fad0a32da8ea34a58aa0a0dd3fd67cd30959b080Simon Atanasyan case llvm::Triple::mips: 314fad0a32da8ea34a58aa0a0dd3fd67cd30959b080Simon Atanasyan case llvm::Triple::mipsel: 315fad0a32da8ea34a58aa0a0dd3fd67cd30959b080Simon Atanasyan case llvm::Triple::mips64: 316fad0a32da8ea34a58aa0a0dd3fd67cd30959b080Simon Atanasyan case llvm::Triple::mips64el: 317fad0a32da8ea34a58aa0a0dd3fd67cd30959b080Simon Atanasyan if (CheckMipsBuiltinFunctionCall(BuiltinID, TheCall)) 318fad0a32da8ea34a58aa0a0dd3fd67cd30959b080Simon Atanasyan return ExprError(); 319fad0a32da8ea34a58aa0a0dd3fd67cd30959b080Simon Atanasyan break; 32026a31428f130b66f61834d1b4d1cf72f590f70b9Nate Begeman default: 32126a31428f130b66f61834d1b4d1cf72f590f70b9Nate Begeman break; 32226a31428f130b66f61834d1b4d1cf72f590f70b9Nate Begeman } 32326a31428f130b66f61834d1b4d1cf72f590f70b9Nate Begeman } 32426a31428f130b66f61834d1b4d1cf72f590f70b9Nate Begeman 3253fe198bf0d6118c7b080c17c3bb28d7c84e458b9Benjamin Kramer return TheCallResult; 32626a31428f130b66f61834d1b4d1cf72f590f70b9Nate Begeman} 32726a31428f130b66f61834d1b4d1cf72f590f70b9Nate Begeman 32861eecf5aea018ea65c9ab0bccacd2996b15c632dNate Begeman// Get the valid immediate range for the specified NEON type code. 32961eecf5aea018ea65c9ab0bccacd2996b15c632dNate Begemanstatic unsigned RFT(unsigned t, bool shift = false) { 330da95f73b59f9af964e33725c515139d34c90c863Bob Wilson NeonTypeFlags Type(t); 331da95f73b59f9af964e33725c515139d34c90c863Bob Wilson int IsQuad = Type.isQuad(); 332da95f73b59f9af964e33725c515139d34c90c863Bob Wilson switch (Type.getEltType()) { 333da95f73b59f9af964e33725c515139d34c90c863Bob Wilson case NeonTypeFlags::Int8: 334da95f73b59f9af964e33725c515139d34c90c863Bob Wilson case NeonTypeFlags::Poly8: 335da95f73b59f9af964e33725c515139d34c90c863Bob Wilson return shift ? 7 : (8 << IsQuad) - 1; 336da95f73b59f9af964e33725c515139d34c90c863Bob Wilson case NeonTypeFlags::Int16: 337da95f73b59f9af964e33725c515139d34c90c863Bob Wilson case NeonTypeFlags::Poly16: 338da95f73b59f9af964e33725c515139d34c90c863Bob Wilson return shift ? 15 : (4 << IsQuad) - 1; 339da95f73b59f9af964e33725c515139d34c90c863Bob Wilson case NeonTypeFlags::Int32: 340da95f73b59f9af964e33725c515139d34c90c863Bob Wilson return shift ? 31 : (2 << IsQuad) - 1; 341da95f73b59f9af964e33725c515139d34c90c863Bob Wilson case NeonTypeFlags::Int64: 342da95f73b59f9af964e33725c515139d34c90c863Bob Wilson return shift ? 63 : (1 << IsQuad) - 1; 343da95f73b59f9af964e33725c515139d34c90c863Bob Wilson case NeonTypeFlags::Float16: 344da95f73b59f9af964e33725c515139d34c90c863Bob Wilson assert(!shift && "cannot shift float types!"); 345da95f73b59f9af964e33725c515139d34c90c863Bob Wilson return (4 << IsQuad) - 1; 346da95f73b59f9af964e33725c515139d34c90c863Bob Wilson case NeonTypeFlags::Float32: 347da95f73b59f9af964e33725c515139d34c90c863Bob Wilson assert(!shift && "cannot shift float types!"); 348da95f73b59f9af964e33725c515139d34c90c863Bob Wilson return (2 << IsQuad) - 1; 349b793f0d3448a15277cd6b6cc4ba558ded39a8084Tim Northover case NeonTypeFlags::Float64: 350b793f0d3448a15277cd6b6cc4ba558ded39a8084Tim Northover assert(!shift && "cannot shift float types!"); 351b793f0d3448a15277cd6b6cc4ba558ded39a8084Tim Northover return (1 << IsQuad) - 1; 35261eecf5aea018ea65c9ab0bccacd2996b15c632dNate Begeman } 3537530c034c0c71a64c5a9173206d9742ae847af8bDavid Blaikie llvm_unreachable("Invalid NeonTypeFlag!"); 35461eecf5aea018ea65c9ab0bccacd2996b15c632dNate Begeman} 35561eecf5aea018ea65c9ab0bccacd2996b15c632dNate Begeman 3566f9f03ef370ad48ece0c5d10edda28f39ccadb5dBob Wilson/// getNeonEltType - Return the QualType corresponding to the elements of 3576f9f03ef370ad48ece0c5d10edda28f39ccadb5dBob Wilson/// the vector type specified by the NeonTypeFlags. This is used to check 3586f9f03ef370ad48ece0c5d10edda28f39ccadb5dBob Wilson/// the pointer arguments for Neon load/store intrinsics. 3596f9f03ef370ad48ece0c5d10edda28f39ccadb5dBob Wilsonstatic QualType getNeonEltType(NeonTypeFlags Flags, ASTContext &Context) { 3606f9f03ef370ad48ece0c5d10edda28f39ccadb5dBob Wilson switch (Flags.getEltType()) { 3616f9f03ef370ad48ece0c5d10edda28f39ccadb5dBob Wilson case NeonTypeFlags::Int8: 3626f9f03ef370ad48ece0c5d10edda28f39ccadb5dBob Wilson return Flags.isUnsigned() ? Context.UnsignedCharTy : Context.SignedCharTy; 3636f9f03ef370ad48ece0c5d10edda28f39ccadb5dBob Wilson case NeonTypeFlags::Int16: 3646f9f03ef370ad48ece0c5d10edda28f39ccadb5dBob Wilson return Flags.isUnsigned() ? Context.UnsignedShortTy : Context.ShortTy; 3656f9f03ef370ad48ece0c5d10edda28f39ccadb5dBob Wilson case NeonTypeFlags::Int32: 3666f9f03ef370ad48ece0c5d10edda28f39ccadb5dBob Wilson return Flags.isUnsigned() ? Context.UnsignedIntTy : Context.IntTy; 3676f9f03ef370ad48ece0c5d10edda28f39ccadb5dBob Wilson case NeonTypeFlags::Int64: 3686f9f03ef370ad48ece0c5d10edda28f39ccadb5dBob Wilson return Flags.isUnsigned() ? Context.UnsignedLongLongTy : Context.LongLongTy; 3696f9f03ef370ad48ece0c5d10edda28f39ccadb5dBob Wilson case NeonTypeFlags::Poly8: 3706f9f03ef370ad48ece0c5d10edda28f39ccadb5dBob Wilson return Context.SignedCharTy; 3716f9f03ef370ad48ece0c5d10edda28f39ccadb5dBob Wilson case NeonTypeFlags::Poly16: 3726f9f03ef370ad48ece0c5d10edda28f39ccadb5dBob Wilson return Context.ShortTy; 3736f9f03ef370ad48ece0c5d10edda28f39ccadb5dBob Wilson case NeonTypeFlags::Float16: 3746f9f03ef370ad48ece0c5d10edda28f39ccadb5dBob Wilson return Context.UnsignedShortTy; 3756f9f03ef370ad48ece0c5d10edda28f39ccadb5dBob Wilson case NeonTypeFlags::Float32: 3766f9f03ef370ad48ece0c5d10edda28f39ccadb5dBob Wilson return Context.FloatTy; 377b793f0d3448a15277cd6b6cc4ba558ded39a8084Tim Northover case NeonTypeFlags::Float64: 378b793f0d3448a15277cd6b6cc4ba558ded39a8084Tim Northover return Context.DoubleTy; 3796f9f03ef370ad48ece0c5d10edda28f39ccadb5dBob Wilson } 3807530c034c0c71a64c5a9173206d9742ae847af8bDavid Blaikie llvm_unreachable("Invalid NeonTypeFlag!"); 3816f9f03ef370ad48ece0c5d10edda28f39ccadb5dBob Wilson} 3826f9f03ef370ad48ece0c5d10edda28f39ccadb5dBob Wilson 383b793f0d3448a15277cd6b6cc4ba558ded39a8084Tim Northoverbool Sema::CheckAArch64BuiltinFunctionCall(unsigned BuiltinID, 384b793f0d3448a15277cd6b6cc4ba558ded39a8084Tim Northover CallExpr *TheCall) { 385b793f0d3448a15277cd6b6cc4ba558ded39a8084Tim Northover 386b793f0d3448a15277cd6b6cc4ba558ded39a8084Tim Northover llvm::APSInt Result; 387b793f0d3448a15277cd6b6cc4ba558ded39a8084Tim Northover 388b793f0d3448a15277cd6b6cc4ba558ded39a8084Tim Northover uint64_t mask = 0; 389b793f0d3448a15277cd6b6cc4ba558ded39a8084Tim Northover unsigned TV = 0; 390b793f0d3448a15277cd6b6cc4ba558ded39a8084Tim Northover int PtrArgNum = -1; 391b793f0d3448a15277cd6b6cc4ba558ded39a8084Tim Northover bool HasConstPtr = false; 392b793f0d3448a15277cd6b6cc4ba558ded39a8084Tim Northover switch (BuiltinID) { 393b793f0d3448a15277cd6b6cc4ba558ded39a8084Tim Northover#define GET_NEON_AARCH64_OVERLOAD_CHECK 394b793f0d3448a15277cd6b6cc4ba558ded39a8084Tim Northover#include "clang/Basic/arm_neon.inc" 395b793f0d3448a15277cd6b6cc4ba558ded39a8084Tim Northover#undef GET_NEON_AARCH64_OVERLOAD_CHECK 396b793f0d3448a15277cd6b6cc4ba558ded39a8084Tim Northover } 397b793f0d3448a15277cd6b6cc4ba558ded39a8084Tim Northover 398b793f0d3448a15277cd6b6cc4ba558ded39a8084Tim Northover // For NEON intrinsics which are overloaded on vector element type, validate 399b793f0d3448a15277cd6b6cc4ba558ded39a8084Tim Northover // the immediate which specifies which variant to emit. 400b793f0d3448a15277cd6b6cc4ba558ded39a8084Tim Northover unsigned ImmArg = TheCall->getNumArgs() - 1; 401b793f0d3448a15277cd6b6cc4ba558ded39a8084Tim Northover if (mask) { 402b793f0d3448a15277cd6b6cc4ba558ded39a8084Tim Northover if (SemaBuiltinConstantArg(TheCall, ImmArg, Result)) 403b793f0d3448a15277cd6b6cc4ba558ded39a8084Tim Northover return true; 404b793f0d3448a15277cd6b6cc4ba558ded39a8084Tim Northover 405b793f0d3448a15277cd6b6cc4ba558ded39a8084Tim Northover TV = Result.getLimitedValue(64); 406b793f0d3448a15277cd6b6cc4ba558ded39a8084Tim Northover if ((TV > 63) || (mask & (1ULL << TV)) == 0) 407b793f0d3448a15277cd6b6cc4ba558ded39a8084Tim Northover return Diag(TheCall->getLocStart(), diag::err_invalid_neon_type_code) 408b793f0d3448a15277cd6b6cc4ba558ded39a8084Tim Northover << TheCall->getArg(ImmArg)->getSourceRange(); 409b793f0d3448a15277cd6b6cc4ba558ded39a8084Tim Northover } 410b793f0d3448a15277cd6b6cc4ba558ded39a8084Tim Northover 411b793f0d3448a15277cd6b6cc4ba558ded39a8084Tim Northover if (PtrArgNum >= 0) { 412b793f0d3448a15277cd6b6cc4ba558ded39a8084Tim Northover // Check that pointer arguments have the specified type. 413b793f0d3448a15277cd6b6cc4ba558ded39a8084Tim Northover Expr *Arg = TheCall->getArg(PtrArgNum); 414b793f0d3448a15277cd6b6cc4ba558ded39a8084Tim Northover if (ImplicitCastExpr *ICE = dyn_cast<ImplicitCastExpr>(Arg)) 415b793f0d3448a15277cd6b6cc4ba558ded39a8084Tim Northover Arg = ICE->getSubExpr(); 416b793f0d3448a15277cd6b6cc4ba558ded39a8084Tim Northover ExprResult RHS = DefaultFunctionArrayLvalueConversion(Arg); 417b793f0d3448a15277cd6b6cc4ba558ded39a8084Tim Northover QualType RHSTy = RHS.get()->getType(); 418b793f0d3448a15277cd6b6cc4ba558ded39a8084Tim Northover QualType EltTy = getNeonEltType(NeonTypeFlags(TV), Context); 419b793f0d3448a15277cd6b6cc4ba558ded39a8084Tim Northover if (HasConstPtr) 420b793f0d3448a15277cd6b6cc4ba558ded39a8084Tim Northover EltTy = EltTy.withConst(); 421b793f0d3448a15277cd6b6cc4ba558ded39a8084Tim Northover QualType LHSTy = Context.getPointerType(EltTy); 422b793f0d3448a15277cd6b6cc4ba558ded39a8084Tim Northover AssignConvertType ConvTy; 423b793f0d3448a15277cd6b6cc4ba558ded39a8084Tim Northover ConvTy = CheckSingleAssignmentConstraints(LHSTy, RHS); 424b793f0d3448a15277cd6b6cc4ba558ded39a8084Tim Northover if (RHS.isInvalid()) 425b793f0d3448a15277cd6b6cc4ba558ded39a8084Tim Northover return true; 426b793f0d3448a15277cd6b6cc4ba558ded39a8084Tim Northover if (DiagnoseAssignmentResult(ConvTy, Arg->getLocStart(), LHSTy, RHSTy, 427b793f0d3448a15277cd6b6cc4ba558ded39a8084Tim Northover RHS.get(), AA_Assigning)) 428b793f0d3448a15277cd6b6cc4ba558ded39a8084Tim Northover return true; 429b793f0d3448a15277cd6b6cc4ba558ded39a8084Tim Northover } 430b793f0d3448a15277cd6b6cc4ba558ded39a8084Tim Northover 431b793f0d3448a15277cd6b6cc4ba558ded39a8084Tim Northover // For NEON intrinsics which take an immediate value as part of the 432b793f0d3448a15277cd6b6cc4ba558ded39a8084Tim Northover // instruction, range check them here. 433b793f0d3448a15277cd6b6cc4ba558ded39a8084Tim Northover unsigned i = 0, l = 0, u = 0; 434b793f0d3448a15277cd6b6cc4ba558ded39a8084Tim Northover switch (BuiltinID) { 435b793f0d3448a15277cd6b6cc4ba558ded39a8084Tim Northover default: 436b793f0d3448a15277cd6b6cc4ba558ded39a8084Tim Northover return false; 437b793f0d3448a15277cd6b6cc4ba558ded39a8084Tim Northover#define GET_NEON_AARCH64_IMMEDIATE_CHECK 438b793f0d3448a15277cd6b6cc4ba558ded39a8084Tim Northover#include "clang/Basic/arm_neon.inc" 439b793f0d3448a15277cd6b6cc4ba558ded39a8084Tim Northover#undef GET_NEON_AARCH64_IMMEDIATE_CHECK 440b793f0d3448a15277cd6b6cc4ba558ded39a8084Tim Northover } 441b793f0d3448a15277cd6b6cc4ba558ded39a8084Tim Northover ; 442b793f0d3448a15277cd6b6cc4ba558ded39a8084Tim Northover 443b793f0d3448a15277cd6b6cc4ba558ded39a8084Tim Northover // We can't check the value of a dependent argument. 444b793f0d3448a15277cd6b6cc4ba558ded39a8084Tim Northover if (TheCall->getArg(i)->isTypeDependent() || 445b793f0d3448a15277cd6b6cc4ba558ded39a8084Tim Northover TheCall->getArg(i)->isValueDependent()) 446b793f0d3448a15277cd6b6cc4ba558ded39a8084Tim Northover return false; 447b793f0d3448a15277cd6b6cc4ba558ded39a8084Tim Northover 448b793f0d3448a15277cd6b6cc4ba558ded39a8084Tim Northover // Check that the immediate argument is actually a constant. 449b793f0d3448a15277cd6b6cc4ba558ded39a8084Tim Northover if (SemaBuiltinConstantArg(TheCall, i, Result)) 450b793f0d3448a15277cd6b6cc4ba558ded39a8084Tim Northover return true; 451b793f0d3448a15277cd6b6cc4ba558ded39a8084Tim Northover 452b793f0d3448a15277cd6b6cc4ba558ded39a8084Tim Northover // Range check against the upper/lower values for this isntruction. 453b793f0d3448a15277cd6b6cc4ba558ded39a8084Tim Northover unsigned Val = Result.getZExtValue(); 454b793f0d3448a15277cd6b6cc4ba558ded39a8084Tim Northover if (Val < l || Val > (u + l)) 455b793f0d3448a15277cd6b6cc4ba558ded39a8084Tim Northover return Diag(TheCall->getLocStart(), diag::err_argument_invalid_range) 456b793f0d3448a15277cd6b6cc4ba558ded39a8084Tim Northover << l << u + l << TheCall->getArg(i)->getSourceRange(); 457b793f0d3448a15277cd6b6cc4ba558ded39a8084Tim Northover 458b793f0d3448a15277cd6b6cc4ba558ded39a8084Tim Northover return false; 459b793f0d3448a15277cd6b6cc4ba558ded39a8084Tim Northover} 460b793f0d3448a15277cd6b6cc4ba558ded39a8084Tim Northover 46109df2b066221d869f17f4b5762405f111a65f983Tim Northoverbool Sema::CheckARMBuiltinExclusiveCall(unsigned BuiltinID, CallExpr *TheCall) { 46209df2b066221d869f17f4b5762405f111a65f983Tim Northover assert((BuiltinID == ARM::BI__builtin_arm_ldrex || 46309df2b066221d869f17f4b5762405f111a65f983Tim Northover BuiltinID == ARM::BI__builtin_arm_strex) && 46409df2b066221d869f17f4b5762405f111a65f983Tim Northover "unexpected ARM builtin"); 46509df2b066221d869f17f4b5762405f111a65f983Tim Northover bool IsLdrex = BuiltinID == ARM::BI__builtin_arm_ldrex; 46609df2b066221d869f17f4b5762405f111a65f983Tim Northover 46709df2b066221d869f17f4b5762405f111a65f983Tim Northover DeclRefExpr *DRE =cast<DeclRefExpr>(TheCall->getCallee()->IgnoreParenCasts()); 46809df2b066221d869f17f4b5762405f111a65f983Tim Northover 46909df2b066221d869f17f4b5762405f111a65f983Tim Northover // Ensure that we have the proper number of arguments. 47009df2b066221d869f17f4b5762405f111a65f983Tim Northover if (checkArgCount(*this, TheCall, IsLdrex ? 1 : 2)) 47109df2b066221d869f17f4b5762405f111a65f983Tim Northover return true; 47209df2b066221d869f17f4b5762405f111a65f983Tim Northover 47309df2b066221d869f17f4b5762405f111a65f983Tim Northover // Inspect the pointer argument of the atomic builtin. This should always be 47409df2b066221d869f17f4b5762405f111a65f983Tim Northover // a pointer type, whose element is an integral scalar or pointer type. 47509df2b066221d869f17f4b5762405f111a65f983Tim Northover // Because it is a pointer type, we don't have to worry about any implicit 47609df2b066221d869f17f4b5762405f111a65f983Tim Northover // casts here. 47709df2b066221d869f17f4b5762405f111a65f983Tim Northover Expr *PointerArg = TheCall->getArg(IsLdrex ? 0 : 1); 47809df2b066221d869f17f4b5762405f111a65f983Tim Northover ExprResult PointerArgRes = DefaultFunctionArrayLvalueConversion(PointerArg); 47909df2b066221d869f17f4b5762405f111a65f983Tim Northover if (PointerArgRes.isInvalid()) 48009df2b066221d869f17f4b5762405f111a65f983Tim Northover return true; 48109df2b066221d869f17f4b5762405f111a65f983Tim Northover PointerArg = PointerArgRes.take(); 48209df2b066221d869f17f4b5762405f111a65f983Tim Northover 48309df2b066221d869f17f4b5762405f111a65f983Tim Northover const PointerType *pointerType = PointerArg->getType()->getAs<PointerType>(); 48409df2b066221d869f17f4b5762405f111a65f983Tim Northover if (!pointerType) { 48509df2b066221d869f17f4b5762405f111a65f983Tim Northover Diag(DRE->getLocStart(), diag::err_atomic_builtin_must_be_pointer) 48609df2b066221d869f17f4b5762405f111a65f983Tim Northover << PointerArg->getType() << PointerArg->getSourceRange(); 48709df2b066221d869f17f4b5762405f111a65f983Tim Northover return true; 48809df2b066221d869f17f4b5762405f111a65f983Tim Northover } 48909df2b066221d869f17f4b5762405f111a65f983Tim Northover 49009df2b066221d869f17f4b5762405f111a65f983Tim Northover // ldrex takes a "const volatile T*" and strex takes a "volatile T*". Our next 49109df2b066221d869f17f4b5762405f111a65f983Tim Northover // task is to insert the appropriate casts into the AST. First work out just 49209df2b066221d869f17f4b5762405f111a65f983Tim Northover // what the appropriate type is. 49309df2b066221d869f17f4b5762405f111a65f983Tim Northover QualType ValType = pointerType->getPointeeType(); 49409df2b066221d869f17f4b5762405f111a65f983Tim Northover QualType AddrType = ValType.getUnqualifiedType().withVolatile(); 49509df2b066221d869f17f4b5762405f111a65f983Tim Northover if (IsLdrex) 49609df2b066221d869f17f4b5762405f111a65f983Tim Northover AddrType.addConst(); 49709df2b066221d869f17f4b5762405f111a65f983Tim Northover 49809df2b066221d869f17f4b5762405f111a65f983Tim Northover // Issue a warning if the cast is dodgy. 49909df2b066221d869f17f4b5762405f111a65f983Tim Northover CastKind CastNeeded = CK_NoOp; 50009df2b066221d869f17f4b5762405f111a65f983Tim Northover if (!AddrType.isAtLeastAsQualifiedAs(ValType)) { 50109df2b066221d869f17f4b5762405f111a65f983Tim Northover CastNeeded = CK_BitCast; 50209df2b066221d869f17f4b5762405f111a65f983Tim Northover Diag(DRE->getLocStart(), diag::ext_typecheck_convert_discards_qualifiers) 50309df2b066221d869f17f4b5762405f111a65f983Tim Northover << PointerArg->getType() 50409df2b066221d869f17f4b5762405f111a65f983Tim Northover << Context.getPointerType(AddrType) 50509df2b066221d869f17f4b5762405f111a65f983Tim Northover << AA_Passing << PointerArg->getSourceRange(); 50609df2b066221d869f17f4b5762405f111a65f983Tim Northover } 50709df2b066221d869f17f4b5762405f111a65f983Tim Northover 50809df2b066221d869f17f4b5762405f111a65f983Tim Northover // Finally, do the cast and replace the argument with the corrected version. 50909df2b066221d869f17f4b5762405f111a65f983Tim Northover AddrType = Context.getPointerType(AddrType); 51009df2b066221d869f17f4b5762405f111a65f983Tim Northover PointerArgRes = ImpCastExprToType(PointerArg, AddrType, CastNeeded); 51109df2b066221d869f17f4b5762405f111a65f983Tim Northover if (PointerArgRes.isInvalid()) 51209df2b066221d869f17f4b5762405f111a65f983Tim Northover return true; 51309df2b066221d869f17f4b5762405f111a65f983Tim Northover PointerArg = PointerArgRes.take(); 51409df2b066221d869f17f4b5762405f111a65f983Tim Northover 51509df2b066221d869f17f4b5762405f111a65f983Tim Northover TheCall->setArg(IsLdrex ? 0 : 1, PointerArg); 51609df2b066221d869f17f4b5762405f111a65f983Tim Northover 51709df2b066221d869f17f4b5762405f111a65f983Tim Northover // In general, we allow ints, floats and pointers to be loaded and stored. 51809df2b066221d869f17f4b5762405f111a65f983Tim Northover if (!ValType->isIntegerType() && !ValType->isAnyPointerType() && 51909df2b066221d869f17f4b5762405f111a65f983Tim Northover !ValType->isBlockPointerType() && !ValType->isFloatingType()) { 52009df2b066221d869f17f4b5762405f111a65f983Tim Northover Diag(DRE->getLocStart(), diag::err_atomic_builtin_must_be_pointer_intfltptr) 52109df2b066221d869f17f4b5762405f111a65f983Tim Northover << PointerArg->getType() << PointerArg->getSourceRange(); 52209df2b066221d869f17f4b5762405f111a65f983Tim Northover return true; 52309df2b066221d869f17f4b5762405f111a65f983Tim Northover } 52409df2b066221d869f17f4b5762405f111a65f983Tim Northover 52509df2b066221d869f17f4b5762405f111a65f983Tim Northover // But ARM doesn't have instructions to deal with 128-bit versions. 52609df2b066221d869f17f4b5762405f111a65f983Tim Northover if (Context.getTypeSize(ValType) > 64) { 52709df2b066221d869f17f4b5762405f111a65f983Tim Northover Diag(DRE->getLocStart(), diag::err_atomic_exclusive_builtin_pointer_size) 52809df2b066221d869f17f4b5762405f111a65f983Tim Northover << PointerArg->getType() << PointerArg->getSourceRange(); 52909df2b066221d869f17f4b5762405f111a65f983Tim Northover return true; 53009df2b066221d869f17f4b5762405f111a65f983Tim Northover } 53109df2b066221d869f17f4b5762405f111a65f983Tim Northover 53209df2b066221d869f17f4b5762405f111a65f983Tim Northover switch (ValType.getObjCLifetime()) { 53309df2b066221d869f17f4b5762405f111a65f983Tim Northover case Qualifiers::OCL_None: 53409df2b066221d869f17f4b5762405f111a65f983Tim Northover case Qualifiers::OCL_ExplicitNone: 53509df2b066221d869f17f4b5762405f111a65f983Tim Northover // okay 53609df2b066221d869f17f4b5762405f111a65f983Tim Northover break; 53709df2b066221d869f17f4b5762405f111a65f983Tim Northover 53809df2b066221d869f17f4b5762405f111a65f983Tim Northover case Qualifiers::OCL_Weak: 53909df2b066221d869f17f4b5762405f111a65f983Tim Northover case Qualifiers::OCL_Strong: 54009df2b066221d869f17f4b5762405f111a65f983Tim Northover case Qualifiers::OCL_Autoreleasing: 54109df2b066221d869f17f4b5762405f111a65f983Tim Northover Diag(DRE->getLocStart(), diag::err_arc_atomic_ownership) 54209df2b066221d869f17f4b5762405f111a65f983Tim Northover << ValType << PointerArg->getSourceRange(); 54309df2b066221d869f17f4b5762405f111a65f983Tim Northover return true; 54409df2b066221d869f17f4b5762405f111a65f983Tim Northover } 54509df2b066221d869f17f4b5762405f111a65f983Tim Northover 54609df2b066221d869f17f4b5762405f111a65f983Tim Northover 54709df2b066221d869f17f4b5762405f111a65f983Tim Northover if (IsLdrex) { 54809df2b066221d869f17f4b5762405f111a65f983Tim Northover TheCall->setType(ValType); 54909df2b066221d869f17f4b5762405f111a65f983Tim Northover return false; 55009df2b066221d869f17f4b5762405f111a65f983Tim Northover } 55109df2b066221d869f17f4b5762405f111a65f983Tim Northover 55209df2b066221d869f17f4b5762405f111a65f983Tim Northover // Initialize the argument to be stored. 55309df2b066221d869f17f4b5762405f111a65f983Tim Northover ExprResult ValArg = TheCall->getArg(0); 55409df2b066221d869f17f4b5762405f111a65f983Tim Northover InitializedEntity Entity = InitializedEntity::InitializeParameter( 55509df2b066221d869f17f4b5762405f111a65f983Tim Northover Context, ValType, /*consume*/ false); 55609df2b066221d869f17f4b5762405f111a65f983Tim Northover ValArg = PerformCopyInitialization(Entity, SourceLocation(), ValArg); 55709df2b066221d869f17f4b5762405f111a65f983Tim Northover if (ValArg.isInvalid()) 55809df2b066221d869f17f4b5762405f111a65f983Tim Northover return true; 55909df2b066221d869f17f4b5762405f111a65f983Tim Northover 56009df2b066221d869f17f4b5762405f111a65f983Tim Northover TheCall->setArg(0, ValArg.get()); 56109df2b066221d869f17f4b5762405f111a65f983Tim Northover return false; 56209df2b066221d869f17f4b5762405f111a65f983Tim Northover} 56309df2b066221d869f17f4b5762405f111a65f983Tim Northover 56426a31428f130b66f61834d1b4d1cf72f590f70b9Nate Begemanbool Sema::CheckARMBuiltinFunctionCall(unsigned BuiltinID, CallExpr *TheCall) { 5651c2a88cfaeb11227d3a6bf7204207e0c8cf6de6fNate Begeman llvm::APSInt Result; 5661c2a88cfaeb11227d3a6bf7204207e0c8cf6de6fNate Begeman 56709df2b066221d869f17f4b5762405f111a65f983Tim Northover if (BuiltinID == ARM::BI__builtin_arm_ldrex || 56809df2b066221d869f17f4b5762405f111a65f983Tim Northover BuiltinID == ARM::BI__builtin_arm_strex) { 56909df2b066221d869f17f4b5762405f111a65f983Tim Northover return CheckARMBuiltinExclusiveCall(BuiltinID, TheCall); 57009df2b066221d869f17f4b5762405f111a65f983Tim Northover } 57109df2b066221d869f17f4b5762405f111a65f983Tim Northover 572f8ee6bc1ef0eec8e22b413dfc2baa3cfa4f19f91Richard Smith uint64_t mask = 0; 57361eecf5aea018ea65c9ab0bccacd2996b15c632dNate Begeman unsigned TV = 0; 5744648255cebd2fc7c18293c1f93afd6e9add9ccccBob Wilson int PtrArgNum = -1; 5756f9f03ef370ad48ece0c5d10edda28f39ccadb5dBob Wilson bool HasConstPtr = false; 5761c2a88cfaeb11227d3a6bf7204207e0c8cf6de6fNate Begeman switch (BuiltinID) { 577a23326b5c244a03bf61ebb86db60a777ea26f926Nate Begeman#define GET_NEON_OVERLOAD_CHECK 578a23326b5c244a03bf61ebb86db60a777ea26f926Nate Begeman#include "clang/Basic/arm_neon.inc" 579a23326b5c244a03bf61ebb86db60a777ea26f926Nate Begeman#undef GET_NEON_OVERLOAD_CHECK 5801c2a88cfaeb11227d3a6bf7204207e0c8cf6de6fNate Begeman } 5811c2a88cfaeb11227d3a6bf7204207e0c8cf6de6fNate Begeman 5820d15c5321a11a5fee53b17ca8e9e0d72d6192b23Nate Begeman // For NEON intrinsics which are overloaded on vector element type, validate 5830d15c5321a11a5fee53b17ca8e9e0d72d6192b23Nate Begeman // the immediate which specifies which variant to emit. 5846f9f03ef370ad48ece0c5d10edda28f39ccadb5dBob Wilson unsigned ImmArg = TheCall->getNumArgs()-1; 5850d15c5321a11a5fee53b17ca8e9e0d72d6192b23Nate Begeman if (mask) { 5866f9f03ef370ad48ece0c5d10edda28f39ccadb5dBob Wilson if (SemaBuiltinConstantArg(TheCall, ImmArg, Result)) 5870d15c5321a11a5fee53b17ca8e9e0d72d6192b23Nate Begeman return true; 5880d15c5321a11a5fee53b17ca8e9e0d72d6192b23Nate Begeman 589da95f73b59f9af964e33725c515139d34c90c863Bob Wilson TV = Result.getLimitedValue(64); 590f8ee6bc1ef0eec8e22b413dfc2baa3cfa4f19f91Richard Smith if ((TV > 63) || (mask & (1ULL << TV)) == 0) 5910d15c5321a11a5fee53b17ca8e9e0d72d6192b23Nate Begeman return Diag(TheCall->getLocStart(), diag::err_invalid_neon_type_code) 5926f9f03ef370ad48ece0c5d10edda28f39ccadb5dBob Wilson << TheCall->getArg(ImmArg)->getSourceRange(); 5936f9f03ef370ad48ece0c5d10edda28f39ccadb5dBob Wilson } 5946f9f03ef370ad48ece0c5d10edda28f39ccadb5dBob Wilson 5954648255cebd2fc7c18293c1f93afd6e9add9ccccBob Wilson if (PtrArgNum >= 0) { 5966f9f03ef370ad48ece0c5d10edda28f39ccadb5dBob Wilson // Check that pointer arguments have the specified type. 5974648255cebd2fc7c18293c1f93afd6e9add9ccccBob Wilson Expr *Arg = TheCall->getArg(PtrArgNum); 5984648255cebd2fc7c18293c1f93afd6e9add9ccccBob Wilson if (ImplicitCastExpr *ICE = dyn_cast<ImplicitCastExpr>(Arg)) 5994648255cebd2fc7c18293c1f93afd6e9add9ccccBob Wilson Arg = ICE->getSubExpr(); 6004648255cebd2fc7c18293c1f93afd6e9add9ccccBob Wilson ExprResult RHS = DefaultFunctionArrayLvalueConversion(Arg); 6014648255cebd2fc7c18293c1f93afd6e9add9ccccBob Wilson QualType RHSTy = RHS.get()->getType(); 6024648255cebd2fc7c18293c1f93afd6e9add9ccccBob Wilson QualType EltTy = getNeonEltType(NeonTypeFlags(TV), Context); 6034648255cebd2fc7c18293c1f93afd6e9add9ccccBob Wilson if (HasConstPtr) 6044648255cebd2fc7c18293c1f93afd6e9add9ccccBob Wilson EltTy = EltTy.withConst(); 6054648255cebd2fc7c18293c1f93afd6e9add9ccccBob Wilson QualType LHSTy = Context.getPointerType(EltTy); 6064648255cebd2fc7c18293c1f93afd6e9add9ccccBob Wilson AssignConvertType ConvTy; 6074648255cebd2fc7c18293c1f93afd6e9add9ccccBob Wilson ConvTy = CheckSingleAssignmentConstraints(LHSTy, RHS); 6084648255cebd2fc7c18293c1f93afd6e9add9ccccBob Wilson if (RHS.isInvalid()) 6094648255cebd2fc7c18293c1f93afd6e9add9ccccBob Wilson return true; 6104648255cebd2fc7c18293c1f93afd6e9add9ccccBob Wilson if (DiagnoseAssignmentResult(ConvTy, Arg->getLocStart(), LHSTy, RHSTy, 6114648255cebd2fc7c18293c1f93afd6e9add9ccccBob Wilson RHS.get(), AA_Assigning)) 6124648255cebd2fc7c18293c1f93afd6e9add9ccccBob Wilson return true; 6130d15c5321a11a5fee53b17ca8e9e0d72d6192b23Nate Begeman } 6141c2a88cfaeb11227d3a6bf7204207e0c8cf6de6fNate Begeman 6150d15c5321a11a5fee53b17ca8e9e0d72d6192b23Nate Begeman // For NEON intrinsics which take an immediate value as part of the 6160d15c5321a11a5fee53b17ca8e9e0d72d6192b23Nate Begeman // instruction, range check them here. 61761eecf5aea018ea65c9ab0bccacd2996b15c632dNate Begeman unsigned i = 0, l = 0, u = 0; 6180d15c5321a11a5fee53b17ca8e9e0d72d6192b23Nate Begeman switch (BuiltinID) { 6190d15c5321a11a5fee53b17ca8e9e0d72d6192b23Nate Begeman default: return false; 620bb37f50c2d0d72e1fa5b349d5f6a11fdc5acb86eNate Begeman case ARM::BI__builtin_arm_ssat: i = 1; l = 1; u = 31; break; 621bb37f50c2d0d72e1fa5b349d5f6a11fdc5acb86eNate Begeman case ARM::BI__builtin_arm_usat: i = 1; u = 31; break; 62299c40bb13b523d58d7aeb6446e4f486d6918ca58Nate Begeman case ARM::BI__builtin_arm_vcvtr_f: 62399c40bb13b523d58d7aeb6446e4f486d6918ca58Nate Begeman case ARM::BI__builtin_arm_vcvtr_d: i = 1; u = 1; break; 624a23326b5c244a03bf61ebb86db60a777ea26f926Nate Begeman#define GET_NEON_IMMEDIATE_CHECK 625a23326b5c244a03bf61ebb86db60a777ea26f926Nate Begeman#include "clang/Basic/arm_neon.inc" 626a23326b5c244a03bf61ebb86db60a777ea26f926Nate Begeman#undef GET_NEON_IMMEDIATE_CHECK 6270d15c5321a11a5fee53b17ca8e9e0d72d6192b23Nate Begeman }; 6280d15c5321a11a5fee53b17ca8e9e0d72d6192b23Nate Begeman 629592a4230c6e91fead00d605f6155080544cdf8c9Douglas Gregor // We can't check the value of a dependent argument. 630592a4230c6e91fead00d605f6155080544cdf8c9Douglas Gregor if (TheCall->getArg(i)->isTypeDependent() || 631592a4230c6e91fead00d605f6155080544cdf8c9Douglas Gregor TheCall->getArg(i)->isValueDependent()) 632592a4230c6e91fead00d605f6155080544cdf8c9Douglas Gregor return false; 633592a4230c6e91fead00d605f6155080544cdf8c9Douglas Gregor 63461eecf5aea018ea65c9ab0bccacd2996b15c632dNate Begeman // Check that the immediate argument is actually a constant. 6350d15c5321a11a5fee53b17ca8e9e0d72d6192b23Nate Begeman if (SemaBuiltinConstantArg(TheCall, i, Result)) 6360d15c5321a11a5fee53b17ca8e9e0d72d6192b23Nate Begeman return true; 6370d15c5321a11a5fee53b17ca8e9e0d72d6192b23Nate Begeman 63861eecf5aea018ea65c9ab0bccacd2996b15c632dNate Begeman // Range check against the upper/lower values for this isntruction. 6390d15c5321a11a5fee53b17ca8e9e0d72d6192b23Nate Begeman unsigned Val = Result.getZExtValue(); 64061eecf5aea018ea65c9ab0bccacd2996b15c632dNate Begeman if (Val < l || Val > (u + l)) 6410d15c5321a11a5fee53b17ca8e9e0d72d6192b23Nate Begeman return Diag(TheCall->getLocStart(), diag::err_argument_invalid_range) 642476d8b863cb65b2b5833235d97315cdb46e6f5aaBenjamin Kramer << l << u+l << TheCall->getArg(i)->getSourceRange(); 6430d15c5321a11a5fee53b17ca8e9e0d72d6192b23Nate Begeman 64499c40bb13b523d58d7aeb6446e4f486d6918ca58Nate Begeman // FIXME: VFP Intrinsics should error if VFP not present. 64526a31428f130b66f61834d1b4d1cf72f590f70b9Nate Begeman return false; 646d406bf0e8c17012110a8476d03c6f9a97b56ecf7Anders Carlsson} 647d406bf0e8c17012110a8476d03c6f9a97b56ecf7Anders Carlsson 648fad0a32da8ea34a58aa0a0dd3fd67cd30959b080Simon Atanasyanbool Sema::CheckMipsBuiltinFunctionCall(unsigned BuiltinID, CallExpr *TheCall) { 649fad0a32da8ea34a58aa0a0dd3fd67cd30959b080Simon Atanasyan unsigned i = 0, l = 0, u = 0; 650fad0a32da8ea34a58aa0a0dd3fd67cd30959b080Simon Atanasyan switch (BuiltinID) { 651fad0a32da8ea34a58aa0a0dd3fd67cd30959b080Simon Atanasyan default: return false; 652fad0a32da8ea34a58aa0a0dd3fd67cd30959b080Simon Atanasyan case Mips::BI__builtin_mips_wrdsp: i = 1; l = 0; u = 63; break; 653fad0a32da8ea34a58aa0a0dd3fd67cd30959b080Simon Atanasyan case Mips::BI__builtin_mips_rddsp: i = 0; l = 0; u = 63; break; 654be22cb84f32cfa6cf0b6bdaf523288b747bb0f18Simon Atanasyan case Mips::BI__builtin_mips_append: i = 2; l = 0; u = 31; break; 655be22cb84f32cfa6cf0b6bdaf523288b747bb0f18Simon Atanasyan case Mips::BI__builtin_mips_balign: i = 2; l = 0; u = 3; break; 656be22cb84f32cfa6cf0b6bdaf523288b747bb0f18Simon Atanasyan case Mips::BI__builtin_mips_precr_sra_ph_w: i = 2; l = 0; u = 31; break; 657be22cb84f32cfa6cf0b6bdaf523288b747bb0f18Simon Atanasyan case Mips::BI__builtin_mips_precr_sra_r_ph_w: i = 2; l = 0; u = 31; break; 658be22cb84f32cfa6cf0b6bdaf523288b747bb0f18Simon Atanasyan case Mips::BI__builtin_mips_prepend: i = 2; l = 0; u = 31; break; 659fad0a32da8ea34a58aa0a0dd3fd67cd30959b080Simon Atanasyan }; 660fad0a32da8ea34a58aa0a0dd3fd67cd30959b080Simon Atanasyan 661fad0a32da8ea34a58aa0a0dd3fd67cd30959b080Simon Atanasyan // We can't check the value of a dependent argument. 662fad0a32da8ea34a58aa0a0dd3fd67cd30959b080Simon Atanasyan if (TheCall->getArg(i)->isTypeDependent() || 663fad0a32da8ea34a58aa0a0dd3fd67cd30959b080Simon Atanasyan TheCall->getArg(i)->isValueDependent()) 664fad0a32da8ea34a58aa0a0dd3fd67cd30959b080Simon Atanasyan return false; 665fad0a32da8ea34a58aa0a0dd3fd67cd30959b080Simon Atanasyan 666fad0a32da8ea34a58aa0a0dd3fd67cd30959b080Simon Atanasyan // Check that the immediate argument is actually a constant. 667fad0a32da8ea34a58aa0a0dd3fd67cd30959b080Simon Atanasyan llvm::APSInt Result; 668fad0a32da8ea34a58aa0a0dd3fd67cd30959b080Simon Atanasyan if (SemaBuiltinConstantArg(TheCall, i, Result)) 669fad0a32da8ea34a58aa0a0dd3fd67cd30959b080Simon Atanasyan return true; 670fad0a32da8ea34a58aa0a0dd3fd67cd30959b080Simon Atanasyan 671fad0a32da8ea34a58aa0a0dd3fd67cd30959b080Simon Atanasyan // Range check against the upper/lower values for this instruction. 672fad0a32da8ea34a58aa0a0dd3fd67cd30959b080Simon Atanasyan unsigned Val = Result.getZExtValue(); 673fad0a32da8ea34a58aa0a0dd3fd67cd30959b080Simon Atanasyan if (Val < l || Val > u) 674fad0a32da8ea34a58aa0a0dd3fd67cd30959b080Simon Atanasyan return Diag(TheCall->getLocStart(), diag::err_argument_invalid_range) 675fad0a32da8ea34a58aa0a0dd3fd67cd30959b080Simon Atanasyan << l << u << TheCall->getArg(i)->getSourceRange(); 676fad0a32da8ea34a58aa0a0dd3fd67cd30959b080Simon Atanasyan 677fad0a32da8ea34a58aa0a0dd3fd67cd30959b080Simon Atanasyan return false; 678fad0a32da8ea34a58aa0a0dd3fd67cd30959b080Simon Atanasyan} 679fad0a32da8ea34a58aa0a0dd3fd67cd30959b080Simon Atanasyan 680831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith/// Given a FunctionDecl's FormatAttr, attempts to populate the FomatStringInfo 681831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith/// parameter with the FormatAttr's correct format_idx and firstDataArg. 682831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith/// Returns true when the format fits the function and the FormatStringInfo has 683831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith/// been populated. 684831421f24057b93ea28bc92d8bd6290631a43cafRichard Smithbool Sema::getFormatStringInfo(const FormatAttr *Format, bool IsCXXMember, 685831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith FormatStringInfo *FSI) { 686831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith FSI->HasVAListArg = Format->getFirstArg() == 0; 687831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith FSI->FormatIdx = Format->getFormatIdx() - 1; 688831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith FSI->FirstDataArg = FSI->HasVAListArg ? 0 : Format->getFirstArg() - 1; 689de45428f923b38d80407dbb9ede0df504256f9f6Daniel Dunbar 690831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith // The way the format attribute works in GCC, the implicit this argument 691831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith // of member functions is counted. However, it doesn't appear in our own 692831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith // lists, so decrement format_idx in that case. 693831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith if (IsCXXMember) { 694831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith if(FSI->FormatIdx == 0) 695831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith return false; 696831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith --FSI->FormatIdx; 697831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith if (FSI->FirstDataArg != 0) 698831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith --FSI->FirstDataArg; 699831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith } 700831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith return true; 701831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith} 7021eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump 703831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith/// Handles the checks for format strings, non-POD arguments to vararg 704831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith/// functions, and NULL arguments passed to non-NULL parameters. 7051c030e9a3f290a1eea5de82fe1e63dfde2bd8f1eDmitri Gribenkovoid Sema::checkCall(NamedDecl *FDecl, 7061c030e9a3f290a1eea5de82fe1e63dfde2bd8f1eDmitri Gribenko ArrayRef<const Expr *> Args, 707831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith unsigned NumProtoArgs, 708831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith bool IsMemberFunction, 709831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith SourceLocation Loc, 710831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith SourceRange Range, 711831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith VariadicCallType CallType) { 7120e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith // FIXME: We should check as much as we can in the template definition. 71366360e224689dc23a0acd8a6705ba50bec13bc97Jordan Rose if (CurContext->isDependentContext()) 71466360e224689dc23a0acd8a6705ba50bec13bc97Jordan Rose return; 715de45428f923b38d80407dbb9ede0df504256f9f6Daniel Dunbar 716c82faca0be59b072b38bed375e21bd24f1f72647Ted Kremenek // Printf and scanf checking. 717831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith bool HandledFormatString = false; 7180e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith llvm::SmallBitVector CheckedVarArgs; 7190e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith if (FDecl) { 7200538f0e9200df56974b5a71bc276dbce456e9781Richard Trieu for (specific_attr_iterator<FormatAttr> 7210538f0e9200df56974b5a71bc276dbce456e9781Richard Trieu I = FDecl->specific_attr_begin<FormatAttr>(), 7220e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith E = FDecl->specific_attr_end<FormatAttr>(); I != E ; ++I) { 7230e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith CheckedVarArgs.resize(Args.size()); 7240538f0e9200df56974b5a71bc276dbce456e9781Richard Trieu if (CheckFormatArguments(*I, Args, IsMemberFunction, CallType, Loc, 7250e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith Range, CheckedVarArgs)) 7260e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith HandledFormatString = true; 7270e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith } 7280e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith } 729831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith 730831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith // Refuse POD arguments that weren't caught by the format string 731831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith // checks above. 7320e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith if (CallType != VariadicDoesNotApply) { 7331c030e9a3f290a1eea5de82fe1e63dfde2bd8f1eDmitri Gribenko for (unsigned ArgIdx = NumProtoArgs; ArgIdx < Args.size(); ++ArgIdx) { 7340234bfa2b03470b8ce379a7485e60ffa35c1d550Ted Kremenek // Args[ArgIdx] can be null in malformed code. 7350e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith if (const Expr *Arg = Args[ArgIdx]) { 7360e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith if (CheckedVarArgs.empty() || !CheckedVarArgs[ArgIdx]) 7370e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith checkVariadicArgument(Arg, CallType); 7380e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith } 7390234bfa2b03470b8ce379a7485e60ffa35c1d550Ted Kremenek } 7400e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith } 7411eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump 7420538f0e9200df56974b5a71bc276dbce456e9781Richard Trieu if (FDecl) { 7430538f0e9200df56974b5a71bc276dbce456e9781Richard Trieu for (specific_attr_iterator<NonNullAttr> 7440538f0e9200df56974b5a71bc276dbce456e9781Richard Trieu I = FDecl->specific_attr_begin<NonNullAttr>(), 7450538f0e9200df56974b5a71bc276dbce456e9781Richard Trieu E = FDecl->specific_attr_end<NonNullAttr>(); I != E; ++I) 7460538f0e9200df56974b5a71bc276dbce456e9781Richard Trieu CheckNonNullArguments(*I, Args.data(), Loc); 7470538f0e9200df56974b5a71bc276dbce456e9781Richard Trieu 7480538f0e9200df56974b5a71bc276dbce456e9781Richard Trieu // Type safety checking. 7490538f0e9200df56974b5a71bc276dbce456e9781Richard Trieu for (specific_attr_iterator<ArgumentWithTypeTagAttr> 7500538f0e9200df56974b5a71bc276dbce456e9781Richard Trieu i = FDecl->specific_attr_begin<ArgumentWithTypeTagAttr>(), 7510538f0e9200df56974b5a71bc276dbce456e9781Richard Trieu e = FDecl->specific_attr_end<ArgumentWithTypeTagAttr>(); 7520538f0e9200df56974b5a71bc276dbce456e9781Richard Trieu i != e; ++i) { 7530538f0e9200df56974b5a71bc276dbce456e9781Richard Trieu CheckArgumentWithTypeTag(*i, Args.data()); 7540538f0e9200df56974b5a71bc276dbce456e9781Richard Trieu } 7550d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko } 756831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith} 757831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith 758831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith/// CheckConstructorCall - Check a constructor call for correctness and safety 759831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith/// properties not enforced by the C type system. 7601c030e9a3f290a1eea5de82fe1e63dfde2bd8f1eDmitri Gribenkovoid Sema::CheckConstructorCall(FunctionDecl *FDecl, 7611c030e9a3f290a1eea5de82fe1e63dfde2bd8f1eDmitri Gribenko ArrayRef<const Expr *> Args, 762831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith const FunctionProtoType *Proto, 763831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith SourceLocation Loc) { 764831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith VariadicCallType CallType = 765831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith Proto->isVariadic() ? VariadicConstructor : VariadicDoesNotApply; 7661c030e9a3f290a1eea5de82fe1e63dfde2bd8f1eDmitri Gribenko checkCall(FDecl, Args, Proto->getNumArgs(), 767831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith /*IsMemberFunction=*/true, Loc, SourceRange(), CallType); 768831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith} 769831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith 770831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith/// CheckFunctionCall - Check a direct function call for various correctness 771831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith/// and safety properties not strictly enforced by the C type system. 772831421f24057b93ea28bc92d8bd6290631a43cafRichard Smithbool Sema::CheckFunctionCall(FunctionDecl *FDecl, CallExpr *TheCall, 773831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith const FunctionProtoType *Proto) { 7742edcde8747a000113b434a5c88b4648beed4197bEli Friedman bool IsMemberOperatorCall = isa<CXXOperatorCallExpr>(TheCall) && 7752edcde8747a000113b434a5c88b4648beed4197bEli Friedman isa<CXXMethodDecl>(FDecl); 7762edcde8747a000113b434a5c88b4648beed4197bEli Friedman bool IsMemberFunction = isa<CXXMemberCallExpr>(TheCall) || 7772edcde8747a000113b434a5c88b4648beed4197bEli Friedman IsMemberOperatorCall; 778831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith VariadicCallType CallType = getVariadicCallType(FDecl, Proto, 779831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith TheCall->getCallee()); 780831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith unsigned NumProtoArgs = Proto ? Proto->getNumArgs() : 0; 7812edcde8747a000113b434a5c88b4648beed4197bEli Friedman Expr** Args = TheCall->getArgs(); 7822edcde8747a000113b434a5c88b4648beed4197bEli Friedman unsigned NumArgs = TheCall->getNumArgs(); 783df75b0c74b277c6b46af2f9e90e13160fbc14d6fEli Friedman if (IsMemberOperatorCall) { 7842edcde8747a000113b434a5c88b4648beed4197bEli Friedman // If this is a call to a member operator, hide the first argument 7852edcde8747a000113b434a5c88b4648beed4197bEli Friedman // from checkCall. 7862edcde8747a000113b434a5c88b4648beed4197bEli Friedman // FIXME: Our choice of AST representation here is less than ideal. 7872edcde8747a000113b434a5c88b4648beed4197bEli Friedman ++Args; 7882edcde8747a000113b434a5c88b4648beed4197bEli Friedman --NumArgs; 7892edcde8747a000113b434a5c88b4648beed4197bEli Friedman } 7901c030e9a3f290a1eea5de82fe1e63dfde2bd8f1eDmitri Gribenko checkCall(FDecl, llvm::makeArrayRef<const Expr *>(Args, NumArgs), 7911c030e9a3f290a1eea5de82fe1e63dfde2bd8f1eDmitri Gribenko NumProtoArgs, 792831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith IsMemberFunction, TheCall->getRParenLoc(), 793831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith TheCall->getCallee()->getSourceRange(), CallType); 794831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith 795831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith IdentifierInfo *FnInfo = FDecl->getIdentifier(); 796831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith // None of the checks below are needed for functions that don't have 797831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith // simple names (e.g., C++ conversion functions). 798831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith if (!FnInfo) 799831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith return false; 8000eb23307222bda7ad95d968eac4e1ab30864b213Sebastian Redl 8010a151a137a68bb656acbcce7ff2407613bb80cfcAnna Zaks unsigned CMId = FDecl->getMemoryFunctionKind(); 8020a151a137a68bb656acbcce7ff2407613bb80cfcAnna Zaks if (CMId == 0) 803d9b859a74ecaede23a78d37f364498102ef418c9Anna Zaks return false; 804bd5da9d1a711e90b3bc265b4798954085c0b48d9Ted Kremenek 805d9b859a74ecaede23a78d37f364498102ef418c9Anna Zaks // Handle memory setting and copying functions. 8060a151a137a68bb656acbcce7ff2407613bb80cfcAnna Zaks if (CMId == Builtin::BIstrlcpy || CMId == Builtin::BIstrlcat) 807bd5da9d1a711e90b3bc265b4798954085c0b48d9Ted Kremenek CheckStrlcpycatArguments(TheCall, FnInfo); 808c36bedc90c687caa71748480c60707ea4608b092Anna Zaks else if (CMId == Builtin::BIstrncat) 809c36bedc90c687caa71748480c60707ea4608b092Anna Zaks CheckStrncatArguments(TheCall, FnInfo); 810d9b859a74ecaede23a78d37f364498102ef418c9Anna Zaks else 8110a151a137a68bb656acbcce7ff2407613bb80cfcAnna Zaks CheckMemaccessArguments(TheCall, CMId, FnInfo); 8127ccc95bceebb2d1c8fbe277c9e33bde7dc1ccbb1Chandler Carruth 813d406bf0e8c17012110a8476d03c6f9a97b56ecf7Anders Carlsson return false; 81471993dd85eed9cc42c6b2fa61ee5c53026b74817Anders Carlsson} 81571993dd85eed9cc42c6b2fa61ee5c53026b74817Anders Carlsson 81629c3f814b64808c6dac4597b61a50ceecdf141fcJean-Daniel Dupasbool Sema::CheckObjCMethodCall(ObjCMethodDecl *Method, SourceLocation lbrac, 817287f24d3991994b9a263af9e2a873f4feadfb8faDmitri Gribenko ArrayRef<const Expr *> Args) { 818831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith VariadicCallType CallType = 819831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith Method->isVariadic() ? VariadicMethod : VariadicDoesNotApply; 82029c3f814b64808c6dac4597b61a50ceecdf141fcJean-Daniel Dupas 821287f24d3991994b9a263af9e2a873f4feadfb8faDmitri Gribenko checkCall(Method, Args, Method->param_size(), 822831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith /*IsMemberFunction=*/false, 823831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith lbrac, Method->getSourceRange(), CallType); 82429c3f814b64808c6dac4597b61a50ceecdf141fcJean-Daniel Dupas 82529c3f814b64808c6dac4597b61a50ceecdf141fcJean-Daniel Dupas return false; 82629c3f814b64808c6dac4597b61a50ceecdf141fcJean-Daniel Dupas} 82729c3f814b64808c6dac4597b61a50ceecdf141fcJean-Daniel Dupas 828f462b0152f10eed0b989b07bcf457b6fb0d83bdbRichard Trieubool Sema::CheckPointerCall(NamedDecl *NDecl, CallExpr *TheCall, 829f462b0152f10eed0b989b07bcf457b6fb0d83bdbRichard Trieu const FunctionProtoType *Proto) { 830725165f2846bd37d3aaf863747fa30126992085eFariborz Jahanian const VarDecl *V = dyn_cast<VarDecl>(NDecl); 831725165f2846bd37d3aaf863747fa30126992085eFariborz Jahanian if (!V) 832d406bf0e8c17012110a8476d03c6f9a97b56ecf7Anders Carlsson return false; 8331eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump 834725165f2846bd37d3aaf863747fa30126992085eFariborz Jahanian QualType Ty = V->getType(); 835f462b0152f10eed0b989b07bcf457b6fb0d83bdbRichard Trieu if (!Ty->isBlockPointerType() && !Ty->isFunctionPointerType()) 836d406bf0e8c17012110a8476d03c6f9a97b56ecf7Anders Carlsson return false; 8371eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump 838f462b0152f10eed0b989b07bcf457b6fb0d83bdbRichard Trieu VariadicCallType CallType; 839a4993778f65212f01168c857cf3043e99ba85c9fRichard Trieu if (!Proto || !Proto->isVariadic()) { 840f462b0152f10eed0b989b07bcf457b6fb0d83bdbRichard Trieu CallType = VariadicDoesNotApply; 841f462b0152f10eed0b989b07bcf457b6fb0d83bdbRichard Trieu } else if (Ty->isBlockPointerType()) { 842f462b0152f10eed0b989b07bcf457b6fb0d83bdbRichard Trieu CallType = VariadicBlock; 843f462b0152f10eed0b989b07bcf457b6fb0d83bdbRichard Trieu } else { // Ty->isFunctionPointerType() 844f462b0152f10eed0b989b07bcf457b6fb0d83bdbRichard Trieu CallType = VariadicFunction; 845f462b0152f10eed0b989b07bcf457b6fb0d83bdbRichard Trieu } 846831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith unsigned NumProtoArgs = Proto ? Proto->getNumArgs() : 0; 847d406bf0e8c17012110a8476d03c6f9a97b56ecf7Anders Carlsson 8481c030e9a3f290a1eea5de82fe1e63dfde2bd8f1eDmitri Gribenko checkCall(NDecl, 8491c030e9a3f290a1eea5de82fe1e63dfde2bd8f1eDmitri Gribenko llvm::makeArrayRef<const Expr *>(TheCall->getArgs(), 8501c030e9a3f290a1eea5de82fe1e63dfde2bd8f1eDmitri Gribenko TheCall->getNumArgs()), 851831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith NumProtoArgs, /*IsMemberFunction=*/false, 852831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith TheCall->getRParenLoc(), 853831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith TheCall->getCallee()->getSourceRange(), CallType); 854831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith 855d406bf0e8c17012110a8476d03c6f9a97b56ecf7Anders Carlsson return false; 856725165f2846bd37d3aaf863747fa30126992085eFariborz Jahanian} 857725165f2846bd37d3aaf863747fa30126992085eFariborz Jahanian 8580538f0e9200df56974b5a71bc276dbce456e9781Richard Trieu/// Checks function calls when a FunctionDecl or a NamedDecl is not available, 8590538f0e9200df56974b5a71bc276dbce456e9781Richard Trieu/// such as function pointers returned from functions. 8600538f0e9200df56974b5a71bc276dbce456e9781Richard Trieubool Sema::CheckOtherCall(CallExpr *TheCall, const FunctionProtoType *Proto) { 8610538f0e9200df56974b5a71bc276dbce456e9781Richard Trieu VariadicCallType CallType = getVariadicCallType(/*FDecl=*/0, Proto, 8620538f0e9200df56974b5a71bc276dbce456e9781Richard Trieu TheCall->getCallee()); 8630538f0e9200df56974b5a71bc276dbce456e9781Richard Trieu unsigned NumProtoArgs = Proto ? Proto->getNumArgs() : 0; 8640538f0e9200df56974b5a71bc276dbce456e9781Richard Trieu 8650538f0e9200df56974b5a71bc276dbce456e9781Richard Trieu checkCall(/*FDecl=*/0, 8660538f0e9200df56974b5a71bc276dbce456e9781Richard Trieu llvm::makeArrayRef<const Expr *>(TheCall->getArgs(), 8670538f0e9200df56974b5a71bc276dbce456e9781Richard Trieu TheCall->getNumArgs()), 8680538f0e9200df56974b5a71bc276dbce456e9781Richard Trieu NumProtoArgs, /*IsMemberFunction=*/false, 8690538f0e9200df56974b5a71bc276dbce456e9781Richard Trieu TheCall->getRParenLoc(), 8700538f0e9200df56974b5a71bc276dbce456e9781Richard Trieu TheCall->getCallee()->getSourceRange(), CallType); 8710538f0e9200df56974b5a71bc276dbce456e9781Richard Trieu 8720538f0e9200df56974b5a71bc276dbce456e9781Richard Trieu return false; 8730538f0e9200df56974b5a71bc276dbce456e9781Richard Trieu} 8740538f0e9200df56974b5a71bc276dbce456e9781Richard Trieu 875ff34d401ff385ef7173ca612432b4ea717fff690Richard SmithExprResult Sema::SemaAtomicOpsOverloaded(ExprResult TheCallResult, 876ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith AtomicExpr::AtomicOp Op) { 877276b061970939293f1abaf694bd3ef05b2cbda79Eli Friedman CallExpr *TheCall = cast<CallExpr>(TheCallResult.get()); 878276b061970939293f1abaf694bd3ef05b2cbda79Eli Friedman DeclRefExpr *DRE =cast<DeclRefExpr>(TheCall->getCallee()->IgnoreParenCasts()); 879276b061970939293f1abaf694bd3ef05b2cbda79Eli Friedman 880ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith // All these operations take one of the following forms: 881ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith enum { 882ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith // C __c11_atomic_init(A *, C) 883ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith Init, 884ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith // C __c11_atomic_load(A *, int) 885ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith Load, 886ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith // void __atomic_load(A *, CP, int) 887ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith Copy, 888ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith // C __c11_atomic_add(A *, M, int) 889ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith Arithmetic, 890ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith // C __atomic_exchange_n(A *, CP, int) 891ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith Xchg, 892ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith // void __atomic_exchange(A *, C *, CP, int) 893ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith GNUXchg, 894ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith // bool __c11_atomic_compare_exchange_strong(A *, C *, CP, int, int) 895ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith C11CmpXchg, 896ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith // bool __atomic_compare_exchange(A *, C *, CP, bool, int, int) 897ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith GNUCmpXchg 898ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith } Form = Init; 899ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith const unsigned NumArgs[] = { 2, 2, 3, 3, 3, 4, 5, 6 }; 900ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith const unsigned NumVals[] = { 1, 0, 1, 1, 1, 2, 2, 3 }; 901ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith // where: 902ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith // C is an appropriate type, 903ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith // A is volatile _Atomic(C) for __c11 builtins and is C for GNU builtins, 904ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith // CP is C for __c11 builtins and GNU _n builtins and is C * otherwise, 905ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith // M is C if C is an integer, and ptrdiff_t if C is a pointer, and 906ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith // the int parameters are for orderings. 907ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith 908ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith assert(AtomicExpr::AO__c11_atomic_init == 0 && 909ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith AtomicExpr::AO__c11_atomic_fetch_xor + 1 == AtomicExpr::AO__atomic_load 910ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith && "need to update code for modified C11 atomics"); 911ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith bool IsC11 = Op >= AtomicExpr::AO__c11_atomic_init && 912ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith Op <= AtomicExpr::AO__c11_atomic_fetch_xor; 913ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith bool IsN = Op == AtomicExpr::AO__atomic_load_n || 914ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith Op == AtomicExpr::AO__atomic_store_n || 915ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith Op == AtomicExpr::AO__atomic_exchange_n || 916ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith Op == AtomicExpr::AO__atomic_compare_exchange_n; 917ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith bool IsAddSub = false; 918ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith 919ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith switch (Op) { 920ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith case AtomicExpr::AO__c11_atomic_init: 921ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith Form = Init; 922ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith break; 923ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith 924ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith case AtomicExpr::AO__c11_atomic_load: 925ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith case AtomicExpr::AO__atomic_load_n: 926ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith Form = Load; 927ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith break; 928ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith 929ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith case AtomicExpr::AO__c11_atomic_store: 930ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith case AtomicExpr::AO__atomic_load: 931ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith case AtomicExpr::AO__atomic_store: 932ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith case AtomicExpr::AO__atomic_store_n: 933ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith Form = Copy; 934ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith break; 935ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith 936ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith case AtomicExpr::AO__c11_atomic_fetch_add: 937ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith case AtomicExpr::AO__c11_atomic_fetch_sub: 938ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith case AtomicExpr::AO__atomic_fetch_add: 939ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith case AtomicExpr::AO__atomic_fetch_sub: 940ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith case AtomicExpr::AO__atomic_add_fetch: 941ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith case AtomicExpr::AO__atomic_sub_fetch: 942ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith IsAddSub = true; 943ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith // Fall through. 944ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith case AtomicExpr::AO__c11_atomic_fetch_and: 945ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith case AtomicExpr::AO__c11_atomic_fetch_or: 946ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith case AtomicExpr::AO__c11_atomic_fetch_xor: 947ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith case AtomicExpr::AO__atomic_fetch_and: 948ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith case AtomicExpr::AO__atomic_fetch_or: 949ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith case AtomicExpr::AO__atomic_fetch_xor: 95051b92401c9f95023a2ef27064fd5a60fd99175f5Richard Smith case AtomicExpr::AO__atomic_fetch_nand: 951ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith case AtomicExpr::AO__atomic_and_fetch: 952ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith case AtomicExpr::AO__atomic_or_fetch: 953ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith case AtomicExpr::AO__atomic_xor_fetch: 95451b92401c9f95023a2ef27064fd5a60fd99175f5Richard Smith case AtomicExpr::AO__atomic_nand_fetch: 955ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith Form = Arithmetic; 956ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith break; 957ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith 958ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith case AtomicExpr::AO__c11_atomic_exchange: 959ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith case AtomicExpr::AO__atomic_exchange_n: 960ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith Form = Xchg; 961ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith break; 962ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith 963ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith case AtomicExpr::AO__atomic_exchange: 964ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith Form = GNUXchg; 965ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith break; 966ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith 967ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith case AtomicExpr::AO__c11_atomic_compare_exchange_strong: 968ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith case AtomicExpr::AO__c11_atomic_compare_exchange_weak: 969ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith Form = C11CmpXchg; 970ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith break; 971ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith 972ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith case AtomicExpr::AO__atomic_compare_exchange: 973ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith case AtomicExpr::AO__atomic_compare_exchange_n: 974ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith Form = GNUCmpXchg; 975ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith break; 976276b061970939293f1abaf694bd3ef05b2cbda79Eli Friedman } 977276b061970939293f1abaf694bd3ef05b2cbda79Eli Friedman 978ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith // Check we have the right number of arguments. 979ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith if (TheCall->getNumArgs() < NumArgs[Form]) { 980276b061970939293f1abaf694bd3ef05b2cbda79Eli Friedman Diag(TheCall->getLocEnd(), diag::err_typecheck_call_too_few_args) 981ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith << 0 << NumArgs[Form] << TheCall->getNumArgs() 982276b061970939293f1abaf694bd3ef05b2cbda79Eli Friedman << TheCall->getCallee()->getSourceRange(); 983276b061970939293f1abaf694bd3ef05b2cbda79Eli Friedman return ExprError(); 984ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith } else if (TheCall->getNumArgs() > NumArgs[Form]) { 985ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith Diag(TheCall->getArg(NumArgs[Form])->getLocStart(), 986276b061970939293f1abaf694bd3ef05b2cbda79Eli Friedman diag::err_typecheck_call_too_many_args) 987ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith << 0 << NumArgs[Form] << TheCall->getNumArgs() 988276b061970939293f1abaf694bd3ef05b2cbda79Eli Friedman << TheCall->getCallee()->getSourceRange(); 989276b061970939293f1abaf694bd3ef05b2cbda79Eli Friedman return ExprError(); 990276b061970939293f1abaf694bd3ef05b2cbda79Eli Friedman } 991276b061970939293f1abaf694bd3ef05b2cbda79Eli Friedman 992ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith // Inspect the first argument of the atomic operation. 993dfa64ba45922e1c28e36341bdf34785fea74659bEli Friedman Expr *Ptr = TheCall->getArg(0); 994276b061970939293f1abaf694bd3ef05b2cbda79Eli Friedman Ptr = DefaultFunctionArrayLvalueConversion(Ptr).get(); 995276b061970939293f1abaf694bd3ef05b2cbda79Eli Friedman const PointerType *pointerType = Ptr->getType()->getAs<PointerType>(); 996276b061970939293f1abaf694bd3ef05b2cbda79Eli Friedman if (!pointerType) { 997ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith Diag(DRE->getLocStart(), diag::err_atomic_builtin_must_be_pointer) 998276b061970939293f1abaf694bd3ef05b2cbda79Eli Friedman << Ptr->getType() << Ptr->getSourceRange(); 999276b061970939293f1abaf694bd3ef05b2cbda79Eli Friedman return ExprError(); 1000276b061970939293f1abaf694bd3ef05b2cbda79Eli Friedman } 1001276b061970939293f1abaf694bd3ef05b2cbda79Eli Friedman 1002ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith // For a __c11 builtin, this should be a pointer to an _Atomic type. 1003ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith QualType AtomTy = pointerType->getPointeeType(); // 'A' 1004ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith QualType ValType = AtomTy; // 'C' 1005ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith if (IsC11) { 1006ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith if (!AtomTy->isAtomicType()) { 1007ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith Diag(DRE->getLocStart(), diag::err_atomic_op_needs_atomic) 1008ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith << Ptr->getType() << Ptr->getSourceRange(); 1009ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith return ExprError(); 1010ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith } 1011bc57b108b2253e26b83768dba196c28564952f18Richard Smith if (AtomTy.isConstQualified()) { 1012bc57b108b2253e26b83768dba196c28564952f18Richard Smith Diag(DRE->getLocStart(), diag::err_atomic_op_needs_non_const_atomic) 1013bc57b108b2253e26b83768dba196c28564952f18Richard Smith << Ptr->getType() << Ptr->getSourceRange(); 1014bc57b108b2253e26b83768dba196c28564952f18Richard Smith return ExprError(); 1015bc57b108b2253e26b83768dba196c28564952f18Richard Smith } 1016ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith ValType = AtomTy->getAs<AtomicType>()->getValueType(); 1017276b061970939293f1abaf694bd3ef05b2cbda79Eli Friedman } 1018276b061970939293f1abaf694bd3ef05b2cbda79Eli Friedman 1019ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith // For an arithmetic operation, the implied arithmetic must be well-formed. 1020ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith if (Form == Arithmetic) { 1021ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith // gcc does not enforce these rules for GNU atomics, but we do so for sanity. 1022ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith if (IsAddSub && !ValType->isIntegerType() && !ValType->isPointerType()) { 1023ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith Diag(DRE->getLocStart(), diag::err_atomic_op_needs_atomic_int_or_ptr) 1024ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith << IsC11 << Ptr->getType() << Ptr->getSourceRange(); 1025ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith return ExprError(); 1026ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith } 1027ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith if (!IsAddSub && !ValType->isIntegerType()) { 1028ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith Diag(DRE->getLocStart(), diag::err_atomic_op_bitwise_needs_atomic_int) 1029ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith << IsC11 << Ptr->getType() << Ptr->getSourceRange(); 1030ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith return ExprError(); 1031ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith } 1032ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith } else if (IsN && !ValType->isIntegerType() && !ValType->isPointerType()) { 1033ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith // For __atomic_*_n operations, the value type must be a scalar integral or 1034ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith // pointer type which is 1, 2, 4, 8 or 16 bytes in length. 1035276b061970939293f1abaf694bd3ef05b2cbda79Eli Friedman Diag(DRE->getLocStart(), diag::err_atomic_op_needs_atomic_int_or_ptr) 1036ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith << IsC11 << Ptr->getType() << Ptr->getSourceRange(); 1037276b061970939293f1abaf694bd3ef05b2cbda79Eli Friedman return ExprError(); 1038276b061970939293f1abaf694bd3ef05b2cbda79Eli Friedman } 1039276b061970939293f1abaf694bd3ef05b2cbda79Eli Friedman 1040ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith if (!IsC11 && !AtomTy.isTriviallyCopyableType(Context)) { 1041ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith // For GNU atomics, require a trivially-copyable type. This is not part of 1042ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith // the GNU atomics specification, but we enforce it for sanity. 1043ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith Diag(DRE->getLocStart(), diag::err_atomic_op_needs_trivial_copy) 1044276b061970939293f1abaf694bd3ef05b2cbda79Eli Friedman << Ptr->getType() << Ptr->getSourceRange(); 1045276b061970939293f1abaf694bd3ef05b2cbda79Eli Friedman return ExprError(); 1046276b061970939293f1abaf694bd3ef05b2cbda79Eli Friedman } 1047276b061970939293f1abaf694bd3ef05b2cbda79Eli Friedman 1048ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith // FIXME: For any builtin other than a load, the ValType must not be 1049ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith // const-qualified. 1050ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith 1051276b061970939293f1abaf694bd3ef05b2cbda79Eli Friedman switch (ValType.getObjCLifetime()) { 1052276b061970939293f1abaf694bd3ef05b2cbda79Eli Friedman case Qualifiers::OCL_None: 1053276b061970939293f1abaf694bd3ef05b2cbda79Eli Friedman case Qualifiers::OCL_ExplicitNone: 1054276b061970939293f1abaf694bd3ef05b2cbda79Eli Friedman // okay 1055276b061970939293f1abaf694bd3ef05b2cbda79Eli Friedman break; 1056276b061970939293f1abaf694bd3ef05b2cbda79Eli Friedman 1057276b061970939293f1abaf694bd3ef05b2cbda79Eli Friedman case Qualifiers::OCL_Weak: 1058276b061970939293f1abaf694bd3ef05b2cbda79Eli Friedman case Qualifiers::OCL_Strong: 1059276b061970939293f1abaf694bd3ef05b2cbda79Eli Friedman case Qualifiers::OCL_Autoreleasing: 1060ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith // FIXME: Can this happen? By this point, ValType should be known 1061ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith // to be trivially copyable. 1062276b061970939293f1abaf694bd3ef05b2cbda79Eli Friedman Diag(DRE->getLocStart(), diag::err_arc_atomic_ownership) 1063276b061970939293f1abaf694bd3ef05b2cbda79Eli Friedman << ValType << Ptr->getSourceRange(); 1064276b061970939293f1abaf694bd3ef05b2cbda79Eli Friedman return ExprError(); 1065276b061970939293f1abaf694bd3ef05b2cbda79Eli Friedman } 1066276b061970939293f1abaf694bd3ef05b2cbda79Eli Friedman 1067276b061970939293f1abaf694bd3ef05b2cbda79Eli Friedman QualType ResultType = ValType; 1068ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith if (Form == Copy || Form == GNUXchg || Form == Init) 1069276b061970939293f1abaf694bd3ef05b2cbda79Eli Friedman ResultType = Context.VoidTy; 1070ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith else if (Form == C11CmpXchg || Form == GNUCmpXchg) 1071276b061970939293f1abaf694bd3ef05b2cbda79Eli Friedman ResultType = Context.BoolTy; 1072276b061970939293f1abaf694bd3ef05b2cbda79Eli Friedman 1073ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith // The type of a parameter passed 'by value'. In the GNU atomics, such 1074ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith // arguments are actually passed as pointers. 1075ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith QualType ByValType = ValType; // 'CP' 1076ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith if (!IsC11 && !IsN) 1077ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith ByValType = Ptr->getType(); 1078ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith 1079276b061970939293f1abaf694bd3ef05b2cbda79Eli Friedman // The first argument --- the pointer --- has a fixed type; we 1080276b061970939293f1abaf694bd3ef05b2cbda79Eli Friedman // deduce the types of the rest of the arguments accordingly. Walk 1081276b061970939293f1abaf694bd3ef05b2cbda79Eli Friedman // the remaining arguments, converting them to the deduced value type. 1082ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith for (unsigned i = 1; i != NumArgs[Form]; ++i) { 1083276b061970939293f1abaf694bd3ef05b2cbda79Eli Friedman QualType Ty; 1084ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith if (i < NumVals[Form] + 1) { 1085ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith switch (i) { 1086ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith case 1: 1087ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith // The second argument is the non-atomic operand. For arithmetic, this 1088ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith // is always passed by value, and for a compare_exchange it is always 1089ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith // passed by address. For the rest, GNU uses by-address and C11 uses 1090ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith // by-value. 1091ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith assert(Form != Load); 1092ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith if (Form == Init || (Form == Arithmetic && ValType->isIntegerType())) 1093ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith Ty = ValType; 1094ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith else if (Form == Copy || Form == Xchg) 1095ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith Ty = ByValType; 1096ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith else if (Form == Arithmetic) 1097ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith Ty = Context.getPointerDiffType(); 1098ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith else 1099ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith Ty = Context.getPointerType(ValType.getUnqualifiedType()); 1100ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith break; 1101ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith case 2: 1102ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith // The third argument to compare_exchange / GNU exchange is a 1103ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith // (pointer to a) desired value. 1104ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith Ty = ByValType; 1105ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith break; 1106ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith case 3: 1107ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith // The fourth argument to GNU compare_exchange is a 'weak' flag. 1108ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith Ty = Context.BoolTy; 1109ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith break; 1110ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith } 1111276b061970939293f1abaf694bd3ef05b2cbda79Eli Friedman } else { 1112276b061970939293f1abaf694bd3ef05b2cbda79Eli Friedman // The order(s) are always converted to int. 1113276b061970939293f1abaf694bd3ef05b2cbda79Eli Friedman Ty = Context.IntTy; 1114276b061970939293f1abaf694bd3ef05b2cbda79Eli Friedman } 1115ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith 1116276b061970939293f1abaf694bd3ef05b2cbda79Eli Friedman InitializedEntity Entity = 1117276b061970939293f1abaf694bd3ef05b2cbda79Eli Friedman InitializedEntity::InitializeParameter(Context, Ty, false); 1118ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith ExprResult Arg = TheCall->getArg(i); 1119276b061970939293f1abaf694bd3ef05b2cbda79Eli Friedman Arg = PerformCopyInitialization(Entity, SourceLocation(), Arg); 1120276b061970939293f1abaf694bd3ef05b2cbda79Eli Friedman if (Arg.isInvalid()) 1121276b061970939293f1abaf694bd3ef05b2cbda79Eli Friedman return true; 1122276b061970939293f1abaf694bd3ef05b2cbda79Eli Friedman TheCall->setArg(i, Arg.get()); 1123276b061970939293f1abaf694bd3ef05b2cbda79Eli Friedman } 1124276b061970939293f1abaf694bd3ef05b2cbda79Eli Friedman 1125ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith // Permute the arguments into a 'consistent' order. 1126dfa64ba45922e1c28e36341bdf34785fea74659bEli Friedman SmallVector<Expr*, 5> SubExprs; 1127dfa64ba45922e1c28e36341bdf34785fea74659bEli Friedman SubExprs.push_back(Ptr); 1128ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith switch (Form) { 1129ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith case Init: 1130ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith // Note, AtomicExpr::getVal1() has a special case for this atomic. 11317a7ee3033e44b45630981355460ef89efa0bdcc4David Chisnall SubExprs.push_back(TheCall->getArg(1)); // Val1 1132ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith break; 1133ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith case Load: 1134ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith SubExprs.push_back(TheCall->getArg(1)); // Order 1135ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith break; 1136ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith case Copy: 1137ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith case Arithmetic: 1138ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith case Xchg: 1139dfa64ba45922e1c28e36341bdf34785fea74659bEli Friedman SubExprs.push_back(TheCall->getArg(2)); // Order 1140dfa64ba45922e1c28e36341bdf34785fea74659bEli Friedman SubExprs.push_back(TheCall->getArg(1)); // Val1 1141ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith break; 1142ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith case GNUXchg: 1143ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith // Note, AtomicExpr::getVal2() has a special case for this atomic. 1144ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith SubExprs.push_back(TheCall->getArg(3)); // Order 1145ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith SubExprs.push_back(TheCall->getArg(1)); // Val1 1146ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith SubExprs.push_back(TheCall->getArg(2)); // Val2 1147ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith break; 1148ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith case C11CmpXchg: 1149dfa64ba45922e1c28e36341bdf34785fea74659bEli Friedman SubExprs.push_back(TheCall->getArg(3)); // Order 1150dfa64ba45922e1c28e36341bdf34785fea74659bEli Friedman SubExprs.push_back(TheCall->getArg(1)); // Val1 1151dfa64ba45922e1c28e36341bdf34785fea74659bEli Friedman SubExprs.push_back(TheCall->getArg(4)); // OrderFail 11522ebb98a78471f2039af4321bae657e7daacc2a62David Chisnall SubExprs.push_back(TheCall->getArg(2)); // Val2 1153ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith break; 1154ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith case GNUCmpXchg: 1155ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith SubExprs.push_back(TheCall->getArg(4)); // Order 1156ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith SubExprs.push_back(TheCall->getArg(1)); // Val1 1157ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith SubExprs.push_back(TheCall->getArg(5)); // OrderFail 1158ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith SubExprs.push_back(TheCall->getArg(2)); // Val2 1159ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith SubExprs.push_back(TheCall->getArg(3)); // Weak 1160ff34d401ff385ef7173ca612432b4ea717fff690Richard Smith break; 1161276b061970939293f1abaf694bd3ef05b2cbda79Eli Friedman } 1162538bbe597b935a74d95c668ad209536753f13481Fariborz Jahanian 1163538bbe597b935a74d95c668ad209536753f13481Fariborz Jahanian AtomicExpr *AE = new (Context) AtomicExpr(TheCall->getCallee()->getLocStart(), 1164538bbe597b935a74d95c668ad209536753f13481Fariborz Jahanian SubExprs, ResultType, Op, 1165538bbe597b935a74d95c668ad209536753f13481Fariborz Jahanian TheCall->getRParenLoc()); 1166538bbe597b935a74d95c668ad209536753f13481Fariborz Jahanian 1167538bbe597b935a74d95c668ad209536753f13481Fariborz Jahanian if ((Op == AtomicExpr::AO__c11_atomic_load || 1168538bbe597b935a74d95c668ad209536753f13481Fariborz Jahanian (Op == AtomicExpr::AO__c11_atomic_store)) && 1169538bbe597b935a74d95c668ad209536753f13481Fariborz Jahanian Context.AtomicUsesUnsupportedLibcall(AE)) 1170538bbe597b935a74d95c668ad209536753f13481Fariborz Jahanian Diag(AE->getLocStart(), diag::err_atomic_load_store_uses_lib) << 1171538bbe597b935a74d95c668ad209536753f13481Fariborz Jahanian ((Op == AtomicExpr::AO__c11_atomic_load) ? 0 : 1); 1172dfa64ba45922e1c28e36341bdf34785fea74659bEli Friedman 1173538bbe597b935a74d95c668ad209536753f13481Fariborz Jahanian return Owned(AE); 1174276b061970939293f1abaf694bd3ef05b2cbda79Eli Friedman} 1175276b061970939293f1abaf694bd3ef05b2cbda79Eli Friedman 1176276b061970939293f1abaf694bd3ef05b2cbda79Eli Friedman 11775f8d604246976a93a73549b07bbc8ee0b2061b50John McCall/// checkBuiltinArgument - Given a call to a builtin function, perform 11785f8d604246976a93a73549b07bbc8ee0b2061b50John McCall/// normal type-checking on the given argument, updating the call in 11795f8d604246976a93a73549b07bbc8ee0b2061b50John McCall/// place. This is useful when a builtin function requires custom 11805f8d604246976a93a73549b07bbc8ee0b2061b50John McCall/// type-checking for some of its arguments but not necessarily all of 11815f8d604246976a93a73549b07bbc8ee0b2061b50John McCall/// them. 11825f8d604246976a93a73549b07bbc8ee0b2061b50John McCall/// 11835f8d604246976a93a73549b07bbc8ee0b2061b50John McCall/// Returns true on error. 11845f8d604246976a93a73549b07bbc8ee0b2061b50John McCallstatic bool checkBuiltinArgument(Sema &S, CallExpr *E, unsigned ArgIndex) { 11855f8d604246976a93a73549b07bbc8ee0b2061b50John McCall FunctionDecl *Fn = E->getDirectCallee(); 11865f8d604246976a93a73549b07bbc8ee0b2061b50John McCall assert(Fn && "builtin call without direct callee!"); 11875f8d604246976a93a73549b07bbc8ee0b2061b50John McCall 11885f8d604246976a93a73549b07bbc8ee0b2061b50John McCall ParmVarDecl *Param = Fn->getParamDecl(ArgIndex); 11895f8d604246976a93a73549b07bbc8ee0b2061b50John McCall InitializedEntity Entity = 11905f8d604246976a93a73549b07bbc8ee0b2061b50John McCall InitializedEntity::InitializeParameter(S.Context, Param); 11915f8d604246976a93a73549b07bbc8ee0b2061b50John McCall 11925f8d604246976a93a73549b07bbc8ee0b2061b50John McCall ExprResult Arg = E->getArg(0); 11935f8d604246976a93a73549b07bbc8ee0b2061b50John McCall Arg = S.PerformCopyInitialization(Entity, SourceLocation(), Arg); 11945f8d604246976a93a73549b07bbc8ee0b2061b50John McCall if (Arg.isInvalid()) 11955f8d604246976a93a73549b07bbc8ee0b2061b50John McCall return true; 11965f8d604246976a93a73549b07bbc8ee0b2061b50John McCall 11975f8d604246976a93a73549b07bbc8ee0b2061b50John McCall E->setArg(ArgIndex, Arg.take()); 11985f8d604246976a93a73549b07bbc8ee0b2061b50John McCall return false; 11995f8d604246976a93a73549b07bbc8ee0b2061b50John McCall} 12005f8d604246976a93a73549b07bbc8ee0b2061b50John McCall 12015caa370ea6f70bd3e7e4a9cc3b69ac1a849c8534Chris Lattner/// SemaBuiltinAtomicOverloaded - We have a call to a function like 12025caa370ea6f70bd3e7e4a9cc3b69ac1a849c8534Chris Lattner/// __sync_fetch_and_add, which is an overloaded function based on the pointer 12035caa370ea6f70bd3e7e4a9cc3b69ac1a849c8534Chris Lattner/// type of its first argument. The main ActOnCallExpr routines have already 12045caa370ea6f70bd3e7e4a9cc3b69ac1a849c8534Chris Lattner/// promoted the types of arguments because all of these calls are prototyped as 12055caa370ea6f70bd3e7e4a9cc3b69ac1a849c8534Chris Lattner/// void(...). 12065caa370ea6f70bd3e7e4a9cc3b69ac1a849c8534Chris Lattner/// 12075caa370ea6f70bd3e7e4a9cc3b69ac1a849c8534Chris Lattner/// This function goes through and does final semantic checking for these 12085caa370ea6f70bd3e7e4a9cc3b69ac1a849c8534Chris Lattner/// builtins, 120960d7b3a319d84d688752be3870615ac0f111fb16John McCallExprResult 121060d7b3a319d84d688752be3870615ac0f111fb16John McCallSema::SemaBuiltinAtomicOverloaded(ExprResult TheCallResult) { 1211d201457cc781f1b13d0f4b1268ff934e6004cbffChandler Carruth CallExpr *TheCall = (CallExpr *)TheCallResult.get(); 12125caa370ea6f70bd3e7e4a9cc3b69ac1a849c8534Chris Lattner DeclRefExpr *DRE =cast<DeclRefExpr>(TheCall->getCallee()->IgnoreParenCasts()); 12135caa370ea6f70bd3e7e4a9cc3b69ac1a849c8534Chris Lattner FunctionDecl *FDecl = cast<FunctionDecl>(DRE->getDecl()); 12145caa370ea6f70bd3e7e4a9cc3b69ac1a849c8534Chris Lattner 12155caa370ea6f70bd3e7e4a9cc3b69ac1a849c8534Chris Lattner // Ensure that we have at least one argument to do type inference from. 1216d201457cc781f1b13d0f4b1268ff934e6004cbffChandler Carruth if (TheCall->getNumArgs() < 1) { 1217d201457cc781f1b13d0f4b1268ff934e6004cbffChandler Carruth Diag(TheCall->getLocEnd(), diag::err_typecheck_call_too_few_args_at_least) 1218d201457cc781f1b13d0f4b1268ff934e6004cbffChandler Carruth << 0 << 1 << TheCall->getNumArgs() 1219d201457cc781f1b13d0f4b1268ff934e6004cbffChandler Carruth << TheCall->getCallee()->getSourceRange(); 1220d201457cc781f1b13d0f4b1268ff934e6004cbffChandler Carruth return ExprError(); 1221d201457cc781f1b13d0f4b1268ff934e6004cbffChandler Carruth } 12221eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump 12235caa370ea6f70bd3e7e4a9cc3b69ac1a849c8534Chris Lattner // Inspect the first argument of the atomic builtin. This should always be 12245caa370ea6f70bd3e7e4a9cc3b69ac1a849c8534Chris Lattner // a pointer type, whose element is an integral scalar or pointer type. 12255caa370ea6f70bd3e7e4a9cc3b69ac1a849c8534Chris Lattner // Because it is a pointer type, we don't have to worry about any implicit 12265caa370ea6f70bd3e7e4a9cc3b69ac1a849c8534Chris Lattner // casts here. 1227d201457cc781f1b13d0f4b1268ff934e6004cbffChandler Carruth // FIXME: We don't allow floating point scalars as input. 12285caa370ea6f70bd3e7e4a9cc3b69ac1a849c8534Chris Lattner Expr *FirstArg = TheCall->getArg(0); 12298c382060c9e6668a94f1485dd16f012cda526c5fEli Friedman ExprResult FirstArgResult = DefaultFunctionArrayLvalueConversion(FirstArg); 12308c382060c9e6668a94f1485dd16f012cda526c5fEli Friedman if (FirstArgResult.isInvalid()) 12318c382060c9e6668a94f1485dd16f012cda526c5fEli Friedman return ExprError(); 12328c382060c9e6668a94f1485dd16f012cda526c5fEli Friedman FirstArg = FirstArgResult.take(); 12338c382060c9e6668a94f1485dd16f012cda526c5fEli Friedman TheCall->setArg(0, FirstArg); 12348c382060c9e6668a94f1485dd16f012cda526c5fEli Friedman 1235f85e193739c953358c865005855253af4f68a497John McCall const PointerType *pointerType = FirstArg->getType()->getAs<PointerType>(); 1236f85e193739c953358c865005855253af4f68a497John McCall if (!pointerType) { 1237d201457cc781f1b13d0f4b1268ff934e6004cbffChandler Carruth Diag(DRE->getLocStart(), diag::err_atomic_builtin_must_be_pointer) 1238d201457cc781f1b13d0f4b1268ff934e6004cbffChandler Carruth << FirstArg->getType() << FirstArg->getSourceRange(); 1239d201457cc781f1b13d0f4b1268ff934e6004cbffChandler Carruth return ExprError(); 1240d201457cc781f1b13d0f4b1268ff934e6004cbffChandler Carruth } 12411eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump 1242f85e193739c953358c865005855253af4f68a497John McCall QualType ValType = pointerType->getPointeeType(); 1243dd5fa7a21ca9db9d620001ca977681a1b724e3feChris Lattner if (!ValType->isIntegerType() && !ValType->isAnyPointerType() && 1244d201457cc781f1b13d0f4b1268ff934e6004cbffChandler Carruth !ValType->isBlockPointerType()) { 1245d201457cc781f1b13d0f4b1268ff934e6004cbffChandler Carruth Diag(DRE->getLocStart(), diag::err_atomic_builtin_must_be_pointer_intptr) 1246d201457cc781f1b13d0f4b1268ff934e6004cbffChandler Carruth << FirstArg->getType() << FirstArg->getSourceRange(); 1247d201457cc781f1b13d0f4b1268ff934e6004cbffChandler Carruth return ExprError(); 1248d201457cc781f1b13d0f4b1268ff934e6004cbffChandler Carruth } 12495caa370ea6f70bd3e7e4a9cc3b69ac1a849c8534Chris Lattner 1250f85e193739c953358c865005855253af4f68a497John McCall switch (ValType.getObjCLifetime()) { 1251f85e193739c953358c865005855253af4f68a497John McCall case Qualifiers::OCL_None: 1252f85e193739c953358c865005855253af4f68a497John McCall case Qualifiers::OCL_ExplicitNone: 1253f85e193739c953358c865005855253af4f68a497John McCall // okay 1254f85e193739c953358c865005855253af4f68a497John McCall break; 1255f85e193739c953358c865005855253af4f68a497John McCall 1256f85e193739c953358c865005855253af4f68a497John McCall case Qualifiers::OCL_Weak: 1257f85e193739c953358c865005855253af4f68a497John McCall case Qualifiers::OCL_Strong: 1258f85e193739c953358c865005855253af4f68a497John McCall case Qualifiers::OCL_Autoreleasing: 1259b8b0313e84700b5c6d597b3be4de41c97b7550f1Argyrios Kyrtzidis Diag(DRE->getLocStart(), diag::err_arc_atomic_ownership) 1260f85e193739c953358c865005855253af4f68a497John McCall << ValType << FirstArg->getSourceRange(); 1261f85e193739c953358c865005855253af4f68a497John McCall return ExprError(); 1262f85e193739c953358c865005855253af4f68a497John McCall } 1263f85e193739c953358c865005855253af4f68a497John McCall 1264b45ae256cfd5ef3ab22b4d715159f978d8120d45John McCall // Strip any qualifiers off ValType. 1265b45ae256cfd5ef3ab22b4d715159f978d8120d45John McCall ValType = ValType.getUnqualifiedType(); 1266b45ae256cfd5ef3ab22b4d715159f978d8120d45John McCall 12678d13d221cf7c1657404c611efaadf3ac19d899b3Chandler Carruth // The majority of builtins return a value, but a few have special return 12688d13d221cf7c1657404c611efaadf3ac19d899b3Chandler Carruth // types, so allow them to override appropriately below. 12698d13d221cf7c1657404c611efaadf3ac19d899b3Chandler Carruth QualType ResultType = ValType; 12708d13d221cf7c1657404c611efaadf3ac19d899b3Chandler Carruth 12715caa370ea6f70bd3e7e4a9cc3b69ac1a849c8534Chris Lattner // We need to figure out which concrete builtin this maps onto. For example, 12725caa370ea6f70bd3e7e4a9cc3b69ac1a849c8534Chris Lattner // __sync_fetch_and_add with a 2 byte object turns into 12735caa370ea6f70bd3e7e4a9cc3b69ac1a849c8534Chris Lattner // __sync_fetch_and_add_2. 12745caa370ea6f70bd3e7e4a9cc3b69ac1a849c8534Chris Lattner#define BUILTIN_ROW(x) \ 12755caa370ea6f70bd3e7e4a9cc3b69ac1a849c8534Chris Lattner { Builtin::BI##x##_1, Builtin::BI##x##_2, Builtin::BI##x##_4, \ 12765caa370ea6f70bd3e7e4a9cc3b69ac1a849c8534Chris Lattner Builtin::BI##x##_8, Builtin::BI##x##_16 } 12771eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump 12785caa370ea6f70bd3e7e4a9cc3b69ac1a849c8534Chris Lattner static const unsigned BuiltinIndices[][5] = { 12795caa370ea6f70bd3e7e4a9cc3b69ac1a849c8534Chris Lattner BUILTIN_ROW(__sync_fetch_and_add), 12805caa370ea6f70bd3e7e4a9cc3b69ac1a849c8534Chris Lattner BUILTIN_ROW(__sync_fetch_and_sub), 12815caa370ea6f70bd3e7e4a9cc3b69ac1a849c8534Chris Lattner BUILTIN_ROW(__sync_fetch_and_or), 12825caa370ea6f70bd3e7e4a9cc3b69ac1a849c8534Chris Lattner BUILTIN_ROW(__sync_fetch_and_and), 12835caa370ea6f70bd3e7e4a9cc3b69ac1a849c8534Chris Lattner BUILTIN_ROW(__sync_fetch_and_xor), 12841eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump 12855caa370ea6f70bd3e7e4a9cc3b69ac1a849c8534Chris Lattner BUILTIN_ROW(__sync_add_and_fetch), 12865caa370ea6f70bd3e7e4a9cc3b69ac1a849c8534Chris Lattner BUILTIN_ROW(__sync_sub_and_fetch), 12875caa370ea6f70bd3e7e4a9cc3b69ac1a849c8534Chris Lattner BUILTIN_ROW(__sync_and_and_fetch), 12885caa370ea6f70bd3e7e4a9cc3b69ac1a849c8534Chris Lattner BUILTIN_ROW(__sync_or_and_fetch), 12895caa370ea6f70bd3e7e4a9cc3b69ac1a849c8534Chris Lattner BUILTIN_ROW(__sync_xor_and_fetch), 12901eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump 12915caa370ea6f70bd3e7e4a9cc3b69ac1a849c8534Chris Lattner BUILTIN_ROW(__sync_val_compare_and_swap), 12925caa370ea6f70bd3e7e4a9cc3b69ac1a849c8534Chris Lattner BUILTIN_ROW(__sync_bool_compare_and_swap), 12935caa370ea6f70bd3e7e4a9cc3b69ac1a849c8534Chris Lattner BUILTIN_ROW(__sync_lock_test_and_set), 129423aa9c8ca0bc441aab2a38a4c9fc7a1c9e9ac16aChris Lattner BUILTIN_ROW(__sync_lock_release), 129523aa9c8ca0bc441aab2a38a4c9fc7a1c9e9ac16aChris Lattner BUILTIN_ROW(__sync_swap) 12965caa370ea6f70bd3e7e4a9cc3b69ac1a849c8534Chris Lattner }; 12971eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump#undef BUILTIN_ROW 12981eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump 12995caa370ea6f70bd3e7e4a9cc3b69ac1a849c8534Chris Lattner // Determine the index of the size. 13005caa370ea6f70bd3e7e4a9cc3b69ac1a849c8534Chris Lattner unsigned SizeIndex; 1301199c3d6cd16aebbb9c7f0d42af9d922c9628bf70Ken Dyck switch (Context.getTypeSizeInChars(ValType).getQuantity()) { 13025caa370ea6f70bd3e7e4a9cc3b69ac1a849c8534Chris Lattner case 1: SizeIndex = 0; break; 13035caa370ea6f70bd3e7e4a9cc3b69ac1a849c8534Chris Lattner case 2: SizeIndex = 1; break; 13045caa370ea6f70bd3e7e4a9cc3b69ac1a849c8534Chris Lattner case 4: SizeIndex = 2; break; 13055caa370ea6f70bd3e7e4a9cc3b69ac1a849c8534Chris Lattner case 8: SizeIndex = 3; break; 13065caa370ea6f70bd3e7e4a9cc3b69ac1a849c8534Chris Lattner case 16: SizeIndex = 4; break; 13075caa370ea6f70bd3e7e4a9cc3b69ac1a849c8534Chris Lattner default: 1308d201457cc781f1b13d0f4b1268ff934e6004cbffChandler Carruth Diag(DRE->getLocStart(), diag::err_atomic_builtin_pointer_size) 1309d201457cc781f1b13d0f4b1268ff934e6004cbffChandler Carruth << FirstArg->getType() << FirstArg->getSourceRange(); 1310d201457cc781f1b13d0f4b1268ff934e6004cbffChandler Carruth return ExprError(); 13115caa370ea6f70bd3e7e4a9cc3b69ac1a849c8534Chris Lattner } 13121eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump 13135caa370ea6f70bd3e7e4a9cc3b69ac1a849c8534Chris Lattner // Each of these builtins has one pointer argument, followed by some number of 13145caa370ea6f70bd3e7e4a9cc3b69ac1a849c8534Chris Lattner // values (0, 1 or 2) followed by a potentially empty varags list of stuff 13155caa370ea6f70bd3e7e4a9cc3b69ac1a849c8534Chris Lattner // that we ignore. Find out which row of BuiltinIndices to read from as well 13165caa370ea6f70bd3e7e4a9cc3b69ac1a849c8534Chris Lattner // as the number of fixed args. 13177814e6d6645d587891293d59ecf6576defcfac92Douglas Gregor unsigned BuiltinID = FDecl->getBuiltinID(); 13185caa370ea6f70bd3e7e4a9cc3b69ac1a849c8534Chris Lattner unsigned BuiltinIndex, NumFixed = 1; 13195caa370ea6f70bd3e7e4a9cc3b69ac1a849c8534Chris Lattner switch (BuiltinID) { 1320b219cfc4d75f0a03630b7c4509ef791b7e97b2c8David Blaikie default: llvm_unreachable("Unknown overloaded atomic builtin!"); 1321a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_fetch_and_add: 1322a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_fetch_and_add_1: 1323a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_fetch_and_add_2: 1324a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_fetch_and_add_4: 1325a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_fetch_and_add_8: 1326a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_fetch_and_add_16: 1327a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor BuiltinIndex = 0; 1328a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor break; 1329a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor 1330a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_fetch_and_sub: 1331a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_fetch_and_sub_1: 1332a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_fetch_and_sub_2: 1333a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_fetch_and_sub_4: 1334a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_fetch_and_sub_8: 1335a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_fetch_and_sub_16: 1336a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor BuiltinIndex = 1; 1337a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor break; 1338a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor 1339a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_fetch_and_or: 1340a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_fetch_and_or_1: 1341a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_fetch_and_or_2: 1342a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_fetch_and_or_4: 1343a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_fetch_and_or_8: 1344a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_fetch_and_or_16: 1345a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor BuiltinIndex = 2; 1346a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor break; 1347a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor 1348a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_fetch_and_and: 1349a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_fetch_and_and_1: 1350a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_fetch_and_and_2: 1351a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_fetch_and_and_4: 1352a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_fetch_and_and_8: 1353a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_fetch_and_and_16: 1354a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor BuiltinIndex = 3; 1355a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor break; 1356a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor 1357a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_fetch_and_xor: 1358a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_fetch_and_xor_1: 1359a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_fetch_and_xor_2: 1360a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_fetch_and_xor_4: 1361a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_fetch_and_xor_8: 1362a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_fetch_and_xor_16: 1363a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor BuiltinIndex = 4; 1364a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor break; 1365a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor 1366a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_add_and_fetch: 1367a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_add_and_fetch_1: 1368a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_add_and_fetch_2: 1369a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_add_and_fetch_4: 1370a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_add_and_fetch_8: 1371a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_add_and_fetch_16: 1372a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor BuiltinIndex = 5; 1373a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor break; 1374a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor 1375a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_sub_and_fetch: 1376a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_sub_and_fetch_1: 1377a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_sub_and_fetch_2: 1378a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_sub_and_fetch_4: 1379a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_sub_and_fetch_8: 1380a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_sub_and_fetch_16: 1381a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor BuiltinIndex = 6; 1382a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor break; 1383a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor 1384a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_and_and_fetch: 1385a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_and_and_fetch_1: 1386a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_and_and_fetch_2: 1387a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_and_and_fetch_4: 1388a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_and_and_fetch_8: 1389a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_and_and_fetch_16: 1390a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor BuiltinIndex = 7; 1391a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor break; 1392a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor 1393a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_or_and_fetch: 1394a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_or_and_fetch_1: 1395a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_or_and_fetch_2: 1396a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_or_and_fetch_4: 1397a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_or_and_fetch_8: 1398a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_or_and_fetch_16: 1399a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor BuiltinIndex = 8; 1400a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor break; 1401a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor 1402a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_xor_and_fetch: 1403a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_xor_and_fetch_1: 1404a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_xor_and_fetch_2: 1405a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_xor_and_fetch_4: 1406a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_xor_and_fetch_8: 1407a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_xor_and_fetch_16: 1408a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor BuiltinIndex = 9; 1409a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor break; 14101eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump 14115caa370ea6f70bd3e7e4a9cc3b69ac1a849c8534Chris Lattner case Builtin::BI__sync_val_compare_and_swap: 1412a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_val_compare_and_swap_1: 1413a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_val_compare_and_swap_2: 1414a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_val_compare_and_swap_4: 1415a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_val_compare_and_swap_8: 1416a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_val_compare_and_swap_16: 14177eff7c4153faf45b19b5919ef409ee5f6794eb25Daniel Dunbar BuiltinIndex = 10; 14185caa370ea6f70bd3e7e4a9cc3b69ac1a849c8534Chris Lattner NumFixed = 2; 14195caa370ea6f70bd3e7e4a9cc3b69ac1a849c8534Chris Lattner break; 1420a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor 14215caa370ea6f70bd3e7e4a9cc3b69ac1a849c8534Chris Lattner case Builtin::BI__sync_bool_compare_and_swap: 1422a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_bool_compare_and_swap_1: 1423a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_bool_compare_and_swap_2: 1424a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_bool_compare_and_swap_4: 1425a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_bool_compare_and_swap_8: 1426a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_bool_compare_and_swap_16: 14277eff7c4153faf45b19b5919ef409ee5f6794eb25Daniel Dunbar BuiltinIndex = 11; 14285caa370ea6f70bd3e7e4a9cc3b69ac1a849c8534Chris Lattner NumFixed = 2; 14298d13d221cf7c1657404c611efaadf3ac19d899b3Chandler Carruth ResultType = Context.BoolTy; 14305caa370ea6f70bd3e7e4a9cc3b69ac1a849c8534Chris Lattner break; 1431a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor 1432a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_lock_test_and_set: 1433a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_lock_test_and_set_1: 1434a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_lock_test_and_set_2: 1435a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_lock_test_and_set_4: 1436a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_lock_test_and_set_8: 1437a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_lock_test_and_set_16: 1438a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor BuiltinIndex = 12; 1439a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor break; 1440a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor 14415caa370ea6f70bd3e7e4a9cc3b69ac1a849c8534Chris Lattner case Builtin::BI__sync_lock_release: 1442a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_lock_release_1: 1443a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_lock_release_2: 1444a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_lock_release_4: 1445a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_lock_release_8: 1446a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_lock_release_16: 14477eff7c4153faf45b19b5919ef409ee5f6794eb25Daniel Dunbar BuiltinIndex = 13; 14485caa370ea6f70bd3e7e4a9cc3b69ac1a849c8534Chris Lattner NumFixed = 0; 14498d13d221cf7c1657404c611efaadf3ac19d899b3Chandler Carruth ResultType = Context.VoidTy; 14505caa370ea6f70bd3e7e4a9cc3b69ac1a849c8534Chris Lattner break; 1451a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor 1452a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_swap: 1453a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_swap_1: 1454a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_swap_2: 1455a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_swap_4: 1456a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_swap_8: 1457a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor case Builtin::BI__sync_swap_16: 1458a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor BuiltinIndex = 14; 1459a9766411aaaa1446a5da96dc5042de8da05d89bdDouglas Gregor break; 14605caa370ea6f70bd3e7e4a9cc3b69ac1a849c8534Chris Lattner } 14611eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump 14625caa370ea6f70bd3e7e4a9cc3b69ac1a849c8534Chris Lattner // Now that we know how many fixed arguments we expect, first check that we 14635caa370ea6f70bd3e7e4a9cc3b69ac1a849c8534Chris Lattner // have at least that many. 1464d201457cc781f1b13d0f4b1268ff934e6004cbffChandler Carruth if (TheCall->getNumArgs() < 1+NumFixed) { 1465d201457cc781f1b13d0f4b1268ff934e6004cbffChandler Carruth Diag(TheCall->getLocEnd(), diag::err_typecheck_call_too_few_args_at_least) 1466d201457cc781f1b13d0f4b1268ff934e6004cbffChandler Carruth << 0 << 1+NumFixed << TheCall->getNumArgs() 1467d201457cc781f1b13d0f4b1268ff934e6004cbffChandler Carruth << TheCall->getCallee()->getSourceRange(); 1468d201457cc781f1b13d0f4b1268ff934e6004cbffChandler Carruth return ExprError(); 1469d201457cc781f1b13d0f4b1268ff934e6004cbffChandler Carruth } 14701eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump 1471e7ac0a94f1dee3fae9292eb8372962b6d70b3e0dChris Lattner // Get the decl for the concrete builtin from this, we can tell what the 1472e7ac0a94f1dee3fae9292eb8372962b6d70b3e0dChris Lattner // concrete integer type we should convert to is. 1473e7ac0a94f1dee3fae9292eb8372962b6d70b3e0dChris Lattner unsigned NewBuiltinID = BuiltinIndices[BuiltinIndex][SizeIndex]; 1474e7ac0a94f1dee3fae9292eb8372962b6d70b3e0dChris Lattner const char *NewBuiltinName = Context.BuiltinInfo.GetName(NewBuiltinID); 14752ad11cd666f8e80463b5fd155072633f8e1283a4Abramo Bagnara FunctionDecl *NewBuiltinDecl; 14762ad11cd666f8e80463b5fd155072633f8e1283a4Abramo Bagnara if (NewBuiltinID == BuiltinID) 14772ad11cd666f8e80463b5fd155072633f8e1283a4Abramo Bagnara NewBuiltinDecl = FDecl; 14782ad11cd666f8e80463b5fd155072633f8e1283a4Abramo Bagnara else { 14792ad11cd666f8e80463b5fd155072633f8e1283a4Abramo Bagnara // Perform builtin lookup to avoid redeclaring it. 14802ad11cd666f8e80463b5fd155072633f8e1283a4Abramo Bagnara DeclarationName DN(&Context.Idents.get(NewBuiltinName)); 14812ad11cd666f8e80463b5fd155072633f8e1283a4Abramo Bagnara LookupResult Res(*this, DN, DRE->getLocStart(), LookupOrdinaryName); 14822ad11cd666f8e80463b5fd155072633f8e1283a4Abramo Bagnara LookupName(Res, TUScope, /*AllowBuiltinCreation=*/true); 14832ad11cd666f8e80463b5fd155072633f8e1283a4Abramo Bagnara assert(Res.getFoundDecl()); 14842ad11cd666f8e80463b5fd155072633f8e1283a4Abramo Bagnara NewBuiltinDecl = dyn_cast<FunctionDecl>(Res.getFoundDecl()); 14852ad11cd666f8e80463b5fd155072633f8e1283a4Abramo Bagnara if (NewBuiltinDecl == 0) 14862ad11cd666f8e80463b5fd155072633f8e1283a4Abramo Bagnara return ExprError(); 14872ad11cd666f8e80463b5fd155072633f8e1283a4Abramo Bagnara } 1488d201457cc781f1b13d0f4b1268ff934e6004cbffChandler Carruth 1489f871d0cc377a1367b519a6cce26be74607566ebaJohn McCall // The first argument --- the pointer --- has a fixed type; we 1490f871d0cc377a1367b519a6cce26be74607566ebaJohn McCall // deduce the types of the rest of the arguments accordingly. Walk 1491f871d0cc377a1367b519a6cce26be74607566ebaJohn McCall // the remaining arguments, converting them to the deduced value type. 14925caa370ea6f70bd3e7e4a9cc3b69ac1a849c8534Chris Lattner for (unsigned i = 0; i != NumFixed; ++i) { 1493429bb276991ff2dbc7c5b438828b9b7737cb15ebJohn Wiegley ExprResult Arg = TheCall->getArg(i+1); 14941eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump 14955caa370ea6f70bd3e7e4a9cc3b69ac1a849c8534Chris Lattner // GCC does an implicit conversion to the pointer or integer ValType. This 14965caa370ea6f70bd3e7e4a9cc3b69ac1a849c8534Chris Lattner // can fail in some cases (1i -> int**), check for this error case now. 1497b45ae256cfd5ef3ab22b4d715159f978d8120d45John McCall // Initialize the argument. 1498b45ae256cfd5ef3ab22b4d715159f978d8120d45John McCall InitializedEntity Entity = InitializedEntity::InitializeParameter(Context, 1499b45ae256cfd5ef3ab22b4d715159f978d8120d45John McCall ValType, /*consume*/ false); 1500b45ae256cfd5ef3ab22b4d715159f978d8120d45John McCall Arg = PerformCopyInitialization(Entity, SourceLocation(), Arg); 1501429bb276991ff2dbc7c5b438828b9b7737cb15ebJohn Wiegley if (Arg.isInvalid()) 1502d201457cc781f1b13d0f4b1268ff934e6004cbffChandler Carruth return ExprError(); 15031eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump 15045caa370ea6f70bd3e7e4a9cc3b69ac1a849c8534Chris Lattner // Okay, we have something that *can* be converted to the right type. Check 15055caa370ea6f70bd3e7e4a9cc3b69ac1a849c8534Chris Lattner // to see if there is a potentially weird extension going on here. This can 15065caa370ea6f70bd3e7e4a9cc3b69ac1a849c8534Chris Lattner // happen when you do an atomic operation on something like an char* and 15075caa370ea6f70bd3e7e4a9cc3b69ac1a849c8534Chris Lattner // pass in 42. The 42 gets converted to char. This is even more strange 15085caa370ea6f70bd3e7e4a9cc3b69ac1a849c8534Chris Lattner // for things like 45.123 -> char, etc. 15091eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump // FIXME: Do this check. 1510b45ae256cfd5ef3ab22b4d715159f978d8120d45John McCall TheCall->setArg(i+1, Arg.take()); 15115caa370ea6f70bd3e7e4a9cc3b69ac1a849c8534Chris Lattner } 15121eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump 1513bbcb7ea8a062a8f1d5cb504e4518a5d4fbab873aDouglas Gregor ASTContext& Context = this->getASTContext(); 1514bbcb7ea8a062a8f1d5cb504e4518a5d4fbab873aDouglas Gregor 1515bbcb7ea8a062a8f1d5cb504e4518a5d4fbab873aDouglas Gregor // Create a new DeclRefExpr to refer to the new decl. 1516bbcb7ea8a062a8f1d5cb504e4518a5d4fbab873aDouglas Gregor DeclRefExpr* NewDRE = DeclRefExpr::Create( 1517bbcb7ea8a062a8f1d5cb504e4518a5d4fbab873aDouglas Gregor Context, 1518bbcb7ea8a062a8f1d5cb504e4518a5d4fbab873aDouglas Gregor DRE->getQualifierLoc(), 1519e4b92761b43ced611c417ae478568610f1ad7b1eAbramo Bagnara SourceLocation(), 1520bbcb7ea8a062a8f1d5cb504e4518a5d4fbab873aDouglas Gregor NewBuiltinDecl, 1521f4b88a45902af1802a1cb42ba48b1c474474f228John McCall /*enclosing*/ false, 1522bbcb7ea8a062a8f1d5cb504e4518a5d4fbab873aDouglas Gregor DRE->getLocation(), 1523a6c66cedc022c9e5d45a937d6b8cff491a6bf81bEli Friedman Context.BuiltinFnTy, 1524bbcb7ea8a062a8f1d5cb504e4518a5d4fbab873aDouglas Gregor DRE->getValueKind()); 15251eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump 15265caa370ea6f70bd3e7e4a9cc3b69ac1a849c8534Chris Lattner // Set the callee in the CallExpr. 1527a6c66cedc022c9e5d45a937d6b8cff491a6bf81bEli Friedman // FIXME: This loses syntactic information. 1528a6c66cedc022c9e5d45a937d6b8cff491a6bf81bEli Friedman QualType CalleePtrTy = Context.getPointerType(NewBuiltinDecl->getType()); 1529a6c66cedc022c9e5d45a937d6b8cff491a6bf81bEli Friedman ExprResult PromotedCall = ImpCastExprToType(NewDRE, CalleePtrTy, 1530a6c66cedc022c9e5d45a937d6b8cff491a6bf81bEli Friedman CK_BuiltinFnToFnPtr); 1531429bb276991ff2dbc7c5b438828b9b7737cb15ebJohn Wiegley TheCall->setCallee(PromotedCall.take()); 15321eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump 1533db4325b098eff5e9e660db19f0148423fb21f27fChandler Carruth // Change the result type of the call to match the original value type. This 1534db4325b098eff5e9e660db19f0148423fb21f27fChandler Carruth // is arbitrary, but the codegen for these builtins ins design to handle it 1535db4325b098eff5e9e660db19f0148423fb21f27fChandler Carruth // gracefully. 15368d13d221cf7c1657404c611efaadf3ac19d899b3Chandler Carruth TheCall->setType(ResultType); 1537d201457cc781f1b13d0f4b1268ff934e6004cbffChandler Carruth 15383fe198bf0d6118c7b080c17c3bb28d7c84e458b9Benjamin Kramer return TheCallResult; 15395caa370ea6f70bd3e7e4a9cc3b69ac1a849c8534Chris Lattner} 15405caa370ea6f70bd3e7e4a9cc3b69ac1a849c8534Chris Lattner 1541690398188ea5b428f06aa13c7d4ce6eb741ad4f9Chris Lattner/// CheckObjCString - Checks that the argument to the builtin 154271993dd85eed9cc42c6b2fa61ee5c53026b74817Anders Carlsson/// CFString constructor is correct 1543fd942628abfe30e30427875db953222ae99b4325Steve Naroff/// Note: It might also make sense to do the UTF-16 conversion here (would 1544fd942628abfe30e30427875db953222ae99b4325Steve Naroff/// simplify the backend). 1545690398188ea5b428f06aa13c7d4ce6eb741ad4f9Chris Lattnerbool Sema::CheckObjCString(Expr *Arg) { 154656f349400c5932a196509c0480ff6f99a9a0b48fChris Lattner Arg = Arg->IgnoreParenCasts(); 154771993dd85eed9cc42c6b2fa61ee5c53026b74817Anders Carlsson StringLiteral *Literal = dyn_cast<StringLiteral>(Arg); 154871993dd85eed9cc42c6b2fa61ee5c53026b74817Anders Carlsson 15495cee1195584fa8672253139c86e922daeda69b9eDouglas Gregor if (!Literal || !Literal->isAscii()) { 1550fa25bbb351f4fdd977f51254119cdfc2b525ce90Chris Lattner Diag(Arg->getLocStart(), diag::err_cfstring_literal_not_string_constant) 1551fa25bbb351f4fdd977f51254119cdfc2b525ce90Chris Lattner << Arg->getSourceRange(); 15529cdc4d3834f203dcde3ff274b8928e4620a914d5Anders Carlsson return true; 155371993dd85eed9cc42c6b2fa61ee5c53026b74817Anders Carlsson } 15541eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump 15557da71020b97c69b95831bd03d35e8e8404bfdea0Fariborz Jahanian if (Literal->containsNonAsciiOrNull()) { 15565f9e272e632e951b1efe824cd16acb4d96077930Chris Lattner StringRef String = Literal->getString(); 15577da71020b97c69b95831bd03d35e8e8404bfdea0Fariborz Jahanian unsigned NumBytes = String.size(); 15585f9e272e632e951b1efe824cd16acb4d96077930Chris Lattner SmallVector<UTF16, 128> ToBuf(NumBytes); 155931ba6135375433b617a8587ea6cc836a014ebd86Roman Divacky const UTF8 *FromPtr = (const UTF8 *)String.data(); 15607da71020b97c69b95831bd03d35e8e8404bfdea0Fariborz Jahanian UTF16 *ToPtr = &ToBuf[0]; 15617da71020b97c69b95831bd03d35e8e8404bfdea0Fariborz Jahanian 15627da71020b97c69b95831bd03d35e8e8404bfdea0Fariborz Jahanian ConversionResult Result = ConvertUTF8toUTF16(&FromPtr, FromPtr + NumBytes, 15637da71020b97c69b95831bd03d35e8e8404bfdea0Fariborz Jahanian &ToPtr, ToPtr + NumBytes, 15647da71020b97c69b95831bd03d35e8e8404bfdea0Fariborz Jahanian strictConversion); 15657da71020b97c69b95831bd03d35e8e8404bfdea0Fariborz Jahanian // Check for conversion failure. 15667da71020b97c69b95831bd03d35e8e8404bfdea0Fariborz Jahanian if (Result != conversionOK) 15677da71020b97c69b95831bd03d35e8e8404bfdea0Fariborz Jahanian Diag(Arg->getLocStart(), 15687da71020b97c69b95831bd03d35e8e8404bfdea0Fariborz Jahanian diag::warn_cfstring_truncated) << Arg->getSourceRange(); 15697da71020b97c69b95831bd03d35e8e8404bfdea0Fariborz Jahanian } 15709cdc4d3834f203dcde3ff274b8928e4620a914d5Anders Carlsson return false; 157159907c4d8f6fc8aacfdaa0273bd7a9c140fbb45fChris Lattner} 157259907c4d8f6fc8aacfdaa0273bd7a9c140fbb45fChris Lattner 1573c27c665c88b49dfb212aedc7bab8b9bf67658b9eChris Lattner/// SemaBuiltinVAStart - Check the arguments to __builtin_va_start for validity. 1574c27c665c88b49dfb212aedc7bab8b9bf67658b9eChris Lattner/// Emit an error and return true on failure, return false on success. 1575925e60d3fa706f31886027c876989af79eb0e0d2Chris Lattnerbool Sema::SemaBuiltinVAStart(CallExpr *TheCall) { 1576925e60d3fa706f31886027c876989af79eb0e0d2Chris Lattner Expr *Fn = TheCall->getCallee(); 1577925e60d3fa706f31886027c876989af79eb0e0d2Chris Lattner if (TheCall->getNumArgs() > 2) { 15782c21a073525cdfa68e4439b7af551385dc2796abChris Lattner Diag(TheCall->getArg(2)->getLocStart(), 1579fa25bbb351f4fdd977f51254119cdfc2b525ce90Chris Lattner diag::err_typecheck_call_too_many_args) 1580ccfa9639f8d09733bcf1c2572c5bd3daba5bd632Eric Christopher << 0 /*function call*/ << 2 << TheCall->getNumArgs() 1581ccfa9639f8d09733bcf1c2572c5bd3daba5bd632Eric Christopher << Fn->getSourceRange() 15821eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump << SourceRange(TheCall->getArg(2)->getLocStart(), 1583fa25bbb351f4fdd977f51254119cdfc2b525ce90Chris Lattner (*(TheCall->arg_end()-1))->getLocEnd()); 158430ce344307f8a8b00054021307015571f83c7364Chris Lattner return true; 158530ce344307f8a8b00054021307015571f83c7364Chris Lattner } 158656f20ae1010aa71defd7572f660b41288c56cdd1Eli Friedman 158756f20ae1010aa71defd7572f660b41288c56cdd1Eli Friedman if (TheCall->getNumArgs() < 2) { 1588d77b9a29651d748f0e30a8dad8969635fc04f725Eric Christopher return Diag(TheCall->getLocEnd(), 1589d77b9a29651d748f0e30a8dad8969635fc04f725Eric Christopher diag::err_typecheck_call_too_few_args_at_least) 1590d77b9a29651d748f0e30a8dad8969635fc04f725Eric Christopher << 0 /*function call*/ << 2 << TheCall->getNumArgs(); 159156f20ae1010aa71defd7572f660b41288c56cdd1Eli Friedman } 159256f20ae1010aa71defd7572f660b41288c56cdd1Eli Friedman 15935f8d604246976a93a73549b07bbc8ee0b2061b50John McCall // Type-check the first argument normally. 15945f8d604246976a93a73549b07bbc8ee0b2061b50John McCall if (checkBuiltinArgument(*this, TheCall, 0)) 15955f8d604246976a93a73549b07bbc8ee0b2061b50John McCall return true; 15965f8d604246976a93a73549b07bbc8ee0b2061b50John McCall 1597c27c665c88b49dfb212aedc7bab8b9bf67658b9eChris Lattner // Determine whether the current function is variadic or not. 15989ea9bdbc14374f7bacdb50d3e52c664ff12150ffDouglas Gregor BlockScopeInfo *CurBlock = getCurBlock(); 1599c27c665c88b49dfb212aedc7bab8b9bf67658b9eChris Lattner bool isVariadic; 1600cd9c51433c06705645d1ee5a13da3c9a72d7d025Steve Naroff if (CurBlock) 1601c71a4915ca216847599d03cab4ed1c5086b0eb43John McCall isVariadic = CurBlock->TheDecl->isVariadic(); 16029498d388810d284d3970aef0d69fa4d069fd6cafTed Kremenek else if (FunctionDecl *FD = getCurFunctionDecl()) 16039498d388810d284d3970aef0d69fa4d069fd6cafTed Kremenek isVariadic = FD->isVariadic(); 16049498d388810d284d3970aef0d69fa4d069fd6cafTed Kremenek else 160553d0ea5f5bfa647ec23418bf3a3b7c183b51e4bdArgyrios Kyrtzidis isVariadic = getCurMethodDecl()->isVariadic(); 16061eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump 1607c27c665c88b49dfb212aedc7bab8b9bf67658b9eChris Lattner if (!isVariadic) { 160830ce344307f8a8b00054021307015571f83c7364Chris Lattner Diag(Fn->getLocStart(), diag::err_va_start_used_in_non_variadic_function); 160930ce344307f8a8b00054021307015571f83c7364Chris Lattner return true; 161030ce344307f8a8b00054021307015571f83c7364Chris Lattner } 16111eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump 161230ce344307f8a8b00054021307015571f83c7364Chris Lattner // Verify that the second argument to the builtin is the last argument of the 161330ce344307f8a8b00054021307015571f83c7364Chris Lattner // current function or method. 161430ce344307f8a8b00054021307015571f83c7364Chris Lattner bool SecondArgIsLastNamedArgument = false; 1615e2c14103dec39cbd24dac9d7b3e91277b109c14fAnders Carlsson const Expr *Arg = TheCall->getArg(1)->IgnoreParenCasts(); 16161eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump 1617b07d448a625d7399d871079d55491c6b10316e6fNico Weber // These are valid if SecondArgIsLastNamedArgument is false after the next 1618b07d448a625d7399d871079d55491c6b10316e6fNico Weber // block. 1619b07d448a625d7399d871079d55491c6b10316e6fNico Weber QualType Type; 1620b07d448a625d7399d871079d55491c6b10316e6fNico Weber SourceLocation ParamLoc; 1621b07d448a625d7399d871079d55491c6b10316e6fNico Weber 162288cf226caee50956ef47edd4d44cf7b80703a26cAnders Carlsson if (const DeclRefExpr *DR = dyn_cast<DeclRefExpr>(Arg)) { 162388cf226caee50956ef47edd4d44cf7b80703a26cAnders Carlsson if (const ParmVarDecl *PV = dyn_cast<ParmVarDecl>(DR->getDecl())) { 162430ce344307f8a8b00054021307015571f83c7364Chris Lattner // FIXME: This isn't correct for methods (results in bogus warning). 162530ce344307f8a8b00054021307015571f83c7364Chris Lattner // Get the last formal in the current function. 162688cf226caee50956ef47edd4d44cf7b80703a26cAnders Carlsson const ParmVarDecl *LastArg; 1627cd9c51433c06705645d1ee5a13da3c9a72d7d025Steve Naroff if (CurBlock) 1628cd9c51433c06705645d1ee5a13da3c9a72d7d025Steve Naroff LastArg = *(CurBlock->TheDecl->param_end()-1); 1629cd9c51433c06705645d1ee5a13da3c9a72d7d025Steve Naroff else if (FunctionDecl *FD = getCurFunctionDecl()) 1630371f258e61e1365b951b17931a3c5ac1530fd1a0Chris Lattner LastArg = *(FD->param_end()-1); 163130ce344307f8a8b00054021307015571f83c7364Chris Lattner else 163253d0ea5f5bfa647ec23418bf3a3b7c183b51e4bdArgyrios Kyrtzidis LastArg = *(getCurMethodDecl()->param_end()-1); 163330ce344307f8a8b00054021307015571f83c7364Chris Lattner SecondArgIsLastNamedArgument = PV == LastArg; 1634b07d448a625d7399d871079d55491c6b10316e6fNico Weber 1635b07d448a625d7399d871079d55491c6b10316e6fNico Weber Type = PV->getType(); 1636b07d448a625d7399d871079d55491c6b10316e6fNico Weber ParamLoc = PV->getLocation(); 163730ce344307f8a8b00054021307015571f83c7364Chris Lattner } 163830ce344307f8a8b00054021307015571f83c7364Chris Lattner } 16391eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump 164030ce344307f8a8b00054021307015571f83c7364Chris Lattner if (!SecondArgIsLastNamedArgument) 16411eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump Diag(TheCall->getArg(1)->getLocStart(), 164230ce344307f8a8b00054021307015571f83c7364Chris Lattner diag::warn_second_parameter_of_va_start_not_last_named_argument); 1643b07d448a625d7399d871079d55491c6b10316e6fNico Weber else if (Type->isReferenceType()) { 1644b07d448a625d7399d871079d55491c6b10316e6fNico Weber Diag(Arg->getLocStart(), 1645b07d448a625d7399d871079d55491c6b10316e6fNico Weber diag::warn_va_start_of_reference_type_is_undefined); 1646b07d448a625d7399d871079d55491c6b10316e6fNico Weber Diag(ParamLoc, diag::note_parameter_type) << Type; 1647b07d448a625d7399d871079d55491c6b10316e6fNico Weber } 1648b07d448a625d7399d871079d55491c6b10316e6fNico Weber 164930ce344307f8a8b00054021307015571f83c7364Chris Lattner return false; 16506cfda23b3768f93a6eb0b2a9135c8334a20125bbEli Friedman} 165130ce344307f8a8b00054021307015571f83c7364Chris Lattner 16521b9a0793955070738cac6f04b5abe9496be9b317Chris Lattner/// SemaBuiltinUnorderedCompare - Handle functions like __builtin_isgreater and 16531b9a0793955070738cac6f04b5abe9496be9b317Chris Lattner/// friends. This is declared to take (...), so we have to check everything. 1654925e60d3fa706f31886027c876989af79eb0e0d2Chris Lattnerbool Sema::SemaBuiltinUnorderedCompare(CallExpr *TheCall) { 1655925e60d3fa706f31886027c876989af79eb0e0d2Chris Lattner if (TheCall->getNumArgs() < 2) 16562c21a073525cdfa68e4439b7af551385dc2796abChris Lattner return Diag(TheCall->getLocEnd(), diag::err_typecheck_call_too_few_args) 1657d77b9a29651d748f0e30a8dad8969635fc04f725Eric Christopher << 0 << 2 << TheCall->getNumArgs()/*function call*/; 1658925e60d3fa706f31886027c876989af79eb0e0d2Chris Lattner if (TheCall->getNumArgs() > 2) 16591eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump return Diag(TheCall->getArg(2)->getLocStart(), 1660fa25bbb351f4fdd977f51254119cdfc2b525ce90Chris Lattner diag::err_typecheck_call_too_many_args) 1661ccfa9639f8d09733bcf1c2572c5bd3daba5bd632Eric Christopher << 0 /*function call*/ << 2 << TheCall->getNumArgs() 1662fa25bbb351f4fdd977f51254119cdfc2b525ce90Chris Lattner << SourceRange(TheCall->getArg(2)->getLocStart(), 1663fa25bbb351f4fdd977f51254119cdfc2b525ce90Chris Lattner (*(TheCall->arg_end()-1))->getLocEnd()); 16641eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump 1665429bb276991ff2dbc7c5b438828b9b7737cb15ebJohn Wiegley ExprResult OrigArg0 = TheCall->getArg(0); 1666429bb276991ff2dbc7c5b438828b9b7737cb15ebJohn Wiegley ExprResult OrigArg1 = TheCall->getArg(1); 1667cde01739dffe574c53a6ba1def1a57a2cc7b4a8bDouglas Gregor 16681b9a0793955070738cac6f04b5abe9496be9b317Chris Lattner // Do standard promotions between the two arguments, returning their common 16691b9a0793955070738cac6f04b5abe9496be9b317Chris Lattner // type. 1670925e60d3fa706f31886027c876989af79eb0e0d2Chris Lattner QualType Res = UsualArithmeticConversions(OrigArg0, OrigArg1, false); 1671429bb276991ff2dbc7c5b438828b9b7737cb15ebJohn Wiegley if (OrigArg0.isInvalid() || OrigArg1.isInvalid()) 1672429bb276991ff2dbc7c5b438828b9b7737cb15ebJohn Wiegley return true; 1673403bc2bd9edffe51d73776643fa87696c9417678Daniel Dunbar 1674403bc2bd9edffe51d73776643fa87696c9417678Daniel Dunbar // Make sure any conversions are pushed back into the call; this is 1675403bc2bd9edffe51d73776643fa87696c9417678Daniel Dunbar // type safe since unordered compare builtins are declared as "_Bool 1676403bc2bd9edffe51d73776643fa87696c9417678Daniel Dunbar // foo(...)". 1677429bb276991ff2dbc7c5b438828b9b7737cb15ebJohn Wiegley TheCall->setArg(0, OrigArg0.get()); 1678429bb276991ff2dbc7c5b438828b9b7737cb15ebJohn Wiegley TheCall->setArg(1, OrigArg1.get()); 16791eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump 1680429bb276991ff2dbc7c5b438828b9b7737cb15ebJohn Wiegley if (OrigArg0.get()->isTypeDependent() || OrigArg1.get()->isTypeDependent()) 1681cde01739dffe574c53a6ba1def1a57a2cc7b4a8bDouglas Gregor return false; 1682cde01739dffe574c53a6ba1def1a57a2cc7b4a8bDouglas Gregor 16831b9a0793955070738cac6f04b5abe9496be9b317Chris Lattner // If the common type isn't a real floating type, then the arguments were 16841b9a0793955070738cac6f04b5abe9496be9b317Chris Lattner // invalid for this operation. 1685860a319e62b0e256817a458396d191aa91c0787aEli Friedman if (Res.isNull() || !Res->isRealFloatingType()) 1686429bb276991ff2dbc7c5b438828b9b7737cb15ebJohn Wiegley return Diag(OrigArg0.get()->getLocStart(), 1687fa25bbb351f4fdd977f51254119cdfc2b525ce90Chris Lattner diag::err_typecheck_call_invalid_ordered_compare) 1688429bb276991ff2dbc7c5b438828b9b7737cb15ebJohn Wiegley << OrigArg0.get()->getType() << OrigArg1.get()->getType() 1689429bb276991ff2dbc7c5b438828b9b7737cb15ebJohn Wiegley << SourceRange(OrigArg0.get()->getLocStart(), OrigArg1.get()->getLocEnd()); 16901eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump 16911b9a0793955070738cac6f04b5abe9496be9b317Chris Lattner return false; 16921b9a0793955070738cac6f04b5abe9496be9b317Chris Lattner} 16931b9a0793955070738cac6f04b5abe9496be9b317Chris Lattner 1694e771a7ac11fb27f0e734e5de4d858f2c268895e5Benjamin Kramer/// SemaBuiltinSemaBuiltinFPClassification - Handle functions like 1695e771a7ac11fb27f0e734e5de4d858f2c268895e5Benjamin Kramer/// __builtin_isnan and friends. This is declared to take (...), so we have 16963b1e26b708e8d00d4ba10ff857201bae2aff6baeBenjamin Kramer/// to check everything. We expect the last argument to be a floating point 16973b1e26b708e8d00d4ba10ff857201bae2aff6baeBenjamin Kramer/// value. 16983b1e26b708e8d00d4ba10ff857201bae2aff6baeBenjamin Kramerbool Sema::SemaBuiltinFPClassification(CallExpr *TheCall, unsigned NumArgs) { 16993b1e26b708e8d00d4ba10ff857201bae2aff6baeBenjamin Kramer if (TheCall->getNumArgs() < NumArgs) 17009ac6f62a77be5b281a7ddc24a16669b457ac47c2Eli Friedman return Diag(TheCall->getLocEnd(), diag::err_typecheck_call_too_few_args) 1701d77b9a29651d748f0e30a8dad8969635fc04f725Eric Christopher << 0 << NumArgs << TheCall->getNumArgs()/*function call*/; 17023b1e26b708e8d00d4ba10ff857201bae2aff6baeBenjamin Kramer if (TheCall->getNumArgs() > NumArgs) 17033b1e26b708e8d00d4ba10ff857201bae2aff6baeBenjamin Kramer return Diag(TheCall->getArg(NumArgs)->getLocStart(), 17049ac6f62a77be5b281a7ddc24a16669b457ac47c2Eli Friedman diag::err_typecheck_call_too_many_args) 1705ccfa9639f8d09733bcf1c2572c5bd3daba5bd632Eric Christopher << 0 /*function call*/ << NumArgs << TheCall->getNumArgs() 17063b1e26b708e8d00d4ba10ff857201bae2aff6baeBenjamin Kramer << SourceRange(TheCall->getArg(NumArgs)->getLocStart(), 17079ac6f62a77be5b281a7ddc24a16669b457ac47c2Eli Friedman (*(TheCall->arg_end()-1))->getLocEnd()); 17089ac6f62a77be5b281a7ddc24a16669b457ac47c2Eli Friedman 17093b1e26b708e8d00d4ba10ff857201bae2aff6baeBenjamin Kramer Expr *OrigArg = TheCall->getArg(NumArgs-1); 17101eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump 17119ac6f62a77be5b281a7ddc24a16669b457ac47c2Eli Friedman if (OrigArg->isTypeDependent()) 17129ac6f62a77be5b281a7ddc24a16669b457ac47c2Eli Friedman return false; 17139ac6f62a77be5b281a7ddc24a16669b457ac47c2Eli Friedman 171481368fbfd6d57150f66c993dc9041d62a7a32c4fChris Lattner // This operation requires a non-_Complex floating-point number. 17159ac6f62a77be5b281a7ddc24a16669b457ac47c2Eli Friedman if (!OrigArg->getType()->isRealFloatingType()) 17161eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump return Diag(OrigArg->getLocStart(), 17179ac6f62a77be5b281a7ddc24a16669b457ac47c2Eli Friedman diag::err_typecheck_call_invalid_unary_fp) 17189ac6f62a77be5b281a7ddc24a16669b457ac47c2Eli Friedman << OrigArg->getType() << OrigArg->getSourceRange(); 17191eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump 172081368fbfd6d57150f66c993dc9041d62a7a32c4fChris Lattner // If this is an implicit conversion from float -> double, remove it. 172181368fbfd6d57150f66c993dc9041d62a7a32c4fChris Lattner if (ImplicitCastExpr *Cast = dyn_cast<ImplicitCastExpr>(OrigArg)) { 172281368fbfd6d57150f66c993dc9041d62a7a32c4fChris Lattner Expr *CastArg = Cast->getSubExpr(); 172381368fbfd6d57150f66c993dc9041d62a7a32c4fChris Lattner if (CastArg->getType()->isSpecificBuiltinType(BuiltinType::Float)) { 172481368fbfd6d57150f66c993dc9041d62a7a32c4fChris Lattner assert(Cast->getType()->isSpecificBuiltinType(BuiltinType::Double) && 172581368fbfd6d57150f66c993dc9041d62a7a32c4fChris Lattner "promotion from float to double is the only expected cast here"); 172681368fbfd6d57150f66c993dc9041d62a7a32c4fChris Lattner Cast->setSubExpr(0); 172781368fbfd6d57150f66c993dc9041d62a7a32c4fChris Lattner TheCall->setArg(NumArgs-1, CastArg); 172881368fbfd6d57150f66c993dc9041d62a7a32c4fChris Lattner } 172981368fbfd6d57150f66c993dc9041d62a7a32c4fChris Lattner } 173081368fbfd6d57150f66c993dc9041d62a7a32c4fChris Lattner 17319ac6f62a77be5b281a7ddc24a16669b457ac47c2Eli Friedman return false; 17329ac6f62a77be5b281a7ddc24a16669b457ac47c2Eli Friedman} 17339ac6f62a77be5b281a7ddc24a16669b457ac47c2Eli Friedman 1734d38617c8a50f9729c254ab76cd359af797c6739bEli Friedman/// SemaBuiltinShuffleVector - Handle __builtin_shufflevector. 1735d38617c8a50f9729c254ab76cd359af797c6739bEli Friedman// This is declared to take (...), so we have to check everything. 173660d7b3a319d84d688752be3870615ac0f111fb16John McCallExprResult Sema::SemaBuiltinShuffleVector(CallExpr *TheCall) { 173737b6a5731a47f811d754f0d48aa93edf30e30513Nate Begeman if (TheCall->getNumArgs() < 2) 17380eb23307222bda7ad95d968eac4e1ab30864b213Sebastian Redl return ExprError(Diag(TheCall->getLocEnd(), 1739d77b9a29651d748f0e30a8dad8969635fc04f725Eric Christopher diag::err_typecheck_call_too_few_args_at_least) 1740b44545aa3419eba3c5ad5fe5e30d534f27cfcb46Craig Topper << 0 /*function call*/ << 2 << TheCall->getNumArgs() 1741b44545aa3419eba3c5ad5fe5e30d534f27cfcb46Craig Topper << TheCall->getSourceRange()); 1742d38617c8a50f9729c254ab76cd359af797c6739bEli Friedman 174337b6a5731a47f811d754f0d48aa93edf30e30513Nate Begeman // Determine which of the following types of shufflevector we're checking: 174437b6a5731a47f811d754f0d48aa93edf30e30513Nate Begeman // 1) unary, vector mask: (lhs, mask) 174537b6a5731a47f811d754f0d48aa93edf30e30513Nate Begeman // 2) binary, vector mask: (lhs, rhs, mask) 174637b6a5731a47f811d754f0d48aa93edf30e30513Nate Begeman // 3) binary, scalar mask: (lhs, rhs, index, ..., index) 174737b6a5731a47f811d754f0d48aa93edf30e30513Nate Begeman QualType resType = TheCall->getArg(0)->getType(); 174837b6a5731a47f811d754f0d48aa93edf30e30513Nate Begeman unsigned numElements = 0; 1749e3fbbe9a486c4c8709726d8c79af33140eb02e53Craig Topper 1750cde01739dffe574c53a6ba1def1a57a2cc7b4a8bDouglas Gregor if (!TheCall->getArg(0)->isTypeDependent() && 1751cde01739dffe574c53a6ba1def1a57a2cc7b4a8bDouglas Gregor !TheCall->getArg(1)->isTypeDependent()) { 175237b6a5731a47f811d754f0d48aa93edf30e30513Nate Begeman QualType LHSType = TheCall->getArg(0)->getType(); 175337b6a5731a47f811d754f0d48aa93edf30e30513Nate Begeman QualType RHSType = TheCall->getArg(1)->getType(); 1754e3fbbe9a486c4c8709726d8c79af33140eb02e53Craig Topper 1755bbe759cf95a5df5497549abadb56282939868da1Craig Topper if (!LHSType->isVectorType() || !RHSType->isVectorType()) 1756bbe759cf95a5df5497549abadb56282939868da1Craig Topper return ExprError(Diag(TheCall->getLocStart(), 1757bbe759cf95a5df5497549abadb56282939868da1Craig Topper diag::err_shufflevector_non_vector) 1758bbe759cf95a5df5497549abadb56282939868da1Craig Topper << SourceRange(TheCall->getArg(0)->getLocStart(), 1759bbe759cf95a5df5497549abadb56282939868da1Craig Topper TheCall->getArg(1)->getLocEnd())); 1760e3fbbe9a486c4c8709726d8c79af33140eb02e53Craig Topper 176137b6a5731a47f811d754f0d48aa93edf30e30513Nate Begeman numElements = LHSType->getAs<VectorType>()->getNumElements(); 176237b6a5731a47f811d754f0d48aa93edf30e30513Nate Begeman unsigned numResElements = TheCall->getNumArgs() - 2; 176337b6a5731a47f811d754f0d48aa93edf30e30513Nate Begeman 176437b6a5731a47f811d754f0d48aa93edf30e30513Nate Begeman // Check to see if we have a call with 2 vector arguments, the unary shuffle 176537b6a5731a47f811d754f0d48aa93edf30e30513Nate Begeman // with mask. If so, verify that RHS is an integer vector type with the 176637b6a5731a47f811d754f0d48aa93edf30e30513Nate Begeman // same number of elts as lhs. 176737b6a5731a47f811d754f0d48aa93edf30e30513Nate Begeman if (TheCall->getNumArgs() == 2) { 17684cb3d909cb4af5efc073fd4122d4998c466a220eSylvestre Ledru if (!RHSType->hasIntegerRepresentation() || 176937b6a5731a47f811d754f0d48aa93edf30e30513Nate Begeman RHSType->getAs<VectorType>()->getNumElements() != numElements) 1770bbe759cf95a5df5497549abadb56282939868da1Craig Topper return ExprError(Diag(TheCall->getLocStart(), 1771bbe759cf95a5df5497549abadb56282939868da1Craig Topper diag::err_shufflevector_incompatible_vector) 1772bbe759cf95a5df5497549abadb56282939868da1Craig Topper << SourceRange(TheCall->getArg(1)->getLocStart(), 1773bbe759cf95a5df5497549abadb56282939868da1Craig Topper TheCall->getArg(1)->getLocEnd())); 1774e3fbbe9a486c4c8709726d8c79af33140eb02e53Craig Topper } else if (!Context.hasSameUnqualifiedType(LHSType, RHSType)) { 1775bbe759cf95a5df5497549abadb56282939868da1Craig Topper return ExprError(Diag(TheCall->getLocStart(), 1776bbe759cf95a5df5497549abadb56282939868da1Craig Topper diag::err_shufflevector_incompatible_vector) 1777bbe759cf95a5df5497549abadb56282939868da1Craig Topper << SourceRange(TheCall->getArg(0)->getLocStart(), 1778bbe759cf95a5df5497549abadb56282939868da1Craig Topper TheCall->getArg(1)->getLocEnd())); 177937b6a5731a47f811d754f0d48aa93edf30e30513Nate Begeman } else if (numElements != numResElements) { 178037b6a5731a47f811d754f0d48aa93edf30e30513Nate Begeman QualType eltType = LHSType->getAs<VectorType>()->getElementType(); 1781788b0fd67e1992f23555454efcdb16a19dfefac3Chris Lattner resType = Context.getVectorType(eltType, numResElements, 1782e86d78cf4754a6aef2cf9a33d847aa15338e276fBob Wilson VectorType::GenericVector); 1783cde01739dffe574c53a6ba1def1a57a2cc7b4a8bDouglas Gregor } 1784d38617c8a50f9729c254ab76cd359af797c6739bEli Friedman } 1785d38617c8a50f9729c254ab76cd359af797c6739bEli Friedman 1786d38617c8a50f9729c254ab76cd359af797c6739bEli Friedman for (unsigned i = 2; i < TheCall->getNumArgs(); i++) { 1787cde01739dffe574c53a6ba1def1a57a2cc7b4a8bDouglas Gregor if (TheCall->getArg(i)->isTypeDependent() || 1788cde01739dffe574c53a6ba1def1a57a2cc7b4a8bDouglas Gregor TheCall->getArg(i)->isValueDependent()) 1789cde01739dffe574c53a6ba1def1a57a2cc7b4a8bDouglas Gregor continue; 1790cde01739dffe574c53a6ba1def1a57a2cc7b4a8bDouglas Gregor 179137b6a5731a47f811d754f0d48aa93edf30e30513Nate Begeman llvm::APSInt Result(32); 179237b6a5731a47f811d754f0d48aa93edf30e30513Nate Begeman if (!TheCall->getArg(i)->isIntegerConstantExpr(Result, Context)) 179337b6a5731a47f811d754f0d48aa93edf30e30513Nate Begeman return ExprError(Diag(TheCall->getLocStart(), 1794b44545aa3419eba3c5ad5fe5e30d534f27cfcb46Craig Topper diag::err_shufflevector_nonconstant_argument) 1795b44545aa3419eba3c5ad5fe5e30d534f27cfcb46Craig Topper << TheCall->getArg(i)->getSourceRange()); 17960eb23307222bda7ad95d968eac4e1ab30864b213Sebastian Redl 17976f4f8083931a92f9959168d4430da7ddf9183100Craig Topper // Allow -1 which will be translated to undef in the IR. 17986f4f8083931a92f9959168d4430da7ddf9183100Craig Topper if (Result.isSigned() && Result.isAllOnesValue()) 17996f4f8083931a92f9959168d4430da7ddf9183100Craig Topper continue; 18006f4f8083931a92f9959168d4430da7ddf9183100Craig Topper 1801d1a0b6d3dfb208f638d3d750b588d9c0daa49289Chris Lattner if (Result.getActiveBits() > 64 || Result.getZExtValue() >= numElements*2) 18020eb23307222bda7ad95d968eac4e1ab30864b213Sebastian Redl return ExprError(Diag(TheCall->getLocStart(), 1803b44545aa3419eba3c5ad5fe5e30d534f27cfcb46Craig Topper diag::err_shufflevector_argument_too_large) 1804b44545aa3419eba3c5ad5fe5e30d534f27cfcb46Craig Topper << TheCall->getArg(i)->getSourceRange()); 1805d38617c8a50f9729c254ab76cd359af797c6739bEli Friedman } 1806d38617c8a50f9729c254ab76cd359af797c6739bEli Friedman 18075f9e272e632e951b1efe824cd16acb4d96077930Chris Lattner SmallVector<Expr*, 32> exprs; 1808d38617c8a50f9729c254ab76cd359af797c6739bEli Friedman 1809d1a0b6d3dfb208f638d3d750b588d9c0daa49289Chris Lattner for (unsigned i = 0, e = TheCall->getNumArgs(); i != e; i++) { 1810d38617c8a50f9729c254ab76cd359af797c6739bEli Friedman exprs.push_back(TheCall->getArg(i)); 1811d38617c8a50f9729c254ab76cd359af797c6739bEli Friedman TheCall->setArg(i, 0); 1812d38617c8a50f9729c254ab76cd359af797c6739bEli Friedman } 1813d38617c8a50f9729c254ab76cd359af797c6739bEli Friedman 18143b6bef9a213249c6ab6d67c07b1ac6380961be3eBenjamin Kramer return Owned(new (Context) ShuffleVectorExpr(Context, exprs, resType, 18158189cde56b4f6f938cd65f53c932fe1860d0204cTed Kremenek TheCall->getCallee()->getLocStart(), 18168189cde56b4f6f938cd65f53c932fe1860d0204cTed Kremenek TheCall->getRParenLoc())); 1817d38617c8a50f9729c254ab76cd359af797c6739bEli Friedman} 181830ce344307f8a8b00054021307015571f83c7364Chris Lattner 18194493f79fce48cd9cbd9f55fa9d452cde736747a0Daniel Dunbar/// SemaBuiltinPrefetch - Handle __builtin_prefetch. 18204493f79fce48cd9cbd9f55fa9d452cde736747a0Daniel Dunbar// This is declared to take (const void*, ...) and can take two 18214493f79fce48cd9cbd9f55fa9d452cde736747a0Daniel Dunbar// optional constant int args. 18224493f79fce48cd9cbd9f55fa9d452cde736747a0Daniel Dunbarbool Sema::SemaBuiltinPrefetch(CallExpr *TheCall) { 1823fa25bbb351f4fdd977f51254119cdfc2b525ce90Chris Lattner unsigned NumArgs = TheCall->getNumArgs(); 18244493f79fce48cd9cbd9f55fa9d452cde736747a0Daniel Dunbar 1825fa25bbb351f4fdd977f51254119cdfc2b525ce90Chris Lattner if (NumArgs > 3) 1826ccfa9639f8d09733bcf1c2572c5bd3daba5bd632Eric Christopher return Diag(TheCall->getLocEnd(), 1827ccfa9639f8d09733bcf1c2572c5bd3daba5bd632Eric Christopher diag::err_typecheck_call_too_many_args_at_most) 1828ccfa9639f8d09733bcf1c2572c5bd3daba5bd632Eric Christopher << 0 /*function call*/ << 3 << NumArgs 1829ccfa9639f8d09733bcf1c2572c5bd3daba5bd632Eric Christopher << TheCall->getSourceRange(); 18304493f79fce48cd9cbd9f55fa9d452cde736747a0Daniel Dunbar 18314493f79fce48cd9cbd9f55fa9d452cde736747a0Daniel Dunbar // Argument 0 is checked for us and the remaining arguments must be 18324493f79fce48cd9cbd9f55fa9d452cde736747a0Daniel Dunbar // constant integers. 1833fa25bbb351f4fdd977f51254119cdfc2b525ce90Chris Lattner for (unsigned i = 1; i != NumArgs; ++i) { 18344493f79fce48cd9cbd9f55fa9d452cde736747a0Daniel Dunbar Expr *Arg = TheCall->getArg(i); 1835592a4230c6e91fead00d605f6155080544cdf8c9Douglas Gregor 1836592a4230c6e91fead00d605f6155080544cdf8c9Douglas Gregor // We can't check the value of a dependent argument. 1837592a4230c6e91fead00d605f6155080544cdf8c9Douglas Gregor if (Arg->isTypeDependent() || Arg->isValueDependent()) 1838592a4230c6e91fead00d605f6155080544cdf8c9Douglas Gregor continue; 1839592a4230c6e91fead00d605f6155080544cdf8c9Douglas Gregor 18409aef7263d84d9224575e113878cfbb06b8343cbfEli Friedman llvm::APSInt Result; 1841691ebc3f3225542e5abd85e107ebdbec907cf510Eric Christopher if (SemaBuiltinConstantArg(TheCall, i, Result)) 1842691ebc3f3225542e5abd85e107ebdbec907cf510Eric Christopher return true; 18431eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump 18444493f79fce48cd9cbd9f55fa9d452cde736747a0Daniel Dunbar // FIXME: gcc issues a warning and rewrites these to 0. These 18454493f79fce48cd9cbd9f55fa9d452cde736747a0Daniel Dunbar // seems especially odd for the third argument since the default 18464493f79fce48cd9cbd9f55fa9d452cde736747a0Daniel Dunbar // is 3. 1847fa25bbb351f4fdd977f51254119cdfc2b525ce90Chris Lattner if (i == 1) { 18489aef7263d84d9224575e113878cfbb06b8343cbfEli Friedman if (Result.getLimitedValue() > 1) 1849fa25bbb351f4fdd977f51254119cdfc2b525ce90Chris Lattner return Diag(TheCall->getLocStart(), diag::err_argument_invalid_range) 185021fb98ee003e992b0c4e204d98a19e0ef544cae3Chris Lattner << "0" << "1" << Arg->getSourceRange(); 18514493f79fce48cd9cbd9f55fa9d452cde736747a0Daniel Dunbar } else { 18529aef7263d84d9224575e113878cfbb06b8343cbfEli Friedman if (Result.getLimitedValue() > 3) 1853fa25bbb351f4fdd977f51254119cdfc2b525ce90Chris Lattner return Diag(TheCall->getLocStart(), diag::err_argument_invalid_range) 185421fb98ee003e992b0c4e204d98a19e0ef544cae3Chris Lattner << "0" << "3" << Arg->getSourceRange(); 18554493f79fce48cd9cbd9f55fa9d452cde736747a0Daniel Dunbar } 18564493f79fce48cd9cbd9f55fa9d452cde736747a0Daniel Dunbar } 18574493f79fce48cd9cbd9f55fa9d452cde736747a0Daniel Dunbar 1858fa25bbb351f4fdd977f51254119cdfc2b525ce90Chris Lattner return false; 18594493f79fce48cd9cbd9f55fa9d452cde736747a0Daniel Dunbar} 18604493f79fce48cd9cbd9f55fa9d452cde736747a0Daniel Dunbar 1861691ebc3f3225542e5abd85e107ebdbec907cf510Eric Christopher/// SemaBuiltinConstantArg - Handle a check if argument ArgNum of CallExpr 1862691ebc3f3225542e5abd85e107ebdbec907cf510Eric Christopher/// TheCall is a constant expression. 1863691ebc3f3225542e5abd85e107ebdbec907cf510Eric Christopherbool Sema::SemaBuiltinConstantArg(CallExpr *TheCall, int ArgNum, 1864691ebc3f3225542e5abd85e107ebdbec907cf510Eric Christopher llvm::APSInt &Result) { 1865691ebc3f3225542e5abd85e107ebdbec907cf510Eric Christopher Expr *Arg = TheCall->getArg(ArgNum); 1866691ebc3f3225542e5abd85e107ebdbec907cf510Eric Christopher DeclRefExpr *DRE =cast<DeclRefExpr>(TheCall->getCallee()->IgnoreParenCasts()); 1867691ebc3f3225542e5abd85e107ebdbec907cf510Eric Christopher FunctionDecl *FDecl = cast<FunctionDecl>(DRE->getDecl()); 1868691ebc3f3225542e5abd85e107ebdbec907cf510Eric Christopher 1869691ebc3f3225542e5abd85e107ebdbec907cf510Eric Christopher if (Arg->isTypeDependent() || Arg->isValueDependent()) return false; 1870691ebc3f3225542e5abd85e107ebdbec907cf510Eric Christopher 1871691ebc3f3225542e5abd85e107ebdbec907cf510Eric Christopher if (!Arg->isIntegerConstantExpr(Result, Context)) 1872691ebc3f3225542e5abd85e107ebdbec907cf510Eric Christopher return Diag(TheCall->getLocStart(), diag::err_constant_integer_arg_type) 18735e8965525282a48fd34af05183b8c3705a5b00d5Eric Christopher << FDecl->getDeclName() << Arg->getSourceRange(); 1874691ebc3f3225542e5abd85e107ebdbec907cf510Eric Christopher 187521fb98ee003e992b0c4e204d98a19e0ef544cae3Chris Lattner return false; 187621fb98ee003e992b0c4e204d98a19e0ef544cae3Chris Lattner} 187721fb98ee003e992b0c4e204d98a19e0ef544cae3Chris Lattner 1878d5f8a4fd4d6dfb0415b93bb7ab721bba5cab1332Daniel Dunbar/// SemaBuiltinObjectSize - Handle __builtin_object_size(void *ptr, 1879d5f8a4fd4d6dfb0415b93bb7ab721bba5cab1332Daniel Dunbar/// int type). This simply type checks that type is one of the defined 1880d5f8a4fd4d6dfb0415b93bb7ab721bba5cab1332Daniel Dunbar/// constants (0-3). 1881fc8f0e14ad142ed811e90fbd9a30e419e301c717Chris Lattner// For compatibility check 0-3, llvm only handles 0 and 2. 1882d5f8a4fd4d6dfb0415b93bb7ab721bba5cab1332Daniel Dunbarbool Sema::SemaBuiltinObjectSize(CallExpr *TheCall) { 1883691ebc3f3225542e5abd85e107ebdbec907cf510Eric Christopher llvm::APSInt Result; 1884592a4230c6e91fead00d605f6155080544cdf8c9Douglas Gregor 1885592a4230c6e91fead00d605f6155080544cdf8c9Douglas Gregor // We can't check the value of a dependent argument. 1886592a4230c6e91fead00d605f6155080544cdf8c9Douglas Gregor if (TheCall->getArg(1)->isTypeDependent() || 1887592a4230c6e91fead00d605f6155080544cdf8c9Douglas Gregor TheCall->getArg(1)->isValueDependent()) 1888592a4230c6e91fead00d605f6155080544cdf8c9Douglas Gregor return false; 1889592a4230c6e91fead00d605f6155080544cdf8c9Douglas Gregor 1890691ebc3f3225542e5abd85e107ebdbec907cf510Eric Christopher // Check constant-ness first. 1891691ebc3f3225542e5abd85e107ebdbec907cf510Eric Christopher if (SemaBuiltinConstantArg(TheCall, 1, Result)) 1892691ebc3f3225542e5abd85e107ebdbec907cf510Eric Christopher return true; 1893d5f8a4fd4d6dfb0415b93bb7ab721bba5cab1332Daniel Dunbar 1894691ebc3f3225542e5abd85e107ebdbec907cf510Eric Christopher Expr *Arg = TheCall->getArg(1); 1895d5f8a4fd4d6dfb0415b93bb7ab721bba5cab1332Daniel Dunbar if (Result.getSExtValue() < 0 || Result.getSExtValue() > 3) { 1896fa25bbb351f4fdd977f51254119cdfc2b525ce90Chris Lattner return Diag(TheCall->getLocStart(), diag::err_argument_invalid_range) 1897fa25bbb351f4fdd977f51254119cdfc2b525ce90Chris Lattner << "0" << "3" << SourceRange(Arg->getLocStart(), Arg->getLocEnd()); 1898d5f8a4fd4d6dfb0415b93bb7ab721bba5cab1332Daniel Dunbar } 1899d5f8a4fd4d6dfb0415b93bb7ab721bba5cab1332Daniel Dunbar 1900d5f8a4fd4d6dfb0415b93bb7ab721bba5cab1332Daniel Dunbar return false; 1901d5f8a4fd4d6dfb0415b93bb7ab721bba5cab1332Daniel Dunbar} 1902d5f8a4fd4d6dfb0415b93bb7ab721bba5cab1332Daniel Dunbar 1903586d6a81428da2d1ce70bcb98df29d749361cbf3Eli Friedman/// SemaBuiltinLongjmp - Handle __builtin_longjmp(void *env[5], int val). 1904d875fed28578835de89cd407e9db4be788596d7cEli Friedman/// This checks that val is a constant 1. 1905d875fed28578835de89cd407e9db4be788596d7cEli Friedmanbool Sema::SemaBuiltinLongjmp(CallExpr *TheCall) { 1906d875fed28578835de89cd407e9db4be788596d7cEli Friedman Expr *Arg = TheCall->getArg(1); 1907691ebc3f3225542e5abd85e107ebdbec907cf510Eric Christopher llvm::APSInt Result; 1908cde01739dffe574c53a6ba1def1a57a2cc7b4a8bDouglas Gregor 1909691ebc3f3225542e5abd85e107ebdbec907cf510Eric Christopher // TODO: This is less than ideal. Overload this to take a value. 1910691ebc3f3225542e5abd85e107ebdbec907cf510Eric Christopher if (SemaBuiltinConstantArg(TheCall, 1, Result)) 1911691ebc3f3225542e5abd85e107ebdbec907cf510Eric Christopher return true; 1912691ebc3f3225542e5abd85e107ebdbec907cf510Eric Christopher 1913691ebc3f3225542e5abd85e107ebdbec907cf510Eric Christopher if (Result != 1) 1914d875fed28578835de89cd407e9db4be788596d7cEli Friedman return Diag(TheCall->getLocStart(), diag::err_builtin_longjmp_invalid_val) 1915d875fed28578835de89cd407e9db4be788596d7cEli Friedman << SourceRange(Arg->getLocStart(), Arg->getLocEnd()); 1916d875fed28578835de89cd407e9db4be788596d7cEli Friedman 1917d875fed28578835de89cd407e9db4be788596d7cEli Friedman return false; 1918d875fed28578835de89cd407e9db4be788596d7cEli Friedman} 1919d875fed28578835de89cd407e9db4be788596d7cEli Friedman 19200e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smithnamespace { 19210e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smithenum StringLiteralCheckType { 19220e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith SLCT_NotALiteral, 19230e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith SLCT_UncheckedLiteral, 19240e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith SLCT_CheckedLiteral 19250e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith}; 19260e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith} 19270e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith 1928831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith// Determine if an expression is a string literal or constant string. 1929831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith// If this function returns false on the arguments to a function expecting a 1930831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith// format string, we will usually need to emit a warning. 1931831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith// True string literals are then checked by CheckFormatString. 19320e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smithstatic StringLiteralCheckType 19330e2189791acf7fcec4f1b32af24efb2d363f30c1Richard SmithcheckFormatStringExpr(Sema &S, const Expr *E, ArrayRef<const Expr *> Args, 19340e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith bool HasVAListArg, unsigned format_idx, 19350e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith unsigned firstDataArg, Sema::FormatStringType Type, 19360e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith Sema::VariadicCallType CallType, bool InFunctionCall, 19370e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith llvm::SmallBitVector &CheckedVarArgs) { 19384fe6441a558e471f2ad3c6bddf07c77332539f6bTed Kremenek tryAgain: 1939cde01739dffe574c53a6ba1def1a57a2cc7b4a8bDouglas Gregor if (E->isTypeDependent() || E->isValueDependent()) 1940831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith return SLCT_NotALiteral; 1941d30ef87f34015d18bde20b9632032d0063d761aaTed Kremenek 194234269df5db40b7c4b4f52aed579d9b3108ff79e4Jean-Daniel Dupas E = E->IgnoreParenCasts(); 1943f111d935722ed488144600cea5ed03a6b5069e8fPeter Collingbourne 19440e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith if (E->isNullPointerConstant(S.Context, Expr::NPC_ValueDependentIsNotNull)) 1945a73cdcbc1dc1ed98c54556c6adcd2b12301759ccDavid Blaikie // Technically -Wformat-nonliteral does not warn about this case. 1946a73cdcbc1dc1ed98c54556c6adcd2b12301759ccDavid Blaikie // The behavior of printf and friends in this case is implementation 1947a73cdcbc1dc1ed98c54556c6adcd2b12301759ccDavid Blaikie // dependent. Ideally if the format string cannot be null then 1948a73cdcbc1dc1ed98c54556c6adcd2b12301759ccDavid Blaikie // it should have a 'nonnull' attribute in the function prototype. 19490e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith return SLCT_UncheckedLiteral; 1950a73cdcbc1dc1ed98c54556c6adcd2b12301759ccDavid Blaikie 1951d30ef87f34015d18bde20b9632032d0063d761aaTed Kremenek switch (E->getStmtClass()) { 195256ca35d396d8692c384c785f9aeebcf22563fe1eJohn McCall case Stmt::BinaryConditionalOperatorClass: 1953d30ef87f34015d18bde20b9632032d0063d761aaTed Kremenek case Stmt::ConditionalOperatorClass: { 1954831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith // The expression is a literal if both sub-expressions were, and it was 1955831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith // completely checked only if both sub-expressions were checked. 1956831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith const AbstractConditionalOperator *C = 1957831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith cast<AbstractConditionalOperator>(E); 1958831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith StringLiteralCheckType Left = 19590e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith checkFormatStringExpr(S, C->getTrueExpr(), Args, 1960831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith HasVAListArg, format_idx, firstDataArg, 19610e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith Type, CallType, InFunctionCall, CheckedVarArgs); 1962831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith if (Left == SLCT_NotALiteral) 1963831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith return SLCT_NotALiteral; 1964831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith StringLiteralCheckType Right = 19650e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith checkFormatStringExpr(S, C->getFalseExpr(), Args, 1966831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith HasVAListArg, format_idx, firstDataArg, 19670e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith Type, CallType, InFunctionCall, CheckedVarArgs); 1968831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith return Left < Right ? Left : Right; 1969d30ef87f34015d18bde20b9632032d0063d761aaTed Kremenek } 1970d30ef87f34015d18bde20b9632032d0063d761aaTed Kremenek 1971d30ef87f34015d18bde20b9632032d0063d761aaTed Kremenek case Stmt::ImplicitCastExprClass: { 19724fe6441a558e471f2ad3c6bddf07c77332539f6bTed Kremenek E = cast<ImplicitCastExpr>(E)->getSubExpr(); 19734fe6441a558e471f2ad3c6bddf07c77332539f6bTed Kremenek goto tryAgain; 1974d30ef87f34015d18bde20b9632032d0063d761aaTed Kremenek } 1975d30ef87f34015d18bde20b9632032d0063d761aaTed Kremenek 197656ca35d396d8692c384c785f9aeebcf22563fe1eJohn McCall case Stmt::OpaqueValueExprClass: 197756ca35d396d8692c384c785f9aeebcf22563fe1eJohn McCall if (const Expr *src = cast<OpaqueValueExpr>(E)->getSourceExpr()) { 197856ca35d396d8692c384c785f9aeebcf22563fe1eJohn McCall E = src; 197956ca35d396d8692c384c785f9aeebcf22563fe1eJohn McCall goto tryAgain; 198056ca35d396d8692c384c785f9aeebcf22563fe1eJohn McCall } 1981831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith return SLCT_NotALiteral; 198256ca35d396d8692c384c785f9aeebcf22563fe1eJohn McCall 1983b43e8ad893706a2499c4901b8f5cb289553d66b1Ted Kremenek case Stmt::PredefinedExprClass: 1984b43e8ad893706a2499c4901b8f5cb289553d66b1Ted Kremenek // While __func__, etc., are technically not string literals, they 1985b43e8ad893706a2499c4901b8f5cb289553d66b1Ted Kremenek // cannot contain format specifiers and thus are not a security 1986b43e8ad893706a2499c4901b8f5cb289553d66b1Ted Kremenek // liability. 1987831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith return SLCT_UncheckedLiteral; 1988b43e8ad893706a2499c4901b8f5cb289553d66b1Ted Kremenek 1989082d936a5b8323ac2c04558d8bca277a647831a3Ted Kremenek case Stmt::DeclRefExprClass: { 1990082d936a5b8323ac2c04558d8bca277a647831a3Ted Kremenek const DeclRefExpr *DR = cast<DeclRefExpr>(E); 19911eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump 1992082d936a5b8323ac2c04558d8bca277a647831a3Ted Kremenek // As an exception, do not flag errors for variables binding to 1993082d936a5b8323ac2c04558d8bca277a647831a3Ted Kremenek // const string literals. 1994082d936a5b8323ac2c04558d8bca277a647831a3Ted Kremenek if (const VarDecl *VD = dyn_cast<VarDecl>(DR->getDecl())) { 1995082d936a5b8323ac2c04558d8bca277a647831a3Ted Kremenek bool isConstant = false; 1996082d936a5b8323ac2c04558d8bca277a647831a3Ted Kremenek QualType T = DR->getType(); 1997082d936a5b8323ac2c04558d8bca277a647831a3Ted Kremenek 19980e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith if (const ArrayType *AT = S.Context.getAsArrayType(T)) { 19990e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith isConstant = AT->getElementType().isConstant(S.Context); 2000ac5fc7c6bcb494b60fee7ce615ac931c5db6135eMike Stump } else if (const PointerType *PT = T->getAs<PointerType>()) { 20010e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith isConstant = T.isConstant(S.Context) && 20020e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith PT->getPointeeType().isConstant(S.Context); 2003e98e5b54543f8a9e35626fb44dc0c649e71917d9Jean-Daniel Dupas } else if (T->isObjCObjectPointerType()) { 2004e98e5b54543f8a9e35626fb44dc0c649e71917d9Jean-Daniel Dupas // In ObjC, there is usually no "const ObjectPointer" type, 2005e98e5b54543f8a9e35626fb44dc0c649e71917d9Jean-Daniel Dupas // so don't check if the pointee type is constant. 20060e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith isConstant = T.isConstant(S.Context); 2007082d936a5b8323ac2c04558d8bca277a647831a3Ted Kremenek } 20081eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump 2009082d936a5b8323ac2c04558d8bca277a647831a3Ted Kremenek if (isConstant) { 2010e2c60667d1bc29b7e148f9c9828dcbdbfc5b82b0Matt Beaumont-Gay if (const Expr *Init = VD->getAnyInitializer()) { 2011e2c60667d1bc29b7e148f9c9828dcbdbfc5b82b0Matt Beaumont-Gay // Look through initializers like const char c[] = { "foo" } 2012e2c60667d1bc29b7e148f9c9828dcbdbfc5b82b0Matt Beaumont-Gay if (const InitListExpr *InitList = dyn_cast<InitListExpr>(Init)) { 2013e2c60667d1bc29b7e148f9c9828dcbdbfc5b82b0Matt Beaumont-Gay if (InitList->isStringLiteralInit()) 2014e2c60667d1bc29b7e148f9c9828dcbdbfc5b82b0Matt Beaumont-Gay Init = InitList->getInit(0)->IgnoreParenImpCasts(); 2015e2c60667d1bc29b7e148f9c9828dcbdbfc5b82b0Matt Beaumont-Gay } 20160e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith return checkFormatStringExpr(S, Init, Args, 2017831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith HasVAListArg, format_idx, 2018ddcfbc9ad1817f545610999d655ac6c28d4c0c12Jordan Rose firstDataArg, Type, CallType, 20190e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith /*InFunctionCall*/false, CheckedVarArgs); 2020e2c60667d1bc29b7e148f9c9828dcbdbfc5b82b0Matt Beaumont-Gay } 2021082d936a5b8323ac2c04558d8bca277a647831a3Ted Kremenek } 20221eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump 2023d966a55bccae13f34d18958877c5e71dd643a125Anders Carlsson // For vprintf* functions (i.e., HasVAListArg==true), we add a 2024d966a55bccae13f34d18958877c5e71dd643a125Anders Carlsson // special check to see if the format string is a function parameter 2025d966a55bccae13f34d18958877c5e71dd643a125Anders Carlsson // of the function calling the printf function. If the function 2026d966a55bccae13f34d18958877c5e71dd643a125Anders Carlsson // has an attribute indicating it is a printf-like function, then we 2027d966a55bccae13f34d18958877c5e71dd643a125Anders Carlsson // should suppress warnings concerning non-literals being used in a call 2028d966a55bccae13f34d18958877c5e71dd643a125Anders Carlsson // to a vprintf function. For example: 2029d966a55bccae13f34d18958877c5e71dd643a125Anders Carlsson // 2030d966a55bccae13f34d18958877c5e71dd643a125Anders Carlsson // void 2031d966a55bccae13f34d18958877c5e71dd643a125Anders Carlsson // logmessage(char const *fmt __attribute__ (format (printf, 1, 2)), ...){ 2032d966a55bccae13f34d18958877c5e71dd643a125Anders Carlsson // va_list ap; 2033d966a55bccae13f34d18958877c5e71dd643a125Anders Carlsson // va_start(ap, fmt); 2034d966a55bccae13f34d18958877c5e71dd643a125Anders Carlsson // vprintf(fmt, ap); // Do NOT emit a warning about "fmt". 2035d966a55bccae13f34d18958877c5e71dd643a125Anders Carlsson // ... 20360e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith // } 2037f57c413e444b441fa75ae8911d183c19b53bdd56Jean-Daniel Dupas if (HasVAListArg) { 2038f57c413e444b441fa75ae8911d183c19b53bdd56Jean-Daniel Dupas if (const ParmVarDecl *PV = dyn_cast<ParmVarDecl>(VD)) { 2039f57c413e444b441fa75ae8911d183c19b53bdd56Jean-Daniel Dupas if (const NamedDecl *ND = dyn_cast<NamedDecl>(PV->getDeclContext())) { 2040f57c413e444b441fa75ae8911d183c19b53bdd56Jean-Daniel Dupas int PVIndex = PV->getFunctionScopeIndex() + 1; 2041f57c413e444b441fa75ae8911d183c19b53bdd56Jean-Daniel Dupas for (specific_attr_iterator<FormatAttr> 2042f57c413e444b441fa75ae8911d183c19b53bdd56Jean-Daniel Dupas i = ND->specific_attr_begin<FormatAttr>(), 2043f57c413e444b441fa75ae8911d183c19b53bdd56Jean-Daniel Dupas e = ND->specific_attr_end<FormatAttr>(); i != e ; ++i) { 2044f57c413e444b441fa75ae8911d183c19b53bdd56Jean-Daniel Dupas FormatAttr *PVFormat = *i; 2045f57c413e444b441fa75ae8911d183c19b53bdd56Jean-Daniel Dupas // adjust for implicit parameter 2046f57c413e444b441fa75ae8911d183c19b53bdd56Jean-Daniel Dupas if (const CXXMethodDecl *MD = dyn_cast<CXXMethodDecl>(ND)) 2047f57c413e444b441fa75ae8911d183c19b53bdd56Jean-Daniel Dupas if (MD->isInstance()) 2048f57c413e444b441fa75ae8911d183c19b53bdd56Jean-Daniel Dupas ++PVIndex; 2049f57c413e444b441fa75ae8911d183c19b53bdd56Jean-Daniel Dupas // We also check if the formats are compatible. 2050f57c413e444b441fa75ae8911d183c19b53bdd56Jean-Daniel Dupas // We can't pass a 'scanf' string to a 'printf' function. 2051f57c413e444b441fa75ae8911d183c19b53bdd56Jean-Daniel Dupas if (PVIndex == PVFormat->getFormatIdx() && 20520e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith Type == S.GetFormatStringType(PVFormat)) 2053831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith return SLCT_UncheckedLiteral; 2054f57c413e444b441fa75ae8911d183c19b53bdd56Jean-Daniel Dupas } 2055f57c413e444b441fa75ae8911d183c19b53bdd56Jean-Daniel Dupas } 2056f57c413e444b441fa75ae8911d183c19b53bdd56Jean-Daniel Dupas } 2057f57c413e444b441fa75ae8911d183c19b53bdd56Jean-Daniel Dupas } 2058082d936a5b8323ac2c04558d8bca277a647831a3Ted Kremenek } 20591eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump 2060831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith return SLCT_NotALiteral; 2061082d936a5b8323ac2c04558d8bca277a647831a3Ted Kremenek } 2062d30ef87f34015d18bde20b9632032d0063d761aaTed Kremenek 206352aabafeee9e8634eceb46b1a3fdbd3cd22b1cf7Jean-Daniel Dupas case Stmt::CallExprClass: 206452aabafeee9e8634eceb46b1a3fdbd3cd22b1cf7Jean-Daniel Dupas case Stmt::CXXMemberCallExprClass: { 20658f031b3b14e726b093fb8693c2be4ab6d779e331Anders Carlsson const CallExpr *CE = cast<CallExpr>(E); 206652aabafeee9e8634eceb46b1a3fdbd3cd22b1cf7Jean-Daniel Dupas if (const NamedDecl *ND = dyn_cast_or_null<NamedDecl>(CE->getCalleeDecl())) { 206752aabafeee9e8634eceb46b1a3fdbd3cd22b1cf7Jean-Daniel Dupas if (const FormatArgAttr *FA = ND->getAttr<FormatArgAttr>()) { 206852aabafeee9e8634eceb46b1a3fdbd3cd22b1cf7Jean-Daniel Dupas unsigned ArgIndex = FA->getFormatIdx(); 206952aabafeee9e8634eceb46b1a3fdbd3cd22b1cf7Jean-Daniel Dupas if (const CXXMethodDecl *MD = dyn_cast<CXXMethodDecl>(ND)) 207052aabafeee9e8634eceb46b1a3fdbd3cd22b1cf7Jean-Daniel Dupas if (MD->isInstance()) 207152aabafeee9e8634eceb46b1a3fdbd3cd22b1cf7Jean-Daniel Dupas --ArgIndex; 207252aabafeee9e8634eceb46b1a3fdbd3cd22b1cf7Jean-Daniel Dupas const Expr *Arg = CE->getArg(ArgIndex - 1); 207352aabafeee9e8634eceb46b1a3fdbd3cd22b1cf7Jean-Daniel Dupas 20740e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith return checkFormatStringExpr(S, Arg, Args, 2075831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith HasVAListArg, format_idx, firstDataArg, 20760e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith Type, CallType, InFunctionCall, 20770e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith CheckedVarArgs); 207850687314f87b67073c202fe46d84d12fb55e25cfJordan Rose } else if (const FunctionDecl *FD = dyn_cast<FunctionDecl>(ND)) { 207950687314f87b67073c202fe46d84d12fb55e25cfJordan Rose unsigned BuiltinID = FD->getBuiltinID(); 208050687314f87b67073c202fe46d84d12fb55e25cfJordan Rose if (BuiltinID == Builtin::BI__builtin___CFStringMakeConstantString || 208150687314f87b67073c202fe46d84d12fb55e25cfJordan Rose BuiltinID == Builtin::BI__builtin___NSStringMakeConstantString) { 208250687314f87b67073c202fe46d84d12fb55e25cfJordan Rose const Expr *Arg = CE->getArg(0); 20830e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith return checkFormatStringExpr(S, Arg, Args, 2084831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith HasVAListArg, format_idx, 2085ddcfbc9ad1817f545610999d655ac6c28d4c0c12Jordan Rose firstDataArg, Type, CallType, 20860e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith InFunctionCall, CheckedVarArgs); 208750687314f87b67073c202fe46d84d12fb55e25cfJordan Rose } 20888f031b3b14e726b093fb8693c2be4ab6d779e331Anders Carlsson } 20898f031b3b14e726b093fb8693c2be4ab6d779e331Anders Carlsson } 20901eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump 2091831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith return SLCT_NotALiteral; 20928f031b3b14e726b093fb8693c2be4ab6d779e331Anders Carlsson } 2093082d936a5b8323ac2c04558d8bca277a647831a3Ted Kremenek case Stmt::ObjCStringLiteralClass: 2094082d936a5b8323ac2c04558d8bca277a647831a3Ted Kremenek case Stmt::StringLiteralClass: { 2095082d936a5b8323ac2c04558d8bca277a647831a3Ted Kremenek const StringLiteral *StrE = NULL; 20961eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump 2097082d936a5b8323ac2c04558d8bca277a647831a3Ted Kremenek if (const ObjCStringLiteral *ObjCFExpr = dyn_cast<ObjCStringLiteral>(E)) 2098d30ef87f34015d18bde20b9632032d0063d761aaTed Kremenek StrE = ObjCFExpr->getString(); 2099d30ef87f34015d18bde20b9632032d0063d761aaTed Kremenek else 2100082d936a5b8323ac2c04558d8bca277a647831a3Ted Kremenek StrE = cast<StringLiteral>(E); 21011eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump 2102d30ef87f34015d18bde20b9632032d0063d761aaTed Kremenek if (StrE) { 21030e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith S.CheckFormatString(StrE, E, Args, HasVAListArg, format_idx, firstDataArg, 21040e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith Type, InFunctionCall, CallType, CheckedVarArgs); 2105831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith return SLCT_CheckedLiteral; 2106d30ef87f34015d18bde20b9632032d0063d761aaTed Kremenek } 21071eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump 2108831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith return SLCT_NotALiteral; 2109d30ef87f34015d18bde20b9632032d0063d761aaTed Kremenek } 21101eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump 2111082d936a5b8323ac2c04558d8bca277a647831a3Ted Kremenek default: 2112831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith return SLCT_NotALiteral; 2113d30ef87f34015d18bde20b9632032d0063d761aaTed Kremenek } 2114d30ef87f34015d18bde20b9632032d0063d761aaTed Kremenek} 2115d30ef87f34015d18bde20b9632032d0063d761aaTed Kremenek 2116e898f8a94947c6074d76ff83943b47d5bbdf210dFariborz Jahanianvoid 21171eb4433ac451dc16f4133a88af2d002ac26c58efMike StumpSema::CheckNonNullArguments(const NonNullAttr *NonNull, 2118909a70d8a185f701c20bacc3c76f8f5979cbbc7cNick Lewycky const Expr * const *ExprArgs, 2119909a70d8a185f701c20bacc3c76f8f5979cbbc7cNick Lewycky SourceLocation CallSiteLoc) { 2120cf807c4dfdb23e8fa3f400e0b24ef5b79db7a530Sean Hunt for (NonNullAttr::args_iterator i = NonNull->args_begin(), 2121cf807c4dfdb23e8fa3f400e0b24ef5b79db7a530Sean Hunt e = NonNull->args_end(); 2122e898f8a94947c6074d76ff83943b47d5bbdf210dFariborz Jahanian i != e; ++i) { 2123909a70d8a185f701c20bacc3c76f8f5979cbbc7cNick Lewycky const Expr *ArgExpr = ExprArgs[*i]; 21243edf387e4338ff98d9874b4c1b41d787e49d6c2bNick Lewycky 21253edf387e4338ff98d9874b4c1b41d787e49d6c2bNick Lewycky // As a special case, transparent unions initialized with zero are 21263edf387e4338ff98d9874b4c1b41d787e49d6c2bNick Lewycky // considered null for the purposes of the nonnull attribute. 21273edf387e4338ff98d9874b4c1b41d787e49d6c2bNick Lewycky if (const RecordType *UT = ArgExpr->getType()->getAsUnionType()) { 21283edf387e4338ff98d9874b4c1b41d787e49d6c2bNick Lewycky if (UT->getDecl()->hasAttr<TransparentUnionAttr>()) 21293edf387e4338ff98d9874b4c1b41d787e49d6c2bNick Lewycky if (const CompoundLiteralExpr *CLE = 21303edf387e4338ff98d9874b4c1b41d787e49d6c2bNick Lewycky dyn_cast<CompoundLiteralExpr>(ArgExpr)) 21313edf387e4338ff98d9874b4c1b41d787e49d6c2bNick Lewycky if (const InitListExpr *ILE = 21323edf387e4338ff98d9874b4c1b41d787e49d6c2bNick Lewycky dyn_cast<InitListExpr>(CLE->getInitializer())) 21333edf387e4338ff98d9874b4c1b41d787e49d6c2bNick Lewycky ArgExpr = ILE->getInit(0); 21343edf387e4338ff98d9874b4c1b41d787e49d6c2bNick Lewycky } 21353edf387e4338ff98d9874b4c1b41d787e49d6c2bNick Lewycky 21363edf387e4338ff98d9874b4c1b41d787e49d6c2bNick Lewycky bool Result; 21373edf387e4338ff98d9874b4c1b41d787e49d6c2bNick Lewycky if (ArgExpr->EvaluateAsBooleanCondition(Result, Context) && !Result) 2138909a70d8a185f701c20bacc3c76f8f5979cbbc7cNick Lewycky Diag(CallSiteLoc, diag::warn_null_arg) << ArgExpr->getSourceRange(); 2139e898f8a94947c6074d76ff83943b47d5bbdf210dFariborz Jahanian } 2140e898f8a94947c6074d76ff83943b47d5bbdf210dFariborz Jahanian} 2141d30ef87f34015d18bde20b9632032d0063d761aaTed Kremenek 214234269df5db40b7c4b4f52aed579d9b3108ff79e4Jean-Daniel DupasSema::FormatStringType Sema::GetFormatStringType(const FormatAttr *Format) { 214334269df5db40b7c4b4f52aed579d9b3108ff79e4Jean-Daniel Dupas return llvm::StringSwitch<FormatStringType>(Format->getType()) 214434269df5db40b7c4b4f52aed579d9b3108ff79e4Jean-Daniel Dupas .Case("scanf", FST_Scanf) 214534269df5db40b7c4b4f52aed579d9b3108ff79e4Jean-Daniel Dupas .Cases("printf", "printf0", FST_Printf) 214634269df5db40b7c4b4f52aed579d9b3108ff79e4Jean-Daniel Dupas .Cases("NSString", "CFString", FST_NSString) 214734269df5db40b7c4b4f52aed579d9b3108ff79e4Jean-Daniel Dupas .Case("strftime", FST_Strftime) 214834269df5db40b7c4b4f52aed579d9b3108ff79e4Jean-Daniel Dupas .Case("strfmon", FST_Strfmon) 214934269df5db40b7c4b4f52aed579d9b3108ff79e4Jean-Daniel Dupas .Cases("kprintf", "cmn_err", "vcmn_err", "zcmn_err", FST_Kprintf) 215034269df5db40b7c4b4f52aed579d9b3108ff79e4Jean-Daniel Dupas .Default(FST_Unknown); 215134269df5db40b7c4b4f52aed579d9b3108ff79e4Jean-Daniel Dupas} 215234269df5db40b7c4b4f52aed579d9b3108ff79e4Jean-Daniel Dupas 2153ddcfbc9ad1817f545610999d655ac6c28d4c0c12Jordan Rose/// CheckFormatArguments - Check calls to printf and scanf (and similar 2154826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek/// functions) for correct use of format strings. 2155831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith/// Returns true if a format string has been fully checked. 21561c030e9a3f290a1eea5de82fe1e63dfde2bd8f1eDmitri Gribenkobool Sema::CheckFormatArguments(const FormatAttr *Format, 21571c030e9a3f290a1eea5de82fe1e63dfde2bd8f1eDmitri Gribenko ArrayRef<const Expr *> Args, 21581c030e9a3f290a1eea5de82fe1e63dfde2bd8f1eDmitri Gribenko bool IsCXXMember, 2159ddcfbc9ad1817f545610999d655ac6c28d4c0c12Jordan Rose VariadicCallType CallType, 21600e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith SourceLocation Loc, SourceRange Range, 21610e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith llvm::SmallBitVector &CheckedVarArgs) { 2162831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith FormatStringInfo FSI; 2163831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith if (getFormatStringInfo(Format, IsCXXMember, &FSI)) 21641c030e9a3f290a1eea5de82fe1e63dfde2bd8f1eDmitri Gribenko return CheckFormatArguments(Args, FSI.HasVAListArg, FSI.FormatIdx, 2165831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith FSI.FirstDataArg, GetFormatStringType(Format), 21660e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith CallType, Loc, Range, CheckedVarArgs); 2167831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith return false; 216829c3f814b64808c6dac4597b61a50ceecdf141fcJean-Daniel Dupas} 21694a2614e94672c47395abcde60518776fbebec589Sebastian Redl 21701c030e9a3f290a1eea5de82fe1e63dfde2bd8f1eDmitri Gribenkobool Sema::CheckFormatArguments(ArrayRef<const Expr *> Args, 217134269df5db40b7c4b4f52aed579d9b3108ff79e4Jean-Daniel Dupas bool HasVAListArg, unsigned format_idx, 217234269df5db40b7c4b4f52aed579d9b3108ff79e4Jean-Daniel Dupas unsigned firstDataArg, FormatStringType Type, 2173ddcfbc9ad1817f545610999d655ac6c28d4c0c12Jordan Rose VariadicCallType CallType, 21740e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith SourceLocation Loc, SourceRange Range, 21750e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith llvm::SmallBitVector &CheckedVarArgs) { 2176826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek // CHECK: printf/scanf-like function is called with no format string. 21771c030e9a3f290a1eea5de82fe1e63dfde2bd8f1eDmitri Gribenko if (format_idx >= Args.size()) { 217829c3f814b64808c6dac4597b61a50ceecdf141fcJean-Daniel Dupas Diag(Loc, diag::warn_missing_format_string) << Range; 2179831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith return false; 218071895b9aa3ad71957359497e136b50fcb6136bdfTed Kremenek } 21811eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump 218229c3f814b64808c6dac4597b61a50ceecdf141fcJean-Daniel Dupas const Expr *OrigFormatExpr = Args[format_idx]->IgnoreParenCasts(); 21831eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump 218459907c4d8f6fc8aacfdaa0273bd7a9c140fbb45fChris Lattner // CHECK: format string is not a string literal. 21851eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump // 218671895b9aa3ad71957359497e136b50fcb6136bdfTed Kremenek // Dynamically generated format strings are difficult to 218771895b9aa3ad71957359497e136b50fcb6136bdfTed Kremenek // automatically vet at compile time. Requiring that format strings 218871895b9aa3ad71957359497e136b50fcb6136bdfTed Kremenek // are string literals: (1) permits the checking of format strings by 218971895b9aa3ad71957359497e136b50fcb6136bdfTed Kremenek // the compiler and thereby (2) can practically remove the source of 219071895b9aa3ad71957359497e136b50fcb6136bdfTed Kremenek // many format string exploits. 21917ff22b259d4d4729f701679e3a7f0e242365e07fTed Kremenek 21921eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump // Format string can be either ObjC string (e.g. @"%d") or 21937ff22b259d4d4729f701679e3a7f0e242365e07fTed Kremenek // C string (e.g. "%d") 21941eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump // ObjC string uses the same format specifiers as C string, so we can use 21957ff22b259d4d4729f701679e3a7f0e242365e07fTed Kremenek // the same format string checking logic for both ObjC and C strings. 2196831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith StringLiteralCheckType CT = 21970e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith checkFormatStringExpr(*this, OrigFormatExpr, Args, HasVAListArg, 21980e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith format_idx, firstDataArg, Type, CallType, 21990e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith /*IsFunctionCall*/true, CheckedVarArgs); 2200831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith if (CT != SLCT_NotALiteral) 2201831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith // Literal format string found, check done! 2202831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith return CT == SLCT_CheckedLiteral; 22031cd3e1f72c3a1c256fb6a5c3d4512bca1f1b751dChris Lattner 22042837a2f02195e624b14b419b2d3e6682a6bc5a0fJean-Daniel Dupas // Strftime is particular as it always uses a single 'time' argument, 22052837a2f02195e624b14b419b2d3e6682a6bc5a0fJean-Daniel Dupas // so it is safe to pass a non-literal string. 22062837a2f02195e624b14b419b2d3e6682a6bc5a0fJean-Daniel Dupas if (Type == FST_Strftime) 2207831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith return false; 22082837a2f02195e624b14b419b2d3e6682a6bc5a0fJean-Daniel Dupas 2209ce3aa395240207fd1cfa11342fd4b9fd46d6b025Jean-Daniel Dupas // Do not emit diag when the string param is a macro expansion and the 2210ce3aa395240207fd1cfa11342fd4b9fd46d6b025Jean-Daniel Dupas // format is either NSString or CFString. This is a hack to prevent 2211ce3aa395240207fd1cfa11342fd4b9fd46d6b025Jean-Daniel Dupas // diag when using the NSLocalizedString and CFCopyLocalizedString macros 2212ce3aa395240207fd1cfa11342fd4b9fd46d6b025Jean-Daniel Dupas // which are usually used in place of NS and CF string literals. 2213dc1702001964c3314f7090e6a4af889b5771d884Jean-Daniel Dupas if (Type == FST_NSString && 2214dc1702001964c3314f7090e6a4af889b5771d884Jean-Daniel Dupas SourceMgr.isInSystemMacro(Args[format_idx]->getLocStart())) 2215831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith return false; 2216ce3aa395240207fd1cfa11342fd4b9fd46d6b025Jean-Daniel Dupas 2217655f141f4d4c92eeebcc880211313e84c0a8b2f2Chris Lattner // If there are no arguments specified, warn with -Wformat-security, otherwise 2218655f141f4d4c92eeebcc880211313e84c0a8b2f2Chris Lattner // warn only with -Wformat-nonliteral. 22192243e78a6580ead4d17b76c924cd4b630b50d6aeEli Friedman if (Args.size() == firstDataArg) 222029c3f814b64808c6dac4597b61a50ceecdf141fcJean-Daniel Dupas Diag(Args[format_idx]->getLocStart(), 2221826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek diag::warn_format_nonliteral_noargs) 2222655f141f4d4c92eeebcc880211313e84c0a8b2f2Chris Lattner << OrigFormatExpr->getSourceRange(); 2223655f141f4d4c92eeebcc880211313e84c0a8b2f2Chris Lattner else 222429c3f814b64808c6dac4597b61a50ceecdf141fcJean-Daniel Dupas Diag(Args[format_idx]->getLocStart(), 2225826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek diag::warn_format_nonliteral) 2226655f141f4d4c92eeebcc880211313e84c0a8b2f2Chris Lattner << OrigFormatExpr->getSourceRange(); 2227831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith return false; 2228d30ef87f34015d18bde20b9632032d0063d761aaTed Kremenek} 2229d30ef87f34015d18bde20b9632032d0063d761aaTed Kremenek 2230e0e5313c25f3870d0d18fc67e1b3a3a0e1ef8e07Ted Kremeneknamespace { 2231826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenekclass CheckFormatHandler : public analyze_format_string::FormatStringHandler { 2232826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenekprotected: 2233e0e5313c25f3870d0d18fc67e1b3a3a0e1ef8e07Ted Kremenek Sema &S; 2234e0e5313c25f3870d0d18fc67e1b3a3a0e1ef8e07Ted Kremenek const StringLiteral *FExpr; 2235e0e5313c25f3870d0d18fc67e1b3a3a0e1ef8e07Ted Kremenek const Expr *OrigFormatExpr; 22366ee765348b2855c702fa593fb030ef6abe0d01f6Ted Kremenek const unsigned FirstDataArg; 2237e0e5313c25f3870d0d18fc67e1b3a3a0e1ef8e07Ted Kremenek const unsigned NumDataArgs; 2238e0e5313c25f3870d0d18fc67e1b3a3a0e1ef8e07Ted Kremenek const char *Beg; // Start of format string. 22390d27735c51f5bd392e673cf39a675e14e9442387Ted Kremenek const bool HasVAListArg; 22401c030e9a3f290a1eea5de82fe1e63dfde2bd8f1eDmitri Gribenko ArrayRef<const Expr *> Args; 22410d27735c51f5bd392e673cf39a675e14e9442387Ted Kremenek unsigned FormatIdx; 22420e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith llvm::SmallBitVector CoveredArgs; 2243efaff195ba1fa55b6fe0b0b2435b81451387d241Ted Kremenek bool usesPositionalArgs; 2244efaff195ba1fa55b6fe0b0b2435b81451387d241Ted Kremenek bool atFirstArg; 224555733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu bool inFunctionCall; 2246ddcfbc9ad1817f545610999d655ac6c28d4c0c12Jordan Rose Sema::VariadicCallType CallType; 22470e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith llvm::SmallBitVector &CheckedVarArgs; 22484e4b30ec62d78b24e6556fea2624855c193d0e3eTed Kremenekpublic: 2249826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek CheckFormatHandler(Sema &s, const StringLiteral *fexpr, 22506ee765348b2855c702fa593fb030ef6abe0d01f6Ted Kremenek const Expr *origFormatExpr, unsigned firstDataArg, 225150687314f87b67073c202fe46d84d12fb55e25cfJordan Rose unsigned numDataArgs, const char *beg, bool hasVAListArg, 22521c030e9a3f290a1eea5de82fe1e63dfde2bd8f1eDmitri Gribenko ArrayRef<const Expr *> Args, 2253ddcfbc9ad1817f545610999d655ac6c28d4c0c12Jordan Rose unsigned formatIdx, bool inFunctionCall, 22540e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith Sema::VariadicCallType callType, 22550e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith llvm::SmallBitVector &CheckedVarArgs) 2256e0e5313c25f3870d0d18fc67e1b3a3a0e1ef8e07Ted Kremenek : S(s), FExpr(fexpr), OrigFormatExpr(origFormatExpr), 225750687314f87b67073c202fe46d84d12fb55e25cfJordan Rose FirstDataArg(firstDataArg), NumDataArgs(numDataArgs), 225850687314f87b67073c202fe46d84d12fb55e25cfJordan Rose Beg(beg), HasVAListArg(hasVAListArg), 22591c030e9a3f290a1eea5de82fe1e63dfde2bd8f1eDmitri Gribenko Args(Args), FormatIdx(formatIdx), 226055733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu usesPositionalArgs(false), atFirstArg(true), 22610e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith inFunctionCall(inFunctionCall), CallType(callType), 22620e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith CheckedVarArgs(CheckedVarArgs) { 22630e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith CoveredArgs.resize(numDataArgs); 22640e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith CoveredArgs.reset(); 22650e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith } 22664e4b30ec62d78b24e6556fea2624855c193d0e3eTed Kremenek 226707d161f38e708a91486bf1c031d525faebbb249dTed Kremenek void DoneProcessing(); 22684e4b30ec62d78b24e6556fea2624855c193d0e3eTed Kremenek 2269826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek void HandleIncompleteSpecifier(const char *startSpecifier, 2270826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek unsigned specifierLen); 227176517426dc8bf7734c07eefc35171a6bfdba1a2bHans Wennborg 2272bbb6bb4952b77e57b842b4d3096848123ae690e7Jordan Rose void HandleInvalidLengthModifier( 2273bbb6bb4952b77e57b842b4d3096848123ae690e7Jordan Rose const analyze_format_string::FormatSpecifier &FS, 2274bbb6bb4952b77e57b842b4d3096848123ae690e7Jordan Rose const analyze_format_string::ConversionSpecifier &CS, 22758be066e6733364cd34f25c4f7b7344f72aa23369Jordan Rose const char *startSpecifier, unsigned specifierLen, unsigned DiagID); 2276bbb6bb4952b77e57b842b4d3096848123ae690e7Jordan Rose 227776517426dc8bf7734c07eefc35171a6bfdba1a2bHans Wennborg void HandleNonStandardLengthModifier( 22788be066e6733364cd34f25c4f7b7344f72aa23369Jordan Rose const analyze_format_string::FormatSpecifier &FS, 227976517426dc8bf7734c07eefc35171a6bfdba1a2bHans Wennborg const char *startSpecifier, unsigned specifierLen); 228076517426dc8bf7734c07eefc35171a6bfdba1a2bHans Wennborg 228176517426dc8bf7734c07eefc35171a6bfdba1a2bHans Wennborg void HandleNonStandardConversionSpecifier( 228276517426dc8bf7734c07eefc35171a6bfdba1a2bHans Wennborg const analyze_format_string::ConversionSpecifier &CS, 228376517426dc8bf7734c07eefc35171a6bfdba1a2bHans Wennborg const char *startSpecifier, unsigned specifierLen); 228476517426dc8bf7734c07eefc35171a6bfdba1a2bHans Wennborg 2285f85626453123f9691bcef13cff963f556e209c27Hans Wennborg virtual void HandlePosition(const char *startPos, unsigned posLen); 2286f85626453123f9691bcef13cff963f556e209c27Hans Wennborg 2287efaff195ba1fa55b6fe0b0b2435b81451387d241Ted Kremenek virtual void HandleInvalidPosition(const char *startSpecifier, 2288efaff195ba1fa55b6fe0b0b2435b81451387d241Ted Kremenek unsigned specifierLen, 2289826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek analyze_format_string::PositionContext p); 2290efaff195ba1fa55b6fe0b0b2435b81451387d241Ted Kremenek 2291efaff195ba1fa55b6fe0b0b2435b81451387d241Ted Kremenek virtual void HandleZeroPosition(const char *startPos, unsigned posLen); 2292efaff195ba1fa55b6fe0b0b2435b81451387d241Ted Kremenek 2293e0e5313c25f3870d0d18fc67e1b3a3a0e1ef8e07Ted Kremenek void HandleNullChar(const char *nullCharacter); 22944e4b30ec62d78b24e6556fea2624855c193d0e3eTed Kremenek 229555733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu template <typename Range> 229655733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu static void EmitFormatDiagnostic(Sema &S, bool inFunctionCall, 229755733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu const Expr *ArgumentExpr, 229855733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu PartialDiagnostic PDiag, 229955733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu SourceLocation StringLoc, 230055733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu bool IsStringLocation, Range StringRange, 23015543169296beeb183b9c9392debc774fcf493eebDmitri Gribenko ArrayRef<FixItHint> Fixit = None); 230255733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu 2303826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenekprotected: 2304c09b6a59e02ae265fce51b8c11e2a045bcdaa888Ted Kremenek bool HandleInvalidConversionSpecifier(unsigned argIndex, SourceLocation Loc, 2305c09b6a59e02ae265fce51b8c11e2a045bcdaa888Ted Kremenek const char *startSpec, 2306c09b6a59e02ae265fce51b8c11e2a045bcdaa888Ted Kremenek unsigned specifierLen, 2307c09b6a59e02ae265fce51b8c11e2a045bcdaa888Ted Kremenek const char *csStart, unsigned csLen); 230855733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu 230955733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu void HandlePositionalNonpositionalArgs(SourceLocation Loc, 231055733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu const char *startSpec, 231155733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu unsigned specifierLen); 2312c09b6a59e02ae265fce51b8c11e2a045bcdaa888Ted Kremenek 2313f88c8e02da48afea6a04091f675af5c4facd99f1Ted Kremenek SourceRange getFormatStringRange(); 2314826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek CharSourceRange getSpecifierRange(const char *startSpecifier, 2315826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek unsigned specifierLen); 2316e0e5313c25f3870d0d18fc67e1b3a3a0e1ef8e07Ted Kremenek SourceLocation getLocationOfByte(const char *x); 23174e4b30ec62d78b24e6556fea2624855c193d0e3eTed Kremenek 23180d27735c51f5bd392e673cf39a675e14e9442387Ted Kremenek const Expr *getDataArg(unsigned i) const; 2319666a197deb75d95c78ddd39274af1a54240828d8Ted Kremenek 2320666a197deb75d95c78ddd39274af1a54240828d8Ted Kremenek bool CheckNumArgs(const analyze_format_string::FormatSpecifier &FS, 2321666a197deb75d95c78ddd39274af1a54240828d8Ted Kremenek const analyze_format_string::ConversionSpecifier &CS, 2322666a197deb75d95c78ddd39274af1a54240828d8Ted Kremenek const char *startSpecifier, unsigned specifierLen, 2323666a197deb75d95c78ddd39274af1a54240828d8Ted Kremenek unsigned argIndex); 232455733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu 232555733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu template <typename Range> 232655733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu void EmitFormatDiagnostic(PartialDiagnostic PDiag, SourceLocation StringLoc, 232755733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu bool IsStringLocation, Range StringRange, 23285543169296beeb183b9c9392debc774fcf493eebDmitri Gribenko ArrayRef<FixItHint> Fixit = None); 232955733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu 233055733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu void CheckPositionalAndNonpositionalArgs( 233155733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu const analyze_format_string::FormatSpecifier *FS); 2332e0e5313c25f3870d0d18fc67e1b3a3a0e1ef8e07Ted Kremenek}; 2333e0e5313c25f3870d0d18fc67e1b3a3a0e1ef8e07Ted Kremenek} 2334e0e5313c25f3870d0d18fc67e1b3a3a0e1ef8e07Ted Kremenek 2335826a3457f737f1fc45a22954fd1bfde38160c165Ted KremenekSourceRange CheckFormatHandler::getFormatStringRange() { 2336e0e5313c25f3870d0d18fc67e1b3a3a0e1ef8e07Ted Kremenek return OrigFormatExpr->getSourceRange(); 2337e0e5313c25f3870d0d18fc67e1b3a3a0e1ef8e07Ted Kremenek} 2338e0e5313c25f3870d0d18fc67e1b3a3a0e1ef8e07Ted Kremenek 2339826a3457f737f1fc45a22954fd1bfde38160c165Ted KremenekCharSourceRange CheckFormatHandler:: 2340826a3457f737f1fc45a22954fd1bfde38160c165Ted KremenekgetSpecifierRange(const char *startSpecifier, unsigned specifierLen) { 234145f9b7e8f23072d662ee1cc758f4ecb0da5e3322Tom Care SourceLocation Start = getLocationOfByte(startSpecifier); 234245f9b7e8f23072d662ee1cc758f4ecb0da5e3322Tom Care SourceLocation End = getLocationOfByte(startSpecifier + specifierLen - 1); 234345f9b7e8f23072d662ee1cc758f4ecb0da5e3322Tom Care 234445f9b7e8f23072d662ee1cc758f4ecb0da5e3322Tom Care // Advance the end SourceLocation by one due to half-open ranges. 2345a64ccefdf0ea4e03ec88805d71b0af74950c7472Argyrios Kyrtzidis End = End.getLocWithOffset(1); 234645f9b7e8f23072d662ee1cc758f4ecb0da5e3322Tom Care 234745f9b7e8f23072d662ee1cc758f4ecb0da5e3322Tom Care return CharSourceRange::getCharRange(Start, End); 2348f88c8e02da48afea6a04091f675af5c4facd99f1Ted Kremenek} 2349f88c8e02da48afea6a04091f675af5c4facd99f1Ted Kremenek 2350826a3457f737f1fc45a22954fd1bfde38160c165Ted KremenekSourceLocation CheckFormatHandler::getLocationOfByte(const char *x) { 23514e4b30ec62d78b24e6556fea2624855c193d0e3eTed Kremenek return S.getLocationOfStringLiteralByte(FExpr, x - Beg); 2352e0e5313c25f3870d0d18fc67e1b3a3a0e1ef8e07Ted Kremenek} 2353e0e5313c25f3870d0d18fc67e1b3a3a0e1ef8e07Ted Kremenek 2354826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenekvoid CheckFormatHandler::HandleIncompleteSpecifier(const char *startSpecifier, 2355826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek unsigned specifierLen){ 235655733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu EmitFormatDiagnostic(S.PDiag(diag::warn_printf_incomplete_specifier), 235755733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu getLocationOfByte(startSpecifier), 235855733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu /*IsStringLocation*/true, 235955733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu getSpecifierRange(startSpecifier, specifierLen)); 2360808015a18bd97781ce437831a95a92fdfc8d5136Ted Kremenek} 2361808015a18bd97781ce437831a95a92fdfc8d5136Ted Kremenek 2362bbb6bb4952b77e57b842b4d3096848123ae690e7Jordan Rosevoid CheckFormatHandler::HandleInvalidLengthModifier( 2363bbb6bb4952b77e57b842b4d3096848123ae690e7Jordan Rose const analyze_format_string::FormatSpecifier &FS, 2364bbb6bb4952b77e57b842b4d3096848123ae690e7Jordan Rose const analyze_format_string::ConversionSpecifier &CS, 23658be066e6733364cd34f25c4f7b7344f72aa23369Jordan Rose const char *startSpecifier, unsigned specifierLen, unsigned DiagID) { 2366bbb6bb4952b77e57b842b4d3096848123ae690e7Jordan Rose using namespace analyze_format_string; 2367bbb6bb4952b77e57b842b4d3096848123ae690e7Jordan Rose 2368bbb6bb4952b77e57b842b4d3096848123ae690e7Jordan Rose const LengthModifier &LM = FS.getLengthModifier(); 2369bbb6bb4952b77e57b842b4d3096848123ae690e7Jordan Rose CharSourceRange LMRange = getSpecifierRange(LM.getStart(), LM.getLength()); 2370bbb6bb4952b77e57b842b4d3096848123ae690e7Jordan Rose 2371bbb6bb4952b77e57b842b4d3096848123ae690e7Jordan Rose // See if we know how to fix this length modifier. 2372dc84cd5efdd3430efb22546b4ac656aa0540b210David Blaikie Optional<LengthModifier> FixedLM = FS.getCorrectedLengthModifier(); 2373bbb6bb4952b77e57b842b4d3096848123ae690e7Jordan Rose if (FixedLM) { 23748be066e6733364cd34f25c4f7b7344f72aa23369Jordan Rose EmitFormatDiagnostic(S.PDiag(DiagID) << LM.toString() << CS.toString(), 2375bbb6bb4952b77e57b842b4d3096848123ae690e7Jordan Rose getLocationOfByte(LM.getStart()), 2376bbb6bb4952b77e57b842b4d3096848123ae690e7Jordan Rose /*IsStringLocation*/true, 2377bbb6bb4952b77e57b842b4d3096848123ae690e7Jordan Rose getSpecifierRange(startSpecifier, specifierLen)); 2378bbb6bb4952b77e57b842b4d3096848123ae690e7Jordan Rose 2379bbb6bb4952b77e57b842b4d3096848123ae690e7Jordan Rose S.Diag(getLocationOfByte(LM.getStart()), diag::note_format_fix_specifier) 2380bbb6bb4952b77e57b842b4d3096848123ae690e7Jordan Rose << FixedLM->toString() 2381bbb6bb4952b77e57b842b4d3096848123ae690e7Jordan Rose << FixItHint::CreateReplacement(LMRange, FixedLM->toString()); 2382bbb6bb4952b77e57b842b4d3096848123ae690e7Jordan Rose 2383bbb6bb4952b77e57b842b4d3096848123ae690e7Jordan Rose } else { 23848be066e6733364cd34f25c4f7b7344f72aa23369Jordan Rose FixItHint Hint; 23858be066e6733364cd34f25c4f7b7344f72aa23369Jordan Rose if (DiagID == diag::warn_format_nonsensical_length) 23868be066e6733364cd34f25c4f7b7344f72aa23369Jordan Rose Hint = FixItHint::CreateRemoval(LMRange); 23878be066e6733364cd34f25c4f7b7344f72aa23369Jordan Rose 23888be066e6733364cd34f25c4f7b7344f72aa23369Jordan Rose EmitFormatDiagnostic(S.PDiag(DiagID) << LM.toString() << CS.toString(), 2389bbb6bb4952b77e57b842b4d3096848123ae690e7Jordan Rose getLocationOfByte(LM.getStart()), 2390bbb6bb4952b77e57b842b4d3096848123ae690e7Jordan Rose /*IsStringLocation*/true, 2391bbb6bb4952b77e57b842b4d3096848123ae690e7Jordan Rose getSpecifierRange(startSpecifier, specifierLen), 23928be066e6733364cd34f25c4f7b7344f72aa23369Jordan Rose Hint); 2393bbb6bb4952b77e57b842b4d3096848123ae690e7Jordan Rose } 2394bbb6bb4952b77e57b842b4d3096848123ae690e7Jordan Rose} 2395bbb6bb4952b77e57b842b4d3096848123ae690e7Jordan Rose 239676517426dc8bf7734c07eefc35171a6bfdba1a2bHans Wennborgvoid CheckFormatHandler::HandleNonStandardLengthModifier( 23978be066e6733364cd34f25c4f7b7344f72aa23369Jordan Rose const analyze_format_string::FormatSpecifier &FS, 239876517426dc8bf7734c07eefc35171a6bfdba1a2bHans Wennborg const char *startSpecifier, unsigned specifierLen) { 23998be066e6733364cd34f25c4f7b7344f72aa23369Jordan Rose using namespace analyze_format_string; 24008be066e6733364cd34f25c4f7b7344f72aa23369Jordan Rose 24018be066e6733364cd34f25c4f7b7344f72aa23369Jordan Rose const LengthModifier &LM = FS.getLengthModifier(); 24028be066e6733364cd34f25c4f7b7344f72aa23369Jordan Rose CharSourceRange LMRange = getSpecifierRange(LM.getStart(), LM.getLength()); 24038be066e6733364cd34f25c4f7b7344f72aa23369Jordan Rose 24048be066e6733364cd34f25c4f7b7344f72aa23369Jordan Rose // See if we know how to fix this length modifier. 2405dc84cd5efdd3430efb22546b4ac656aa0540b210David Blaikie Optional<LengthModifier> FixedLM = FS.getCorrectedLengthModifier(); 24068be066e6733364cd34f25c4f7b7344f72aa23369Jordan Rose if (FixedLM) { 24078be066e6733364cd34f25c4f7b7344f72aa23369Jordan Rose EmitFormatDiagnostic(S.PDiag(diag::warn_format_non_standard) 24088be066e6733364cd34f25c4f7b7344f72aa23369Jordan Rose << LM.toString() << 0, 24098be066e6733364cd34f25c4f7b7344f72aa23369Jordan Rose getLocationOfByte(LM.getStart()), 24108be066e6733364cd34f25c4f7b7344f72aa23369Jordan Rose /*IsStringLocation*/true, 24118be066e6733364cd34f25c4f7b7344f72aa23369Jordan Rose getSpecifierRange(startSpecifier, specifierLen)); 24128be066e6733364cd34f25c4f7b7344f72aa23369Jordan Rose 24138be066e6733364cd34f25c4f7b7344f72aa23369Jordan Rose S.Diag(getLocationOfByte(LM.getStart()), diag::note_format_fix_specifier) 24148be066e6733364cd34f25c4f7b7344f72aa23369Jordan Rose << FixedLM->toString() 24158be066e6733364cd34f25c4f7b7344f72aa23369Jordan Rose << FixItHint::CreateReplacement(LMRange, FixedLM->toString()); 24168be066e6733364cd34f25c4f7b7344f72aa23369Jordan Rose 24178be066e6733364cd34f25c4f7b7344f72aa23369Jordan Rose } else { 24188be066e6733364cd34f25c4f7b7344f72aa23369Jordan Rose EmitFormatDiagnostic(S.PDiag(diag::warn_format_non_standard) 24198be066e6733364cd34f25c4f7b7344f72aa23369Jordan Rose << LM.toString() << 0, 24208be066e6733364cd34f25c4f7b7344f72aa23369Jordan Rose getLocationOfByte(LM.getStart()), 24218be066e6733364cd34f25c4f7b7344f72aa23369Jordan Rose /*IsStringLocation*/true, 24228be066e6733364cd34f25c4f7b7344f72aa23369Jordan Rose getSpecifierRange(startSpecifier, specifierLen)); 24238be066e6733364cd34f25c4f7b7344f72aa23369Jordan Rose } 242476517426dc8bf7734c07eefc35171a6bfdba1a2bHans Wennborg} 242576517426dc8bf7734c07eefc35171a6bfdba1a2bHans Wennborg 242676517426dc8bf7734c07eefc35171a6bfdba1a2bHans Wennborgvoid CheckFormatHandler::HandleNonStandardConversionSpecifier( 242776517426dc8bf7734c07eefc35171a6bfdba1a2bHans Wennborg const analyze_format_string::ConversionSpecifier &CS, 242876517426dc8bf7734c07eefc35171a6bfdba1a2bHans Wennborg const char *startSpecifier, unsigned specifierLen) { 2429670941c28c0683ecc251dafdf093a71629625dc9Jordan Rose using namespace analyze_format_string; 2430670941c28c0683ecc251dafdf093a71629625dc9Jordan Rose 2431670941c28c0683ecc251dafdf093a71629625dc9Jordan Rose // See if we know how to fix this conversion specifier. 2432dc84cd5efdd3430efb22546b4ac656aa0540b210David Blaikie Optional<ConversionSpecifier> FixedCS = CS.getStandardSpecifier(); 2433670941c28c0683ecc251dafdf093a71629625dc9Jordan Rose if (FixedCS) { 2434670941c28c0683ecc251dafdf093a71629625dc9Jordan Rose EmitFormatDiagnostic(S.PDiag(diag::warn_format_non_standard) 2435670941c28c0683ecc251dafdf093a71629625dc9Jordan Rose << CS.toString() << /*conversion specifier*/1, 2436670941c28c0683ecc251dafdf093a71629625dc9Jordan Rose getLocationOfByte(CS.getStart()), 2437670941c28c0683ecc251dafdf093a71629625dc9Jordan Rose /*IsStringLocation*/true, 2438670941c28c0683ecc251dafdf093a71629625dc9Jordan Rose getSpecifierRange(startSpecifier, specifierLen)); 2439670941c28c0683ecc251dafdf093a71629625dc9Jordan Rose 2440670941c28c0683ecc251dafdf093a71629625dc9Jordan Rose CharSourceRange CSRange = getSpecifierRange(CS.getStart(), CS.getLength()); 2441670941c28c0683ecc251dafdf093a71629625dc9Jordan Rose S.Diag(getLocationOfByte(CS.getStart()), diag::note_format_fix_specifier) 2442670941c28c0683ecc251dafdf093a71629625dc9Jordan Rose << FixedCS->toString() 2443670941c28c0683ecc251dafdf093a71629625dc9Jordan Rose << FixItHint::CreateReplacement(CSRange, FixedCS->toString()); 2444670941c28c0683ecc251dafdf093a71629625dc9Jordan Rose } else { 2445670941c28c0683ecc251dafdf093a71629625dc9Jordan Rose EmitFormatDiagnostic(S.PDiag(diag::warn_format_non_standard) 2446670941c28c0683ecc251dafdf093a71629625dc9Jordan Rose << CS.toString() << /*conversion specifier*/1, 2447670941c28c0683ecc251dafdf093a71629625dc9Jordan Rose getLocationOfByte(CS.getStart()), 2448670941c28c0683ecc251dafdf093a71629625dc9Jordan Rose /*IsStringLocation*/true, 2449670941c28c0683ecc251dafdf093a71629625dc9Jordan Rose getSpecifierRange(startSpecifier, specifierLen)); 2450670941c28c0683ecc251dafdf093a71629625dc9Jordan Rose } 245176517426dc8bf7734c07eefc35171a6bfdba1a2bHans Wennborg} 245276517426dc8bf7734c07eefc35171a6bfdba1a2bHans Wennborg 2453f85626453123f9691bcef13cff963f556e209c27Hans Wennborgvoid CheckFormatHandler::HandlePosition(const char *startPos, 2454f85626453123f9691bcef13cff963f556e209c27Hans Wennborg unsigned posLen) { 2455f85626453123f9691bcef13cff963f556e209c27Hans Wennborg EmitFormatDiagnostic(S.PDiag(diag::warn_format_non_standard_positional_arg), 2456f85626453123f9691bcef13cff963f556e209c27Hans Wennborg getLocationOfByte(startPos), 2457f85626453123f9691bcef13cff963f556e209c27Hans Wennborg /*IsStringLocation*/true, 2458f85626453123f9691bcef13cff963f556e209c27Hans Wennborg getSpecifierRange(startPos, posLen)); 2459f85626453123f9691bcef13cff963f556e209c27Hans Wennborg} 2460f85626453123f9691bcef13cff963f556e209c27Hans Wennborg 2461efaff195ba1fa55b6fe0b0b2435b81451387d241Ted Kremenekvoid 2462826a3457f737f1fc45a22954fd1bfde38160c165Ted KremenekCheckFormatHandler::HandleInvalidPosition(const char *startPos, unsigned posLen, 2463826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek analyze_format_string::PositionContext p) { 246455733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu EmitFormatDiagnostic(S.PDiag(diag::warn_format_invalid_positional_specifier) 246555733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu << (unsigned) p, 246655733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu getLocationOfByte(startPos), /*IsStringLocation*/true, 246755733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu getSpecifierRange(startPos, posLen)); 2468efaff195ba1fa55b6fe0b0b2435b81451387d241Ted Kremenek} 2469efaff195ba1fa55b6fe0b0b2435b81451387d241Ted Kremenek 2470826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenekvoid CheckFormatHandler::HandleZeroPosition(const char *startPos, 2471efaff195ba1fa55b6fe0b0b2435b81451387d241Ted Kremenek unsigned posLen) { 247255733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu EmitFormatDiagnostic(S.PDiag(diag::warn_format_zero_positional_specifier), 247355733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu getLocationOfByte(startPos), 247455733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu /*IsStringLocation*/true, 247555733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu getSpecifierRange(startPos, posLen)); 2476efaff195ba1fa55b6fe0b0b2435b81451387d241Ted Kremenek} 2477efaff195ba1fa55b6fe0b0b2435b81451387d241Ted Kremenek 2478826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenekvoid CheckFormatHandler::HandleNullChar(const char *nullCharacter) { 247950687314f87b67073c202fe46d84d12fb55e25cfJordan Rose if (!isa<ObjCStringLiteral>(OrigFormatExpr)) { 24800c06944f5ef31cc6356e30da2971fa5439c4c8efTed Kremenek // The presence of a null character is likely an error. 248155733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu EmitFormatDiagnostic( 248255733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu S.PDiag(diag::warn_printf_format_string_contains_null_char), 248355733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu getLocationOfByte(nullCharacter), /*IsStringLocation*/true, 248455733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu getFormatStringRange()); 24850c06944f5ef31cc6356e30da2971fa5439c4c8efTed Kremenek } 2486826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek} 2487826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek 248848716663e421472cbd590af160a372bc490205e8Jordan Rose// Note that this may return NULL if there was an error parsing or building 248948716663e421472cbd590af160a372bc490205e8Jordan Rose// one of the argument expressions. 2490826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenekconst Expr *CheckFormatHandler::getDataArg(unsigned i) const { 249129c3f814b64808c6dac4597b61a50ceecdf141fcJean-Daniel Dupas return Args[FirstDataArg + i]; 2492826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek} 24934e4b30ec62d78b24e6556fea2624855c193d0e3eTed Kremenek 2494826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenekvoid CheckFormatHandler::DoneProcessing() { 2495826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek // Does the number of data arguments exceed the number of 2496826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek // format conversions in the format string? 2497826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek if (!HasVAListArg) { 2498826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek // Find any arguments that weren't covered. 2499826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek CoveredArgs.flip(); 2500826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek signed notCoveredArg = CoveredArgs.find_first(); 2501826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek if (notCoveredArg >= 0) { 2502826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek assert((unsigned)notCoveredArg < NumDataArgs); 250348716663e421472cbd590af160a372bc490205e8Jordan Rose if (const Expr *E = getDataArg((unsigned) notCoveredArg)) { 250448716663e421472cbd590af160a372bc490205e8Jordan Rose SourceLocation Loc = E->getLocStart(); 250548716663e421472cbd590af160a372bc490205e8Jordan Rose if (!S.getSourceManager().isInSystemMacro(Loc)) { 250648716663e421472cbd590af160a372bc490205e8Jordan Rose EmitFormatDiagnostic(S.PDiag(diag::warn_printf_data_arg_not_used), 250748716663e421472cbd590af160a372bc490205e8Jordan Rose Loc, /*IsStringLocation*/false, 250848716663e421472cbd590af160a372bc490205e8Jordan Rose getFormatStringRange()); 250948716663e421472cbd590af160a372bc490205e8Jordan Rose } 2510c03f2df2a2b097bf2686bf32411d5022323988b2Bob Wilson } 2511826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek } 2512826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek } 2513826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek} 2514826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek 2515c09b6a59e02ae265fce51b8c11e2a045bcdaa888Ted Kremenekbool 2516c09b6a59e02ae265fce51b8c11e2a045bcdaa888Ted KremenekCheckFormatHandler::HandleInvalidConversionSpecifier(unsigned argIndex, 2517c09b6a59e02ae265fce51b8c11e2a045bcdaa888Ted Kremenek SourceLocation Loc, 2518c09b6a59e02ae265fce51b8c11e2a045bcdaa888Ted Kremenek const char *startSpec, 2519c09b6a59e02ae265fce51b8c11e2a045bcdaa888Ted Kremenek unsigned specifierLen, 2520c09b6a59e02ae265fce51b8c11e2a045bcdaa888Ted Kremenek const char *csStart, 2521c09b6a59e02ae265fce51b8c11e2a045bcdaa888Ted Kremenek unsigned csLen) { 2522c09b6a59e02ae265fce51b8c11e2a045bcdaa888Ted Kremenek 2523c09b6a59e02ae265fce51b8c11e2a045bcdaa888Ted Kremenek bool keepGoing = true; 2524c09b6a59e02ae265fce51b8c11e2a045bcdaa888Ted Kremenek if (argIndex < NumDataArgs) { 2525c09b6a59e02ae265fce51b8c11e2a045bcdaa888Ted Kremenek // Consider the argument coverered, even though the specifier doesn't 2526c09b6a59e02ae265fce51b8c11e2a045bcdaa888Ted Kremenek // make sense. 2527c09b6a59e02ae265fce51b8c11e2a045bcdaa888Ted Kremenek CoveredArgs.set(argIndex); 2528c09b6a59e02ae265fce51b8c11e2a045bcdaa888Ted Kremenek } 2529c09b6a59e02ae265fce51b8c11e2a045bcdaa888Ted Kremenek else { 2530c09b6a59e02ae265fce51b8c11e2a045bcdaa888Ted Kremenek // If argIndex exceeds the number of data arguments we 2531c09b6a59e02ae265fce51b8c11e2a045bcdaa888Ted Kremenek // don't issue a warning because that is just a cascade of warnings (and 2532c09b6a59e02ae265fce51b8c11e2a045bcdaa888Ted Kremenek // they may have intended '%%' anyway). We don't want to continue processing 2533c09b6a59e02ae265fce51b8c11e2a045bcdaa888Ted Kremenek // the format string after this point, however, as we will like just get 2534c09b6a59e02ae265fce51b8c11e2a045bcdaa888Ted Kremenek // gibberish when trying to match arguments. 2535c09b6a59e02ae265fce51b8c11e2a045bcdaa888Ted Kremenek keepGoing = false; 2536c09b6a59e02ae265fce51b8c11e2a045bcdaa888Ted Kremenek } 2537c09b6a59e02ae265fce51b8c11e2a045bcdaa888Ted Kremenek 253855733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu EmitFormatDiagnostic(S.PDiag(diag::warn_format_invalid_conversion) 253955733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu << StringRef(csStart, csLen), 254055733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu Loc, /*IsStringLocation*/true, 254155733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu getSpecifierRange(startSpec, specifierLen)); 2542c09b6a59e02ae265fce51b8c11e2a045bcdaa888Ted Kremenek 2543c09b6a59e02ae265fce51b8c11e2a045bcdaa888Ted Kremenek return keepGoing; 2544c09b6a59e02ae265fce51b8c11e2a045bcdaa888Ted Kremenek} 2545c09b6a59e02ae265fce51b8c11e2a045bcdaa888Ted Kremenek 254655733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieuvoid 254755733de16f492dadbf5f4d2809d6c610ba6d86aeRichard TrieuCheckFormatHandler::HandlePositionalNonpositionalArgs(SourceLocation Loc, 254855733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu const char *startSpec, 254955733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu unsigned specifierLen) { 255055733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu EmitFormatDiagnostic( 255155733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu S.PDiag(diag::warn_format_mix_positional_nonpositional_args), 255255733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu Loc, /*isStringLoc*/true, getSpecifierRange(startSpec, specifierLen)); 255355733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu} 255455733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu 2555666a197deb75d95c78ddd39274af1a54240828d8Ted Kremenekbool 2556666a197deb75d95c78ddd39274af1a54240828d8Ted KremenekCheckFormatHandler::CheckNumArgs( 2557666a197deb75d95c78ddd39274af1a54240828d8Ted Kremenek const analyze_format_string::FormatSpecifier &FS, 2558666a197deb75d95c78ddd39274af1a54240828d8Ted Kremenek const analyze_format_string::ConversionSpecifier &CS, 2559666a197deb75d95c78ddd39274af1a54240828d8Ted Kremenek const char *startSpecifier, unsigned specifierLen, unsigned argIndex) { 2560666a197deb75d95c78ddd39274af1a54240828d8Ted Kremenek 2561666a197deb75d95c78ddd39274af1a54240828d8Ted Kremenek if (argIndex >= NumDataArgs) { 256255733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu PartialDiagnostic PDiag = FS.usesPositionalArg() 256355733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu ? (S.PDiag(diag::warn_printf_positional_arg_exceeds_data_args) 256455733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu << (argIndex+1) << NumDataArgs) 256555733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu : S.PDiag(diag::warn_printf_insufficient_data_args); 256655733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu EmitFormatDiagnostic( 256755733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu PDiag, getLocationOfByte(CS.getStart()), /*IsStringLocation*/true, 256855733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu getSpecifierRange(startSpecifier, specifierLen)); 2569666a197deb75d95c78ddd39274af1a54240828d8Ted Kremenek return false; 2570666a197deb75d95c78ddd39274af1a54240828d8Ted Kremenek } 2571666a197deb75d95c78ddd39274af1a54240828d8Ted Kremenek return true; 2572666a197deb75d95c78ddd39274af1a54240828d8Ted Kremenek} 2573666a197deb75d95c78ddd39274af1a54240828d8Ted Kremenek 257455733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieutemplate<typename Range> 257555733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieuvoid CheckFormatHandler::EmitFormatDiagnostic(PartialDiagnostic PDiag, 257655733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu SourceLocation Loc, 257755733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu bool IsStringLocation, 257855733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu Range StringRange, 2579ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rose ArrayRef<FixItHint> FixIt) { 258029c3f814b64808c6dac4597b61a50ceecdf141fcJean-Daniel Dupas EmitFormatDiagnostic(S, inFunctionCall, Args[FormatIdx], PDiag, 258155733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu Loc, IsStringLocation, StringRange, FixIt); 258255733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu} 258355733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu 258455733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu/// \brief If the format string is not within the funcion call, emit a note 258555733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu/// so that the function call and string are in diagnostic messages. 258655733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu/// 258770517ca5c07c4b41ff8662b94ee22047b0299f8cDmitri Gribenko/// \param InFunctionCall if true, the format string is within the function 258855733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu/// call and only one diagnostic message will be produced. Otherwise, an 258955733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu/// extra note will be emitted pointing to location of the format string. 259055733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu/// 259155733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu/// \param ArgumentExpr the expression that is passed as the format string 259255733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu/// argument in the function call. Used for getting locations when two 259355733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu/// diagnostics are emitted. 259455733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu/// 259555733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu/// \param PDiag the callee should already have provided any strings for the 259655733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu/// diagnostic message. This function only adds locations and fixits 259755733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu/// to diagnostics. 259855733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu/// 259955733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu/// \param Loc primary location for diagnostic. If two diagnostics are 260055733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu/// required, one will be at Loc and a new SourceLocation will be created for 260155733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu/// the other one. 260255733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu/// 260355733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu/// \param IsStringLocation if true, Loc points to the format string should be 260455733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu/// used for the note. Otherwise, Loc points to the argument list and will 260555733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu/// be used with PDiag. 260655733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu/// 260755733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu/// \param StringRange some or all of the string to highlight. This is 260855733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu/// templated so it can accept either a CharSourceRange or a SourceRange. 260955733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu/// 261070517ca5c07c4b41ff8662b94ee22047b0299f8cDmitri Gribenko/// \param FixIt optional fix it hint for the format string. 261155733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieutemplate<typename Range> 261255733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieuvoid CheckFormatHandler::EmitFormatDiagnostic(Sema &S, bool InFunctionCall, 261355733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu const Expr *ArgumentExpr, 261455733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu PartialDiagnostic PDiag, 261555733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu SourceLocation Loc, 261655733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu bool IsStringLocation, 261755733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu Range StringRange, 2618ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rose ArrayRef<FixItHint> FixIt) { 2619ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rose if (InFunctionCall) { 2620ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rose const Sema::SemaDiagnosticBuilder &D = S.Diag(Loc, PDiag); 2621ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rose D << StringRange; 2622ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rose for (ArrayRef<FixItHint>::iterator I = FixIt.begin(), E = FixIt.end(); 2623ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rose I != E; ++I) { 2624ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rose D << *I; 2625ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rose } 2626ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rose } else { 262755733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu S.Diag(IsStringLocation ? ArgumentExpr->getExprLoc() : Loc, PDiag) 262855733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu << ArgumentExpr->getSourceRange(); 2629ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rose 2630ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rose const Sema::SemaDiagnosticBuilder &Note = 2631ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rose S.Diag(IsStringLocation ? Loc : StringRange.getBegin(), 2632ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rose diag::note_format_string_defined); 2633ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rose 2634ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rose Note << StringRange; 2635ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rose for (ArrayRef<FixItHint>::iterator I = FixIt.begin(), E = FixIt.end(); 2636ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rose I != E; ++I) { 2637ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rose Note << *I; 2638ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rose } 263955733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu } 264055733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu} 264155733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu 2642826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek//===--- CHECK: Printf format string checking ------------------------------===// 2643826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek 2644826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremeneknamespace { 2645826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenekclass CheckPrintfHandler : public CheckFormatHandler { 264650687314f87b67073c202fe46d84d12fb55e25cfJordan Rose bool ObjCContext; 2647826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenekpublic: 2648826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek CheckPrintfHandler(Sema &s, const StringLiteral *fexpr, 2649826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek const Expr *origFormatExpr, unsigned firstDataArg, 265050687314f87b67073c202fe46d84d12fb55e25cfJordan Rose unsigned numDataArgs, bool isObjC, 2651826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek const char *beg, bool hasVAListArg, 26521c030e9a3f290a1eea5de82fe1e63dfde2bd8f1eDmitri Gribenko ArrayRef<const Expr *> Args, 2653ddcfbc9ad1817f545610999d655ac6c28d4c0c12Jordan Rose unsigned formatIdx, bool inFunctionCall, 26540e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith Sema::VariadicCallType CallType, 26550e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith llvm::SmallBitVector &CheckedVarArgs) 26560e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith : CheckFormatHandler(s, fexpr, origFormatExpr, firstDataArg, 26570e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith numDataArgs, beg, hasVAListArg, Args, 26580e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith formatIdx, inFunctionCall, CallType, CheckedVarArgs), 26590e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith ObjCContext(isObjC) 2660ddcfbc9ad1817f545610999d655ac6c28d4c0c12Jordan Rose {} 2661ddcfbc9ad1817f545610999d655ac6c28d4c0c12Jordan Rose 2662826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek 2663826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek bool HandleInvalidPrintfConversionSpecifier( 2664826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek const analyze_printf::PrintfSpecifier &FS, 2665826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek const char *startSpecifier, 2666826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek unsigned specifierLen); 2667826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek 2668826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek bool HandlePrintfSpecifier(const analyze_printf::PrintfSpecifier &FS, 2669826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek const char *startSpecifier, 2670826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek unsigned specifierLen); 2671831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith bool checkFormatExpr(const analyze_printf::PrintfSpecifier &FS, 2672831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith const char *StartSpecifier, 2673831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith unsigned SpecifierLen, 2674831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith const Expr *E); 2675831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith 2676826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek bool HandleAmount(const analyze_format_string::OptionalAmount &Amt, unsigned k, 2677826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek const char *startSpecifier, unsigned specifierLen); 2678826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek void HandleInvalidAmount(const analyze_printf::PrintfSpecifier &FS, 2679826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek const analyze_printf::OptionalAmount &Amt, 2680826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek unsigned type, 2681826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek const char *startSpecifier, unsigned specifierLen); 2682826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek void HandleFlag(const analyze_printf::PrintfSpecifier &FS, 2683826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek const analyze_printf::OptionalFlag &flag, 2684826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek const char *startSpecifier, unsigned specifierLen); 2685826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek void HandleIgnoredFlag(const analyze_printf::PrintfSpecifier &FS, 2686826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek const analyze_printf::OptionalFlag &ignoredFlag, 2687826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek const analyze_printf::OptionalFlag &flag, 2688826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek const char *startSpecifier, unsigned specifierLen); 2689f3749f4168c5cee59627a681ca4ca6e4116d0761Hans Wennborg bool checkForCStrMembers(const analyze_printf::ArgType &AT, 2690831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith const Expr *E, const CharSourceRange &CSR); 2691831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith 2692826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek}; 2693826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek} 2694826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek 2695826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenekbool CheckPrintfHandler::HandleInvalidPrintfConversionSpecifier( 2696826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek const analyze_printf::PrintfSpecifier &FS, 2697826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek const char *startSpecifier, 2698826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek unsigned specifierLen) { 26996ecb950c65329f8d6ce9ad0514632df35a5ab61fTed Kremenek const analyze_printf::PrintfConversionSpecifier &CS = 2700c09b6a59e02ae265fce51b8c11e2a045bcdaa888Ted Kremenek FS.getConversionSpecifier(); 2701826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek 2702c09b6a59e02ae265fce51b8c11e2a045bcdaa888Ted Kremenek return HandleInvalidConversionSpecifier(FS.getArgIndex(), 2703c09b6a59e02ae265fce51b8c11e2a045bcdaa888Ted Kremenek getLocationOfByte(CS.getStart()), 2704c09b6a59e02ae265fce51b8c11e2a045bcdaa888Ted Kremenek startSpecifier, specifierLen, 2705c09b6a59e02ae265fce51b8c11e2a045bcdaa888Ted Kremenek CS.getStart(), CS.getLength()); 270626ac2e07b46bfb4d4f00752c96481c0a98c79c69Ted Kremenek} 270726ac2e07b46bfb4d4f00752c96481c0a98c79c69Ted Kremenek 2708826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenekbool CheckPrintfHandler::HandleAmount( 2709826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek const analyze_format_string::OptionalAmount &Amt, 2710826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek unsigned k, const char *startSpecifier, 2711826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek unsigned specifierLen) { 27120d27735c51f5bd392e673cf39a675e14e9442387Ted Kremenek 27130d27735c51f5bd392e673cf39a675e14e9442387Ted Kremenek if (Amt.hasDataArgument()) { 27140d27735c51f5bd392e673cf39a675e14e9442387Ted Kremenek if (!HasVAListArg) { 27157f70dc85d5055c19c8003f43a59135de211ad1b9Ted Kremenek unsigned argIndex = Amt.getArgIndex(); 27167f70dc85d5055c19c8003f43a59135de211ad1b9Ted Kremenek if (argIndex >= NumDataArgs) { 271755733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu EmitFormatDiagnostic(S.PDiag(diag::warn_printf_asterisk_missing_arg) 271855733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu << k, 271955733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu getLocationOfByte(Amt.getStart()), 272055733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu /*IsStringLocation*/true, 272155733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu getSpecifierRange(startSpecifier, specifierLen)); 27220d27735c51f5bd392e673cf39a675e14e9442387Ted Kremenek // Don't do any more checking. We will just emit 27230d27735c51f5bd392e673cf39a675e14e9442387Ted Kremenek // spurious errors. 27240d27735c51f5bd392e673cf39a675e14e9442387Ted Kremenek return false; 27250d27735c51f5bd392e673cf39a675e14e9442387Ted Kremenek } 27264e4b30ec62d78b24e6556fea2624855c193d0e3eTed Kremenek 27270d27735c51f5bd392e673cf39a675e14e9442387Ted Kremenek // Type check the data argument. It should be an 'int'. 272831f8e32788adb299acad455363eb7fd244642c82Ted Kremenek // Although not in conformance with C99, we also allow the argument to be 272931f8e32788adb299acad455363eb7fd244642c82Ted Kremenek // an 'unsigned int' as that is a reasonably safe case. GCC also 273031f8e32788adb299acad455363eb7fd244642c82Ted Kremenek // doesn't emit a warning for that case. 27317f70dc85d5055c19c8003f43a59135de211ad1b9Ted Kremenek CoveredArgs.set(argIndex); 27327f70dc85d5055c19c8003f43a59135de211ad1b9Ted Kremenek const Expr *Arg = getDataArg(argIndex); 273348716663e421472cbd590af160a372bc490205e8Jordan Rose if (!Arg) 273448716663e421472cbd590af160a372bc490205e8Jordan Rose return false; 273548716663e421472cbd590af160a372bc490205e8Jordan Rose 27360d27735c51f5bd392e673cf39a675e14e9442387Ted Kremenek QualType T = Arg->getType(); 27374e4b30ec62d78b24e6556fea2624855c193d0e3eTed Kremenek 2738f3749f4168c5cee59627a681ca4ca6e4116d0761Hans Wennborg const analyze_printf::ArgType &AT = Amt.getArgType(S.Context); 2739f3749f4168c5cee59627a681ca4ca6e4116d0761Hans Wennborg assert(AT.isValid()); 27404e4b30ec62d78b24e6556fea2624855c193d0e3eTed Kremenek 2741f3749f4168c5cee59627a681ca4ca6e4116d0761Hans Wennborg if (!AT.matchesType(S.Context, T)) { 274255733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu EmitFormatDiagnostic(S.PDiag(diag::warn_printf_asterisk_wrong_type) 2743f3749f4168c5cee59627a681ca4ca6e4116d0761Hans Wennborg << k << AT.getRepresentativeTypeName(S.Context) 274455733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu << T << Arg->getSourceRange(), 274555733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu getLocationOfByte(Amt.getStart()), 274655733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu /*IsStringLocation*/true, 274755733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu getSpecifierRange(startSpecifier, specifierLen)); 27480d27735c51f5bd392e673cf39a675e14e9442387Ted Kremenek // Don't do any more checking. We will just emit 27490d27735c51f5bd392e673cf39a675e14e9442387Ted Kremenek // spurious errors. 27500d27735c51f5bd392e673cf39a675e14e9442387Ted Kremenek return false; 27510d27735c51f5bd392e673cf39a675e14e9442387Ted Kremenek } 27520d27735c51f5bd392e673cf39a675e14e9442387Ted Kremenek } 27530d27735c51f5bd392e673cf39a675e14e9442387Ted Kremenek } 27540d27735c51f5bd392e673cf39a675e14e9442387Ted Kremenek return true; 27550d27735c51f5bd392e673cf39a675e14e9442387Ted Kremenek} 27560d27735c51f5bd392e673cf39a675e14e9442387Ted Kremenek 2757e4ee9663168dfb2b4122c768091e30217328c9faTom Carevoid CheckPrintfHandler::HandleInvalidAmount( 2758826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek const analyze_printf::PrintfSpecifier &FS, 2759e4ee9663168dfb2b4122c768091e30217328c9faTom Care const analyze_printf::OptionalAmount &Amt, 2760e4ee9663168dfb2b4122c768091e30217328c9faTom Care unsigned type, 2761e4ee9663168dfb2b4122c768091e30217328c9faTom Care const char *startSpecifier, 2762e4ee9663168dfb2b4122c768091e30217328c9faTom Care unsigned specifierLen) { 27636ecb950c65329f8d6ce9ad0514632df35a5ab61fTed Kremenek const analyze_printf::PrintfConversionSpecifier &CS = 27646ecb950c65329f8d6ce9ad0514632df35a5ab61fTed Kremenek FS.getConversionSpecifier(); 2765e4ee9663168dfb2b4122c768091e30217328c9faTom Care 276655733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu FixItHint fixit = 276755733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu Amt.getHowSpecified() == analyze_printf::OptionalAmount::Constant 276855733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu ? FixItHint::CreateRemoval(getSpecifierRange(Amt.getStart(), 276955733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu Amt.getConstantLength())) 277055733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu : FixItHint(); 277155733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu 277255733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu EmitFormatDiagnostic(S.PDiag(diag::warn_printf_nonsensical_optional_amount) 277355733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu << type << CS.toString(), 277455733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu getLocationOfByte(Amt.getStart()), 277555733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu /*IsStringLocation*/true, 277655733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu getSpecifierRange(startSpecifier, specifierLen), 277755733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu fixit); 2778e4ee9663168dfb2b4122c768091e30217328c9faTom Care} 2779e4ee9663168dfb2b4122c768091e30217328c9faTom Care 2780826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenekvoid CheckPrintfHandler::HandleFlag(const analyze_printf::PrintfSpecifier &FS, 2781e4ee9663168dfb2b4122c768091e30217328c9faTom Care const analyze_printf::OptionalFlag &flag, 2782e4ee9663168dfb2b4122c768091e30217328c9faTom Care const char *startSpecifier, 2783e4ee9663168dfb2b4122c768091e30217328c9faTom Care unsigned specifierLen) { 2784e4ee9663168dfb2b4122c768091e30217328c9faTom Care // Warn about pointless flag with a fixit removal. 27856ecb950c65329f8d6ce9ad0514632df35a5ab61fTed Kremenek const analyze_printf::PrintfConversionSpecifier &CS = 27866ecb950c65329f8d6ce9ad0514632df35a5ab61fTed Kremenek FS.getConversionSpecifier(); 278755733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu EmitFormatDiagnostic(S.PDiag(diag::warn_printf_nonsensical_flag) 278855733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu << flag.toString() << CS.toString(), 278955733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu getLocationOfByte(flag.getPosition()), 279055733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu /*IsStringLocation*/true, 279155733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu getSpecifierRange(startSpecifier, specifierLen), 279255733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu FixItHint::CreateRemoval( 279355733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu getSpecifierRange(flag.getPosition(), 1))); 2794e4ee9663168dfb2b4122c768091e30217328c9faTom Care} 2795e4ee9663168dfb2b4122c768091e30217328c9faTom Care 2796e4ee9663168dfb2b4122c768091e30217328c9faTom Carevoid CheckPrintfHandler::HandleIgnoredFlag( 2797826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek const analyze_printf::PrintfSpecifier &FS, 2798e4ee9663168dfb2b4122c768091e30217328c9faTom Care const analyze_printf::OptionalFlag &ignoredFlag, 2799e4ee9663168dfb2b4122c768091e30217328c9faTom Care const analyze_printf::OptionalFlag &flag, 2800e4ee9663168dfb2b4122c768091e30217328c9faTom Care const char *startSpecifier, 2801e4ee9663168dfb2b4122c768091e30217328c9faTom Care unsigned specifierLen) { 2802e4ee9663168dfb2b4122c768091e30217328c9faTom Care // Warn about ignored flag with a fixit removal. 280355733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu EmitFormatDiagnostic(S.PDiag(diag::warn_printf_ignored_flag) 280455733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu << ignoredFlag.toString() << flag.toString(), 280555733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu getLocationOfByte(ignoredFlag.getPosition()), 280655733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu /*IsStringLocation*/true, 280755733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu getSpecifierRange(startSpecifier, specifierLen), 280855733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu FixItHint::CreateRemoval( 280955733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu getSpecifierRange(ignoredFlag.getPosition(), 1))); 2810e4ee9663168dfb2b4122c768091e30217328c9faTom Care} 2811e4ee9663168dfb2b4122c768091e30217328c9faTom Care 2812831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith// Determines if the specified is a C++ class or struct containing 2813831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith// a member with the specified name and kind (e.g. a CXXMethodDecl named 2814831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith// "c_str()"). 2815831421f24057b93ea28bc92d8bd6290631a43cafRichard Smithtemplate<typename MemberKind> 2816831421f24057b93ea28bc92d8bd6290631a43cafRichard Smithstatic llvm::SmallPtrSet<MemberKind*, 1> 2817831421f24057b93ea28bc92d8bd6290631a43cafRichard SmithCXXRecordMembersNamed(StringRef Name, Sema &S, QualType Ty) { 2818831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith const RecordType *RT = Ty->getAs<RecordType>(); 2819831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith llvm::SmallPtrSet<MemberKind*, 1> Results; 2820831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith 2821831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith if (!RT) 2822831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith return Results; 2823831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith const CXXRecordDecl *RD = dyn_cast<CXXRecordDecl>(RT->getDecl()); 2824831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith if (!RD) 2825831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith return Results; 2826831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith 2827831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith LookupResult R(S, &S.PP.getIdentifierTable().get(Name), SourceLocation(), 2828831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith Sema::LookupMemberName); 2829831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith 2830831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith // We just need to include all members of the right kind turned up by the 2831831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith // filter, at this point. 2832831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith if (S.LookupQualifiedName(R, RT->getDecl())) 2833831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith for (LookupResult::iterator I = R.begin(), E = R.end(); I != E; ++I) { 2834831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith NamedDecl *decl = (*I)->getUnderlyingDecl(); 2835831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith if (MemberKind *FK = dyn_cast<MemberKind>(decl)) 2836831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith Results.insert(FK); 2837831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith } 2838831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith return Results; 2839831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith} 2840831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith 2841831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith// Check if a (w)string was passed when a (w)char* was needed, and offer a 2842f3749f4168c5cee59627a681ca4ca6e4116d0761Hans Wennborg// better diagnostic if so. AT is assumed to be valid. 2843831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith// Returns true when a c_str() conversion method is found. 2844831421f24057b93ea28bc92d8bd6290631a43cafRichard Smithbool CheckPrintfHandler::checkForCStrMembers( 2845f3749f4168c5cee59627a681ca4ca6e4116d0761Hans Wennborg const analyze_printf::ArgType &AT, const Expr *E, 2846831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith const CharSourceRange &CSR) { 2847831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith typedef llvm::SmallPtrSet<CXXMethodDecl*, 1> MethodSet; 2848831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith 2849831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith MethodSet Results = 2850831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith CXXRecordMembersNamed<CXXMethodDecl>("c_str", S, E->getType()); 2851831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith 2852831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith for (MethodSet::iterator MI = Results.begin(), ME = Results.end(); 2853831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith MI != ME; ++MI) { 2854831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith const CXXMethodDecl *Method = *MI; 2855831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith if (Method->getNumParams() == 0 && 2856f3749f4168c5cee59627a681ca4ca6e4116d0761Hans Wennborg AT.matchesType(S.Context, Method->getResultType())) { 2857831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith // FIXME: Suggest parens if the expression needs them. 2858831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith SourceLocation EndLoc = 2859831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith S.getPreprocessor().getLocForEndOfToken(E->getLocEnd()); 2860831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith S.Diag(E->getLocStart(), diag::note_printf_c_str) 2861831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith << "c_str()" 2862831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith << FixItHint::CreateInsertion(EndLoc, ".c_str()"); 2863831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith return true; 2864831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith } 2865831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith } 2866831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith 2867831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith return false; 2868831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith} 2869831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith 2870e0e5313c25f3870d0d18fc67e1b3a3a0e1ef8e07Ted Kremenekbool 2871826a3457f737f1fc45a22954fd1bfde38160c165Ted KremenekCheckPrintfHandler::HandlePrintfSpecifier(const analyze_printf::PrintfSpecifier 28725c41ee8c49995fb4fd76d686b239c15cbab261eaTed Kremenek &FS, 2873e0e5313c25f3870d0d18fc67e1b3a3a0e1ef8e07Ted Kremenek const char *startSpecifier, 2874e0e5313c25f3870d0d18fc67e1b3a3a0e1ef8e07Ted Kremenek unsigned specifierLen) { 2875e0e5313c25f3870d0d18fc67e1b3a3a0e1ef8e07Ted Kremenek 28766ecb950c65329f8d6ce9ad0514632df35a5ab61fTed Kremenek using namespace analyze_format_string; 2877efaff195ba1fa55b6fe0b0b2435b81451387d241Ted Kremenek using namespace analyze_printf; 28786ecb950c65329f8d6ce9ad0514632df35a5ab61fTed Kremenek const PrintfConversionSpecifier &CS = FS.getConversionSpecifier(); 2879e0e5313c25f3870d0d18fc67e1b3a3a0e1ef8e07Ted Kremenek 2880baa400654bd6f8396f9a07188445ae7955b060a3Ted Kremenek if (FS.consumesDataArgument()) { 2881baa400654bd6f8396f9a07188445ae7955b060a3Ted Kremenek if (atFirstArg) { 2882baa400654bd6f8396f9a07188445ae7955b060a3Ted Kremenek atFirstArg = false; 2883baa400654bd6f8396f9a07188445ae7955b060a3Ted Kremenek usesPositionalArgs = FS.usesPositionalArg(); 2884baa400654bd6f8396f9a07188445ae7955b060a3Ted Kremenek } 2885baa400654bd6f8396f9a07188445ae7955b060a3Ted Kremenek else if (usesPositionalArgs != FS.usesPositionalArg()) { 288655733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu HandlePositionalNonpositionalArgs(getLocationOfByte(CS.getStart()), 288755733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu startSpecifier, specifierLen); 2888baa400654bd6f8396f9a07188445ae7955b060a3Ted Kremenek return false; 2889baa400654bd6f8396f9a07188445ae7955b060a3Ted Kremenek } 2890efaff195ba1fa55b6fe0b0b2435b81451387d241Ted Kremenek } 2891efaff195ba1fa55b6fe0b0b2435b81451387d241Ted Kremenek 28920d27735c51f5bd392e673cf39a675e14e9442387Ted Kremenek // First check if the field width, precision, and conversion specifier 28930d27735c51f5bd392e673cf39a675e14e9442387Ted Kremenek // have matching data arguments. 2894efaff195ba1fa55b6fe0b0b2435b81451387d241Ted Kremenek if (!HandleAmount(FS.getFieldWidth(), /* field width */ 0, 2895efaff195ba1fa55b6fe0b0b2435b81451387d241Ted Kremenek startSpecifier, specifierLen)) { 28960d27735c51f5bd392e673cf39a675e14e9442387Ted Kremenek return false; 28970d27735c51f5bd392e673cf39a675e14e9442387Ted Kremenek } 28984e4b30ec62d78b24e6556fea2624855c193d0e3eTed Kremenek 2899efaff195ba1fa55b6fe0b0b2435b81451387d241Ted Kremenek if (!HandleAmount(FS.getPrecision(), /* precision */ 1, 2900efaff195ba1fa55b6fe0b0b2435b81451387d241Ted Kremenek startSpecifier, specifierLen)) { 29010d27735c51f5bd392e673cf39a675e14e9442387Ted Kremenek return false; 29020d27735c51f5bd392e673cf39a675e14e9442387Ted Kremenek } 29030d27735c51f5bd392e673cf39a675e14e9442387Ted Kremenek 2904f88c8e02da48afea6a04091f675af5c4facd99f1Ted Kremenek if (!CS.consumesDataArgument()) { 2905f88c8e02da48afea6a04091f675af5c4facd99f1Ted Kremenek // FIXME: Technically specifying a precision or field width here 2906f88c8e02da48afea6a04091f675af5c4facd99f1Ted Kremenek // makes no sense. Worth issuing a warning at some point. 29070e5675de2b67eeca754754ae8d3dacba425a38e8Ted Kremenek return true; 2908f88c8e02da48afea6a04091f675af5c4facd99f1Ted Kremenek } 29094e4b30ec62d78b24e6556fea2624855c193d0e3eTed Kremenek 29107f70dc85d5055c19c8003f43a59135de211ad1b9Ted Kremenek // Consume the argument. 29117f70dc85d5055c19c8003f43a59135de211ad1b9Ted Kremenek unsigned argIndex = FS.getArgIndex(); 2912e3fc54790250076e33ad25b14e5be293514fe5eaTed Kremenek if (argIndex < NumDataArgs) { 2913e3fc54790250076e33ad25b14e5be293514fe5eaTed Kremenek // The check to see if the argIndex is valid will come later. 2914e3fc54790250076e33ad25b14e5be293514fe5eaTed Kremenek // We set the bit here because we may exit early from this 2915e3fc54790250076e33ad25b14e5be293514fe5eaTed Kremenek // function if we encounter some other error. 2916e3fc54790250076e33ad25b14e5be293514fe5eaTed Kremenek CoveredArgs.set(argIndex); 2917e3fc54790250076e33ad25b14e5be293514fe5eaTed Kremenek } 29187f70dc85d5055c19c8003f43a59135de211ad1b9Ted Kremenek 29197f70dc85d5055c19c8003f43a59135de211ad1b9Ted Kremenek // Check for using an Objective-C specific conversion specifier 29207f70dc85d5055c19c8003f43a59135de211ad1b9Ted Kremenek // in a non-ObjC literal. 292150687314f87b67073c202fe46d84d12fb55e25cfJordan Rose if (!ObjCContext && CS.isObjCArg()) { 2922826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek return HandleInvalidPrintfConversionSpecifier(FS, startSpecifier, 2923826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek specifierLen); 29247f70dc85d5055c19c8003f43a59135de211ad1b9Ted Kremenek } 29254e4b30ec62d78b24e6556fea2624855c193d0e3eTed Kremenek 2926e4ee9663168dfb2b4122c768091e30217328c9faTom Care // Check for invalid use of field width 2927e4ee9663168dfb2b4122c768091e30217328c9faTom Care if (!FS.hasValidFieldWidth()) { 292845f9b7e8f23072d662ee1cc758f4ecb0da5e3322Tom Care HandleInvalidAmount(FS, FS.getFieldWidth(), /* field width */ 0, 2929e4ee9663168dfb2b4122c768091e30217328c9faTom Care startSpecifier, specifierLen); 2930e4ee9663168dfb2b4122c768091e30217328c9faTom Care } 2931e4ee9663168dfb2b4122c768091e30217328c9faTom Care 2932e4ee9663168dfb2b4122c768091e30217328c9faTom Care // Check for invalid use of precision 2933e4ee9663168dfb2b4122c768091e30217328c9faTom Care if (!FS.hasValidPrecision()) { 2934e4ee9663168dfb2b4122c768091e30217328c9faTom Care HandleInvalidAmount(FS, FS.getPrecision(), /* precision */ 1, 2935e4ee9663168dfb2b4122c768091e30217328c9faTom Care startSpecifier, specifierLen); 2936e4ee9663168dfb2b4122c768091e30217328c9faTom Care } 2937e4ee9663168dfb2b4122c768091e30217328c9faTom Care 2938e4ee9663168dfb2b4122c768091e30217328c9faTom Care // Check each flag does not conflict with any other component. 293965197b4b0c55bb74af0450230d61ee9461223721Ted Kremenek if (!FS.hasValidThousandsGroupingPrefix()) 294065197b4b0c55bb74af0450230d61ee9461223721Ted Kremenek HandleFlag(FS, FS.hasThousandsGrouping(), startSpecifier, specifierLen); 2941e4ee9663168dfb2b4122c768091e30217328c9faTom Care if (!FS.hasValidLeadingZeros()) 2942e4ee9663168dfb2b4122c768091e30217328c9faTom Care HandleFlag(FS, FS.hasLeadingZeros(), startSpecifier, specifierLen); 2943e4ee9663168dfb2b4122c768091e30217328c9faTom Care if (!FS.hasValidPlusPrefix()) 2944e4ee9663168dfb2b4122c768091e30217328c9faTom Care HandleFlag(FS, FS.hasPlusPrefix(), startSpecifier, specifierLen); 294545f9b7e8f23072d662ee1cc758f4ecb0da5e3322Tom Care if (!FS.hasValidSpacePrefix()) 294645f9b7e8f23072d662ee1cc758f4ecb0da5e3322Tom Care HandleFlag(FS, FS.hasSpacePrefix(), startSpecifier, specifierLen); 2947e4ee9663168dfb2b4122c768091e30217328c9faTom Care if (!FS.hasValidAlternativeForm()) 2948e4ee9663168dfb2b4122c768091e30217328c9faTom Care HandleFlag(FS, FS.hasAlternativeForm(), startSpecifier, specifierLen); 2949e4ee9663168dfb2b4122c768091e30217328c9faTom Care if (!FS.hasValidLeftJustified()) 2950e4ee9663168dfb2b4122c768091e30217328c9faTom Care HandleFlag(FS, FS.isLeftJustified(), startSpecifier, specifierLen); 2951e4ee9663168dfb2b4122c768091e30217328c9faTom Care 2952e4ee9663168dfb2b4122c768091e30217328c9faTom Care // Check that flags are not ignored by another flag 295345f9b7e8f23072d662ee1cc758f4ecb0da5e3322Tom Care if (FS.hasSpacePrefix() && FS.hasPlusPrefix()) // ' ' ignored by '+' 295445f9b7e8f23072d662ee1cc758f4ecb0da5e3322Tom Care HandleIgnoredFlag(FS, FS.hasSpacePrefix(), FS.hasPlusPrefix(), 295545f9b7e8f23072d662ee1cc758f4ecb0da5e3322Tom Care startSpecifier, specifierLen); 2956e4ee9663168dfb2b4122c768091e30217328c9faTom Care if (FS.hasLeadingZeros() && FS.isLeftJustified()) // '0' ignored by '-' 2957e4ee9663168dfb2b4122c768091e30217328c9faTom Care HandleIgnoredFlag(FS, FS.hasLeadingZeros(), FS.isLeftJustified(), 2958e4ee9663168dfb2b4122c768091e30217328c9faTom Care startSpecifier, specifierLen); 2959e4ee9663168dfb2b4122c768091e30217328c9faTom Care 2960e4ee9663168dfb2b4122c768091e30217328c9faTom Care // Check the length modifier is valid with the given conversion specifier. 2961bbb6bb4952b77e57b842b4d3096848123ae690e7Jordan Rose if (!FS.hasValidLengthModifier(S.getASTContext().getTargetInfo())) 29628be066e6733364cd34f25c4f7b7344f72aa23369Jordan Rose HandleInvalidLengthModifier(FS, CS, startSpecifier, specifierLen, 29638be066e6733364cd34f25c4f7b7344f72aa23369Jordan Rose diag::warn_format_nonsensical_length); 2964bbb6bb4952b77e57b842b4d3096848123ae690e7Jordan Rose else if (!FS.hasStandardLengthModifier()) 29658be066e6733364cd34f25c4f7b7344f72aa23369Jordan Rose HandleNonStandardLengthModifier(FS, startSpecifier, specifierLen); 2966bbb6bb4952b77e57b842b4d3096848123ae690e7Jordan Rose else if (!FS.hasStandardLengthConversionCombination()) 29678be066e6733364cd34f25c4f7b7344f72aa23369Jordan Rose HandleInvalidLengthModifier(FS, CS, startSpecifier, specifierLen, 29688be066e6733364cd34f25c4f7b7344f72aa23369Jordan Rose diag::warn_format_non_standard_conversion_spec); 2969e4ee9663168dfb2b4122c768091e30217328c9faTom Care 2970bbb6bb4952b77e57b842b4d3096848123ae690e7Jordan Rose if (!FS.hasStandardConversionSpecifier(S.getLangOpts())) 2971bbb6bb4952b77e57b842b4d3096848123ae690e7Jordan Rose HandleNonStandardConversionSpecifier(CS, startSpecifier, specifierLen); 2972bbb6bb4952b77e57b842b4d3096848123ae690e7Jordan Rose 2973da51f0d136df131a0137c0ec1069fb586d8a296aTed Kremenek // The remaining checks depend on the data arguments. 2974da51f0d136df131a0137c0ec1069fb586d8a296aTed Kremenek if (HasVAListArg) 2975da51f0d136df131a0137c0ec1069fb586d8a296aTed Kremenek return true; 29764e4b30ec62d78b24e6556fea2624855c193d0e3eTed Kremenek 2977666a197deb75d95c78ddd39274af1a54240828d8Ted Kremenek if (!CheckNumArgs(FS, CS, startSpecifier, specifierLen, argIndex)) 2978da51f0d136df131a0137c0ec1069fb586d8a296aTed Kremenek return false; 29794e4b30ec62d78b24e6556fea2624855c193d0e3eTed Kremenek 298048716663e421472cbd590af160a372bc490205e8Jordan Rose const Expr *Arg = getDataArg(argIndex); 298148716663e421472cbd590af160a372bc490205e8Jordan Rose if (!Arg) 298248716663e421472cbd590af160a372bc490205e8Jordan Rose return true; 298348716663e421472cbd590af160a372bc490205e8Jordan Rose 298448716663e421472cbd590af160a372bc490205e8Jordan Rose return checkFormatExpr(FS, startSpecifier, specifierLen, Arg); 2985831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith} 2986831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith 2987ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rosestatic bool requiresParensToAddCast(const Expr *E) { 2988ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rose // FIXME: We should have a general way to reason about operator 2989ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rose // precedence and whether parens are actually needed here. 2990ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rose // Take care of a few common cases where they aren't. 2991ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rose const Expr *Inside = E->IgnoreImpCasts(); 2992ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rose if (const PseudoObjectExpr *POE = dyn_cast<PseudoObjectExpr>(Inside)) 2993ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rose Inside = POE->getSyntacticForm()->IgnoreImpCasts(); 2994ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rose 2995ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rose switch (Inside->getStmtClass()) { 2996ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rose case Stmt::ArraySubscriptExprClass: 2997ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rose case Stmt::CallExprClass: 299817ddc54b8b94c58286dec6f99ae1f9e12e30d297Jordan Rose case Stmt::CharacterLiteralClass: 299917ddc54b8b94c58286dec6f99ae1f9e12e30d297Jordan Rose case Stmt::CXXBoolLiteralExprClass: 3000ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rose case Stmt::DeclRefExprClass: 300117ddc54b8b94c58286dec6f99ae1f9e12e30d297Jordan Rose case Stmt::FloatingLiteralClass: 300217ddc54b8b94c58286dec6f99ae1f9e12e30d297Jordan Rose case Stmt::IntegerLiteralClass: 3003ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rose case Stmt::MemberExprClass: 300417ddc54b8b94c58286dec6f99ae1f9e12e30d297Jordan Rose case Stmt::ObjCArrayLiteralClass: 300517ddc54b8b94c58286dec6f99ae1f9e12e30d297Jordan Rose case Stmt::ObjCBoolLiteralExprClass: 300617ddc54b8b94c58286dec6f99ae1f9e12e30d297Jordan Rose case Stmt::ObjCBoxedExprClass: 300717ddc54b8b94c58286dec6f99ae1f9e12e30d297Jordan Rose case Stmt::ObjCDictionaryLiteralClass: 300817ddc54b8b94c58286dec6f99ae1f9e12e30d297Jordan Rose case Stmt::ObjCEncodeExprClass: 3009ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rose case Stmt::ObjCIvarRefExprClass: 3010ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rose case Stmt::ObjCMessageExprClass: 3011ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rose case Stmt::ObjCPropertyRefExprClass: 301217ddc54b8b94c58286dec6f99ae1f9e12e30d297Jordan Rose case Stmt::ObjCStringLiteralClass: 301317ddc54b8b94c58286dec6f99ae1f9e12e30d297Jordan Rose case Stmt::ObjCSubscriptRefExprClass: 3014ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rose case Stmt::ParenExprClass: 301517ddc54b8b94c58286dec6f99ae1f9e12e30d297Jordan Rose case Stmt::StringLiteralClass: 3016ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rose case Stmt::UnaryOperatorClass: 3017ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rose return false; 3018ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rose default: 3019ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rose return true; 3020ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rose } 3021ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rose} 3022ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rose 3023831421f24057b93ea28bc92d8bd6290631a43cafRichard Smithbool 3024831421f24057b93ea28bc92d8bd6290631a43cafRichard SmithCheckPrintfHandler::checkFormatExpr(const analyze_printf::PrintfSpecifier &FS, 3025831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith const char *StartSpecifier, 3026831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith unsigned SpecifierLen, 3027831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith const Expr *E) { 3028831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith using namespace analyze_format_string; 3029831421f24057b93ea28bc92d8bd6290631a43cafRichard Smith using namespace analyze_printf; 303096827eb52405a71c65c200949f3e644368e86454Michael J. Spencer // Now type check the data expression that matches the 303196827eb52405a71c65c200949f3e644368e86454Michael J. Spencer // format specifier. 3032f3749f4168c5cee59627a681ca4ca6e4116d0761Hans Wennborg const analyze_printf::ArgType &AT = FS.getArgType(S.Context, 3033f3749f4168c5cee59627a681ca4ca6e4116d0761Hans Wennborg ObjCContext); 3034614a8656279b6549750e83143635cec63ac0e8b7Jordan Rose if (!AT.isValid()) 3035614a8656279b6549750e83143635cec63ac0e8b7Jordan Rose return true; 3036ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rose 3037448ac3e6d1f10264cea86c89cc14c266ba2da4a2Jordan Rose QualType ExprTy = E->getType(); 303802be968a08184acd42aaefa6f9a7dc883a4d1937Ted Kremenek while (const TypeOfExprType *TET = dyn_cast<TypeOfExprType>(ExprTy)) { 303902be968a08184acd42aaefa6f9a7dc883a4d1937Ted Kremenek ExprTy = TET->getUnderlyingExpr()->getType(); 304002be968a08184acd42aaefa6f9a7dc883a4d1937Ted Kremenek } 304102be968a08184acd42aaefa6f9a7dc883a4d1937Ted Kremenek 3042448ac3e6d1f10264cea86c89cc14c266ba2da4a2Jordan Rose if (AT.matchesType(S.Context, ExprTy)) 3043614a8656279b6549750e83143635cec63ac0e8b7Jordan Rose return true; 3044614a8656279b6549750e83143635cec63ac0e8b7Jordan Rose 3045614a8656279b6549750e83143635cec63ac0e8b7Jordan Rose // Look through argument promotions for our error message's reported type. 3046614a8656279b6549750e83143635cec63ac0e8b7Jordan Rose // This includes the integral and floating promotions, but excludes array 3047614a8656279b6549750e83143635cec63ac0e8b7Jordan Rose // and function pointer decay; seeing that an argument intended to be a 3048614a8656279b6549750e83143635cec63ac0e8b7Jordan Rose // string has type 'char [6]' is probably more confusing than 'char *'. 3049614a8656279b6549750e83143635cec63ac0e8b7Jordan Rose if (const ImplicitCastExpr *ICE = dyn_cast<ImplicitCastExpr>(E)) { 3050614a8656279b6549750e83143635cec63ac0e8b7Jordan Rose if (ICE->getCastKind() == CK_IntegralCast || 3051614a8656279b6549750e83143635cec63ac0e8b7Jordan Rose ICE->getCastKind() == CK_FloatingCast) { 3052614a8656279b6549750e83143635cec63ac0e8b7Jordan Rose E = ICE->getSubExpr(); 3053448ac3e6d1f10264cea86c89cc14c266ba2da4a2Jordan Rose ExprTy = E->getType(); 3054614a8656279b6549750e83143635cec63ac0e8b7Jordan Rose 3055614a8656279b6549750e83143635cec63ac0e8b7Jordan Rose // Check if we didn't match because of an implicit cast from a 'char' 3056614a8656279b6549750e83143635cec63ac0e8b7Jordan Rose // or 'short' to an 'int'. This is done because printf is a varargs 3057614a8656279b6549750e83143635cec63ac0e8b7Jordan Rose // function. 3058614a8656279b6549750e83143635cec63ac0e8b7Jordan Rose if (ICE->getType() == S.Context.IntTy || 3059614a8656279b6549750e83143635cec63ac0e8b7Jordan Rose ICE->getType() == S.Context.UnsignedIntTy) { 3060614a8656279b6549750e83143635cec63ac0e8b7Jordan Rose // All further checking is done on the subexpression. 3061448ac3e6d1f10264cea86c89cc14c266ba2da4a2Jordan Rose if (AT.matchesType(S.Context, ExprTy)) 3062614a8656279b6549750e83143635cec63ac0e8b7Jordan Rose return true; 30634d8ae4d57ed18d60da4d3786fb740607aa7c3688Ted Kremenek } 3064ee0259d308e72141982a85b40863e760a8447edfJordan Rose } 3065448ac3e6d1f10264cea86c89cc14c266ba2da4a2Jordan Rose } else if (const CharacterLiteral *CL = dyn_cast<CharacterLiteral>(E)) { 3066448ac3e6d1f10264cea86c89cc14c266ba2da4a2Jordan Rose // Special case for 'a', which has type 'int' in C. 3067448ac3e6d1f10264cea86c89cc14c266ba2da4a2Jordan Rose // Note, however, that we do /not/ want to treat multibyte constants like 3068448ac3e6d1f10264cea86c89cc14c266ba2da4a2Jordan Rose // 'MooV' as characters! This form is deprecated but still exists. 3069448ac3e6d1f10264cea86c89cc14c266ba2da4a2Jordan Rose if (ExprTy == S.Context.IntTy) 3070448ac3e6d1f10264cea86c89cc14c266ba2da4a2Jordan Rose if (llvm::isUIntN(S.Context.getCharWidth(), CL->getValue())) 3071448ac3e6d1f10264cea86c89cc14c266ba2da4a2Jordan Rose ExprTy = S.Context.CharTy; 3072614a8656279b6549750e83143635cec63ac0e8b7Jordan Rose } 3073614a8656279b6549750e83143635cec63ac0e8b7Jordan Rose 30742cd3440369d9241173e994485ddf2589a50a7d80Jordan Rose // %C in an Objective-C context prints a unichar, not a wchar_t. 30752cd3440369d9241173e994485ddf2589a50a7d80Jordan Rose // If the argument is an integer of some kind, believe the %C and suggest 30762cd3440369d9241173e994485ddf2589a50a7d80Jordan Rose // a cast instead of changing the conversion specifier. 3077448ac3e6d1f10264cea86c89cc14c266ba2da4a2Jordan Rose QualType IntendedTy = ExprTy; 30782cd3440369d9241173e994485ddf2589a50a7d80Jordan Rose if (ObjCContext && 30792cd3440369d9241173e994485ddf2589a50a7d80Jordan Rose FS.getConversionSpecifier().getKind() == ConversionSpecifier::CArg) { 30802cd3440369d9241173e994485ddf2589a50a7d80Jordan Rose if (ExprTy->isIntegralOrUnscopedEnumerationType() && 30812cd3440369d9241173e994485ddf2589a50a7d80Jordan Rose !ExprTy->isCharType()) { 30822cd3440369d9241173e994485ddf2589a50a7d80Jordan Rose // 'unichar' is defined as a typedef of unsigned short, but we should 30832cd3440369d9241173e994485ddf2589a50a7d80Jordan Rose // prefer using the typedef if it is visible. 30842cd3440369d9241173e994485ddf2589a50a7d80Jordan Rose IntendedTy = S.Context.UnsignedShortTy; 30852cd3440369d9241173e994485ddf2589a50a7d80Jordan Rose 30862cd3440369d9241173e994485ddf2589a50a7d80Jordan Rose LookupResult Result(S, &S.Context.Idents.get("unichar"), E->getLocStart(), 30872cd3440369d9241173e994485ddf2589a50a7d80Jordan Rose Sema::LookupOrdinaryName); 30882cd3440369d9241173e994485ddf2589a50a7d80Jordan Rose if (S.LookupName(Result, S.getCurScope())) { 30892cd3440369d9241173e994485ddf2589a50a7d80Jordan Rose NamedDecl *ND = Result.getFoundDecl(); 30902cd3440369d9241173e994485ddf2589a50a7d80Jordan Rose if (TypedefNameDecl *TD = dyn_cast<TypedefNameDecl>(ND)) 30912cd3440369d9241173e994485ddf2589a50a7d80Jordan Rose if (TD->getUnderlyingType() == IntendedTy) 30922cd3440369d9241173e994485ddf2589a50a7d80Jordan Rose IntendedTy = S.Context.getTypedefType(TD); 30932cd3440369d9241173e994485ddf2589a50a7d80Jordan Rose } 30942cd3440369d9241173e994485ddf2589a50a7d80Jordan Rose } 30952cd3440369d9241173e994485ddf2589a50a7d80Jordan Rose } 30962cd3440369d9241173e994485ddf2589a50a7d80Jordan Rose 30972cd3440369d9241173e994485ddf2589a50a7d80Jordan Rose // Special-case some of Darwin's platform-independence types by suggesting 30982cd3440369d9241173e994485ddf2589a50a7d80Jordan Rose // casts to primitive types that are known to be large enough. 30992cd3440369d9241173e994485ddf2589a50a7d80Jordan Rose bool ShouldNotPrintDirectly = false; 3100ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rose if (S.Context.getTargetInfo().getTriple().isOSDarwin()) { 31016edb029026d290f12393ed8389a3e1de596c77ecTed Kremenek // Use a 'while' to peel off layers of typedefs. 31026edb029026d290f12393ed8389a3e1de596c77ecTed Kremenek QualType TyTy = IntendedTy; 31036edb029026d290f12393ed8389a3e1de596c77ecTed Kremenek while (const TypedefType *UserTy = TyTy->getAs<TypedefType>()) { 3104ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rose StringRef Name = UserTy->getDecl()->getName(); 31052cd3440369d9241173e994485ddf2589a50a7d80Jordan Rose QualType CastTy = llvm::StringSwitch<QualType>(Name) 3106ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rose .Case("NSInteger", S.Context.LongTy) 3107ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rose .Case("NSUInteger", S.Context.UnsignedLongTy) 3108ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rose .Case("SInt32", S.Context.IntTy) 3109ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rose .Case("UInt32", S.Context.UnsignedIntTy) 31102cd3440369d9241173e994485ddf2589a50a7d80Jordan Rose .Default(QualType()); 31112cd3440369d9241173e994485ddf2589a50a7d80Jordan Rose 31122cd3440369d9241173e994485ddf2589a50a7d80Jordan Rose if (!CastTy.isNull()) { 31132cd3440369d9241173e994485ddf2589a50a7d80Jordan Rose ShouldNotPrintDirectly = true; 31142cd3440369d9241173e994485ddf2589a50a7d80Jordan Rose IntendedTy = CastTy; 31156edb029026d290f12393ed8389a3e1de596c77ecTed Kremenek break; 31162cd3440369d9241173e994485ddf2589a50a7d80Jordan Rose } 31176edb029026d290f12393ed8389a3e1de596c77ecTed Kremenek TyTy = UserTy->desugar(); 3118ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rose } 3119ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rose } 3120ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rose 3121614a8656279b6549750e83143635cec63ac0e8b7Jordan Rose // We may be able to offer a FixItHint if it is a supported type. 3122614a8656279b6549750e83143635cec63ac0e8b7Jordan Rose PrintfSpecifier fixedFS = FS; 3123ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rose bool success = fixedFS.fixType(IntendedTy, S.getLangOpts(), 3124614a8656279b6549750e83143635cec63ac0e8b7Jordan Rose S.Context, ObjCContext); 312596827eb52405a71c65c200949f3e644368e86454Michael J. Spencer 3126614a8656279b6549750e83143635cec63ac0e8b7Jordan Rose if (success) { 3127614a8656279b6549750e83143635cec63ac0e8b7Jordan Rose // Get the fix string from the fixed format specifier 3128614a8656279b6549750e83143635cec63ac0e8b7Jordan Rose SmallString<16> buf; 3129614a8656279b6549750e83143635cec63ac0e8b7Jordan Rose llvm::raw_svector_ostream os(buf); 3130614a8656279b6549750e83143635cec63ac0e8b7Jordan Rose fixedFS.toString(os); 3131614a8656279b6549750e83143635cec63ac0e8b7Jordan Rose 3132ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rose CharSourceRange SpecRange = getSpecifierRange(StartSpecifier, SpecifierLen); 3133ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rose 31342cd3440369d9241173e994485ddf2589a50a7d80Jordan Rose if (IntendedTy == ExprTy) { 31352cd3440369d9241173e994485ddf2589a50a7d80Jordan Rose // In this case, the specifier is wrong and should be changed to match 31362cd3440369d9241173e994485ddf2589a50a7d80Jordan Rose // the argument. 31372cd3440369d9241173e994485ddf2589a50a7d80Jordan Rose EmitFormatDiagnostic( 31382cd3440369d9241173e994485ddf2589a50a7d80Jordan Rose S.PDiag(diag::warn_printf_conversion_argument_type_mismatch) 31392cd3440369d9241173e994485ddf2589a50a7d80Jordan Rose << AT.getRepresentativeTypeName(S.Context) << IntendedTy 31402cd3440369d9241173e994485ddf2589a50a7d80Jordan Rose << E->getSourceRange(), 31412cd3440369d9241173e994485ddf2589a50a7d80Jordan Rose E->getLocStart(), 31422cd3440369d9241173e994485ddf2589a50a7d80Jordan Rose /*IsStringLocation*/false, 31432cd3440369d9241173e994485ddf2589a50a7d80Jordan Rose SpecRange, 31442cd3440369d9241173e994485ddf2589a50a7d80Jordan Rose FixItHint::CreateReplacement(SpecRange, os.str())); 31452cd3440369d9241173e994485ddf2589a50a7d80Jordan Rose 31462cd3440369d9241173e994485ddf2589a50a7d80Jordan Rose } else { 3147ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rose // The canonical type for formatting this value is different from the 3148ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rose // actual type of the expression. (This occurs, for example, with Darwin's 3149ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rose // NSInteger on 32-bit platforms, where it is typedef'd as 'int', but 3150ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rose // should be printed as 'long' for 64-bit compatibility.) 3151ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rose // Rather than emitting a normal format/argument mismatch, we want to 3152ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rose // add a cast to the recommended type (and correct the format string 3153ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rose // if necessary). 3154ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rose SmallString<16> CastBuf; 3155ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rose llvm::raw_svector_ostream CastFix(CastBuf); 3156ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rose CastFix << "("; 3157ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rose IntendedTy.print(CastFix, S.Context.getPrintingPolicy()); 3158ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rose CastFix << ")"; 3159ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rose 3160ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rose SmallVector<FixItHint,4> Hints; 3161ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rose if (!AT.matchesType(S.Context, IntendedTy)) 3162ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rose Hints.push_back(FixItHint::CreateReplacement(SpecRange, os.str())); 3163ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rose 3164ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rose if (const CStyleCastExpr *CCast = dyn_cast<CStyleCastExpr>(E)) { 3165ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rose // If there's already a cast present, just replace it. 3166ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rose SourceRange CastRange(CCast->getLParenLoc(), CCast->getRParenLoc()); 3167ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rose Hints.push_back(FixItHint::CreateReplacement(CastRange, CastFix.str())); 3168ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rose 3169ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rose } else if (!requiresParensToAddCast(E)) { 3170ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rose // If the expression has high enough precedence, 3171ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rose // just write the C-style cast. 3172ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rose Hints.push_back(FixItHint::CreateInsertion(E->getLocStart(), 3173ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rose CastFix.str())); 3174ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rose } else { 3175ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rose // Otherwise, add parens around the expression as well as the cast. 3176ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rose CastFix << "("; 3177ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rose Hints.push_back(FixItHint::CreateInsertion(E->getLocStart(), 3178ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rose CastFix.str())); 3179ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rose 3180ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rose SourceLocation After = S.PP.getLocForEndOfToken(E->getLocEnd()); 3181ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rose Hints.push_back(FixItHint::CreateInsertion(After, ")")); 3182ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rose } 3183ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rose 31842cd3440369d9241173e994485ddf2589a50a7d80Jordan Rose if (ShouldNotPrintDirectly) { 31852cd3440369d9241173e994485ddf2589a50a7d80Jordan Rose // The expression has a type that should not be printed directly. 31862cd3440369d9241173e994485ddf2589a50a7d80Jordan Rose // We extract the name from the typedef because we don't want to show 31872cd3440369d9241173e994485ddf2589a50a7d80Jordan Rose // the underlying type in the diagnostic. 31882cd3440369d9241173e994485ddf2589a50a7d80Jordan Rose StringRef Name = cast<TypedefType>(ExprTy)->getDecl()->getName(); 31892cd3440369d9241173e994485ddf2589a50a7d80Jordan Rose 31902cd3440369d9241173e994485ddf2589a50a7d80Jordan Rose EmitFormatDiagnostic(S.PDiag(diag::warn_format_argument_needs_cast) 31912cd3440369d9241173e994485ddf2589a50a7d80Jordan Rose << Name << IntendedTy 31922cd3440369d9241173e994485ddf2589a50a7d80Jordan Rose << E->getSourceRange(), 31932cd3440369d9241173e994485ddf2589a50a7d80Jordan Rose E->getLocStart(), /*IsStringLocation=*/false, 31942cd3440369d9241173e994485ddf2589a50a7d80Jordan Rose SpecRange, Hints); 31952cd3440369d9241173e994485ddf2589a50a7d80Jordan Rose } else { 31962cd3440369d9241173e994485ddf2589a50a7d80Jordan Rose // In this case, the expression could be printed using a different 31972cd3440369d9241173e994485ddf2589a50a7d80Jordan Rose // specifier, but we've decided that the specifier is probably correct 31982cd3440369d9241173e994485ddf2589a50a7d80Jordan Rose // and we should cast instead. Just use the normal warning message. 31992cd3440369d9241173e994485ddf2589a50a7d80Jordan Rose EmitFormatDiagnostic( 32002cd3440369d9241173e994485ddf2589a50a7d80Jordan Rose S.PDiag(diag::warn_printf_conversion_argument_type_mismatch) 32012cd3440369d9241173e994485ddf2589a50a7d80Jordan Rose << AT.getRepresentativeTypeName(S.Context) << ExprTy 32022cd3440369d9241173e994485ddf2589a50a7d80Jordan Rose << E->getSourceRange(), 32032cd3440369d9241173e994485ddf2589a50a7d80Jordan Rose E->getLocStart(), /*IsStringLocation*/false, 32042cd3440369d9241173e994485ddf2589a50a7d80Jordan Rose SpecRange, Hints); 32052cd3440369d9241173e994485ddf2589a50a7d80Jordan Rose } 3206ec08735e1b6a51c11533311b774bf6336c0a5d63Jordan Rose } 3207614a8656279b6549750e83143635cec63ac0e8b7Jordan Rose } else { 3208614a8656279b6549750e83143635cec63ac0e8b7Jordan Rose const CharSourceRange &CSR = getSpecifierRange(StartSpecifier, 3209614a8656279b6549750e83143635cec63ac0e8b7Jordan Rose SpecifierLen); 3210614a8656279b6549750e83143635cec63ac0e8b7Jordan Rose // Since the warning for passing non-POD types to variadic functions 3211614a8656279b6549750e83143635cec63ac0e8b7Jordan Rose // was deferred until now, we emit a warning for non-POD 3212614a8656279b6549750e83143635cec63ac0e8b7Jordan Rose // arguments here. 32130e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith switch (S.isValidVarArgType(ExprTy)) { 32140e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith case Sema::VAK_Valid: 32150e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith case Sema::VAK_ValidInCXX11: 32160e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith EmitFormatDiagnostic( 32170e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith S.PDiag(diag::warn_printf_conversion_argument_type_mismatch) 32180e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith << AT.getRepresentativeTypeName(S.Context) << ExprTy 32190e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith << CSR 32200e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith << E->getSourceRange(), 32210e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith E->getLocStart(), /*IsStringLocation*/false, CSR); 32220e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith break; 322396827eb52405a71c65c200949f3e644368e86454Michael J. Spencer 32240e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith case Sema::VAK_Undefined: 3225614a8656279b6549750e83143635cec63ac0e8b7Jordan Rose EmitFormatDiagnostic( 32260e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith S.PDiag(diag::warn_non_pod_vararg_with_format_string) 322780ad52f327b532bded5c5b0ee38779d841c6cd35Richard Smith << S.getLangOpts().CPlusPlus11 3228448ac3e6d1f10264cea86c89cc14c266ba2da4a2Jordan Rose << ExprTy 3229614a8656279b6549750e83143635cec63ac0e8b7Jordan Rose << CallType 3230614a8656279b6549750e83143635cec63ac0e8b7Jordan Rose << AT.getRepresentativeTypeName(S.Context) 3231614a8656279b6549750e83143635cec63ac0e8b7Jordan Rose << CSR 3232614a8656279b6549750e83143635cec63ac0e8b7Jordan Rose << E->getSourceRange(), 3233614a8656279b6549750e83143635cec63ac0e8b7Jordan Rose E->getLocStart(), /*IsStringLocation*/false, CSR); 3234614a8656279b6549750e83143635cec63ac0e8b7Jordan Rose checkForCStrMembers(AT, E, CSR); 32350e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith break; 32360e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith 32370e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith case Sema::VAK_Invalid: 32380e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith if (ExprTy->isObjCObjectType()) 32390e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith EmitFormatDiagnostic( 32400e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith S.PDiag(diag::err_cannot_pass_objc_interface_to_vararg_format) 32410e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith << S.getLangOpts().CPlusPlus11 32420e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith << ExprTy 32430e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith << CallType 32440e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith << AT.getRepresentativeTypeName(S.Context) 32450e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith << CSR 32460e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith << E->getSourceRange(), 32470e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith E->getLocStart(), /*IsStringLocation*/false, CSR); 32480e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith else 32490e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith // FIXME: If this is an initializer list, suggest removing the braces 32500e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith // or inserting a cast to the target type. 32510e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith S.Diag(E->getLocStart(), diag::err_cannot_pass_to_vararg_format) 32520e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith << isa<InitListExpr>(E) << ExprTy << CallType 32530e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith << AT.getRepresentativeTypeName(S.Context) 32540e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith << E->getSourceRange(); 32550e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith break; 32560e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith } 32570e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith 32580e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith assert(FirstDataArg + FS.getArgIndex() < CheckedVarArgs.size() && 32590e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith "format string specifier index out of range"); 32600e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith CheckedVarArgs[FirstDataArg + FS.getArgIndex()] = true; 326196827eb52405a71c65c200949f3e644368e86454Michael J. Spencer } 326296827eb52405a71c65c200949f3e644368e86454Michael J. Spencer 3263e0e5313c25f3870d0d18fc67e1b3a3a0e1ef8e07Ted Kremenek return true; 3264e0e5313c25f3870d0d18fc67e1b3a3a0e1ef8e07Ted Kremenek} 3265e0e5313c25f3870d0d18fc67e1b3a3a0e1ef8e07Ted Kremenek 3266826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek//===--- CHECK: Scanf format string checking ------------------------------===// 3267826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek 3268826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremeneknamespace { 3269826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenekclass CheckScanfHandler : public CheckFormatHandler { 3270826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenekpublic: 3271826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek CheckScanfHandler(Sema &s, const StringLiteral *fexpr, 3272826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek const Expr *origFormatExpr, unsigned firstDataArg, 327350687314f87b67073c202fe46d84d12fb55e25cfJordan Rose unsigned numDataArgs, const char *beg, bool hasVAListArg, 32741c030e9a3f290a1eea5de82fe1e63dfde2bd8f1eDmitri Gribenko ArrayRef<const Expr *> Args, 3275ddcfbc9ad1817f545610999d655ac6c28d4c0c12Jordan Rose unsigned formatIdx, bool inFunctionCall, 32760e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith Sema::VariadicCallType CallType, 32770e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith llvm::SmallBitVector &CheckedVarArgs) 32780e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith : CheckFormatHandler(s, fexpr, origFormatExpr, firstDataArg, 32790e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith numDataArgs, beg, hasVAListArg, 32800e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith Args, formatIdx, inFunctionCall, CallType, 32810e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith CheckedVarArgs) 3282ddcfbc9ad1817f545610999d655ac6c28d4c0c12Jordan Rose {} 3283826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek 3284826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek bool HandleScanfSpecifier(const analyze_scanf::ScanfSpecifier &FS, 3285826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek const char *startSpecifier, 3286826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek unsigned specifierLen); 3287c09b6a59e02ae265fce51b8c11e2a045bcdaa888Ted Kremenek 3288c09b6a59e02ae265fce51b8c11e2a045bcdaa888Ted Kremenek bool HandleInvalidScanfConversionSpecifier( 3289c09b6a59e02ae265fce51b8c11e2a045bcdaa888Ted Kremenek const analyze_scanf::ScanfSpecifier &FS, 3290c09b6a59e02ae265fce51b8c11e2a045bcdaa888Ted Kremenek const char *startSpecifier, 3291c09b6a59e02ae265fce51b8c11e2a045bcdaa888Ted Kremenek unsigned specifierLen); 3292b7c21018ec1049580cf6df88db09e606550a7baaTed Kremenek 3293b7c21018ec1049580cf6df88db09e606550a7baaTed Kremenek void HandleIncompleteScanList(const char *start, const char *end); 3294826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek}; 3295826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek} 3296826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek 3297b7c21018ec1049580cf6df88db09e606550a7baaTed Kremenekvoid CheckScanfHandler::HandleIncompleteScanList(const char *start, 3298b7c21018ec1049580cf6df88db09e606550a7baaTed Kremenek const char *end) { 329955733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu EmitFormatDiagnostic(S.PDiag(diag::warn_scanf_scanlist_incomplete), 330055733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu getLocationOfByte(end), /*IsStringLocation*/true, 330155733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu getSpecifierRange(start, end - start)); 3302b7c21018ec1049580cf6df88db09e606550a7baaTed Kremenek} 3303b7c21018ec1049580cf6df88db09e606550a7baaTed Kremenek 3304c09b6a59e02ae265fce51b8c11e2a045bcdaa888Ted Kremenekbool CheckScanfHandler::HandleInvalidScanfConversionSpecifier( 3305c09b6a59e02ae265fce51b8c11e2a045bcdaa888Ted Kremenek const analyze_scanf::ScanfSpecifier &FS, 3306c09b6a59e02ae265fce51b8c11e2a045bcdaa888Ted Kremenek const char *startSpecifier, 3307c09b6a59e02ae265fce51b8c11e2a045bcdaa888Ted Kremenek unsigned specifierLen) { 3308c09b6a59e02ae265fce51b8c11e2a045bcdaa888Ted Kremenek 33096ecb950c65329f8d6ce9ad0514632df35a5ab61fTed Kremenek const analyze_scanf::ScanfConversionSpecifier &CS = 3310c09b6a59e02ae265fce51b8c11e2a045bcdaa888Ted Kremenek FS.getConversionSpecifier(); 3311c09b6a59e02ae265fce51b8c11e2a045bcdaa888Ted Kremenek 3312c09b6a59e02ae265fce51b8c11e2a045bcdaa888Ted Kremenek return HandleInvalidConversionSpecifier(FS.getArgIndex(), 3313c09b6a59e02ae265fce51b8c11e2a045bcdaa888Ted Kremenek getLocationOfByte(CS.getStart()), 3314c09b6a59e02ae265fce51b8c11e2a045bcdaa888Ted Kremenek startSpecifier, specifierLen, 3315c09b6a59e02ae265fce51b8c11e2a045bcdaa888Ted Kremenek CS.getStart(), CS.getLength()); 3316c09b6a59e02ae265fce51b8c11e2a045bcdaa888Ted Kremenek} 3317c09b6a59e02ae265fce51b8c11e2a045bcdaa888Ted Kremenek 3318826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenekbool CheckScanfHandler::HandleScanfSpecifier( 3319826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek const analyze_scanf::ScanfSpecifier &FS, 3320826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek const char *startSpecifier, 3321826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek unsigned specifierLen) { 3322826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek 3323826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek using namespace analyze_scanf; 3324826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek using namespace analyze_format_string; 3325826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek 33266ecb950c65329f8d6ce9ad0514632df35a5ab61fTed Kremenek const ScanfConversionSpecifier &CS = FS.getConversionSpecifier(); 3327826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek 3328baa400654bd6f8396f9a07188445ae7955b060a3Ted Kremenek // Handle case where '%' and '*' don't consume an argument. These shouldn't 3329baa400654bd6f8396f9a07188445ae7955b060a3Ted Kremenek // be used to decide if we are using positional arguments consistently. 3330baa400654bd6f8396f9a07188445ae7955b060a3Ted Kremenek if (FS.consumesDataArgument()) { 3331baa400654bd6f8396f9a07188445ae7955b060a3Ted Kremenek if (atFirstArg) { 3332baa400654bd6f8396f9a07188445ae7955b060a3Ted Kremenek atFirstArg = false; 3333baa400654bd6f8396f9a07188445ae7955b060a3Ted Kremenek usesPositionalArgs = FS.usesPositionalArg(); 3334baa400654bd6f8396f9a07188445ae7955b060a3Ted Kremenek } 3335baa400654bd6f8396f9a07188445ae7955b060a3Ted Kremenek else if (usesPositionalArgs != FS.usesPositionalArg()) { 333655733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu HandlePositionalNonpositionalArgs(getLocationOfByte(CS.getStart()), 333755733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu startSpecifier, specifierLen); 3338baa400654bd6f8396f9a07188445ae7955b060a3Ted Kremenek return false; 3339baa400654bd6f8396f9a07188445ae7955b060a3Ted Kremenek } 3340826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek } 3341826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek 3342826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek // Check if the field with is non-zero. 3343826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek const OptionalAmount &Amt = FS.getFieldWidth(); 3344826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek if (Amt.getHowSpecified() == OptionalAmount::Constant) { 3345826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek if (Amt.getConstantAmount() == 0) { 3346826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek const CharSourceRange &R = getSpecifierRange(Amt.getStart(), 3347826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek Amt.getConstantLength()); 334855733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu EmitFormatDiagnostic(S.PDiag(diag::warn_scanf_nonzero_width), 334955733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu getLocationOfByte(Amt.getStart()), 335055733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu /*IsStringLocation*/true, R, 335155733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu FixItHint::CreateRemoval(R)); 33527f70dc85d5055c19c8003f43a59135de211ad1b9Ted Kremenek } 33537f70dc85d5055c19c8003f43a59135de211ad1b9Ted Kremenek } 3354826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek 3355826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek if (!FS.consumesDataArgument()) { 3356826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek // FIXME: Technically specifying a precision or field width here 3357826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek // makes no sense. Worth issuing a warning at some point. 3358826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek return true; 3359826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek } 3360826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek 3361826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek // Consume the argument. 3362826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek unsigned argIndex = FS.getArgIndex(); 3363826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek if (argIndex < NumDataArgs) { 3364826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek // The check to see if the argIndex is valid will come later. 3365826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek // We set the bit here because we may exit early from this 3366826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek // function if we encounter some other error. 3367826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek CoveredArgs.set(argIndex); 3368826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek } 3369826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek 33701e51c200b17cb6b0238c10a8760ae04765688f16Ted Kremenek // Check the length modifier is valid with the given conversion specifier. 3371bbb6bb4952b77e57b842b4d3096848123ae690e7Jordan Rose if (!FS.hasValidLengthModifier(S.getASTContext().getTargetInfo())) 33728be066e6733364cd34f25c4f7b7344f72aa23369Jordan Rose HandleInvalidLengthModifier(FS, CS, startSpecifier, specifierLen, 33738be066e6733364cd34f25c4f7b7344f72aa23369Jordan Rose diag::warn_format_nonsensical_length); 3374bbb6bb4952b77e57b842b4d3096848123ae690e7Jordan Rose else if (!FS.hasStandardLengthModifier()) 33758be066e6733364cd34f25c4f7b7344f72aa23369Jordan Rose HandleNonStandardLengthModifier(FS, startSpecifier, specifierLen); 3376bbb6bb4952b77e57b842b4d3096848123ae690e7Jordan Rose else if (!FS.hasStandardLengthConversionCombination()) 33778be066e6733364cd34f25c4f7b7344f72aa23369Jordan Rose HandleInvalidLengthModifier(FS, CS, startSpecifier, specifierLen, 33788be066e6733364cd34f25c4f7b7344f72aa23369Jordan Rose diag::warn_format_non_standard_conversion_spec); 337976517426dc8bf7734c07eefc35171a6bfdba1a2bHans Wennborg 3380bbb6bb4952b77e57b842b4d3096848123ae690e7Jordan Rose if (!FS.hasStandardConversionSpecifier(S.getLangOpts())) 3381bbb6bb4952b77e57b842b4d3096848123ae690e7Jordan Rose HandleNonStandardConversionSpecifier(CS, startSpecifier, specifierLen); 3382bbb6bb4952b77e57b842b4d3096848123ae690e7Jordan Rose 3383826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek // The remaining checks depend on the data arguments. 3384826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek if (HasVAListArg) 3385826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek return true; 3386826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek 3387666a197deb75d95c78ddd39274af1a54240828d8Ted Kremenek if (!CheckNumArgs(FS, CS, startSpecifier, specifierLen, argIndex)) 3388826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek return false; 3389826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek 33906fcd932dfd6835f70cc00d6f7c6789793f6d7b66Hans Wennborg // Check that the argument type matches the format specifier. 33916fcd932dfd6835f70cc00d6f7c6789793f6d7b66Hans Wennborg const Expr *Ex = getDataArg(argIndex); 339248716663e421472cbd590af160a372bc490205e8Jordan Rose if (!Ex) 339348716663e421472cbd590af160a372bc490205e8Jordan Rose return true; 339448716663e421472cbd590af160a372bc490205e8Jordan Rose 339558e1e54476d610d6c33ef483f216ed8a1282d35cHans Wennborg const analyze_format_string::ArgType &AT = FS.getArgType(S.Context); 339658e1e54476d610d6c33ef483f216ed8a1282d35cHans Wennborg if (AT.isValid() && !AT.matchesType(S.Context, Ex->getType())) { 33976fcd932dfd6835f70cc00d6f7c6789793f6d7b66Hans Wennborg ScanfSpecifier fixedFS = FS; 33984e4d08403ca5cfd4d558fa2936215d3a4e5a528dDavid Blaikie bool success = fixedFS.fixType(Ex->getType(), S.getLangOpts(), 3399be6126a2a784e1446460b8d15c2b26f880c871fcHans Wennborg S.Context); 34006fcd932dfd6835f70cc00d6f7c6789793f6d7b66Hans Wennborg 34016fcd932dfd6835f70cc00d6f7c6789793f6d7b66Hans Wennborg if (success) { 34026fcd932dfd6835f70cc00d6f7c6789793f6d7b66Hans Wennborg // Get the fix string from the fixed format specifier. 3403f7ccbad5d9949e7ddd1cbef43d482553b811e026Dylan Noblesmith SmallString<128> buf; 34046fcd932dfd6835f70cc00d6f7c6789793f6d7b66Hans Wennborg llvm::raw_svector_ostream os(buf); 34056fcd932dfd6835f70cc00d6f7c6789793f6d7b66Hans Wennborg fixedFS.toString(os); 34066fcd932dfd6835f70cc00d6f7c6789793f6d7b66Hans Wennborg 34076fcd932dfd6835f70cc00d6f7c6789793f6d7b66Hans Wennborg EmitFormatDiagnostic( 34086fcd932dfd6835f70cc00d6f7c6789793f6d7b66Hans Wennborg S.PDiag(diag::warn_printf_conversion_argument_type_mismatch) 340958e1e54476d610d6c33ef483f216ed8a1282d35cHans Wennborg << AT.getRepresentativeTypeName(S.Context) << Ex->getType() 34106fcd932dfd6835f70cc00d6f7c6789793f6d7b66Hans Wennborg << Ex->getSourceRange(), 3411abf145ab57fc56bfb9c48333fcc65b49a564dc60Matt Beaumont-Gay Ex->getLocStart(), 3412abf145ab57fc56bfb9c48333fcc65b49a564dc60Matt Beaumont-Gay /*IsStringLocation*/false, 34136fcd932dfd6835f70cc00d6f7c6789793f6d7b66Hans Wennborg getSpecifierRange(startSpecifier, specifierLen), 34146fcd932dfd6835f70cc00d6f7c6789793f6d7b66Hans Wennborg FixItHint::CreateReplacement( 34156fcd932dfd6835f70cc00d6f7c6789793f6d7b66Hans Wennborg getSpecifierRange(startSpecifier, specifierLen), 34166fcd932dfd6835f70cc00d6f7c6789793f6d7b66Hans Wennborg os.str())); 34176fcd932dfd6835f70cc00d6f7c6789793f6d7b66Hans Wennborg } else { 3418220947bd5a66b0f25f5e74d6029769dfb34f07b4Jean-Daniel Dupas EmitFormatDiagnostic( 3419220947bd5a66b0f25f5e74d6029769dfb34f07b4Jean-Daniel Dupas S.PDiag(diag::warn_printf_conversion_argument_type_mismatch) 342058e1e54476d610d6c33ef483f216ed8a1282d35cHans Wennborg << AT.getRepresentativeTypeName(S.Context) << Ex->getType() 3421220947bd5a66b0f25f5e74d6029769dfb34f07b4Jean-Daniel Dupas << Ex->getSourceRange(), 3422abf145ab57fc56bfb9c48333fcc65b49a564dc60Matt Beaumont-Gay Ex->getLocStart(), 3423abf145ab57fc56bfb9c48333fcc65b49a564dc60Matt Beaumont-Gay /*IsStringLocation*/false, 3424220947bd5a66b0f25f5e74d6029769dfb34f07b4Jean-Daniel Dupas getSpecifierRange(startSpecifier, specifierLen)); 34256fcd932dfd6835f70cc00d6f7c6789793f6d7b66Hans Wennborg } 34266fcd932dfd6835f70cc00d6f7c6789793f6d7b66Hans Wennborg } 34276fcd932dfd6835f70cc00d6f7c6789793f6d7b66Hans Wennborg 3428826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek return true; 342907d161f38e708a91486bf1c031d525faebbb249dTed Kremenek} 3430e0e5313c25f3870d0d18fc67e1b3a3a0e1ef8e07Ted Kremenek 3431826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenekvoid Sema::CheckFormatString(const StringLiteral *FExpr, 34320e5675de2b67eeca754754ae8d3dacba425a38e8Ted Kremenek const Expr *OrigFormatExpr, 34331c030e9a3f290a1eea5de82fe1e63dfde2bd8f1eDmitri Gribenko ArrayRef<const Expr *> Args, 343429c3f814b64808c6dac4597b61a50ceecdf141fcJean-Daniel Dupas bool HasVAListArg, unsigned format_idx, 343534269df5db40b7c4b4f52aed579d9b3108ff79e4Jean-Daniel Dupas unsigned firstDataArg, FormatStringType Type, 34360e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith bool inFunctionCall, VariadicCallType CallType, 34370e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith llvm::SmallBitVector &CheckedVarArgs) { 3438826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek 3439e0e5313c25f3870d0d18fc67e1b3a3a0e1ef8e07Ted Kremenek // CHECK: is the format string a wide literal? 3440df9ef1bc8c3780307ab2ed81bf5e31c23310b936Richard Smith if (!FExpr->isAscii() && !FExpr->isUTF8()) { 344155733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu CheckFormatHandler::EmitFormatDiagnostic( 344229c3f814b64808c6dac4597b61a50ceecdf141fcJean-Daniel Dupas *this, inFunctionCall, Args[format_idx], 344355733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu PDiag(diag::warn_format_string_is_wide_literal), FExpr->getLocStart(), 344455733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu /*IsStringLocation*/true, OrigFormatExpr->getSourceRange()); 3445e0e5313c25f3870d0d18fc67e1b3a3a0e1ef8e07Ted Kremenek return; 3446e0e5313c25f3870d0d18fc67e1b3a3a0e1ef8e07Ted Kremenek } 3447826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek 3448e0e5313c25f3870d0d18fc67e1b3a3a0e1ef8e07Ted Kremenek // Str - The format string. NOTE: this is NOT null-terminated! 34495f9e272e632e951b1efe824cd16acb4d96077930Chris Lattner StringRef StrRef = FExpr->getString(); 34502f4eaef37476ae6891ede8ba215d0f6fd093629bBenjamin Kramer const char *Str = StrRef.data(); 34512f4eaef37476ae6891ede8ba215d0f6fd093629bBenjamin Kramer unsigned StrLen = StrRef.size(); 34521c030e9a3f290a1eea5de82fe1e63dfde2bd8f1eDmitri Gribenko const unsigned numDataArgs = Args.size() - firstDataArg; 3453826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek 3454e0e5313c25f3870d0d18fc67e1b3a3a0e1ef8e07Ted Kremenek // CHECK: empty format string? 34554cd5791f4aa6deb572979bb38c1deedbc155efe0Ted Kremenek if (StrLen == 0 && numDataArgs > 0) { 345655733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu CheckFormatHandler::EmitFormatDiagnostic( 345729c3f814b64808c6dac4597b61a50ceecdf141fcJean-Daniel Dupas *this, inFunctionCall, Args[format_idx], 345855733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu PDiag(diag::warn_empty_format_string), FExpr->getLocStart(), 345955733de16f492dadbf5f4d2809d6c610ba6d86aeRichard Trieu /*IsStringLocation*/true, OrigFormatExpr->getSourceRange()); 3460e0e5313c25f3870d0d18fc67e1b3a3a0e1ef8e07Ted Kremenek return; 3461e0e5313c25f3870d0d18fc67e1b3a3a0e1ef8e07Ted Kremenek } 3462826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek 346334269df5db40b7c4b4f52aed579d9b3108ff79e4Jean-Daniel Dupas if (Type == FST_Printf || Type == FST_NSString) { 3464826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek CheckPrintfHandler H(*this, FExpr, OrigFormatExpr, firstDataArg, 346550687314f87b67073c202fe46d84d12fb55e25cfJordan Rose numDataArgs, (Type == FST_NSString), 34661c030e9a3f290a1eea5de82fe1e63dfde2bd8f1eDmitri Gribenko Str, HasVAListArg, Args, format_idx, 34670e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith inFunctionCall, CallType, CheckedVarArgs); 3468826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek 3469d02deebce5f1b283101e035a7f5d5bab0d2068ecHans Wennborg if (!analyze_format_string::ParsePrintfString(H, Str, Str + StrLen, 3470275b6f52c7bcafc1f3cf291813b5c60ee776965aJordan Rose getLangOpts(), 3471275b6f52c7bcafc1f3cf291813b5c60ee776965aJordan Rose Context.getTargetInfo())) 3472826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek H.DoneProcessing(); 347334269df5db40b7c4b4f52aed579d9b3108ff79e4Jean-Daniel Dupas } else if (Type == FST_Scanf) { 347450687314f87b67073c202fe46d84d12fb55e25cfJordan Rose CheckScanfHandler H(*this, FExpr, OrigFormatExpr, firstDataArg, numDataArgs, 34751c030e9a3f290a1eea5de82fe1e63dfde2bd8f1eDmitri Gribenko Str, HasVAListArg, Args, format_idx, 34760e2189791acf7fcec4f1b32af24efb2d363f30c1Richard Smith inFunctionCall, CallType, CheckedVarArgs); 3477826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek 3478d02deebce5f1b283101e035a7f5d5bab0d2068ecHans Wennborg if (!analyze_format_string::ParseScanfString(H, Str, Str + StrLen, 3479275b6f52c7bcafc1f3cf291813b5c60ee776965aJordan Rose getLangOpts(), 3480275b6f52c7bcafc1f3cf291813b5c60ee776965aJordan Rose Context.getTargetInfo())) 3481826a3457f737f1fc45a22954fd1bfde38160c165Ted Kremenek H.DoneProcessing(); 348234269df5db40b7c4b4f52aed579d9b3108ff79e4Jean-Daniel Dupas } // TODO: handle other formats 3483ce7024e8a3793b05861a4904ecdb1272924ada14Ted Kremenek} 3484ce7024e8a3793b05861a4904ecdb1272924ada14Ted Kremenek 34857ccc95bceebb2d1c8fbe277c9e33bde7dc1ccbb1Chandler Carruth//===--- CHECK: Standard memory functions ---------------------------------===// 34867ccc95bceebb2d1c8fbe277c9e33bde7dc1ccbb1Chandler Carruth 34872a053a33707eba9e642adedb557b1a6aace103b5Douglas Gregor/// \brief Determine whether the given type is a dynamic class type (e.g., 34882a053a33707eba9e642adedb557b1a6aace103b5Douglas Gregor/// whether it has a vtable). 34892a053a33707eba9e642adedb557b1a6aace103b5Douglas Gregorstatic bool isDynamicClassType(QualType T) { 34902a053a33707eba9e642adedb557b1a6aace103b5Douglas Gregor if (CXXRecordDecl *Record = T->getAsCXXRecordDecl()) 34912a053a33707eba9e642adedb557b1a6aace103b5Douglas Gregor if (CXXRecordDecl *Definition = Record->getDefinition()) 34922a053a33707eba9e642adedb557b1a6aace103b5Douglas Gregor if (Definition->isDynamicClass()) 34932a053a33707eba9e642adedb557b1a6aace103b5Douglas Gregor return true; 34942a053a33707eba9e642adedb557b1a6aace103b5Douglas Gregor 34952a053a33707eba9e642adedb557b1a6aace103b5Douglas Gregor return false; 34962a053a33707eba9e642adedb557b1a6aace103b5Douglas Gregor} 34972a053a33707eba9e642adedb557b1a6aace103b5Douglas Gregor 3498a72a12f3baed07f2663e48c5fc3b670c68dffe0cChandler Carruth/// \brief If E is a sizeof expression, returns its argument expression, 3499000d428347f352979e0f6dffcf0a64e73af0a2b5Chandler Carruth/// otherwise returns NULL. 3500000d428347f352979e0f6dffcf0a64e73af0a2b5Chandler Carruthstatic const Expr *getSizeOfExprArg(const Expr* E) { 3501e4a1c64700304459ac436fe29cb498f2da3b6194Nico Weber if (const UnaryExprOrTypeTraitExpr *SizeOf = 3502000d428347f352979e0f6dffcf0a64e73af0a2b5Chandler Carruth dyn_cast<UnaryExprOrTypeTraitExpr>(E)) 3503000d428347f352979e0f6dffcf0a64e73af0a2b5Chandler Carruth if (SizeOf->getKind() == clang::UETT_SizeOf && !SizeOf->isArgumentType()) 3504000d428347f352979e0f6dffcf0a64e73af0a2b5Chandler Carruth return SizeOf->getArgumentExpr()->IgnoreParenImpCasts(); 3505e4a1c64700304459ac436fe29cb498f2da3b6194Nico Weber 3506000d428347f352979e0f6dffcf0a64e73af0a2b5Chandler Carruth return 0; 3507000d428347f352979e0f6dffcf0a64e73af0a2b5Chandler Carruth} 3508000d428347f352979e0f6dffcf0a64e73af0a2b5Chandler Carruth 3509a72a12f3baed07f2663e48c5fc3b670c68dffe0cChandler Carruth/// \brief If E is a sizeof expression, returns its argument type. 3510000d428347f352979e0f6dffcf0a64e73af0a2b5Chandler Carruthstatic QualType getSizeOfArgType(const Expr* E) { 3511000d428347f352979e0f6dffcf0a64e73af0a2b5Chandler Carruth if (const UnaryExprOrTypeTraitExpr *SizeOf = 3512000d428347f352979e0f6dffcf0a64e73af0a2b5Chandler Carruth dyn_cast<UnaryExprOrTypeTraitExpr>(E)) 3513000d428347f352979e0f6dffcf0a64e73af0a2b5Chandler Carruth if (SizeOf->getKind() == clang::UETT_SizeOf) 3514000d428347f352979e0f6dffcf0a64e73af0a2b5Chandler Carruth return SizeOf->getTypeOfArgument(); 3515000d428347f352979e0f6dffcf0a64e73af0a2b5Chandler Carruth 3516000d428347f352979e0f6dffcf0a64e73af0a2b5Chandler Carruth return QualType(); 3517e4a1c64700304459ac436fe29cb498f2da3b6194Nico Weber} 3518e4a1c64700304459ac436fe29cb498f2da3b6194Nico Weber 35197ccc95bceebb2d1c8fbe277c9e33bde7dc1ccbb1Chandler Carruth/// \brief Check for dangerous or invalid arguments to memset(). 35207ccc95bceebb2d1c8fbe277c9e33bde7dc1ccbb1Chandler Carruth/// 3521929f0135ab60166202f52e0dd19835c0490d792aChandler Carruth/// This issues warnings on known problematic, dangerous or unspecified 3522cc2f30c4ed7770b6005bd55b529a55c1fcc250fcMatt Beaumont-Gay/// arguments to the standard 'memset', 'memcpy', 'memmove', and 'memcmp' 3523cc2f30c4ed7770b6005bd55b529a55c1fcc250fcMatt Beaumont-Gay/// function calls. 35247ccc95bceebb2d1c8fbe277c9e33bde7dc1ccbb1Chandler Carruth/// 35257ccc95bceebb2d1c8fbe277c9e33bde7dc1ccbb1Chandler Carruth/// \param Call The call expression to diagnose. 3526cc2f30c4ed7770b6005bd55b529a55c1fcc250fcMatt Beaumont-Gayvoid Sema::CheckMemaccessArguments(const CallExpr *Call, 35270a151a137a68bb656acbcce7ff2407613bb80cfcAnna Zaks unsigned BId, 3528cc2f30c4ed7770b6005bd55b529a55c1fcc250fcMatt Beaumont-Gay IdentifierInfo *FnName) { 35290a151a137a68bb656acbcce7ff2407613bb80cfcAnna Zaks assert(BId != 0); 35300a151a137a68bb656acbcce7ff2407613bb80cfcAnna Zaks 35311d59f7f8fb39fa44ddbb6e2abd321af863b1f55bTed Kremenek // It is possible to have a non-standard definition of memset. Validate 3532707a23e8b87410332b55bb4534fa1c799edef38aDouglas Gregor // we have enough arguments, and if not, abort further checking. 35330a151a137a68bb656acbcce7ff2407613bb80cfcAnna Zaks unsigned ExpectedNumArgs = (BId == Builtin::BIstrndup ? 2 : 3); 3534cda57822327499aeb6fe606f9cf5903cffca3444Nico Weber if (Call->getNumArgs() < ExpectedNumArgs) 35351d59f7f8fb39fa44ddbb6e2abd321af863b1f55bTed Kremenek return; 35361d59f7f8fb39fa44ddbb6e2abd321af863b1f55bTed Kremenek 35370a151a137a68bb656acbcce7ff2407613bb80cfcAnna Zaks unsigned LastArg = (BId == Builtin::BImemset || 35380a151a137a68bb656acbcce7ff2407613bb80cfcAnna Zaks BId == Builtin::BIstrndup ? 1 : 2); 35390a151a137a68bb656acbcce7ff2407613bb80cfcAnna Zaks unsigned LenArg = (BId == Builtin::BIstrndup ? 1 : 2); 3540cda57822327499aeb6fe606f9cf5903cffca3444Nico Weber const Expr *LenExpr = Call->getArg(LenArg)->IgnoreParenImpCasts(); 3541000d428347f352979e0f6dffcf0a64e73af0a2b5Chandler Carruth 3542000d428347f352979e0f6dffcf0a64e73af0a2b5Chandler Carruth // We have special checking when the length is a sizeof expression. 3543000d428347f352979e0f6dffcf0a64e73af0a2b5Chandler Carruth QualType SizeOfArgTy = getSizeOfArgType(LenExpr); 3544000d428347f352979e0f6dffcf0a64e73af0a2b5Chandler Carruth const Expr *SizeOfArg = getSizeOfExprArg(LenExpr); 3545000d428347f352979e0f6dffcf0a64e73af0a2b5Chandler Carruth llvm::FoldingSetNodeID SizeOfArgID; 3546000d428347f352979e0f6dffcf0a64e73af0a2b5Chandler Carruth 354706bc9eb9908e42696775b395b290827bde468c8bDouglas Gregor for (unsigned ArgIdx = 0; ArgIdx != LastArg; ++ArgIdx) { 354806bc9eb9908e42696775b395b290827bde468c8bDouglas Gregor const Expr *Dest = Call->getArg(ArgIdx)->IgnoreParenImpCasts(); 3549e4a1c64700304459ac436fe29cb498f2da3b6194Nico Weber SourceRange ArgRange = Call->getArg(ArgIdx)->getSourceRange(); 355006bc9eb9908e42696775b395b290827bde468c8bDouglas Gregor 355106bc9eb9908e42696775b395b290827bde468c8bDouglas Gregor QualType DestTy = Dest->getType(); 355206bc9eb9908e42696775b395b290827bde468c8bDouglas Gregor if (const PointerType *DestPtrTy = DestTy->getAs<PointerType>()) { 355306bc9eb9908e42696775b395b290827bde468c8bDouglas Gregor QualType PointeeTy = DestPtrTy->getPointeeType(); 3554f85e193739c953358c865005855253af4f68a497John McCall 3555000d428347f352979e0f6dffcf0a64e73af0a2b5Chandler Carruth // Never warn about void type pointers. This can be used to suppress 3556000d428347f352979e0f6dffcf0a64e73af0a2b5Chandler Carruth // false positives. 3557000d428347f352979e0f6dffcf0a64e73af0a2b5Chandler Carruth if (PointeeTy->isVoidType()) 355806bc9eb9908e42696775b395b290827bde468c8bDouglas Gregor continue; 355906bc9eb9908e42696775b395b290827bde468c8bDouglas Gregor 3560000d428347f352979e0f6dffcf0a64e73af0a2b5Chandler Carruth // Catch "memset(p, 0, sizeof(p))" -- needs to be sizeof(*p). Do this by 3561000d428347f352979e0f6dffcf0a64e73af0a2b5Chandler Carruth // actually comparing the expressions for equality. Because computing the 3562000d428347f352979e0f6dffcf0a64e73af0a2b5Chandler Carruth // expression IDs can be expensive, we only do this if the diagnostic is 3563000d428347f352979e0f6dffcf0a64e73af0a2b5Chandler Carruth // enabled. 3564000d428347f352979e0f6dffcf0a64e73af0a2b5Chandler Carruth if (SizeOfArg && 3565000d428347f352979e0f6dffcf0a64e73af0a2b5Chandler Carruth Diags.getDiagnosticLevel(diag::warn_sizeof_pointer_expr_memaccess, 3566000d428347f352979e0f6dffcf0a64e73af0a2b5Chandler Carruth SizeOfArg->getExprLoc())) { 3567000d428347f352979e0f6dffcf0a64e73af0a2b5Chandler Carruth // We only compute IDs for expressions if the warning is enabled, and 3568000d428347f352979e0f6dffcf0a64e73af0a2b5Chandler Carruth // cache the sizeof arg's ID. 3569000d428347f352979e0f6dffcf0a64e73af0a2b5Chandler Carruth if (SizeOfArgID == llvm::FoldingSetNodeID()) 3570000d428347f352979e0f6dffcf0a64e73af0a2b5Chandler Carruth SizeOfArg->Profile(SizeOfArgID, Context, true); 3571000d428347f352979e0f6dffcf0a64e73af0a2b5Chandler Carruth llvm::FoldingSetNodeID DestID; 3572000d428347f352979e0f6dffcf0a64e73af0a2b5Chandler Carruth Dest->Profile(DestID, Context, true); 3573000d428347f352979e0f6dffcf0a64e73af0a2b5Chandler Carruth if (DestID == SizeOfArgID) { 3574cda57822327499aeb6fe606f9cf5903cffca3444Nico Weber // TODO: For strncpy() and friends, this could suggest sizeof(dst) 3575cda57822327499aeb6fe606f9cf5903cffca3444Nico Weber // over sizeof(src) as well. 3576000d428347f352979e0f6dffcf0a64e73af0a2b5Chandler Carruth unsigned ActionIdx = 0; // Default is to suggest dereferencing. 35776fcb3727e31280ba816dc86d024586b8c5933c13Anna Zaks StringRef ReadableName = FnName->getName(); 35786fcb3727e31280ba816dc86d024586b8c5933c13Anna Zaks 3579000d428347f352979e0f6dffcf0a64e73af0a2b5Chandler Carruth if (const UnaryOperator *UnaryOp = dyn_cast<UnaryOperator>(Dest)) 358090c78328e70cb376754edf87708505a84c044271Anna Zaks if (UnaryOp->getOpcode() == UO_AddrOf) 3581000d428347f352979e0f6dffcf0a64e73af0a2b5Chandler Carruth ActionIdx = 1; // If its an address-of operator, just remove it. 35827adf4179f827b14b025135829dadeaa2442e1d42Fariborz Jahanian if (!PointeeTy->isIncompleteType() && 35837adf4179f827b14b025135829dadeaa2442e1d42Fariborz Jahanian (Context.getTypeSize(PointeeTy) == Context.getCharWidth())) 3584000d428347f352979e0f6dffcf0a64e73af0a2b5Chandler Carruth ActionIdx = 2; // If the pointee's size is sizeof(char), 3585000d428347f352979e0f6dffcf0a64e73af0a2b5Chandler Carruth // suggest an explicit length. 35866fcb3727e31280ba816dc86d024586b8c5933c13Anna Zaks 35876fcb3727e31280ba816dc86d024586b8c5933c13Anna Zaks // If the function is defined as a builtin macro, do not show macro 35886fcb3727e31280ba816dc86d024586b8c5933c13Anna Zaks // expansion. 35896fcb3727e31280ba816dc86d024586b8c5933c13Anna Zaks SourceLocation SL = SizeOfArg->getExprLoc(); 35906fcb3727e31280ba816dc86d024586b8c5933c13Anna Zaks SourceRange DSR = Dest->getSourceRange(); 35916fcb3727e31280ba816dc86d024586b8c5933c13Anna Zaks SourceRange SSR = SizeOfArg->getSourceRange(); 35926fcb3727e31280ba816dc86d024586b8c5933c13Anna Zaks SourceManager &SM = PP.getSourceManager(); 35936fcb3727e31280ba816dc86d024586b8c5933c13Anna Zaks 35946fcb3727e31280ba816dc86d024586b8c5933c13Anna Zaks if (SM.isMacroArgExpansion(SL)) { 35956fcb3727e31280ba816dc86d024586b8c5933c13Anna Zaks ReadableName = Lexer::getImmediateMacroName(SL, SM, LangOpts); 35966fcb3727e31280ba816dc86d024586b8c5933c13Anna Zaks SL = SM.getSpellingLoc(SL); 35976fcb3727e31280ba816dc86d024586b8c5933c13Anna Zaks DSR = SourceRange(SM.getSpellingLoc(DSR.getBegin()), 35986fcb3727e31280ba816dc86d024586b8c5933c13Anna Zaks SM.getSpellingLoc(DSR.getEnd())); 35996fcb3727e31280ba816dc86d024586b8c5933c13Anna Zaks SSR = SourceRange(SM.getSpellingLoc(SSR.getBegin()), 36006fcb3727e31280ba816dc86d024586b8c5933c13Anna Zaks SM.getSpellingLoc(SSR.getEnd())); 36016fcb3727e31280ba816dc86d024586b8c5933c13Anna Zaks } 36026fcb3727e31280ba816dc86d024586b8c5933c13Anna Zaks 360390c78328e70cb376754edf87708505a84c044271Anna Zaks DiagRuntimeBehavior(SL, SizeOfArg, 3604000d428347f352979e0f6dffcf0a64e73af0a2b5Chandler Carruth PDiag(diag::warn_sizeof_pointer_expr_memaccess) 36056fcb3727e31280ba816dc86d024586b8c5933c13Anna Zaks << ReadableName 360690c78328e70cb376754edf87708505a84c044271Anna Zaks << PointeeTy 360790c78328e70cb376754edf87708505a84c044271Anna Zaks << DestTy 36086fcb3727e31280ba816dc86d024586b8c5933c13Anna Zaks << DSR 360990c78328e70cb376754edf87708505a84c044271Anna Zaks << SSR); 361090c78328e70cb376754edf87708505a84c044271Anna Zaks DiagRuntimeBehavior(SL, SizeOfArg, 361190c78328e70cb376754edf87708505a84c044271Anna Zaks PDiag(diag::warn_sizeof_pointer_expr_memaccess_note) 361290c78328e70cb376754edf87708505a84c044271Anna Zaks << ActionIdx 361390c78328e70cb376754edf87708505a84c044271Anna Zaks << SSR); 361490c78328e70cb376754edf87708505a84c044271Anna Zaks 3615000d428347f352979e0f6dffcf0a64e73af0a2b5Chandler Carruth break; 3616000d428347f352979e0f6dffcf0a64e73af0a2b5Chandler Carruth } 3617000d428347f352979e0f6dffcf0a64e73af0a2b5Chandler Carruth } 3618000d428347f352979e0f6dffcf0a64e73af0a2b5Chandler Carruth 3619000d428347f352979e0f6dffcf0a64e73af0a2b5Chandler Carruth // Also check for cases where the sizeof argument is the exact same 3620000d428347f352979e0f6dffcf0a64e73af0a2b5Chandler Carruth // type as the memory argument, and where it points to a user-defined 3621000d428347f352979e0f6dffcf0a64e73af0a2b5Chandler Carruth // record type. 3622000d428347f352979e0f6dffcf0a64e73af0a2b5Chandler Carruth if (SizeOfArgTy != QualType()) { 3623000d428347f352979e0f6dffcf0a64e73af0a2b5Chandler Carruth if (PointeeTy->isRecordType() && 3624000d428347f352979e0f6dffcf0a64e73af0a2b5Chandler Carruth Context.typesAreCompatible(SizeOfArgTy, DestTy)) { 3625000d428347f352979e0f6dffcf0a64e73af0a2b5Chandler Carruth DiagRuntimeBehavior(LenExpr->getExprLoc(), Dest, 3626000d428347f352979e0f6dffcf0a64e73af0a2b5Chandler Carruth PDiag(diag::warn_sizeof_pointer_type_memaccess) 3627000d428347f352979e0f6dffcf0a64e73af0a2b5Chandler Carruth << FnName << SizeOfArgTy << ArgIdx 3628000d428347f352979e0f6dffcf0a64e73af0a2b5Chandler Carruth << PointeeTy << Dest->getSourceRange() 3629000d428347f352979e0f6dffcf0a64e73af0a2b5Chandler Carruth << LenExpr->getSourceRange()); 3630000d428347f352979e0f6dffcf0a64e73af0a2b5Chandler Carruth break; 3631000d428347f352979e0f6dffcf0a64e73af0a2b5Chandler Carruth } 3632e4a1c64700304459ac436fe29cb498f2da3b6194Nico Weber } 3633e4a1c64700304459ac436fe29cb498f2da3b6194Nico Weber 363406bc9eb9908e42696775b395b290827bde468c8bDouglas Gregor // Always complain about dynamic classes. 36350a151a137a68bb656acbcce7ff2407613bb80cfcAnna Zaks if (isDynamicClassType(PointeeTy)) { 36360a151a137a68bb656acbcce7ff2407613bb80cfcAnna Zaks 36370a151a137a68bb656acbcce7ff2407613bb80cfcAnna Zaks unsigned OperationType = 0; 36380a151a137a68bb656acbcce7ff2407613bb80cfcAnna Zaks // "overwritten" if we're warning about the destination for any call 36390a151a137a68bb656acbcce7ff2407613bb80cfcAnna Zaks // but memcmp; otherwise a verb appropriate to the call. 36400a151a137a68bb656acbcce7ff2407613bb80cfcAnna Zaks if (ArgIdx != 0 || BId == Builtin::BImemcmp) { 36410a151a137a68bb656acbcce7ff2407613bb80cfcAnna Zaks if (BId == Builtin::BImemcpy) 36420a151a137a68bb656acbcce7ff2407613bb80cfcAnna Zaks OperationType = 1; 36430a151a137a68bb656acbcce7ff2407613bb80cfcAnna Zaks else if(BId == Builtin::BImemmove) 36440a151a137a68bb656acbcce7ff2407613bb80cfcAnna Zaks OperationType = 2; 36450a151a137a68bb656acbcce7ff2407613bb80cfcAnna Zaks else if (BId == Builtin::BImemcmp) 36460a151a137a68bb656acbcce7ff2407613bb80cfcAnna Zaks OperationType = 3; 36470a151a137a68bb656acbcce7ff2407613bb80cfcAnna Zaks } 36480a151a137a68bb656acbcce7ff2407613bb80cfcAnna Zaks 36495c5218e188b39b2e93b541156a69ef061e11aab8Matt Beaumont-Gay DiagRuntimeBehavior( 36505c5218e188b39b2e93b541156a69ef061e11aab8Matt Beaumont-Gay Dest->getExprLoc(), Dest, 36515c5218e188b39b2e93b541156a69ef061e11aab8Matt Beaumont-Gay PDiag(diag::warn_dyn_class_memaccess) 36520a151a137a68bb656acbcce7ff2407613bb80cfcAnna Zaks << (BId == Builtin::BImemcmp ? ArgIdx + 2 : ArgIdx) 3653d9b859a74ecaede23a78d37f364498102ef418c9Anna Zaks << FnName << PointeeTy 36540a151a137a68bb656acbcce7ff2407613bb80cfcAnna Zaks << OperationType 36555c5218e188b39b2e93b541156a69ef061e11aab8Matt Beaumont-Gay << Call->getCallee()->getSourceRange()); 36560a151a137a68bb656acbcce7ff2407613bb80cfcAnna Zaks } else if (PointeeTy.hasNonTrivialObjCLifetime() && 36570a151a137a68bb656acbcce7ff2407613bb80cfcAnna Zaks BId != Builtin::BImemset) 36585c5218e188b39b2e93b541156a69ef061e11aab8Matt Beaumont-Gay DiagRuntimeBehavior( 36595c5218e188b39b2e93b541156a69ef061e11aab8Matt Beaumont-Gay Dest->getExprLoc(), Dest, 36605c5218e188b39b2e93b541156a69ef061e11aab8Matt Beaumont-Gay PDiag(diag::warn_arc_object_memaccess) 36615c5218e188b39b2e93b541156a69ef061e11aab8Matt Beaumont-Gay << ArgIdx << FnName << PointeeTy 36625c5218e188b39b2e93b541156a69ef061e11aab8Matt Beaumont-Gay << Call->getCallee()->getSourceRange()); 3663f85e193739c953358c865005855253af4f68a497John McCall else 366406bc9eb9908e42696775b395b290827bde468c8bDouglas Gregor continue; 3665f85e193739c953358c865005855253af4f68a497John McCall 3666f85e193739c953358c865005855253af4f68a497John McCall DiagRuntimeBehavior( 3667f85e193739c953358c865005855253af4f68a497John McCall Dest->getExprLoc(), Dest, 3668929f0135ab60166202f52e0dd19835c0490d792aChandler Carruth PDiag(diag::note_bad_memaccess_silence) 366906bc9eb9908e42696775b395b290827bde468c8bDouglas Gregor << FixItHint::CreateInsertion(ArgRange.getBegin(), "(void*)")); 367006bc9eb9908e42696775b395b290827bde468c8bDouglas Gregor break; 367106bc9eb9908e42696775b395b290827bde468c8bDouglas Gregor } 36727ccc95bceebb2d1c8fbe277c9e33bde7dc1ccbb1Chandler Carruth } 36737ccc95bceebb2d1c8fbe277c9e33bde7dc1ccbb1Chandler Carruth} 36747ccc95bceebb2d1c8fbe277c9e33bde7dc1ccbb1Chandler Carruth 3675bd5da9d1a711e90b3bc265b4798954085c0b48d9Ted Kremenek// A little helper routine: ignore addition and subtraction of integer literals. 3676bd5da9d1a711e90b3bc265b4798954085c0b48d9Ted Kremenek// This intentionally does not ignore all integer constant expressions because 3677bd5da9d1a711e90b3bc265b4798954085c0b48d9Ted Kremenek// we don't want to remove sizeof(). 3678bd5da9d1a711e90b3bc265b4798954085c0b48d9Ted Kremenekstatic const Expr *ignoreLiteralAdditions(const Expr *Ex, ASTContext &Ctx) { 3679bd5da9d1a711e90b3bc265b4798954085c0b48d9Ted Kremenek Ex = Ex->IgnoreParenCasts(); 3680bd5da9d1a711e90b3bc265b4798954085c0b48d9Ted Kremenek 3681bd5da9d1a711e90b3bc265b4798954085c0b48d9Ted Kremenek for (;;) { 3682bd5da9d1a711e90b3bc265b4798954085c0b48d9Ted Kremenek const BinaryOperator * BO = dyn_cast<BinaryOperator>(Ex); 3683bd5da9d1a711e90b3bc265b4798954085c0b48d9Ted Kremenek if (!BO || !BO->isAdditiveOp()) 3684bd5da9d1a711e90b3bc265b4798954085c0b48d9Ted Kremenek break; 3685bd5da9d1a711e90b3bc265b4798954085c0b48d9Ted Kremenek 3686bd5da9d1a711e90b3bc265b4798954085c0b48d9Ted Kremenek const Expr *RHS = BO->getRHS()->IgnoreParenCasts(); 3687bd5da9d1a711e90b3bc265b4798954085c0b48d9Ted Kremenek const Expr *LHS = BO->getLHS()->IgnoreParenCasts(); 3688bd5da9d1a711e90b3bc265b4798954085c0b48d9Ted Kremenek 3689bd5da9d1a711e90b3bc265b4798954085c0b48d9Ted Kremenek if (isa<IntegerLiteral>(RHS)) 3690bd5da9d1a711e90b3bc265b4798954085c0b48d9Ted Kremenek Ex = LHS; 3691bd5da9d1a711e90b3bc265b4798954085c0b48d9Ted Kremenek else if (isa<IntegerLiteral>(LHS)) 3692bd5da9d1a711e90b3bc265b4798954085c0b48d9Ted Kremenek Ex = RHS; 3693bd5da9d1a711e90b3bc265b4798954085c0b48d9Ted Kremenek else 3694bd5da9d1a711e90b3bc265b4798954085c0b48d9Ted Kremenek break; 3695bd5da9d1a711e90b3bc265b4798954085c0b48d9Ted Kremenek } 3696bd5da9d1a711e90b3bc265b4798954085c0b48d9Ted Kremenek 3697bd5da9d1a711e90b3bc265b4798954085c0b48d9Ted Kremenek return Ex; 3698bd5da9d1a711e90b3bc265b4798954085c0b48d9Ted Kremenek} 3699bd5da9d1a711e90b3bc265b4798954085c0b48d9Ted Kremenek 37000f38acee92014cb15af980808f87144e5564031dAnna Zaksstatic bool isConstantSizeArrayWithMoreThanOneElement(QualType Ty, 37010f38acee92014cb15af980808f87144e5564031dAnna Zaks ASTContext &Context) { 37020f38acee92014cb15af980808f87144e5564031dAnna Zaks // Only handle constant-sized or VLAs, but not flexible members. 37030f38acee92014cb15af980808f87144e5564031dAnna Zaks if (const ConstantArrayType *CAT = Context.getAsConstantArrayType(Ty)) { 37040f38acee92014cb15af980808f87144e5564031dAnna Zaks // Only issue the FIXIT for arrays of size > 1. 37050f38acee92014cb15af980808f87144e5564031dAnna Zaks if (CAT->getSize().getSExtValue() <= 1) 37060f38acee92014cb15af980808f87144e5564031dAnna Zaks return false; 37070f38acee92014cb15af980808f87144e5564031dAnna Zaks } else if (!Ty->isVariableArrayType()) { 37080f38acee92014cb15af980808f87144e5564031dAnna Zaks return false; 37090f38acee92014cb15af980808f87144e5564031dAnna Zaks } 37100f38acee92014cb15af980808f87144e5564031dAnna Zaks return true; 37110f38acee92014cb15af980808f87144e5564031dAnna Zaks} 37120f38acee92014cb15af980808f87144e5564031dAnna Zaks 3713bd5da9d1a711e90b3bc265b4798954085c0b48d9Ted Kremenek// Warn if the user has made the 'size' argument to strlcpy or strlcat 3714bd5da9d1a711e90b3bc265b4798954085c0b48d9Ted Kremenek// be the size of the source, instead of the destination. 3715bd5da9d1a711e90b3bc265b4798954085c0b48d9Ted Kremenekvoid Sema::CheckStrlcpycatArguments(const CallExpr *Call, 3716bd5da9d1a711e90b3bc265b4798954085c0b48d9Ted Kremenek IdentifierInfo *FnName) { 3717bd5da9d1a711e90b3bc265b4798954085c0b48d9Ted Kremenek 3718bd5da9d1a711e90b3bc265b4798954085c0b48d9Ted Kremenek // Don't crash if the user has the wrong number of arguments 3719bd5da9d1a711e90b3bc265b4798954085c0b48d9Ted Kremenek if (Call->getNumArgs() != 3) 3720bd5da9d1a711e90b3bc265b4798954085c0b48d9Ted Kremenek return; 3721bd5da9d1a711e90b3bc265b4798954085c0b48d9Ted Kremenek 3722bd5da9d1a711e90b3bc265b4798954085c0b48d9Ted Kremenek const Expr *SrcArg = ignoreLiteralAdditions(Call->getArg(1), Context); 3723bd5da9d1a711e90b3bc265b4798954085c0b48d9Ted Kremenek const Expr *SizeArg = ignoreLiteralAdditions(Call->getArg(2), Context); 3724bd5da9d1a711e90b3bc265b4798954085c0b48d9Ted Kremenek const Expr *CompareWithSrc = NULL; 3725bd5da9d1a711e90b3bc265b4798954085c0b48d9Ted Kremenek 3726bd5da9d1a711e90b3bc265b4798954085c0b48d9Ted Kremenek // Look for 'strlcpy(dst, x, sizeof(x))' 3727bd5da9d1a711e90b3bc265b4798954085c0b48d9Ted Kremenek if (const Expr *Ex = getSizeOfExprArg(SizeArg)) 3728bd5da9d1a711e90b3bc265b4798954085c0b48d9Ted Kremenek CompareWithSrc = Ex; 3729bd5da9d1a711e90b3bc265b4798954085c0b48d9Ted Kremenek else { 3730bd5da9d1a711e90b3bc265b4798954085c0b48d9Ted Kremenek // Look for 'strlcpy(dst, x, strlen(x))' 3731bd5da9d1a711e90b3bc265b4798954085c0b48d9Ted Kremenek if (const CallExpr *SizeCall = dyn_cast<CallExpr>(SizeArg)) { 3732180f47959a066795cc0f409433023af448bb0328Richard Smith if (SizeCall->isBuiltinCall() == Builtin::BIstrlen 3733bd5da9d1a711e90b3bc265b4798954085c0b48d9Ted Kremenek && SizeCall->getNumArgs() == 1) 3734bd5da9d1a711e90b3bc265b4798954085c0b48d9Ted Kremenek CompareWithSrc = ignoreLiteralAdditions(SizeCall->getArg(0), Context); 3735bd5da9d1a711e90b3bc265b4798954085c0b48d9Ted Kremenek } 3736bd5da9d1a711e90b3bc265b4798954085c0b48d9Ted Kremenek } 3737bd5da9d1a711e90b3bc265b4798954085c0b48d9Ted Kremenek 3738bd5da9d1a711e90b3bc265b4798954085c0b48d9Ted Kremenek if (!CompareWithSrc) 3739bd5da9d1a711e90b3bc265b4798954085c0b48d9Ted Kremenek return; 3740bd5da9d1a711e90b3bc265b4798954085c0b48d9Ted Kremenek 3741bd5da9d1a711e90b3bc265b4798954085c0b48d9Ted Kremenek // Determine if the argument to sizeof/strlen is equal to the source 3742bd5da9d1a711e90b3bc265b4798954085c0b48d9Ted Kremenek // argument. In principle there's all kinds of things you could do 3743bd5da9d1a711e90b3bc265b4798954085c0b48d9Ted Kremenek // here, for instance creating an == expression and evaluating it with 3744bd5da9d1a711e90b3bc265b4798954085c0b48d9Ted Kremenek // EvaluateAsBooleanCondition, but this uses a more direct technique: 3745bd5da9d1a711e90b3bc265b4798954085c0b48d9Ted Kremenek const DeclRefExpr *SrcArgDRE = dyn_cast<DeclRefExpr>(SrcArg); 3746bd5da9d1a711e90b3bc265b4798954085c0b48d9Ted Kremenek if (!SrcArgDRE) 3747bd5da9d1a711e90b3bc265b4798954085c0b48d9Ted Kremenek return; 3748bd5da9d1a711e90b3bc265b4798954085c0b48d9Ted Kremenek 3749bd5da9d1a711e90b3bc265b4798954085c0b48d9Ted Kremenek const DeclRefExpr *CompareWithSrcDRE = dyn_cast<DeclRefExpr>(CompareWithSrc); 3750bd5da9d1a711e90b3bc265b4798954085c0b48d9Ted Kremenek if (!CompareWithSrcDRE || 3751bd5da9d1a711e90b3bc265b4798954085c0b48d9Ted Kremenek SrcArgDRE->getDecl() != CompareWithSrcDRE->getDecl()) 3752bd5da9d1a711e90b3bc265b4798954085c0b48d9Ted Kremenek return; 3753bd5da9d1a711e90b3bc265b4798954085c0b48d9Ted Kremenek 3754bd5da9d1a711e90b3bc265b4798954085c0b48d9Ted Kremenek const Expr *OriginalSizeArg = Call->getArg(2); 3755bd5da9d1a711e90b3bc265b4798954085c0b48d9Ted Kremenek Diag(CompareWithSrcDRE->getLocStart(), diag::warn_strlcpycat_wrong_size) 3756bd5da9d1a711e90b3bc265b4798954085c0b48d9Ted Kremenek << OriginalSizeArg->getSourceRange() << FnName; 3757bd5da9d1a711e90b3bc265b4798954085c0b48d9Ted Kremenek 3758bd5da9d1a711e90b3bc265b4798954085c0b48d9Ted Kremenek // Output a FIXIT hint if the destination is an array (rather than a 3759bd5da9d1a711e90b3bc265b4798954085c0b48d9Ted Kremenek // pointer to an array). This could be enhanced to handle some 3760bd5da9d1a711e90b3bc265b4798954085c0b48d9Ted Kremenek // pointers if we know the actual size, like if DstArg is 'array+2' 3761bd5da9d1a711e90b3bc265b4798954085c0b48d9Ted Kremenek // we could say 'sizeof(array)-2'. 3762bd5da9d1a711e90b3bc265b4798954085c0b48d9Ted Kremenek const Expr *DstArg = Call->getArg(0)->IgnoreParenImpCasts(); 37630f38acee92014cb15af980808f87144e5564031dAnna Zaks if (!isConstantSizeArrayWithMoreThanOneElement(DstArg->getType(), Context)) 37648f7462237ff542a4556775f98709ed300aa1731aTed Kremenek return; 37658f7462237ff542a4556775f98709ed300aa1731aTed Kremenek 3766f7ccbad5d9949e7ddd1cbef43d482553b811e026Dylan Noblesmith SmallString<128> sizeString; 37678f7462237ff542a4556775f98709ed300aa1731aTed Kremenek llvm::raw_svector_ostream OS(sizeString); 37688f7462237ff542a4556775f98709ed300aa1731aTed Kremenek OS << "sizeof("; 3769d1420c6fa788669e49f21e184927c7833881e399Richard Smith DstArg->printPretty(OS, 0, getPrintingPolicy()); 37708f7462237ff542a4556775f98709ed300aa1731aTed Kremenek OS << ")"; 37718f7462237ff542a4556775f98709ed300aa1731aTed Kremenek 37728f7462237ff542a4556775f98709ed300aa1731aTed Kremenek Diag(OriginalSizeArg->getLocStart(), diag::note_strlcpycat_wrong_size) 37738f7462237ff542a4556775f98709ed300aa1731aTed Kremenek << FixItHint::CreateReplacement(OriginalSizeArg->getSourceRange(), 37748f7462237ff542a4556775f98709ed300aa1731aTed Kremenek OS.str()); 3775bd5da9d1a711e90b3bc265b4798954085c0b48d9Ted Kremenek} 3776bd5da9d1a711e90b3bc265b4798954085c0b48d9Ted Kremenek 3777c36bedc90c687caa71748480c60707ea4608b092Anna Zaks/// Check if two expressions refer to the same declaration. 3778c36bedc90c687caa71748480c60707ea4608b092Anna Zaksstatic bool referToTheSameDecl(const Expr *E1, const Expr *E2) { 3779c36bedc90c687caa71748480c60707ea4608b092Anna Zaks if (const DeclRefExpr *D1 = dyn_cast_or_null<DeclRefExpr>(E1)) 3780c36bedc90c687caa71748480c60707ea4608b092Anna Zaks if (const DeclRefExpr *D2 = dyn_cast_or_null<DeclRefExpr>(E2)) 3781c36bedc90c687caa71748480c60707ea4608b092Anna Zaks return D1->getDecl() == D2->getDecl(); 3782c36bedc90c687caa71748480c60707ea4608b092Anna Zaks return false; 3783c36bedc90c687caa71748480c60707ea4608b092Anna Zaks} 3784c36bedc90c687caa71748480c60707ea4608b092Anna Zaks 3785c36bedc90c687caa71748480c60707ea4608b092Anna Zaksstatic const Expr *getStrlenExprArg(const Expr *E) { 3786c36bedc90c687caa71748480c60707ea4608b092Anna Zaks if (const CallExpr *CE = dyn_cast<CallExpr>(E)) { 3787c36bedc90c687caa71748480c60707ea4608b092Anna Zaks const FunctionDecl *FD = CE->getDirectCallee(); 3788c36bedc90c687caa71748480c60707ea4608b092Anna Zaks if (!FD || FD->getMemoryFunctionKind() != Builtin::BIstrlen) 3789c36bedc90c687caa71748480c60707ea4608b092Anna Zaks return 0; 3790c36bedc90c687caa71748480c60707ea4608b092Anna Zaks return CE->getArg(0)->IgnoreParenCasts(); 3791c36bedc90c687caa71748480c60707ea4608b092Anna Zaks } 3792c36bedc90c687caa71748480c60707ea4608b092Anna Zaks return 0; 3793c36bedc90c687caa71748480c60707ea4608b092Anna Zaks} 3794c36bedc90c687caa71748480c60707ea4608b092Anna Zaks 3795c36bedc90c687caa71748480c60707ea4608b092Anna Zaks// Warn on anti-patterns as the 'size' argument to strncat. 3796c36bedc90c687caa71748480c60707ea4608b092Anna Zaks// The correct size argument should look like following: 3797c36bedc90c687caa71748480c60707ea4608b092Anna Zaks// strncat(dst, src, sizeof(dst) - strlen(dest) - 1); 3798c36bedc90c687caa71748480c60707ea4608b092Anna Zaksvoid Sema::CheckStrncatArguments(const CallExpr *CE, 3799c36bedc90c687caa71748480c60707ea4608b092Anna Zaks IdentifierInfo *FnName) { 3800c36bedc90c687caa71748480c60707ea4608b092Anna Zaks // Don't crash if the user has the wrong number of arguments. 3801c36bedc90c687caa71748480c60707ea4608b092Anna Zaks if (CE->getNumArgs() < 3) 3802c36bedc90c687caa71748480c60707ea4608b092Anna Zaks return; 3803c36bedc90c687caa71748480c60707ea4608b092Anna Zaks const Expr *DstArg = CE->getArg(0)->IgnoreParenCasts(); 3804c36bedc90c687caa71748480c60707ea4608b092Anna Zaks const Expr *SrcArg = CE->getArg(1)->IgnoreParenCasts(); 3805c36bedc90c687caa71748480c60707ea4608b092Anna Zaks const Expr *LenArg = CE->getArg(2)->IgnoreParenCasts(); 3806c36bedc90c687caa71748480c60707ea4608b092Anna Zaks 3807c36bedc90c687caa71748480c60707ea4608b092Anna Zaks // Identify common expressions, which are wrongly used as the size argument 3808c36bedc90c687caa71748480c60707ea4608b092Anna Zaks // to strncat and may lead to buffer overflows. 3809c36bedc90c687caa71748480c60707ea4608b092Anna Zaks unsigned PatternType = 0; 3810c36bedc90c687caa71748480c60707ea4608b092Anna Zaks if (const Expr *SizeOfArg = getSizeOfExprArg(LenArg)) { 3811c36bedc90c687caa71748480c60707ea4608b092Anna Zaks // - sizeof(dst) 3812c36bedc90c687caa71748480c60707ea4608b092Anna Zaks if (referToTheSameDecl(SizeOfArg, DstArg)) 3813c36bedc90c687caa71748480c60707ea4608b092Anna Zaks PatternType = 1; 3814c36bedc90c687caa71748480c60707ea4608b092Anna Zaks // - sizeof(src) 3815c36bedc90c687caa71748480c60707ea4608b092Anna Zaks else if (referToTheSameDecl(SizeOfArg, SrcArg)) 3816c36bedc90c687caa71748480c60707ea4608b092Anna Zaks PatternType = 2; 3817c36bedc90c687caa71748480c60707ea4608b092Anna Zaks } else if (const BinaryOperator *BE = dyn_cast<BinaryOperator>(LenArg)) { 3818c36bedc90c687caa71748480c60707ea4608b092Anna Zaks if (BE->getOpcode() == BO_Sub) { 3819c36bedc90c687caa71748480c60707ea4608b092Anna Zaks const Expr *L = BE->getLHS()->IgnoreParenCasts(); 3820c36bedc90c687caa71748480c60707ea4608b092Anna Zaks const Expr *R = BE->getRHS()->IgnoreParenCasts(); 3821c36bedc90c687caa71748480c60707ea4608b092Anna Zaks // - sizeof(dst) - strlen(dst) 3822c36bedc90c687caa71748480c60707ea4608b092Anna Zaks if (referToTheSameDecl(DstArg, getSizeOfExprArg(L)) && 3823c36bedc90c687caa71748480c60707ea4608b092Anna Zaks referToTheSameDecl(DstArg, getStrlenExprArg(R))) 3824c36bedc90c687caa71748480c60707ea4608b092Anna Zaks PatternType = 1; 3825c36bedc90c687caa71748480c60707ea4608b092Anna Zaks // - sizeof(src) - (anything) 3826c36bedc90c687caa71748480c60707ea4608b092Anna Zaks else if (referToTheSameDecl(SrcArg, getSizeOfExprArg(L))) 3827c36bedc90c687caa71748480c60707ea4608b092Anna Zaks PatternType = 2; 3828c36bedc90c687caa71748480c60707ea4608b092Anna Zaks } 3829c36bedc90c687caa71748480c60707ea4608b092Anna Zaks } 3830c36bedc90c687caa71748480c60707ea4608b092Anna Zaks 3831c36bedc90c687caa71748480c60707ea4608b092Anna Zaks if (PatternType == 0) 3832c36bedc90c687caa71748480c60707ea4608b092Anna Zaks return; 3833c36bedc90c687caa71748480c60707ea4608b092Anna Zaks 3834afdb041308bca3e875b23e7a22d879e9039bff03Anna Zaks // Generate the diagnostic. 3835afdb041308bca3e875b23e7a22d879e9039bff03Anna Zaks SourceLocation SL = LenArg->getLocStart(); 3836afdb041308bca3e875b23e7a22d879e9039bff03Anna Zaks SourceRange SR = LenArg->getSourceRange(); 3837afdb041308bca3e875b23e7a22d879e9039bff03Anna Zaks SourceManager &SM = PP.getSourceManager(); 3838afdb041308bca3e875b23e7a22d879e9039bff03Anna Zaks 3839afdb041308bca3e875b23e7a22d879e9039bff03Anna Zaks // If the function is defined as a builtin macro, do not show macro expansion. 3840afdb041308bca3e875b23e7a22d879e9039bff03Anna Zaks if (SM.isMacroArgExpansion(SL)) { 3841afdb041308bca3e875b23e7a22d879e9039bff03Anna Zaks SL = SM.getSpellingLoc(SL); 3842afdb041308bca3e875b23e7a22d879e9039bff03Anna Zaks SR = SourceRange(SM.getSpellingLoc(SR.getBegin()), 3843afdb041308bca3e875b23e7a22d879e9039bff03Anna Zaks SM.getSpellingLoc(SR.getEnd())); 3844afdb041308bca3e875b23e7a22d879e9039bff03Anna Zaks } 3845afdb041308bca3e875b23e7a22d879e9039bff03Anna Zaks 38460f38acee92014cb15af980808f87144e5564031dAnna Zaks // Check if the destination is an array (rather than a pointer to an array). 38470f38acee92014cb15af980808f87144e5564031dAnna Zaks QualType DstTy = DstArg->getType(); 38480f38acee92014cb15af980808f87144e5564031dAnna Zaks bool isKnownSizeArray = isConstantSizeArrayWithMoreThanOneElement(DstTy, 38490f38acee92014cb15af980808f87144e5564031dAnna Zaks Context); 38500f38acee92014cb15af980808f87144e5564031dAnna Zaks if (!isKnownSizeArray) { 38510f38acee92014cb15af980808f87144e5564031dAnna Zaks if (PatternType == 1) 38520f38acee92014cb15af980808f87144e5564031dAnna Zaks Diag(SL, diag::warn_strncat_wrong_size) << SR; 38530f38acee92014cb15af980808f87144e5564031dAnna Zaks else 38540f38acee92014cb15af980808f87144e5564031dAnna Zaks Diag(SL, diag::warn_strncat_src_size) << SR; 38550f38acee92014cb15af980808f87144e5564031dAnna Zaks return; 38560f38acee92014cb15af980808f87144e5564031dAnna Zaks } 38570f38acee92014cb15af980808f87144e5564031dAnna Zaks 3858c36bedc90c687caa71748480c60707ea4608b092Anna Zaks if (PatternType == 1) 3859afdb041308bca3e875b23e7a22d879e9039bff03Anna Zaks Diag(SL, diag::warn_strncat_large_size) << SR; 3860c36bedc90c687caa71748480c60707ea4608b092Anna Zaks else 3861afdb041308bca3e875b23e7a22d879e9039bff03Anna Zaks Diag(SL, diag::warn_strncat_src_size) << SR; 3862c36bedc90c687caa71748480c60707ea4608b092Anna Zaks 3863f7ccbad5d9949e7ddd1cbef43d482553b811e026Dylan Noblesmith SmallString<128> sizeString; 3864c36bedc90c687caa71748480c60707ea4608b092Anna Zaks llvm::raw_svector_ostream OS(sizeString); 3865c36bedc90c687caa71748480c60707ea4608b092Anna Zaks OS << "sizeof("; 3866d1420c6fa788669e49f21e184927c7833881e399Richard Smith DstArg->printPretty(OS, 0, getPrintingPolicy()); 3867c36bedc90c687caa71748480c60707ea4608b092Anna Zaks OS << ") - "; 3868c36bedc90c687caa71748480c60707ea4608b092Anna Zaks OS << "strlen("; 3869d1420c6fa788669e49f21e184927c7833881e399Richard Smith DstArg->printPretty(OS, 0, getPrintingPolicy()); 3870c36bedc90c687caa71748480c60707ea4608b092Anna Zaks OS << ") - 1"; 3871c36bedc90c687caa71748480c60707ea4608b092Anna Zaks 3872afdb041308bca3e875b23e7a22d879e9039bff03Anna Zaks Diag(SL, diag::note_strncat_wrong_size) 3873afdb041308bca3e875b23e7a22d879e9039bff03Anna Zaks << FixItHint::CreateReplacement(SR, OS.str()); 3874c36bedc90c687caa71748480c60707ea4608b092Anna Zaks} 3875c36bedc90c687caa71748480c60707ea4608b092Anna Zaks 387606de276fff91264437fa75111ed76de43097e089Ted Kremenek//===--- CHECK: Return Address of Stack Variable --------------------------===// 387706de276fff91264437fa75111ed76de43097e089Ted Kremenek 3878e720ce7a3b1c1bfa5f7482183caa6e31fca9a3fbArgyrios Kyrtzidisstatic Expr *EvalVal(Expr *E, SmallVectorImpl<DeclRefExpr *> &refVars, 3879e720ce7a3b1c1bfa5f7482183caa6e31fca9a3fbArgyrios Kyrtzidis Decl *ParentDecl); 3880e720ce7a3b1c1bfa5f7482183caa6e31fca9a3fbArgyrios Kyrtzidisstatic Expr *EvalAddr(Expr* E, SmallVectorImpl<DeclRefExpr *> &refVars, 3881e720ce7a3b1c1bfa5f7482183caa6e31fca9a3fbArgyrios Kyrtzidis Decl *ParentDecl); 388206de276fff91264437fa75111ed76de43097e089Ted Kremenek 388306de276fff91264437fa75111ed76de43097e089Ted Kremenek/// CheckReturnStackAddr - Check if a return statement returns the address 388406de276fff91264437fa75111ed76de43097e089Ted Kremenek/// of a stack variable. 388506de276fff91264437fa75111ed76de43097e089Ted Kremenekvoid 388606de276fff91264437fa75111ed76de43097e089Ted KremenekSema::CheckReturnStackAddr(Expr *RetValExp, QualType lhsType, 388706de276fff91264437fa75111ed76de43097e089Ted Kremenek SourceLocation ReturnLoc) { 38881eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump 388926e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis Expr *stackE = 0; 38905f9e272e632e951b1efe824cd16acb4d96077930Chris Lattner SmallVector<DeclRefExpr *, 8> refVars; 38914e4b30ec62d78b24e6556fea2624855c193d0e3eTed Kremenek 389226e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis // Perform checking for returned stack addresses, local blocks, 389326e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis // label addresses or references to temporaries. 3894f85e193739c953358c865005855253af4f68a497John McCall if (lhsType->isPointerType() || 38954e4d08403ca5cfd4d558fa2936215d3a4e5a528dDavid Blaikie (!getLangOpts().ObjCAutoRefCount && lhsType->isBlockPointerType())) { 3896e720ce7a3b1c1bfa5f7482183caa6e31fca9a3fbArgyrios Kyrtzidis stackE = EvalAddr(RetValExp, refVars, /*ParentDecl=*/0); 3897ac5fc7c6bcb494b60fee7ce615ac931c5db6135eMike Stump } else if (lhsType->isReferenceType()) { 3898e720ce7a3b1c1bfa5f7482183caa6e31fca9a3fbArgyrios Kyrtzidis stackE = EvalVal(RetValExp, refVars, /*ParentDecl=*/0); 389926e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis } 390026e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis 390126e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis if (stackE == 0) 390226e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis return; // Nothing suspicious was found. 390326e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis 390426e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis SourceLocation diagLoc; 390526e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis SourceRange diagRange; 390626e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis if (refVars.empty()) { 390726e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis diagLoc = stackE->getLocStart(); 390826e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis diagRange = stackE->getSourceRange(); 390926e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis } else { 391026e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis // We followed through a reference variable. 'stackE' contains the 391126e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis // problematic expression but we will warn at the return statement pointing 391226e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis // at the reference variable. We will later display the "trail" of 391326e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis // reference variables using notes. 391426e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis diagLoc = refVars[0]->getLocStart(); 391526e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis diagRange = refVars[0]->getSourceRange(); 391626e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis } 391726e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis 391826e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis if (DeclRefExpr *DR = dyn_cast<DeclRefExpr>(stackE)) { //address of local var. 391926e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis Diag(diagLoc, lhsType->isReferenceType() ? diag::warn_ret_stack_ref 392026e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis : diag::warn_ret_stack_addr) 392126e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis << DR->getDecl()->getDeclName() << diagRange; 392226e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis } else if (isa<BlockExpr>(stackE)) { // local block. 392326e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis Diag(diagLoc, diag::err_ret_local_block) << diagRange; 392426e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis } else if (isa<AddrLabelExpr>(stackE)) { // address of label. 392526e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis Diag(diagLoc, diag::warn_ret_addr_label) << diagRange; 392626e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis } else { // local temporary. 392726e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis Diag(diagLoc, lhsType->isReferenceType() ? diag::warn_ret_local_temp_ref 392826e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis : diag::warn_ret_local_temp_addr) 392926e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis << diagRange; 393026e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis } 393126e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis 393226e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis // Display the "trail" of reference variables that we followed until we 393326e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis // found the problematic expression using notes. 393426e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis for (unsigned i = 0, e = refVars.size(); i != e; ++i) { 393526e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis VarDecl *VD = cast<VarDecl>(refVars[i]->getDecl()); 393626e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis // If this var binds to another reference var, show the range of the next 393726e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis // var, otherwise the var binds to the problematic expression, in which case 393826e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis // show the range of the expression. 393926e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis SourceRange range = (i < e-1) ? refVars[i+1]->getSourceRange() 394026e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis : stackE->getSourceRange(); 394126e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis Diag(VD->getLocation(), diag::note_ref_var_local_bind) 394226e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis << VD->getDeclName() << range; 394306de276fff91264437fa75111ed76de43097e089Ted Kremenek } 394406de276fff91264437fa75111ed76de43097e089Ted Kremenek} 394506de276fff91264437fa75111ed76de43097e089Ted Kremenek 394606de276fff91264437fa75111ed76de43097e089Ted Kremenek/// EvalAddr - EvalAddr and EvalVal are mutually recursive functions that 394706de276fff91264437fa75111ed76de43097e089Ted Kremenek/// check if the expression in a return statement evaluates to an address 394826e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis/// to a location on the stack, a local block, an address of a label, or a 394926e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis/// reference to local temporary. The recursion is used to traverse the 395006de276fff91264437fa75111ed76de43097e089Ted Kremenek/// AST of the return expression, with recursion backtracking when we 395126e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis/// encounter a subexpression that (1) clearly does not lead to one of the 395226e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis/// above problematic expressions (2) is something we cannot determine leads to 395326e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis/// a problematic expression based on such local checking. 395426e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis/// 395526e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis/// Both EvalAddr and EvalVal follow through reference variables to evaluate 395626e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis/// the expression that they point to. Such variables are added to the 395726e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis/// 'refVars' vector so that we know what the reference variable "trail" was. 395806de276fff91264437fa75111ed76de43097e089Ted Kremenek/// 3959e8c600f9fedf2cfd69cdd2cb4bde4a9b39ce2873Ted Kremenek/// EvalAddr processes expressions that are pointers that are used as 3960e8c600f9fedf2cfd69cdd2cb4bde4a9b39ce2873Ted Kremenek/// references (and not L-values). EvalVal handles all other values. 396126e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis/// At the base case of the recursion is a check for the above problematic 396226e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis/// expressions. 396306de276fff91264437fa75111ed76de43097e089Ted Kremenek/// 396406de276fff91264437fa75111ed76de43097e089Ted Kremenek/// This implementation handles: 396506de276fff91264437fa75111ed76de43097e089Ted Kremenek/// 396606de276fff91264437fa75111ed76de43097e089Ted Kremenek/// * pointer-to-pointer casts 396706de276fff91264437fa75111ed76de43097e089Ted Kremenek/// * implicit conversions from array references to pointers 396806de276fff91264437fa75111ed76de43097e089Ted Kremenek/// * taking the address of fields 396906de276fff91264437fa75111ed76de43097e089Ted Kremenek/// * arbitrary interplay between "&" and "*" operators 397006de276fff91264437fa75111ed76de43097e089Ted Kremenek/// * pointer arithmetic from an address of a stack variable 397106de276fff91264437fa75111ed76de43097e089Ted Kremenek/// * taking the address of an array element where the array is on the stack 3972e720ce7a3b1c1bfa5f7482183caa6e31fca9a3fbArgyrios Kyrtzidisstatic Expr *EvalAddr(Expr *E, SmallVectorImpl<DeclRefExpr *> &refVars, 3973e720ce7a3b1c1bfa5f7482183caa6e31fca9a3fbArgyrios Kyrtzidis Decl *ParentDecl) { 397426e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis if (E->isTypeDependent()) 3975b61c294a24324ca0a403df770c01e0ba0b88770bCraig Topper return NULL; 397626e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis 397706de276fff91264437fa75111ed76de43097e089Ted Kremenek // We should only be called for evaluating pointer expressions. 39780f436560640a1cff5b6d96f80f540770f139453fDavid Chisnall assert((E->getType()->isAnyPointerType() || 3979dd972f20dc2bd3609d833893e5c6544ac09b59a9Steve Naroff E->getType()->isBlockPointerType() || 3980a526c5c67e5a0473c340903ee542ce570119665fTed Kremenek E->getType()->isObjCQualifiedIdType()) && 3981fae3f1f6565c74d3238747b58357a6e56fbb0e9cChris Lattner "EvalAddr only works on pointers"); 39821eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump 3983f111d935722ed488144600cea5ed03a6b5069e8fPeter Collingbourne E = E->IgnoreParens(); 3984f111d935722ed488144600cea5ed03a6b5069e8fPeter Collingbourne 398506de276fff91264437fa75111ed76de43097e089Ted Kremenek // Our "symbolic interpreter" is just a dispatch off the currently 398606de276fff91264437fa75111ed76de43097e089Ted Kremenek // viewed AST node. We then recursively traverse the AST by calling 398706de276fff91264437fa75111ed76de43097e089Ted Kremenek // EvalAddr and EvalVal appropriately. 398806de276fff91264437fa75111ed76de43097e089Ted Kremenek switch (E->getStmtClass()) { 398926e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis case Stmt::DeclRefExprClass: { 399026e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis DeclRefExpr *DR = cast<DeclRefExpr>(E); 399126e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis 399226e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis if (VarDecl *V = dyn_cast<VarDecl>(DR->getDecl())) 399326e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis // If this is a reference variable, follow through to the expression that 399426e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis // it points to. 399526e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis if (V->hasLocalStorage() && 399626e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis V->getType()->isReferenceType() && V->hasInit()) { 399726e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis // Add the reference variable to the "trail". 399826e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis refVars.push_back(DR); 3999e720ce7a3b1c1bfa5f7482183caa6e31fca9a3fbArgyrios Kyrtzidis return EvalAddr(V->getInit(), refVars, ParentDecl); 400026e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis } 400126e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis 400226e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis return NULL; 400326e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis } 400406de276fff91264437fa75111ed76de43097e089Ted Kremenek 4005fae3f1f6565c74d3238747b58357a6e56fbb0e9cChris Lattner case Stmt::UnaryOperatorClass: { 4006fae3f1f6565c74d3238747b58357a6e56fbb0e9cChris Lattner // The only unary operator that make sense to handle here 4007fae3f1f6565c74d3238747b58357a6e56fbb0e9cChris Lattner // is AddrOf. All others don't make sense as pointers. 4008fae3f1f6565c74d3238747b58357a6e56fbb0e9cChris Lattner UnaryOperator *U = cast<UnaryOperator>(E); 40091eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump 40102de56d1d0c3a504ad1529de2677628bdfbb95cd4John McCall if (U->getOpcode() == UO_AddrOf) 4011e720ce7a3b1c1bfa5f7482183caa6e31fca9a3fbArgyrios Kyrtzidis return EvalVal(U->getSubExpr(), refVars, ParentDecl); 4012fae3f1f6565c74d3238747b58357a6e56fbb0e9cChris Lattner else 4013fae3f1f6565c74d3238747b58357a6e56fbb0e9cChris Lattner return NULL; 4014fae3f1f6565c74d3238747b58357a6e56fbb0e9cChris Lattner } 40151eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump 4016fae3f1f6565c74d3238747b58357a6e56fbb0e9cChris Lattner case Stmt::BinaryOperatorClass: { 4017fae3f1f6565c74d3238747b58357a6e56fbb0e9cChris Lattner // Handle pointer arithmetic. All other binary operators are not valid 4018fae3f1f6565c74d3238747b58357a6e56fbb0e9cChris Lattner // in this context. 4019fae3f1f6565c74d3238747b58357a6e56fbb0e9cChris Lattner BinaryOperator *B = cast<BinaryOperator>(E); 40202de56d1d0c3a504ad1529de2677628bdfbb95cd4John McCall BinaryOperatorKind op = B->getOpcode(); 40211eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump 40222de56d1d0c3a504ad1529de2677628bdfbb95cd4John McCall if (op != BO_Add && op != BO_Sub) 4023fae3f1f6565c74d3238747b58357a6e56fbb0e9cChris Lattner return NULL; 40241eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump 4025fae3f1f6565c74d3238747b58357a6e56fbb0e9cChris Lattner Expr *Base = B->getLHS(); 40263907323dd6665c0c4e383435cb145233f4533406Anders Carlsson 4027fae3f1f6565c74d3238747b58357a6e56fbb0e9cChris Lattner // Determine which argument is the real pointer base. It could be 4028fae3f1f6565c74d3238747b58357a6e56fbb0e9cChris Lattner // the RHS argument instead of the LHS. 4029fae3f1f6565c74d3238747b58357a6e56fbb0e9cChris Lattner if (!Base->getType()->isPointerType()) Base = B->getRHS(); 40301eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump 4031fae3f1f6565c74d3238747b58357a6e56fbb0e9cChris Lattner assert (Base->getType()->isPointerType()); 4032e720ce7a3b1c1bfa5f7482183caa6e31fca9a3fbArgyrios Kyrtzidis return EvalAddr(Base, refVars, ParentDecl); 4033fae3f1f6565c74d3238747b58357a6e56fbb0e9cChris Lattner } 403461f40a2b67fc2046768e14f66b617e564cbcc3d8Steve Naroff 4035fae3f1f6565c74d3238747b58357a6e56fbb0e9cChris Lattner // For conditional operators we need to see if either the LHS or RHS are 4036fae3f1f6565c74d3238747b58357a6e56fbb0e9cChris Lattner // valid DeclRefExpr*s. If one of them is valid, we return it. 4037fae3f1f6565c74d3238747b58357a6e56fbb0e9cChris Lattner case Stmt::ConditionalOperatorClass: { 4038fae3f1f6565c74d3238747b58357a6e56fbb0e9cChris Lattner ConditionalOperator *C = cast<ConditionalOperator>(E); 40391eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump 4040fae3f1f6565c74d3238747b58357a6e56fbb0e9cChris Lattner // Handle the GNU extension for missing LHS. 40419ee5ee84f0ad8246bff105786a128c7a909fdf12Douglas Gregor if (Expr *lhsExpr = C->getLHS()) { 40429ee5ee84f0ad8246bff105786a128c7a909fdf12Douglas Gregor // In C++, we can have a throw-expression, which has 'void' type. 40439ee5ee84f0ad8246bff105786a128c7a909fdf12Douglas Gregor if (!lhsExpr->getType()->isVoidType()) 4044e720ce7a3b1c1bfa5f7482183caa6e31fca9a3fbArgyrios Kyrtzidis if (Expr* LHS = EvalAddr(lhsExpr, refVars, ParentDecl)) 40459ee5ee84f0ad8246bff105786a128c7a909fdf12Douglas Gregor return LHS; 40469ee5ee84f0ad8246bff105786a128c7a909fdf12Douglas Gregor } 40479ee5ee84f0ad8246bff105786a128c7a909fdf12Douglas Gregor 40489ee5ee84f0ad8246bff105786a128c7a909fdf12Douglas Gregor // In C++, we can have a throw-expression, which has 'void' type. 40499ee5ee84f0ad8246bff105786a128c7a909fdf12Douglas Gregor if (C->getRHS()->getType()->isVoidType()) 40509ee5ee84f0ad8246bff105786a128c7a909fdf12Douglas Gregor return NULL; 405106de276fff91264437fa75111ed76de43097e089Ted Kremenek 4052e720ce7a3b1c1bfa5f7482183caa6e31fca9a3fbArgyrios Kyrtzidis return EvalAddr(C->getRHS(), refVars, ParentDecl); 4053fae3f1f6565c74d3238747b58357a6e56fbb0e9cChris Lattner } 405426e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis 405526e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis case Stmt::BlockExprClass: 4056469a1eb996e1cb0be54f9b210f836afbddcbb2ccJohn McCall if (cast<BlockExpr>(E)->getBlockDecl()->hasCaptures()) 405726e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis return E; // local block. 405826e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis return NULL; 405926e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis 406026e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis case Stmt::AddrLabelExprClass: 406126e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis return E; // address of label. 40621eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump 406380ee6e878a169e6255d4686a91bb696151ff229fJohn McCall case Stmt::ExprWithCleanupsClass: 4064e720ce7a3b1c1bfa5f7482183caa6e31fca9a3fbArgyrios Kyrtzidis return EvalAddr(cast<ExprWithCleanups>(E)->getSubExpr(), refVars, 4065e720ce7a3b1c1bfa5f7482183caa6e31fca9a3fbArgyrios Kyrtzidis ParentDecl); 406680ee6e878a169e6255d4686a91bb696151ff229fJohn McCall 406754b5274f2c190331438375ad114dad12ae098b57Ted Kremenek // For casts, we need to handle conversions from arrays to 406854b5274f2c190331438375ad114dad12ae098b57Ted Kremenek // pointer values, and pointer-to-pointer conversions. 406949badde06e066d058d6c7fcf4e628a72999b65a9Douglas Gregor case Stmt::ImplicitCastExprClass: 40706eec8e883de118b431e3ead5b1e604a6ac68ff6bDouglas Gregor case Stmt::CStyleCastExprClass: 4071f85e193739c953358c865005855253af4f68a497John McCall case Stmt::CXXFunctionalCastExprClass: 40728b9414e868853fc052251455674bf7512261e14aEli Friedman case Stmt::ObjCBridgedCastExprClass: 40731eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump case Stmt::CXXStaticCastExprClass: 40741eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump case Stmt::CXXDynamicCastExprClass: 407549badde06e066d058d6c7fcf4e628a72999b65a9Douglas Gregor case Stmt::CXXConstCastExprClass: 407649badde06e066d058d6c7fcf4e628a72999b65a9Douglas Gregor case Stmt::CXXReinterpretCastExprClass: { 40778b9414e868853fc052251455674bf7512261e14aEli Friedman Expr* SubExpr = cast<CastExpr>(E)->getSubExpr(); 40788b9414e868853fc052251455674bf7512261e14aEli Friedman switch (cast<CastExpr>(E)->getCastKind()) { 40798b9414e868853fc052251455674bf7512261e14aEli Friedman case CK_BitCast: 40808b9414e868853fc052251455674bf7512261e14aEli Friedman case CK_LValueToRValue: 40818b9414e868853fc052251455674bf7512261e14aEli Friedman case CK_NoOp: 40828b9414e868853fc052251455674bf7512261e14aEli Friedman case CK_BaseToDerived: 40838b9414e868853fc052251455674bf7512261e14aEli Friedman case CK_DerivedToBase: 40848b9414e868853fc052251455674bf7512261e14aEli Friedman case CK_UncheckedDerivedToBase: 40858b9414e868853fc052251455674bf7512261e14aEli Friedman case CK_Dynamic: 40868b9414e868853fc052251455674bf7512261e14aEli Friedman case CK_CPointerToObjCPointerCast: 40878b9414e868853fc052251455674bf7512261e14aEli Friedman case CK_BlockPointerToObjCPointerCast: 40888b9414e868853fc052251455674bf7512261e14aEli Friedman case CK_AnyPointerToBlockPointerCast: 4089e720ce7a3b1c1bfa5f7482183caa6e31fca9a3fbArgyrios Kyrtzidis return EvalAddr(SubExpr, refVars, ParentDecl); 40908b9414e868853fc052251455674bf7512261e14aEli Friedman 40918b9414e868853fc052251455674bf7512261e14aEli Friedman case CK_ArrayToPointerDecay: 4092e720ce7a3b1c1bfa5f7482183caa6e31fca9a3fbArgyrios Kyrtzidis return EvalVal(SubExpr, refVars, ParentDecl); 40938b9414e868853fc052251455674bf7512261e14aEli Friedman 40948b9414e868853fc052251455674bf7512261e14aEli Friedman default: 40958b9414e868853fc052251455674bf7512261e14aEli Friedman return 0; 40968b9414e868853fc052251455674bf7512261e14aEli Friedman } 4097fae3f1f6565c74d3238747b58357a6e56fbb0e9cChris Lattner } 40981eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump 409903e80030515c800d1ab44125b9052dfffd1bd04cDouglas Gregor case Stmt::MaterializeTemporaryExprClass: 410003e80030515c800d1ab44125b9052dfffd1bd04cDouglas Gregor if (Expr *Result = EvalAddr( 410103e80030515c800d1ab44125b9052dfffd1bd04cDouglas Gregor cast<MaterializeTemporaryExpr>(E)->GetTemporaryExpr(), 4102e720ce7a3b1c1bfa5f7482183caa6e31fca9a3fbArgyrios Kyrtzidis refVars, ParentDecl)) 410303e80030515c800d1ab44125b9052dfffd1bd04cDouglas Gregor return Result; 410403e80030515c800d1ab44125b9052dfffd1bd04cDouglas Gregor 410503e80030515c800d1ab44125b9052dfffd1bd04cDouglas Gregor return E; 410603e80030515c800d1ab44125b9052dfffd1bd04cDouglas Gregor 4107fae3f1f6565c74d3238747b58357a6e56fbb0e9cChris Lattner // Everything else: we simply don't reason about them. 4108fae3f1f6565c74d3238747b58357a6e56fbb0e9cChris Lattner default: 4109fae3f1f6565c74d3238747b58357a6e56fbb0e9cChris Lattner return NULL; 411006de276fff91264437fa75111ed76de43097e089Ted Kremenek } 411106de276fff91264437fa75111ed76de43097e089Ted Kremenek} 41121eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump 411306de276fff91264437fa75111ed76de43097e089Ted Kremenek 411406de276fff91264437fa75111ed76de43097e089Ted Kremenek/// EvalVal - This function is complements EvalAddr in the mutual recursion. 411506de276fff91264437fa75111ed76de43097e089Ted Kremenek/// See the comments for EvalAddr for more details. 4116e720ce7a3b1c1bfa5f7482183caa6e31fca9a3fbArgyrios Kyrtzidisstatic Expr *EvalVal(Expr *E, SmallVectorImpl<DeclRefExpr *> &refVars, 4117e720ce7a3b1c1bfa5f7482183caa6e31fca9a3fbArgyrios Kyrtzidis Decl *ParentDecl) { 411868957a919084ab8bbd1f01d534db1d6f31d0f459Ted Kremenekdo { 4119e8c600f9fedf2cfd69cdd2cb4bde4a9b39ce2873Ted Kremenek // We should only be called for evaluating non-pointer expressions, or 4120e8c600f9fedf2cfd69cdd2cb4bde4a9b39ce2873Ted Kremenek // expressions with a pointer type that are not used as references but instead 4121e8c600f9fedf2cfd69cdd2cb4bde4a9b39ce2873Ted Kremenek // are l-values (e.g., DeclRefExpr with a pointer type). 41221eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump 412306de276fff91264437fa75111ed76de43097e089Ted Kremenek // Our "symbolic interpreter" is just a dispatch off the currently 412406de276fff91264437fa75111ed76de43097e089Ted Kremenek // viewed AST node. We then recursively traverse the AST by calling 412506de276fff91264437fa75111ed76de43097e089Ted Kremenek // EvalAddr and EvalVal appropriately. 4126f111d935722ed488144600cea5ed03a6b5069e8fPeter Collingbourne 4127f111d935722ed488144600cea5ed03a6b5069e8fPeter Collingbourne E = E->IgnoreParens(); 412806de276fff91264437fa75111ed76de43097e089Ted Kremenek switch (E->getStmtClass()) { 412968957a919084ab8bbd1f01d534db1d6f31d0f459Ted Kremenek case Stmt::ImplicitCastExprClass: { 413068957a919084ab8bbd1f01d534db1d6f31d0f459Ted Kremenek ImplicitCastExpr *IE = cast<ImplicitCastExpr>(E); 41315baba9d98364a3525d6afa15a04cdad82fd6dd30John McCall if (IE->getValueKind() == VK_LValue) { 413268957a919084ab8bbd1f01d534db1d6f31d0f459Ted Kremenek E = IE->getSubExpr(); 413368957a919084ab8bbd1f01d534db1d6f31d0f459Ted Kremenek continue; 413468957a919084ab8bbd1f01d534db1d6f31d0f459Ted Kremenek } 413568957a919084ab8bbd1f01d534db1d6f31d0f459Ted Kremenek return NULL; 413668957a919084ab8bbd1f01d534db1d6f31d0f459Ted Kremenek } 413768957a919084ab8bbd1f01d534db1d6f31d0f459Ted Kremenek 413880ee6e878a169e6255d4686a91bb696151ff229fJohn McCall case Stmt::ExprWithCleanupsClass: 4139e720ce7a3b1c1bfa5f7482183caa6e31fca9a3fbArgyrios Kyrtzidis return EvalVal(cast<ExprWithCleanups>(E)->getSubExpr(), refVars,ParentDecl); 414080ee6e878a169e6255d4686a91bb696151ff229fJohn McCall 4141a2813cec2605ce7878d1b13471d685f689b251afDouglas Gregor case Stmt::DeclRefExprClass: { 414226e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis // When we hit a DeclRefExpr we are looking at code that refers to a 414326e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis // variable's name. If it's not a reference variable we check if it has 414426e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis // local storage within the function, and if so, return the expression. 414506de276fff91264437fa75111ed76de43097e089Ted Kremenek DeclRefExpr *DR = cast<DeclRefExpr>(E); 41461eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump 4147e720ce7a3b1c1bfa5f7482183caa6e31fca9a3fbArgyrios Kyrtzidis if (VarDecl *V = dyn_cast<VarDecl>(DR->getDecl())) { 4148e720ce7a3b1c1bfa5f7482183caa6e31fca9a3fbArgyrios Kyrtzidis // Check if it refers to itself, e.g. "int& i = i;". 4149e720ce7a3b1c1bfa5f7482183caa6e31fca9a3fbArgyrios Kyrtzidis if (V == ParentDecl) 4150e720ce7a3b1c1bfa5f7482183caa6e31fca9a3fbArgyrios Kyrtzidis return DR; 4151e720ce7a3b1c1bfa5f7482183caa6e31fca9a3fbArgyrios Kyrtzidis 415226e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis if (V->hasLocalStorage()) { 415326e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis if (!V->getType()->isReferenceType()) 415426e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis return DR; 415526e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis 415626e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis // Reference variable, follow through to the expression that 415726e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis // it points to. 415826e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis if (V->hasInit()) { 415926e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis // Add the reference variable to the "trail". 416026e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis refVars.push_back(DR); 4161e720ce7a3b1c1bfa5f7482183caa6e31fca9a3fbArgyrios Kyrtzidis return EvalVal(V->getInit(), refVars, V); 416226e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis } 416326e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis } 4164e720ce7a3b1c1bfa5f7482183caa6e31fca9a3fbArgyrios Kyrtzidis } 41651eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump 416606de276fff91264437fa75111ed76de43097e089Ted Kremenek return NULL; 416706de276fff91264437fa75111ed76de43097e089Ted Kremenek } 41681eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump 416906de276fff91264437fa75111ed76de43097e089Ted Kremenek case Stmt::UnaryOperatorClass: { 417006de276fff91264437fa75111ed76de43097e089Ted Kremenek // The only unary operator that make sense to handle here 417106de276fff91264437fa75111ed76de43097e089Ted Kremenek // is Deref. All others don't resolve to a "name." This includes 417206de276fff91264437fa75111ed76de43097e089Ted Kremenek // handling all sorts of rvalues passed to a unary operator. 417306de276fff91264437fa75111ed76de43097e089Ted Kremenek UnaryOperator *U = cast<UnaryOperator>(E); 41741eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump 41752de56d1d0c3a504ad1529de2677628bdfbb95cd4John McCall if (U->getOpcode() == UO_Deref) 4176e720ce7a3b1c1bfa5f7482183caa6e31fca9a3fbArgyrios Kyrtzidis return EvalAddr(U->getSubExpr(), refVars, ParentDecl); 417706de276fff91264437fa75111ed76de43097e089Ted Kremenek 417806de276fff91264437fa75111ed76de43097e089Ted Kremenek return NULL; 417906de276fff91264437fa75111ed76de43097e089Ted Kremenek } 41801eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump 418106de276fff91264437fa75111ed76de43097e089Ted Kremenek case Stmt::ArraySubscriptExprClass: { 418206de276fff91264437fa75111ed76de43097e089Ted Kremenek // Array subscripts are potential references to data on the stack. We 418306de276fff91264437fa75111ed76de43097e089Ted Kremenek // retrieve the DeclRefExpr* for the array variable if it indeed 418406de276fff91264437fa75111ed76de43097e089Ted Kremenek // has local storage. 4185e720ce7a3b1c1bfa5f7482183caa6e31fca9a3fbArgyrios Kyrtzidis return EvalAddr(cast<ArraySubscriptExpr>(E)->getBase(), refVars,ParentDecl); 418606de276fff91264437fa75111ed76de43097e089Ted Kremenek } 41871eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump 418806de276fff91264437fa75111ed76de43097e089Ted Kremenek case Stmt::ConditionalOperatorClass: { 418906de276fff91264437fa75111ed76de43097e089Ted Kremenek // For conditional operators we need to see if either the LHS or RHS are 419026e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis // non-NULL Expr's. If one is non-NULL, we return it. 419106de276fff91264437fa75111ed76de43097e089Ted Kremenek ConditionalOperator *C = cast<ConditionalOperator>(E); 419206de276fff91264437fa75111ed76de43097e089Ted Kremenek 41933907323dd6665c0c4e383435cb145233f4533406Anders Carlsson // Handle the GNU extension for missing LHS. 41943907323dd6665c0c4e383435cb145233f4533406Anders Carlsson if (Expr *lhsExpr = C->getLHS()) 4195e720ce7a3b1c1bfa5f7482183caa6e31fca9a3fbArgyrios Kyrtzidis if (Expr *LHS = EvalVal(lhsExpr, refVars, ParentDecl)) 41963907323dd6665c0c4e383435cb145233f4533406Anders Carlsson return LHS; 41973907323dd6665c0c4e383435cb145233f4533406Anders Carlsson 4198e720ce7a3b1c1bfa5f7482183caa6e31fca9a3fbArgyrios Kyrtzidis return EvalVal(C->getRHS(), refVars, ParentDecl); 419906de276fff91264437fa75111ed76de43097e089Ted Kremenek } 42001eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump 420106de276fff91264437fa75111ed76de43097e089Ted Kremenek // Accesses to members are potential references to data on the stack. 420283f6faf37d9bf58986bedc9bc0ea897a56b4dbadDouglas Gregor case Stmt::MemberExprClass: { 420306de276fff91264437fa75111ed76de43097e089Ted Kremenek MemberExpr *M = cast<MemberExpr>(E); 42041eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump 420506de276fff91264437fa75111ed76de43097e089Ted Kremenek // Check for indirect access. We only want direct field accesses. 4206a423e81a4d04b7c1882d2787d1189cbc14540c16Ted Kremenek if (M->isArrow()) 4207a423e81a4d04b7c1882d2787d1189cbc14540c16Ted Kremenek return NULL; 4208a423e81a4d04b7c1882d2787d1189cbc14540c16Ted Kremenek 4209a423e81a4d04b7c1882d2787d1189cbc14540c16Ted Kremenek // Check whether the member type is itself a reference, in which case 4210a423e81a4d04b7c1882d2787d1189cbc14540c16Ted Kremenek // we're not going to refer to the member, but to what the member refers to. 4211a423e81a4d04b7c1882d2787d1189cbc14540c16Ted Kremenek if (M->getMemberDecl()->getType()->isReferenceType()) 421206de276fff91264437fa75111ed76de43097e089Ted Kremenek return NULL; 4213a423e81a4d04b7c1882d2787d1189cbc14540c16Ted Kremenek 4214e720ce7a3b1c1bfa5f7482183caa6e31fca9a3fbArgyrios Kyrtzidis return EvalVal(M->getBase(), refVars, ParentDecl); 421506de276fff91264437fa75111ed76de43097e089Ted Kremenek } 42161eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump 421703e80030515c800d1ab44125b9052dfffd1bd04cDouglas Gregor case Stmt::MaterializeTemporaryExprClass: 421803e80030515c800d1ab44125b9052dfffd1bd04cDouglas Gregor if (Expr *Result = EvalVal( 421903e80030515c800d1ab44125b9052dfffd1bd04cDouglas Gregor cast<MaterializeTemporaryExpr>(E)->GetTemporaryExpr(), 4220e720ce7a3b1c1bfa5f7482183caa6e31fca9a3fbArgyrios Kyrtzidis refVars, ParentDecl)) 422103e80030515c800d1ab44125b9052dfffd1bd04cDouglas Gregor return Result; 422203e80030515c800d1ab44125b9052dfffd1bd04cDouglas Gregor 422303e80030515c800d1ab44125b9052dfffd1bd04cDouglas Gregor return E; 422403e80030515c800d1ab44125b9052dfffd1bd04cDouglas Gregor 422506de276fff91264437fa75111ed76de43097e089Ted Kremenek default: 422626e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis // Check that we don't return or take the address of a reference to a 422726e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis // temporary. This is only useful in C++. 422826e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis if (!E->isTypeDependent() && E->isRValue()) 422926e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis return E; 423026e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis 423126e10bea3d2e9d2979194890e51b98ecea165a96Argyrios Kyrtzidis // Everything else: we simply don't reason about them. 423206de276fff91264437fa75111ed76de43097e089Ted Kremenek return NULL; 423306de276fff91264437fa75111ed76de43097e089Ted Kremenek } 423468957a919084ab8bbd1f01d534db1d6f31d0f459Ted Kremenek} while (true); 423506de276fff91264437fa75111ed76de43097e089Ted Kremenek} 4236588e5ebee2db045c3611e0c8f601bc4495ebd0f3Ted Kremenek 4237588e5ebee2db045c3611e0c8f601bc4495ebd0f3Ted Kremenek//===--- CHECK: Floating-Point comparisons (-Wfloat-equal) ---------------===// 4238588e5ebee2db045c3611e0c8f601bc4495ebd0f3Ted Kremenek 4239588e5ebee2db045c3611e0c8f601bc4495ebd0f3Ted Kremenek/// Check for comparisons of floating point operands using != and ==. 4240588e5ebee2db045c3611e0c8f601bc4495ebd0f3Ted Kremenek/// Issue a warning if these are no self-comparisons, as they are not likely 4241588e5ebee2db045c3611e0c8f601bc4495ebd0f3Ted Kremenek/// to do what the programmer intended. 4242dd22509c82eb7681a0f46b41d61cb2e25a4d8fa1Richard Trieuvoid Sema::CheckFloatComparison(SourceLocation Loc, Expr* LHS, Expr *RHS) { 4243dd22509c82eb7681a0f46b41d61cb2e25a4d8fa1Richard Trieu Expr* LeftExprSansParen = LHS->IgnoreParenImpCasts(); 4244dd22509c82eb7681a0f46b41d61cb2e25a4d8fa1Richard Trieu Expr* RightExprSansParen = RHS->IgnoreParenImpCasts(); 4245588e5ebee2db045c3611e0c8f601bc4495ebd0f3Ted Kremenek 4246588e5ebee2db045c3611e0c8f601bc4495ebd0f3Ted Kremenek // Special case: check for x == x (which is OK). 4247588e5ebee2db045c3611e0c8f601bc4495ebd0f3Ted Kremenek // Do not emit warnings for such cases. 4248588e5ebee2db045c3611e0c8f601bc4495ebd0f3Ted Kremenek if (DeclRefExpr* DRL = dyn_cast<DeclRefExpr>(LeftExprSansParen)) 4249588e5ebee2db045c3611e0c8f601bc4495ebd0f3Ted Kremenek if (DeclRefExpr* DRR = dyn_cast<DeclRefExpr>(RightExprSansParen)) 4250588e5ebee2db045c3611e0c8f601bc4495ebd0f3Ted Kremenek if (DRL->getDecl() == DRR->getDecl()) 4251980343b9a1d0e85f960fa289c2c9a727004964f2David Blaikie return; 42521eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump 42531eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump 42541b500bb0d40aa3ebf1ace47340bb5f401a9ae99cTed Kremenek // Special case: check for comparisons against literals that can be exactly 42551b500bb0d40aa3ebf1ace47340bb5f401a9ae99cTed Kremenek // represented by APFloat. In such cases, do not emit a warning. This 42561b500bb0d40aa3ebf1ace47340bb5f401a9ae99cTed Kremenek // is a heuristic: often comparison against such literals are used to 42571b500bb0d40aa3ebf1ace47340bb5f401a9ae99cTed Kremenek // detect if a value in a variable has not changed. This clearly can 42581b500bb0d40aa3ebf1ace47340bb5f401a9ae99cTed Kremenek // lead to false negatives. 4259980343b9a1d0e85f960fa289c2c9a727004964f2David Blaikie if (FloatingLiteral* FLL = dyn_cast<FloatingLiteral>(LeftExprSansParen)) { 4260980343b9a1d0e85f960fa289c2c9a727004964f2David Blaikie if (FLL->isExact()) 4261980343b9a1d0e85f960fa289c2c9a727004964f2David Blaikie return; 4262980343b9a1d0e85f960fa289c2c9a727004964f2David Blaikie } else 4263980343b9a1d0e85f960fa289c2c9a727004964f2David Blaikie if (FloatingLiteral* FLR = dyn_cast<FloatingLiteral>(RightExprSansParen)) 4264980343b9a1d0e85f960fa289c2c9a727004964f2David Blaikie if (FLR->isExact()) 4265980343b9a1d0e85f960fa289c2c9a727004964f2David Blaikie return; 42661eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump 4267588e5ebee2db045c3611e0c8f601bc4495ebd0f3Ted Kremenek // Check for comparisons with builtin types. 4268980343b9a1d0e85f960fa289c2c9a727004964f2David Blaikie if (CallExpr* CL = dyn_cast<CallExpr>(LeftExprSansParen)) 4269980343b9a1d0e85f960fa289c2c9a727004964f2David Blaikie if (CL->isBuiltinCall()) 4270980343b9a1d0e85f960fa289c2c9a727004964f2David Blaikie return; 42711eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump 4272980343b9a1d0e85f960fa289c2c9a727004964f2David Blaikie if (CallExpr* CR = dyn_cast<CallExpr>(RightExprSansParen)) 4273980343b9a1d0e85f960fa289c2c9a727004964f2David Blaikie if (CR->isBuiltinCall()) 4274980343b9a1d0e85f960fa289c2c9a727004964f2David Blaikie return; 42751eb4433ac451dc16f4133a88af2d002ac26c58efMike Stump 4276588e5ebee2db045c3611e0c8f601bc4495ebd0f3Ted Kremenek // Emit the diagnostic. 4277980343b9a1d0e85f960fa289c2c9a727004964f2David Blaikie Diag(Loc, diag::warn_floatingpoint_eq) 4278980343b9a1d0e85f960fa289c2c9a727004964f2David Blaikie << LHS->getSourceRange() << RHS->getSourceRange(); 4279588e5ebee2db045c3611e0c8f601bc4495ebd0f3Ted Kremenek} 4280ba26e58c64b4f6233dfc4bcd3ef6ce83aab47ffcJohn McCall 4281f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall//===--- CHECK: Integer mixed-sign comparisons (-Wsign-compare) --------===// 4282f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall//===--- CHECK: Lossy implicit conversions (-Wconversion) --------------===// 4283ba26e58c64b4f6233dfc4bcd3ef6ce83aab47ffcJohn McCall 4284f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCallnamespace { 4285ba26e58c64b4f6233dfc4bcd3ef6ce83aab47ffcJohn McCall 4286f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall/// Structure recording the 'active' range of an integer-valued 4287f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall/// expression. 4288f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCallstruct IntRange { 4289f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall /// The number of bits active in the int. 4290f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall unsigned Width; 4291ba26e58c64b4f6233dfc4bcd3ef6ce83aab47ffcJohn McCall 4292f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall /// True if the int is known not to have negative values. 4293f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall bool NonNegative; 429451313c39c84407dd6a323be99a8c322bf8d052a9John McCall 4295f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall IntRange(unsigned Width, bool NonNegative) 4296f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall : Width(Width), NonNegative(NonNegative) 4297f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall {} 429851313c39c84407dd6a323be99a8c322bf8d052a9John McCall 42991844a6e1074a5c1fd8eadac7fc7317c3e29d4653John McCall /// Returns the range of the bool type. 4300f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall static IntRange forBoolType() { 4301f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall return IntRange(1, true); 4302f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall } 430351313c39c84407dd6a323be99a8c322bf8d052a9John McCall 43041844a6e1074a5c1fd8eadac7fc7317c3e29d4653John McCall /// Returns the range of an opaque value of the given integral type. 43051844a6e1074a5c1fd8eadac7fc7317c3e29d4653John McCall static IntRange forValueOfType(ASTContext &C, QualType T) { 43061844a6e1074a5c1fd8eadac7fc7317c3e29d4653John McCall return forValueOfCanonicalType(C, 43071844a6e1074a5c1fd8eadac7fc7317c3e29d4653John McCall T->getCanonicalTypeInternal().getTypePtr()); 430851313c39c84407dd6a323be99a8c322bf8d052a9John McCall } 430951313c39c84407dd6a323be99a8c322bf8d052a9John McCall 43101844a6e1074a5c1fd8eadac7fc7317c3e29d4653John McCall /// Returns the range of an opaque value of a canonical integral type. 43111844a6e1074a5c1fd8eadac7fc7317c3e29d4653John McCall static IntRange forValueOfCanonicalType(ASTContext &C, const Type *T) { 4312f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall assert(T->isCanonicalUnqualified()); 431351313c39c84407dd6a323be99a8c322bf8d052a9John McCall 4314f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall if (const VectorType *VT = dyn_cast<VectorType>(T)) 4315f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall T = VT->getElementType().getTypePtr(); 4316f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall if (const ComplexType *CT = dyn_cast<ComplexType>(T)) 4317f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall T = CT->getElementType().getTypePtr(); 4318323ed74658bc8375278eabf074b4777458376540John McCall 4319f9eaf98bf524f7e2dcb9875a9f4afd9e25fc615dDavid Majnemer // For enum types, use the known bit width of the enumerators. 4320323ed74658bc8375278eabf074b4777458376540John McCall if (const EnumType *ET = dyn_cast<EnumType>(T)) { 4321f9eaf98bf524f7e2dcb9875a9f4afd9e25fc615dDavid Majnemer EnumDecl *Enum = ET->getDecl(); 4322f9eaf98bf524f7e2dcb9875a9f4afd9e25fc615dDavid Majnemer if (!Enum->isCompleteDefinition()) 4323f9eaf98bf524f7e2dcb9875a9f4afd9e25fc615dDavid Majnemer return IntRange(C.getIntWidth(QualType(T, 0)), false); 4324091f23f1d6d4bcffd6641cda72a6831e08c02ea7John McCall 4325f9eaf98bf524f7e2dcb9875a9f4afd9e25fc615dDavid Majnemer unsigned NumPositive = Enum->getNumPositiveBits(); 4326f9eaf98bf524f7e2dcb9875a9f4afd9e25fc615dDavid Majnemer unsigned NumNegative = Enum->getNumNegativeBits(); 4327323ed74658bc8375278eabf074b4777458376540John McCall 4328f9eaf98bf524f7e2dcb9875a9f4afd9e25fc615dDavid Majnemer if (NumNegative == 0) 4329f9eaf98bf524f7e2dcb9875a9f4afd9e25fc615dDavid Majnemer return IntRange(NumPositive, true/*NonNegative*/); 4330f9eaf98bf524f7e2dcb9875a9f4afd9e25fc615dDavid Majnemer else 4331f9eaf98bf524f7e2dcb9875a9f4afd9e25fc615dDavid Majnemer return IntRange(std::max(NumPositive + 1, NumNegative), 4332f9eaf98bf524f7e2dcb9875a9f4afd9e25fc615dDavid Majnemer false/*NonNegative*/); 4333323ed74658bc8375278eabf074b4777458376540John McCall } 433451313c39c84407dd6a323be99a8c322bf8d052a9John McCall 4335f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall const BuiltinType *BT = cast<BuiltinType>(T); 4336f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall assert(BT->isInteger()); 433751313c39c84407dd6a323be99a8c322bf8d052a9John McCall 4338f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall return IntRange(C.getIntWidth(QualType(T, 0)), BT->isUnsignedInteger()); 433951313c39c84407dd6a323be99a8c322bf8d052a9John McCall } 434051313c39c84407dd6a323be99a8c322bf8d052a9John McCall 43411844a6e1074a5c1fd8eadac7fc7317c3e29d4653John McCall /// Returns the "target" range of a canonical integral type, i.e. 43421844a6e1074a5c1fd8eadac7fc7317c3e29d4653John McCall /// the range of values expressible in the type. 43431844a6e1074a5c1fd8eadac7fc7317c3e29d4653John McCall /// 43441844a6e1074a5c1fd8eadac7fc7317c3e29d4653John McCall /// This matches forValueOfCanonicalType except that enums have the 43451844a6e1074a5c1fd8eadac7fc7317c3e29d4653John McCall /// full range of their type, not the range of their enumerators. 43461844a6e1074a5c1fd8eadac7fc7317c3e29d4653John McCall static IntRange forTargetOfCanonicalType(ASTContext &C, const Type *T) { 43471844a6e1074a5c1fd8eadac7fc7317c3e29d4653John McCall assert(T->isCanonicalUnqualified()); 43481844a6e1074a5c1fd8eadac7fc7317c3e29d4653John McCall 43491844a6e1074a5c1fd8eadac7fc7317c3e29d4653John McCall if (const VectorType *VT = dyn_cast<VectorType>(T)) 43501844a6e1074a5c1fd8eadac7fc7317c3e29d4653John McCall T = VT->getElementType().getTypePtr(); 43511844a6e1074a5c1fd8eadac7fc7317c3e29d4653John McCall if (const ComplexType *CT = dyn_cast<ComplexType>(T)) 43521844a6e1074a5c1fd8eadac7fc7317c3e29d4653John McCall T = CT->getElementType().getTypePtr(); 43531844a6e1074a5c1fd8eadac7fc7317c3e29d4653John McCall if (const EnumType *ET = dyn_cast<EnumType>(T)) 435469ff26bd1e7a2faffec0c3b9740cfb0c6bb354c5Douglas Gregor T = C.getCanonicalType(ET->getDecl()->getIntegerType()).getTypePtr(); 43551844a6e1074a5c1fd8eadac7fc7317c3e29d4653John McCall 43561844a6e1074a5c1fd8eadac7fc7317c3e29d4653John McCall const BuiltinType *BT = cast<BuiltinType>(T); 43571844a6e1074a5c1fd8eadac7fc7317c3e29d4653John McCall assert(BT->isInteger()); 43581844a6e1074a5c1fd8eadac7fc7317c3e29d4653John McCall 43591844a6e1074a5c1fd8eadac7fc7317c3e29d4653John McCall return IntRange(C.getIntWidth(QualType(T, 0)), BT->isUnsignedInteger()); 43601844a6e1074a5c1fd8eadac7fc7317c3e29d4653John McCall } 43611844a6e1074a5c1fd8eadac7fc7317c3e29d4653John McCall 43621844a6e1074a5c1fd8eadac7fc7317c3e29d4653John McCall /// Returns the supremum of two ranges: i.e. their conservative merge. 4363c0cd21d2a3301a7a88e0052aebdd09c2441f826dJohn McCall static IntRange join(IntRange L, IntRange R) { 4364f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall return IntRange(std::max(L.Width, R.Width), 436560fad45739b764886f707bd204eae9ecce6db1f2John McCall L.NonNegative && R.NonNegative); 436660fad45739b764886f707bd204eae9ecce6db1f2John McCall } 436760fad45739b764886f707bd204eae9ecce6db1f2John McCall 43681844a6e1074a5c1fd8eadac7fc7317c3e29d4653John McCall /// Returns the infinum of two ranges: i.e. their aggressive merge. 4369c0cd21d2a3301a7a88e0052aebdd09c2441f826dJohn McCall static IntRange meet(IntRange L, IntRange R) { 437060fad45739b764886f707bd204eae9ecce6db1f2John McCall return IntRange(std::min(L.Width, R.Width), 437160fad45739b764886f707bd204eae9ecce6db1f2John McCall L.NonNegative || R.NonNegative); 437251313c39c84407dd6a323be99a8c322bf8d052a9John McCall } 4373f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall}; 437451313c39c84407dd6a323be99a8c322bf8d052a9John McCall 43750692a1991bdb8b3112887fce90d75f2103a0080bTed Kremenekstatic IntRange GetValueRange(ASTContext &C, llvm::APSInt &value, 43760692a1991bdb8b3112887fce90d75f2103a0080bTed Kremenek unsigned MaxWidth) { 4377f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall if (value.isSigned() && value.isNegative()) 4378f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall return IntRange(value.getMinSignedBits(), false); 437951313c39c84407dd6a323be99a8c322bf8d052a9John McCall 4380f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall if (value.getBitWidth() > MaxWidth) 43819f71a8f4c7a182a5236da9e747d57cc1d1bd24c2Jay Foad value = value.trunc(MaxWidth); 438251313c39c84407dd6a323be99a8c322bf8d052a9John McCall 4383f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall // isNonNegative() just checks the sign bit without considering 4384f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall // signedness. 4385f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall return IntRange(value.getActiveBits(), true); 438651313c39c84407dd6a323be99a8c322bf8d052a9John McCall} 438751313c39c84407dd6a323be99a8c322bf8d052a9John McCall 43880692a1991bdb8b3112887fce90d75f2103a0080bTed Kremenekstatic IntRange GetValueRange(ASTContext &C, APValue &result, QualType Ty, 43890692a1991bdb8b3112887fce90d75f2103a0080bTed Kremenek unsigned MaxWidth) { 4390f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall if (result.isInt()) 4391f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall return GetValueRange(C, result.getInt(), MaxWidth); 439251313c39c84407dd6a323be99a8c322bf8d052a9John McCall 4393f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall if (result.isVector()) { 43940acc311bf73c85fd34ce6f89a4e786b7ecd214aaJohn McCall IntRange R = GetValueRange(C, result.getVectorElt(0), Ty, MaxWidth); 43950acc311bf73c85fd34ce6f89a4e786b7ecd214aaJohn McCall for (unsigned i = 1, e = result.getVectorLength(); i != e; ++i) { 43960acc311bf73c85fd34ce6f89a4e786b7ecd214aaJohn McCall IntRange El = GetValueRange(C, result.getVectorElt(i), Ty, MaxWidth); 43970acc311bf73c85fd34ce6f89a4e786b7ecd214aaJohn McCall R = IntRange::join(R, El); 43980acc311bf73c85fd34ce6f89a4e786b7ecd214aaJohn McCall } 4399f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall return R; 440051313c39c84407dd6a323be99a8c322bf8d052a9John McCall } 440151313c39c84407dd6a323be99a8c322bf8d052a9John McCall 4402f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall if (result.isComplexInt()) { 4403f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall IntRange R = GetValueRange(C, result.getComplexIntReal(), MaxWidth); 4404f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall IntRange I = GetValueRange(C, result.getComplexIntImag(), MaxWidth); 4405f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall return IntRange::join(R, I); 4406f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall } 4407f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall 4408f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall // This can happen with lossless casts to intptr_t of "based" lvalues. 4409f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall // Assume it might use arbitrary bits. 44100acc311bf73c85fd34ce6f89a4e786b7ecd214aaJohn McCall // FIXME: The only reason we need to pass the type in here is to get 44110acc311bf73c85fd34ce6f89a4e786b7ecd214aaJohn McCall // the sign right on this one case. It would be nice if APValue 44120acc311bf73c85fd34ce6f89a4e786b7ecd214aaJohn McCall // preserved this. 441365639284118d54ddf2e51a05d2ffccda567fe246Eli Friedman assert(result.isLValue() || result.isAddrLabelDiff()); 44145e9ebb3c0fb554d9285aa99c470abdf283272bd9Douglas Gregor return IntRange(MaxWidth, Ty->isUnsignedIntegerOrEnumerationType()); 441551313c39c84407dd6a323be99a8c322bf8d052a9John McCall} 441651313c39c84407dd6a323be99a8c322bf8d052a9John McCall 441709bddcf8c0ce4cc2f2a18e050e971539e8a396f8Eli Friedmanstatic QualType GetExprType(Expr *E) { 441809bddcf8c0ce4cc2f2a18e050e971539e8a396f8Eli Friedman QualType Ty = E->getType(); 441909bddcf8c0ce4cc2f2a18e050e971539e8a396f8Eli Friedman if (const AtomicType *AtomicRHS = Ty->getAs<AtomicType>()) 442009bddcf8c0ce4cc2f2a18e050e971539e8a396f8Eli Friedman Ty = AtomicRHS->getValueType(); 442109bddcf8c0ce4cc2f2a18e050e971539e8a396f8Eli Friedman return Ty; 442209bddcf8c0ce4cc2f2a18e050e971539e8a396f8Eli Friedman} 442309bddcf8c0ce4cc2f2a18e050e971539e8a396f8Eli Friedman 4424f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall/// Pseudo-evaluate the given integer expression, estimating the 4425f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall/// range of values it might take. 4426f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall/// 4427f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall/// \param MaxWidth - the width to which the value will be truncated 44280692a1991bdb8b3112887fce90d75f2103a0080bTed Kremenekstatic IntRange GetExprRange(ASTContext &C, Expr *E, unsigned MaxWidth) { 442951313c39c84407dd6a323be99a8c322bf8d052a9John McCall E = E->IgnoreParens(); 443051313c39c84407dd6a323be99a8c322bf8d052a9John McCall 4431f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall // Try a full evaluation first. 4432f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall Expr::EvalResult result; 443351f4708c00110940ca3f337961915f2ca1668375Richard Smith if (E->EvaluateAsRValue(result, C)) 443409bddcf8c0ce4cc2f2a18e050e971539e8a396f8Eli Friedman return GetValueRange(C, result.Val, GetExprType(E), MaxWidth); 443551313c39c84407dd6a323be99a8c322bf8d052a9John McCall 4436f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall // I think we only want to look through implicit casts here; if the 4437f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall // user has an explicit widening cast, we should treat the value as 4438f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall // being of the new, wider type. 4439f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall if (ImplicitCastExpr *CE = dyn_cast<ImplicitCastExpr>(E)) { 4440b17ee5bff0d7986c14cdddb279e0131bd7f9678dEli Friedman if (CE->getCastKind() == CK_NoOp || CE->getCastKind() == CK_LValueToRValue) 4441f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall return GetExprRange(C, CE->getSubExpr(), MaxWidth); 444251313c39c84407dd6a323be99a8c322bf8d052a9John McCall 444309bddcf8c0ce4cc2f2a18e050e971539e8a396f8Eli Friedman IntRange OutputTypeRange = IntRange::forValueOfType(C, GetExprType(CE)); 444451313c39c84407dd6a323be99a8c322bf8d052a9John McCall 44452de56d1d0c3a504ad1529de2677628bdfbb95cd4John McCall bool isIntegerCast = (CE->getCastKind() == CK_IntegralCast); 444660fad45739b764886f707bd204eae9ecce6db1f2John McCall 4447f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall // Assume that non-integer casts can span the full range of the type. 444860fad45739b764886f707bd204eae9ecce6db1f2John McCall if (!isIntegerCast) 4449f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall return OutputTypeRange; 445051313c39c84407dd6a323be99a8c322bf8d052a9John McCall 4451f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall IntRange SubRange 4452f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall = GetExprRange(C, CE->getSubExpr(), 4453f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall std::min(MaxWidth, OutputTypeRange.Width)); 445451313c39c84407dd6a323be99a8c322bf8d052a9John McCall 4455f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall // Bail out if the subexpr's range is as wide as the cast type. 4456f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall if (SubRange.Width >= OutputTypeRange.Width) 4457f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall return OutputTypeRange; 445851313c39c84407dd6a323be99a8c322bf8d052a9John McCall 4459f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall // Otherwise, we take the smaller width, and we're non-negative if 4460f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall // either the output type or the subexpr is. 4461f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall return IntRange(SubRange.Width, 4462f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall SubRange.NonNegative || OutputTypeRange.NonNegative); 4463f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall } 4464f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall 4465f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall if (ConditionalOperator *CO = dyn_cast<ConditionalOperator>(E)) { 4466f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall // If we can fold the condition, just take that operand. 4467f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall bool CondResult; 4468f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall if (CO->getCond()->EvaluateAsBooleanCondition(CondResult, C)) 4469f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall return GetExprRange(C, CondResult ? CO->getTrueExpr() 4470f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall : CO->getFalseExpr(), 4471f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall MaxWidth); 4472f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall 4473f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall // Otherwise, conservatively merge. 4474f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall IntRange L = GetExprRange(C, CO->getTrueExpr(), MaxWidth); 4475f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall IntRange R = GetExprRange(C, CO->getFalseExpr(), MaxWidth); 4476f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall return IntRange::join(L, R); 447751313c39c84407dd6a323be99a8c322bf8d052a9John McCall } 447851313c39c84407dd6a323be99a8c322bf8d052a9John McCall 447951313c39c84407dd6a323be99a8c322bf8d052a9John McCall if (BinaryOperator *BO = dyn_cast<BinaryOperator>(E)) { 448051313c39c84407dd6a323be99a8c322bf8d052a9John McCall switch (BO->getOpcode()) { 448151313c39c84407dd6a323be99a8c322bf8d052a9John McCall 4482f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall // Boolean-valued operations are single-bit and positive. 44832de56d1d0c3a504ad1529de2677628bdfbb95cd4John McCall case BO_LAnd: 44842de56d1d0c3a504ad1529de2677628bdfbb95cd4John McCall case BO_LOr: 44852de56d1d0c3a504ad1529de2677628bdfbb95cd4John McCall case BO_LT: 44862de56d1d0c3a504ad1529de2677628bdfbb95cd4John McCall case BO_GT: 44872de56d1d0c3a504ad1529de2677628bdfbb95cd4John McCall case BO_LE: 44882de56d1d0c3a504ad1529de2677628bdfbb95cd4John McCall case BO_GE: 44892de56d1d0c3a504ad1529de2677628bdfbb95cd4John McCall case BO_EQ: 44902de56d1d0c3a504ad1529de2677628bdfbb95cd4John McCall case BO_NE: 4491f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall return IntRange::forBoolType(); 449251313c39c84407dd6a323be99a8c322bf8d052a9John McCall 4493862ff87c0d306af8dfdbe7ac59f181a5815546e5John McCall // The type of the assignments is the type of the LHS, so the RHS 4494862ff87c0d306af8dfdbe7ac59f181a5815546e5John McCall // is not necessarily the same type. 44952de56d1d0c3a504ad1529de2677628bdfbb95cd4John McCall case BO_MulAssign: 44962de56d1d0c3a504ad1529de2677628bdfbb95cd4John McCall case BO_DivAssign: 44972de56d1d0c3a504ad1529de2677628bdfbb95cd4John McCall case BO_RemAssign: 44982de56d1d0c3a504ad1529de2677628bdfbb95cd4John McCall case BO_AddAssign: 44992de56d1d0c3a504ad1529de2677628bdfbb95cd4John McCall case BO_SubAssign: 4500862ff87c0d306af8dfdbe7ac59f181a5815546e5John McCall case BO_XorAssign: 4501862ff87c0d306af8dfdbe7ac59f181a5815546e5John McCall case BO_OrAssign: 4502862ff87c0d306af8dfdbe7ac59f181a5815546e5John McCall // TODO: bitfields? 450309bddcf8c0ce4cc2f2a18e050e971539e8a396f8Eli Friedman return IntRange::forValueOfType(C, GetExprType(E)); 4504c0cd21d2a3301a7a88e0052aebdd09c2441f826dJohn McCall 4505862ff87c0d306af8dfdbe7ac59f181a5815546e5John McCall // Simple assignments just pass through the RHS, which will have 4506862ff87c0d306af8dfdbe7ac59f181a5815546e5John McCall // been coerced to the LHS type. 4507862ff87c0d306af8dfdbe7ac59f181a5815546e5John McCall case BO_Assign: 4508862ff87c0d306af8dfdbe7ac59f181a5815546e5John McCall // TODO: bitfields? 4509862ff87c0d306af8dfdbe7ac59f181a5815546e5John McCall return GetExprRange(C, BO->getRHS(), MaxWidth); 4510862ff87c0d306af8dfdbe7ac59f181a5815546e5John McCall 451151313c39c84407dd6a323be99a8c322bf8d052a9John McCall // Operations with opaque sources are black-listed. 45122de56d1d0c3a504ad1529de2677628bdfbb95cd4John McCall case BO_PtrMemD: 45132de56d1d0c3a504ad1529de2677628bdfbb95cd4John McCall case BO_PtrMemI: 451409bddcf8c0ce4cc2f2a18e050e971539e8a396f8Eli Friedman return IntRange::forValueOfType(C, GetExprType(E)); 451551313c39c84407dd6a323be99a8c322bf8d052a9John McCall 451660fad45739b764886f707bd204eae9ecce6db1f2John McCall // Bitwise-and uses the *infinum* of the two source ranges. 45172de56d1d0c3a504ad1529de2677628bdfbb95cd4John McCall case BO_And: 45182de56d1d0c3a504ad1529de2677628bdfbb95cd4John McCall case BO_AndAssign: 451960fad45739b764886f707bd204eae9ecce6db1f2John McCall return IntRange::meet(GetExprRange(C, BO->getLHS(), MaxWidth), 452060fad45739b764886f707bd204eae9ecce6db1f2John McCall GetExprRange(C, BO->getRHS(), MaxWidth)); 452160fad45739b764886f707bd204eae9ecce6db1f2John McCall 452251313c39c84407dd6a323be99a8c322bf8d052a9John McCall // Left shift gets black-listed based on a judgement call. 45232de56d1d0c3a504ad1529de2677628bdfbb95cd4John McCall case BO_Shl: 45243aae6093dd8f3aecb66d7ff1f4b44e6a86765db4John McCall // ...except that we want to treat '1 << (blah)' as logically 45253aae6093dd8f3aecb66d7ff1f4b44e6a86765db4John McCall // positive. It's an important idiom. 45263aae6093dd8f3aecb66d7ff1f4b44e6a86765db4John McCall if (IntegerLiteral *I 45273aae6093dd8f3aecb66d7ff1f4b44e6a86765db4John McCall = dyn_cast<IntegerLiteral>(BO->getLHS()->IgnoreParenCasts())) { 45283aae6093dd8f3aecb66d7ff1f4b44e6a86765db4John McCall if (I->getValue() == 1) { 452909bddcf8c0ce4cc2f2a18e050e971539e8a396f8Eli Friedman IntRange R = IntRange::forValueOfType(C, GetExprType(E)); 45303aae6093dd8f3aecb66d7ff1f4b44e6a86765db4John McCall return IntRange(R.Width, /*NonNegative*/ true); 45313aae6093dd8f3aecb66d7ff1f4b44e6a86765db4John McCall } 45323aae6093dd8f3aecb66d7ff1f4b44e6a86765db4John McCall } 45333aae6093dd8f3aecb66d7ff1f4b44e6a86765db4John McCall // fallthrough 45343aae6093dd8f3aecb66d7ff1f4b44e6a86765db4John McCall 45352de56d1d0c3a504ad1529de2677628bdfbb95cd4John McCall case BO_ShlAssign: 453609bddcf8c0ce4cc2f2a18e050e971539e8a396f8Eli Friedman return IntRange::forValueOfType(C, GetExprType(E)); 453751313c39c84407dd6a323be99a8c322bf8d052a9John McCall 453860fad45739b764886f707bd204eae9ecce6db1f2John McCall // Right shift by a constant can narrow its left argument. 45392de56d1d0c3a504ad1529de2677628bdfbb95cd4John McCall case BO_Shr: 45402de56d1d0c3a504ad1529de2677628bdfbb95cd4John McCall case BO_ShrAssign: { 454160fad45739b764886f707bd204eae9ecce6db1f2John McCall IntRange L = GetExprRange(C, BO->getLHS(), MaxWidth); 454260fad45739b764886f707bd204eae9ecce6db1f2John McCall 454360fad45739b764886f707bd204eae9ecce6db1f2John McCall // If the shift amount is a positive constant, drop the width by 454460fad45739b764886f707bd204eae9ecce6db1f2John McCall // that much. 454560fad45739b764886f707bd204eae9ecce6db1f2John McCall llvm::APSInt shift; 454660fad45739b764886f707bd204eae9ecce6db1f2John McCall if (BO->getRHS()->isIntegerConstantExpr(shift, C) && 454760fad45739b764886f707bd204eae9ecce6db1f2John McCall shift.isNonNegative()) { 454860fad45739b764886f707bd204eae9ecce6db1f2John McCall unsigned zext = shift.getZExtValue(); 454960fad45739b764886f707bd204eae9ecce6db1f2John McCall if (zext >= L.Width) 455060fad45739b764886f707bd204eae9ecce6db1f2John McCall L.Width = (L.NonNegative ? 0 : 1); 455160fad45739b764886f707bd204eae9ecce6db1f2John McCall else 455260fad45739b764886f707bd204eae9ecce6db1f2John McCall L.Width -= zext; 455360fad45739b764886f707bd204eae9ecce6db1f2John McCall } 455460fad45739b764886f707bd204eae9ecce6db1f2John McCall 455560fad45739b764886f707bd204eae9ecce6db1f2John McCall return L; 455660fad45739b764886f707bd204eae9ecce6db1f2John McCall } 455760fad45739b764886f707bd204eae9ecce6db1f2John McCall 455860fad45739b764886f707bd204eae9ecce6db1f2John McCall // Comma acts as its right operand. 45592de56d1d0c3a504ad1529de2677628bdfbb95cd4John McCall case BO_Comma: 4560f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall return GetExprRange(C, BO->getRHS(), MaxWidth); 4561f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall 456260fad45739b764886f707bd204eae9ecce6db1f2John McCall // Black-list pointer subtractions. 45632de56d1d0c3a504ad1529de2677628bdfbb95cd4John McCall case BO_Sub: 456451313c39c84407dd6a323be99a8c322bf8d052a9John McCall if (BO->getLHS()->getType()->isPointerType()) 456509bddcf8c0ce4cc2f2a18e050e971539e8a396f8Eli Friedman return IntRange::forValueOfType(C, GetExprType(E)); 456600fe761849278180b0d73f276e468cf4c54ff2adJohn McCall break; 456700fe761849278180b0d73f276e468cf4c54ff2adJohn McCall 456800fe761849278180b0d73f276e468cf4c54ff2adJohn McCall // The width of a division result is mostly determined by the size 456900fe761849278180b0d73f276e468cf4c54ff2adJohn McCall // of the LHS. 457000fe761849278180b0d73f276e468cf4c54ff2adJohn McCall case BO_Div: { 457100fe761849278180b0d73f276e468cf4c54ff2adJohn McCall // Don't 'pre-truncate' the operands. 457209bddcf8c0ce4cc2f2a18e050e971539e8a396f8Eli Friedman unsigned opWidth = C.getIntWidth(GetExprType(E)); 457300fe761849278180b0d73f276e468cf4c54ff2adJohn McCall IntRange L = GetExprRange(C, BO->getLHS(), opWidth); 457400fe761849278180b0d73f276e468cf4c54ff2adJohn McCall 457500fe761849278180b0d73f276e468cf4c54ff2adJohn McCall // If the divisor is constant, use that. 457600fe761849278180b0d73f276e468cf4c54ff2adJohn McCall llvm::APSInt divisor; 457700fe761849278180b0d73f276e468cf4c54ff2adJohn McCall if (BO->getRHS()->isIntegerConstantExpr(divisor, C)) { 457800fe761849278180b0d73f276e468cf4c54ff2adJohn McCall unsigned log2 = divisor.logBase2(); // floor(log_2(divisor)) 457900fe761849278180b0d73f276e468cf4c54ff2adJohn McCall if (log2 >= L.Width) 458000fe761849278180b0d73f276e468cf4c54ff2adJohn McCall L.Width = (L.NonNegative ? 0 : 1); 458100fe761849278180b0d73f276e468cf4c54ff2adJohn McCall else 458200fe761849278180b0d73f276e468cf4c54ff2adJohn McCall L.Width = std::min(L.Width - log2, MaxWidth); 458300fe761849278180b0d73f276e468cf4c54ff2adJohn McCall return L; 458400fe761849278180b0d73f276e468cf4c54ff2adJohn McCall } 458500fe761849278180b0d73f276e468cf4c54ff2adJohn McCall 458600fe761849278180b0d73f276e468cf4c54ff2adJohn McCall // Otherwise, just use the LHS's width. 458700fe761849278180b0d73f276e468cf4c54ff2adJohn McCall IntRange R = GetExprRange(C, BO->getRHS(), opWidth); 458800fe761849278180b0d73f276e468cf4c54ff2adJohn McCall return IntRange(L.Width, L.NonNegative && R.NonNegative); 458900fe761849278180b0d73f276e468cf4c54ff2adJohn McCall } 459000fe761849278180b0d73f276e468cf4c54ff2adJohn McCall 459100fe761849278180b0d73f276e468cf4c54ff2adJohn McCall // The result of a remainder can't be larger than the result of 459200fe761849278180b0d73f276e468cf4c54ff2adJohn McCall // either side. 459300fe761849278180b0d73f276e468cf4c54ff2adJohn McCall case BO_Rem: { 459400fe761849278180b0d73f276e468cf4c54ff2adJohn McCall // Don't 'pre-truncate' the operands. 459509bddcf8c0ce4cc2f2a18e050e971539e8a396f8Eli Friedman unsigned opWidth = C.getIntWidth(GetExprType(E)); 459600fe761849278180b0d73f276e468cf4c54ff2adJohn McCall IntRange L = GetExprRange(C, BO->getLHS(), opWidth); 459700fe761849278180b0d73f276e468cf4c54ff2adJohn McCall IntRange R = GetExprRange(C, BO->getRHS(), opWidth); 459800fe761849278180b0d73f276e468cf4c54ff2adJohn McCall 459900fe761849278180b0d73f276e468cf4c54ff2adJohn McCall IntRange meet = IntRange::meet(L, R); 460000fe761849278180b0d73f276e468cf4c54ff2adJohn McCall meet.Width = std::min(meet.Width, MaxWidth); 460100fe761849278180b0d73f276e468cf4c54ff2adJohn McCall return meet; 460200fe761849278180b0d73f276e468cf4c54ff2adJohn McCall } 46034e4b30ec62d78b24e6556fea2624855c193d0e3eTed Kremenek 460400fe761849278180b0d73f276e468cf4c54ff2adJohn McCall // The default behavior is okay for these. 460500fe761849278180b0d73f276e468cf4c54ff2adJohn McCall case BO_Mul: 460600fe761849278180b0d73f276e468cf4c54ff2adJohn McCall case BO_Add: 460700fe761849278180b0d73f276e468cf4c54ff2adJohn McCall case BO_Xor: 460800fe761849278180b0d73f276e468cf4c54ff2adJohn McCall case BO_Or: 4609f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall break; 461051313c39c84407dd6a323be99a8c322bf8d052a9John McCall } 4611f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall 461200fe761849278180b0d73f276e468cf4c54ff2adJohn McCall // The default case is to treat the operation as if it were closed 461300fe761849278180b0d73f276e468cf4c54ff2adJohn McCall // on the narrowest type that encompasses both operands. 4614f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall IntRange L = GetExprRange(C, BO->getLHS(), MaxWidth); 4615f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall IntRange R = GetExprRange(C, BO->getRHS(), MaxWidth); 4616f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall return IntRange::join(L, R); 461751313c39c84407dd6a323be99a8c322bf8d052a9John McCall } 461851313c39c84407dd6a323be99a8c322bf8d052a9John McCall 461951313c39c84407dd6a323be99a8c322bf8d052a9John McCall if (UnaryOperator *UO = dyn_cast<UnaryOperator>(E)) { 462051313c39c84407dd6a323be99a8c322bf8d052a9John McCall switch (UO->getOpcode()) { 462151313c39c84407dd6a323be99a8c322bf8d052a9John McCall // Boolean-valued operations are white-listed. 46222de56d1d0c3a504ad1529de2677628bdfbb95cd4John McCall case UO_LNot: 4623f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall return IntRange::forBoolType(); 462451313c39c84407dd6a323be99a8c322bf8d052a9John McCall 462551313c39c84407dd6a323be99a8c322bf8d052a9John McCall // Operations with opaque sources are black-listed. 46262de56d1d0c3a504ad1529de2677628bdfbb95cd4John McCall case UO_Deref: 46272de56d1d0c3a504ad1529de2677628bdfbb95cd4John McCall case UO_AddrOf: // should be impossible 462809bddcf8c0ce4cc2f2a18e050e971539e8a396f8Eli Friedman return IntRange::forValueOfType(C, GetExprType(E)); 462951313c39c84407dd6a323be99a8c322bf8d052a9John McCall 463051313c39c84407dd6a323be99a8c322bf8d052a9John McCall default: 4631f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall return GetExprRange(C, UO->getSubExpr(), MaxWidth); 463251313c39c84407dd6a323be99a8c322bf8d052a9John McCall } 463351313c39c84407dd6a323be99a8c322bf8d052a9John McCall } 463451313c39c84407dd6a323be99a8c322bf8d052a9John McCall 4635993f43f24d7a45a5cd4678a3316b0852261fc5d4John McCall if (FieldDecl *BitField = E->getSourceBitField()) 4636a6b8b2c09610b8bc4330e948ece8b940c2386406Richard Smith return IntRange(BitField->getBitWidthValue(C), 46375e9ebb3c0fb554d9285aa99c470abdf283272bd9Douglas Gregor BitField->getType()->isUnsignedIntegerOrEnumerationType()); 4638f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall 463909bddcf8c0ce4cc2f2a18e050e971539e8a396f8Eli Friedman return IntRange::forValueOfType(C, GetExprType(E)); 4640f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall} 4641f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall 46420692a1991bdb8b3112887fce90d75f2103a0080bTed Kremenekstatic IntRange GetExprRange(ASTContext &C, Expr *E) { 464309bddcf8c0ce4cc2f2a18e050e971539e8a396f8Eli Friedman return GetExprRange(C, E, C.getIntWidth(GetExprType(E))); 4644323ed74658bc8375278eabf074b4777458376540John McCall} 4645323ed74658bc8375278eabf074b4777458376540John McCall 4646f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall/// Checks whether the given value, which currently has the given 4647f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall/// source semantics, has the same value when coerced through the 4648f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall/// target semantics. 46490692a1991bdb8b3112887fce90d75f2103a0080bTed Kremenekstatic bool IsSameFloatAfterCast(const llvm::APFloat &value, 46500692a1991bdb8b3112887fce90d75f2103a0080bTed Kremenek const llvm::fltSemantics &Src, 46510692a1991bdb8b3112887fce90d75f2103a0080bTed Kremenek const llvm::fltSemantics &Tgt) { 4652f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall llvm::APFloat truncated = value; 4653f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall 4654f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall bool ignored; 4655f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall truncated.convert(Src, llvm::APFloat::rmNearestTiesToEven, &ignored); 4656f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall truncated.convert(Tgt, llvm::APFloat::rmNearestTiesToEven, &ignored); 4657f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall 4658f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall return truncated.bitwiseIsEqual(value); 465951313c39c84407dd6a323be99a8c322bf8d052a9John McCall} 466051313c39c84407dd6a323be99a8c322bf8d052a9John McCall 4661f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall/// Checks whether the given value, which currently has the given 4662f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall/// source semantics, has the same value when coerced through the 4663f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall/// target semantics. 4664f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall/// 4665f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall/// The value might be a vector of floats (or a complex number). 46660692a1991bdb8b3112887fce90d75f2103a0080bTed Kremenekstatic bool IsSameFloatAfterCast(const APValue &value, 46670692a1991bdb8b3112887fce90d75f2103a0080bTed Kremenek const llvm::fltSemantics &Src, 46680692a1991bdb8b3112887fce90d75f2103a0080bTed Kremenek const llvm::fltSemantics &Tgt) { 4669f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall if (value.isFloat()) 4670f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall return IsSameFloatAfterCast(value.getFloat(), Src, Tgt); 4671f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall 4672f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall if (value.isVector()) { 4673f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall for (unsigned i = 0, e = value.getVectorLength(); i != e; ++i) 4674f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall if (!IsSameFloatAfterCast(value.getVectorElt(i), Src, Tgt)) 4675f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall return false; 4676f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall return true; 4677f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall } 4678f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall 4679f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall assert(value.isComplexFloat()); 4680f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall return (IsSameFloatAfterCast(value.getComplexFloatReal(), Src, Tgt) && 4681f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall IsSameFloatAfterCast(value.getComplexFloatImag(), Src, Tgt)); 4682f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall} 4683f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall 46840692a1991bdb8b3112887fce90d75f2103a0080bTed Kremenekstatic void AnalyzeImplicitConversions(Sema &S, Expr *E, SourceLocation CC); 4685323ed74658bc8375278eabf074b4777458376540John McCall 4686e3b159c0d4a93db8586861ff011b5a10de4ae6efTed Kremenekstatic bool IsZero(Sema &S, Expr *E) { 4687e3b159c0d4a93db8586861ff011b5a10de4ae6efTed Kremenek // Suppress cases where we are comparing against an enum constant. 4688e3b159c0d4a93db8586861ff011b5a10de4ae6efTed Kremenek if (const DeclRefExpr *DR = 4689e3b159c0d4a93db8586861ff011b5a10de4ae6efTed Kremenek dyn_cast<DeclRefExpr>(E->IgnoreParenImpCasts())) 4690e3b159c0d4a93db8586861ff011b5a10de4ae6efTed Kremenek if (isa<EnumConstantDecl>(DR->getDecl())) 4691e3b159c0d4a93db8586861ff011b5a10de4ae6efTed Kremenek return false; 4692e3b159c0d4a93db8586861ff011b5a10de4ae6efTed Kremenek 4693e3b159c0d4a93db8586861ff011b5a10de4ae6efTed Kremenek // Suppress cases where the '0' value is expanded from a macro. 4694e3b159c0d4a93db8586861ff011b5a10de4ae6efTed Kremenek if (E->getLocStart().isMacroID()) 4695e3b159c0d4a93db8586861ff011b5a10de4ae6efTed Kremenek return false; 4696e3b159c0d4a93db8586861ff011b5a10de4ae6efTed Kremenek 4697323ed74658bc8375278eabf074b4777458376540John McCall llvm::APSInt Value; 4698323ed74658bc8375278eabf074b4777458376540John McCall return E->isIntegerConstantExpr(Value, S.Context) && Value == 0; 4699323ed74658bc8375278eabf074b4777458376540John McCall} 4700323ed74658bc8375278eabf074b4777458376540John McCall 4701372e103dab4239ec52b65b9eda69fd43c0b348d4John McCallstatic bool HasEnumType(Expr *E) { 4702372e103dab4239ec52b65b9eda69fd43c0b348d4John McCall // Strip off implicit integral promotions. 4703372e103dab4239ec52b65b9eda69fd43c0b348d4John McCall while (ImplicitCastExpr *ICE = dyn_cast<ImplicitCastExpr>(E)) { 470463b57aeeebb5bb758ecebf9b41b5131781f32bf3Argyrios Kyrtzidis if (ICE->getCastKind() != CK_IntegralCast && 470563b57aeeebb5bb758ecebf9b41b5131781f32bf3Argyrios Kyrtzidis ICE->getCastKind() != CK_NoOp) 4706372e103dab4239ec52b65b9eda69fd43c0b348d4John McCall break; 470763b57aeeebb5bb758ecebf9b41b5131781f32bf3Argyrios Kyrtzidis E = ICE->getSubExpr(); 4708372e103dab4239ec52b65b9eda69fd43c0b348d4John McCall } 4709372e103dab4239ec52b65b9eda69fd43c0b348d4John McCall 4710372e103dab4239ec52b65b9eda69fd43c0b348d4John McCall return E->getType()->isEnumeralType(); 4711372e103dab4239ec52b65b9eda69fd43c0b348d4John McCall} 4712372e103dab4239ec52b65b9eda69fd43c0b348d4John McCall 47130692a1991bdb8b3112887fce90d75f2103a0080bTed Kremenekstatic void CheckTrivialUnsignedComparison(Sema &S, BinaryOperator *E) { 47142de56d1d0c3a504ad1529de2677628bdfbb95cd4John McCall BinaryOperatorKind op = E->getOpcode(); 471514af91a38c8cf89f0a5e1835d7d8e0fa220e17a9Douglas Gregor if (E->isValueDependent()) 471614af91a38c8cf89f0a5e1835d7d8e0fa220e17a9Douglas Gregor return; 471714af91a38c8cf89f0a5e1835d7d8e0fa220e17a9Douglas Gregor 47182de56d1d0c3a504ad1529de2677628bdfbb95cd4John McCall if (op == BO_LT && IsZero(S, E->getRHS())) { 4719323ed74658bc8375278eabf074b4777458376540John McCall S.Diag(E->getOperatorLoc(), diag::warn_lunsigned_always_true_comparison) 4720372e103dab4239ec52b65b9eda69fd43c0b348d4John McCall << "< 0" << "false" << HasEnumType(E->getLHS()) 4721323ed74658bc8375278eabf074b4777458376540John McCall << E->getLHS()->getSourceRange() << E->getRHS()->getSourceRange(); 47222de56d1d0c3a504ad1529de2677628bdfbb95cd4John McCall } else if (op == BO_GE && IsZero(S, E->getRHS())) { 4723323ed74658bc8375278eabf074b4777458376540John McCall S.Diag(E->getOperatorLoc(), diag::warn_lunsigned_always_true_comparison) 4724372e103dab4239ec52b65b9eda69fd43c0b348d4John McCall << ">= 0" << "true" << HasEnumType(E->getLHS()) 4725323ed74658bc8375278eabf074b4777458376540John McCall << E->getLHS()->getSourceRange() << E->getRHS()->getSourceRange(); 47262de56d1d0c3a504ad1529de2677628bdfbb95cd4John McCall } else if (op == BO_GT && IsZero(S, E->getLHS())) { 4727323ed74658bc8375278eabf074b4777458376540John McCall S.Diag(E->getOperatorLoc(), diag::warn_runsigned_always_true_comparison) 4728372e103dab4239ec52b65b9eda69fd43c0b348d4John McCall << "0 >" << "false" << HasEnumType(E->getRHS()) 4729323ed74658bc8375278eabf074b4777458376540John McCall << E->getLHS()->getSourceRange() << E->getRHS()->getSourceRange(); 47302de56d1d0c3a504ad1529de2677628bdfbb95cd4John McCall } else if (op == BO_LE && IsZero(S, E->getLHS())) { 4731323ed74658bc8375278eabf074b4777458376540John McCall S.Diag(E->getOperatorLoc(), diag::warn_runsigned_always_true_comparison) 4732372e103dab4239ec52b65b9eda69fd43c0b348d4John McCall << "0 <=" << "true" << HasEnumType(E->getRHS()) 4733323ed74658bc8375278eabf074b4777458376540John McCall << E->getLHS()->getSourceRange() << E->getRHS()->getSourceRange(); 4734323ed74658bc8375278eabf074b4777458376540John McCall } 4735323ed74658bc8375278eabf074b4777458376540John McCall} 4736323ed74658bc8375278eabf074b4777458376540John McCall 473715a9356464f0809e1cb24aa3a7cc2577914ff5bbFariborz Jahanianstatic void DiagnoseOutOfRangeComparison(Sema &S, BinaryOperator *E, 4738a193f20916f0e0e5a3b0f76ca69e2b3870c1a325Fariborz Jahanian Expr *Constant, Expr *Other, 473915a9356464f0809e1cb24aa3a7cc2577914ff5bbFariborz Jahanian llvm::APSInt Value, 4740a193f20916f0e0e5a3b0f76ca69e2b3870c1a325Fariborz Jahanian bool RhsConstant) { 4741526e627d2bd7e8cbf630526d315c90864898d9ffRichard Trieu // 0 values are handled later by CheckTrivialUnsignedComparison(). 4742526e627d2bd7e8cbf630526d315c90864898d9ffRichard Trieu if (Value == 0) 4743526e627d2bd7e8cbf630526d315c90864898d9ffRichard Trieu return; 4744526e627d2bd7e8cbf630526d315c90864898d9ffRichard Trieu 474515a9356464f0809e1cb24aa3a7cc2577914ff5bbFariborz Jahanian BinaryOperatorKind op = E->getOpcode(); 4746a193f20916f0e0e5a3b0f76ca69e2b3870c1a325Fariborz Jahanian QualType OtherT = Other->getType(); 4747a193f20916f0e0e5a3b0f76ca69e2b3870c1a325Fariborz Jahanian QualType ConstantT = Constant->getType(); 4748526e627d2bd7e8cbf630526d315c90864898d9ffRichard Trieu QualType CommonT = E->getLHS()->getType(); 4749a193f20916f0e0e5a3b0f76ca69e2b3870c1a325Fariborz Jahanian if (S.Context.hasSameUnqualifiedType(OtherT, ConstantT)) 475015a9356464f0809e1cb24aa3a7cc2577914ff5bbFariborz Jahanian return; 4751a193f20916f0e0e5a3b0f76ca69e2b3870c1a325Fariborz Jahanian assert((OtherT->isIntegerType() && ConstantT->isIntegerType()) 475215a9356464f0809e1cb24aa3a7cc2577914ff5bbFariborz Jahanian && "comparison with non-integer type"); 4753526e627d2bd7e8cbf630526d315c90864898d9ffRichard Trieu 4754526e627d2bd7e8cbf630526d315c90864898d9ffRichard Trieu bool ConstantSigned = ConstantT->isSignedIntegerType(); 4755526e627d2bd7e8cbf630526d315c90864898d9ffRichard Trieu bool CommonSigned = CommonT->isSignedIntegerType(); 4756526e627d2bd7e8cbf630526d315c90864898d9ffRichard Trieu 4757526e627d2bd7e8cbf630526d315c90864898d9ffRichard Trieu bool EqualityOnly = false; 4758526e627d2bd7e8cbf630526d315c90864898d9ffRichard Trieu 4759526e627d2bd7e8cbf630526d315c90864898d9ffRichard Trieu // TODO: Investigate using GetExprRange() to get tighter bounds on 4760526e627d2bd7e8cbf630526d315c90864898d9ffRichard Trieu // on the bit ranges. 476115a9356464f0809e1cb24aa3a7cc2577914ff5bbFariborz Jahanian IntRange OtherRange = IntRange::forValueOfType(S.Context, OtherT); 4762526e627d2bd7e8cbf630526d315c90864898d9ffRichard Trieu unsigned OtherWidth = OtherRange.Width; 4763526e627d2bd7e8cbf630526d315c90864898d9ffRichard Trieu 4764526e627d2bd7e8cbf630526d315c90864898d9ffRichard Trieu if (CommonSigned) { 4765526e627d2bd7e8cbf630526d315c90864898d9ffRichard Trieu // The common type is signed, therefore no signed to unsigned conversion. 4766d87de7bdbc25dd84ae3dbefffda4539c443000d2Eli Friedman if (!OtherRange.NonNegative) { 4767526e627d2bd7e8cbf630526d315c90864898d9ffRichard Trieu // Check that the constant is representable in type OtherT. 4768526e627d2bd7e8cbf630526d315c90864898d9ffRichard Trieu if (ConstantSigned) { 4769526e627d2bd7e8cbf630526d315c90864898d9ffRichard Trieu if (OtherWidth >= Value.getMinSignedBits()) 4770526e627d2bd7e8cbf630526d315c90864898d9ffRichard Trieu return; 4771526e627d2bd7e8cbf630526d315c90864898d9ffRichard Trieu } else { // !ConstantSigned 4772526e627d2bd7e8cbf630526d315c90864898d9ffRichard Trieu if (OtherWidth >= Value.getActiveBits() + 1) 4773526e627d2bd7e8cbf630526d315c90864898d9ffRichard Trieu return; 4774526e627d2bd7e8cbf630526d315c90864898d9ffRichard Trieu } 4775526e627d2bd7e8cbf630526d315c90864898d9ffRichard Trieu } else { // !OtherSigned 4776526e627d2bd7e8cbf630526d315c90864898d9ffRichard Trieu // Check that the constant is representable in type OtherT. 4777526e627d2bd7e8cbf630526d315c90864898d9ffRichard Trieu // Negative values are out of range. 4778526e627d2bd7e8cbf630526d315c90864898d9ffRichard Trieu if (ConstantSigned) { 4779526e627d2bd7e8cbf630526d315c90864898d9ffRichard Trieu if (Value.isNonNegative() && OtherWidth >= Value.getActiveBits()) 4780526e627d2bd7e8cbf630526d315c90864898d9ffRichard Trieu return; 4781526e627d2bd7e8cbf630526d315c90864898d9ffRichard Trieu } else { // !ConstantSigned 4782526e627d2bd7e8cbf630526d315c90864898d9ffRichard Trieu if (OtherWidth >= Value.getActiveBits()) 4783526e627d2bd7e8cbf630526d315c90864898d9ffRichard Trieu return; 4784526e627d2bd7e8cbf630526d315c90864898d9ffRichard Trieu } 4785526e627d2bd7e8cbf630526d315c90864898d9ffRichard Trieu } 4786526e627d2bd7e8cbf630526d315c90864898d9ffRichard Trieu } else { // !CommonSigned 4787d87de7bdbc25dd84ae3dbefffda4539c443000d2Eli Friedman if (OtherRange.NonNegative) { 4788526e627d2bd7e8cbf630526d315c90864898d9ffRichard Trieu if (OtherWidth >= Value.getActiveBits()) 4789526e627d2bd7e8cbf630526d315c90864898d9ffRichard Trieu return; 4790d87de7bdbc25dd84ae3dbefffda4539c443000d2Eli Friedman } else if (!OtherRange.NonNegative && !ConstantSigned) { 4791526e627d2bd7e8cbf630526d315c90864898d9ffRichard Trieu // Check to see if the constant is representable in OtherT. 4792526e627d2bd7e8cbf630526d315c90864898d9ffRichard Trieu if (OtherWidth > Value.getActiveBits()) 4793526e627d2bd7e8cbf630526d315c90864898d9ffRichard Trieu return; 4794526e627d2bd7e8cbf630526d315c90864898d9ffRichard Trieu // Check to see if the constant is equivalent to a negative value 4795526e627d2bd7e8cbf630526d315c90864898d9ffRichard Trieu // cast to CommonT. 4796526e627d2bd7e8cbf630526d315c90864898d9ffRichard Trieu if (S.Context.getIntWidth(ConstantT) == S.Context.getIntWidth(CommonT) && 47975d1cf4f292cb060b1973eb197607fc6d5716bd12Richard Trieu Value.isNegative() && Value.getMinSignedBits() <= OtherWidth) 4798526e627d2bd7e8cbf630526d315c90864898d9ffRichard Trieu return; 4799526e627d2bd7e8cbf630526d315c90864898d9ffRichard Trieu // The constant value rests between values that OtherT can represent after 4800526e627d2bd7e8cbf630526d315c90864898d9ffRichard Trieu // conversion. Relational comparison still works, but equality 4801526e627d2bd7e8cbf630526d315c90864898d9ffRichard Trieu // comparisons will be tautological. 4802526e627d2bd7e8cbf630526d315c90864898d9ffRichard Trieu EqualityOnly = true; 4803526e627d2bd7e8cbf630526d315c90864898d9ffRichard Trieu } else { // OtherSigned && ConstantSigned 4804526e627d2bd7e8cbf630526d315c90864898d9ffRichard Trieu assert(0 && "Two signed types converted to unsigned types."); 4805526e627d2bd7e8cbf630526d315c90864898d9ffRichard Trieu } 4806526e627d2bd7e8cbf630526d315c90864898d9ffRichard Trieu } 4807526e627d2bd7e8cbf630526d315c90864898d9ffRichard Trieu 4808526e627d2bd7e8cbf630526d315c90864898d9ffRichard Trieu bool PositiveConstant = !ConstantSigned || Value.isNonNegative(); 4809526e627d2bd7e8cbf630526d315c90864898d9ffRichard Trieu 481015a9356464f0809e1cb24aa3a7cc2577914ff5bbFariborz Jahanian bool IsTrue = true; 4811526e627d2bd7e8cbf630526d315c90864898d9ffRichard Trieu if (op == BO_EQ || op == BO_NE) { 4812526e627d2bd7e8cbf630526d315c90864898d9ffRichard Trieu IsTrue = op == BO_NE; 4813526e627d2bd7e8cbf630526d315c90864898d9ffRichard Trieu } else if (EqualityOnly) { 4814526e627d2bd7e8cbf630526d315c90864898d9ffRichard Trieu return; 4815526e627d2bd7e8cbf630526d315c90864898d9ffRichard Trieu } else if (RhsConstant) { 481615a9356464f0809e1cb24aa3a7cc2577914ff5bbFariborz Jahanian if (op == BO_GT || op == BO_GE) 4817526e627d2bd7e8cbf630526d315c90864898d9ffRichard Trieu IsTrue = !PositiveConstant; 481815a9356464f0809e1cb24aa3a7cc2577914ff5bbFariborz Jahanian else // op == BO_LT || op == BO_LE 4819526e627d2bd7e8cbf630526d315c90864898d9ffRichard Trieu IsTrue = PositiveConstant; 4820a193f20916f0e0e5a3b0f76ca69e2b3870c1a325Fariborz Jahanian } else { 482115a9356464f0809e1cb24aa3a7cc2577914ff5bbFariborz Jahanian if (op == BO_LT || op == BO_LE) 4822526e627d2bd7e8cbf630526d315c90864898d9ffRichard Trieu IsTrue = !PositiveConstant; 482315a9356464f0809e1cb24aa3a7cc2577914ff5bbFariborz Jahanian else // op == BO_GT || op == BO_GE 4824526e627d2bd7e8cbf630526d315c90864898d9ffRichard Trieu IsTrue = PositiveConstant; 482515a9356464f0809e1cb24aa3a7cc2577914ff5bbFariborz Jahanian } 48267adf3a9f84688f334a1cd977317bb42f9e06c9f4Ted Kremenek 48277adf3a9f84688f334a1cd977317bb42f9e06c9f4Ted Kremenek // If this is a comparison to an enum constant, include that 48287adf3a9f84688f334a1cd977317bb42f9e06c9f4Ted Kremenek // constant in the diagnostic. 48297adf3a9f84688f334a1cd977317bb42f9e06c9f4Ted Kremenek const EnumConstantDecl *ED = 0; 48307adf3a9f84688f334a1cd977317bb42f9e06c9f4Ted Kremenek if (const DeclRefExpr *DR = dyn_cast<DeclRefExpr>(Constant)) 48317adf3a9f84688f334a1cd977317bb42f9e06c9f4Ted Kremenek ED = dyn_cast<EnumConstantDecl>(DR->getDecl()); 48327adf3a9f84688f334a1cd977317bb42f9e06c9f4Ted Kremenek 48337adf3a9f84688f334a1cd977317bb42f9e06c9f4Ted Kremenek SmallString<64> PrettySourceValue; 48347adf3a9f84688f334a1cd977317bb42f9e06c9f4Ted Kremenek llvm::raw_svector_ostream OS(PrettySourceValue); 48357adf3a9f84688f334a1cd977317bb42f9e06c9f4Ted Kremenek if (ED) 48369de50947ba381561a5236b3c878c83e4bb8c1088Ted Kremenek OS << '\'' << *ED << "' (" << Value << ")"; 48377adf3a9f84688f334a1cd977317bb42f9e06c9f4Ted Kremenek else 48387adf3a9f84688f334a1cd977317bb42f9e06c9f4Ted Kremenek OS << Value; 48397adf3a9f84688f334a1cd977317bb42f9e06c9f4Ted Kremenek 4840a193f20916f0e0e5a3b0f76ca69e2b3870c1a325Fariborz Jahanian S.Diag(E->getOperatorLoc(), diag::warn_out_of_range_compare) 48417adf3a9f84688f334a1cd977317bb42f9e06c9f4Ted Kremenek << OS.str() << OtherT << IsTrue 4842526e627d2bd7e8cbf630526d315c90864898d9ffRichard Trieu << E->getLHS()->getSourceRange() << E->getRHS()->getSourceRange(); 484315a9356464f0809e1cb24aa3a7cc2577914ff5bbFariborz Jahanian} 484415a9356464f0809e1cb24aa3a7cc2577914ff5bbFariborz Jahanian 4845323ed74658bc8375278eabf074b4777458376540John McCall/// Analyze the operands of the given comparison. Implements the 4846323ed74658bc8375278eabf074b4777458376540John McCall/// fallback case from AnalyzeComparison. 48470692a1991bdb8b3112887fce90d75f2103a0080bTed Kremenekstatic void AnalyzeImpConvsInComparison(Sema &S, BinaryOperator *E) { 4848b4eb64d8426c0eaa58d398961e0e74ff85063d7cJohn McCall AnalyzeImplicitConversions(S, E->getLHS(), E->getOperatorLoc()); 4849b4eb64d8426c0eaa58d398961e0e74ff85063d7cJohn McCall AnalyzeImplicitConversions(S, E->getRHS(), E->getOperatorLoc()); 4850323ed74658bc8375278eabf074b4777458376540John McCall} 4851f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall 4852ba26e58c64b4f6233dfc4bcd3ef6ce83aab47ffcJohn McCall/// \brief Implements -Wsign-compare. 4853ba26e58c64b4f6233dfc4bcd3ef6ce83aab47ffcJohn McCall/// 4854dd22509c82eb7681a0f46b41d61cb2e25a4d8fa1Richard Trieu/// \param E the binary operator to check for warnings 48550692a1991bdb8b3112887fce90d75f2103a0080bTed Kremenekstatic void AnalyzeComparison(Sema &S, BinaryOperator *E) { 4856323ed74658bc8375278eabf074b4777458376540John McCall // The type the comparison is being performed in. 4857323ed74658bc8375278eabf074b4777458376540John McCall QualType T = E->getLHS()->getType(); 4858323ed74658bc8375278eabf074b4777458376540John McCall assert(S.Context.hasSameUnqualifiedType(T, E->getRHS()->getType()) 4859323ed74658bc8375278eabf074b4777458376540John McCall && "comparison with mismatched types"); 4860ab4702febef82409773f7c80ec02d53ddbb4d80eFariborz Jahanian if (E->isValueDependent()) 4861ab4702febef82409773f7c80ec02d53ddbb4d80eFariborz Jahanian return AnalyzeImpConvsInComparison(S, E); 4862323ed74658bc8375278eabf074b4777458376540John McCall 486315a9356464f0809e1cb24aa3a7cc2577914ff5bbFariborz Jahanian Expr *LHS = E->getLHS()->IgnoreParenImpCasts(); 486415a9356464f0809e1cb24aa3a7cc2577914ff5bbFariborz Jahanian Expr *RHS = E->getRHS()->IgnoreParenImpCasts(); 486515a9356464f0809e1cb24aa3a7cc2577914ff5bbFariborz Jahanian 486615a9356464f0809e1cb24aa3a7cc2577914ff5bbFariborz Jahanian bool IsComparisonConstant = false; 486715a9356464f0809e1cb24aa3a7cc2577914ff5bbFariborz Jahanian 4868a193f20916f0e0e5a3b0f76ca69e2b3870c1a325Fariborz Jahanian // Check whether an integer constant comparison results in a value 486915a9356464f0809e1cb24aa3a7cc2577914ff5bbFariborz Jahanian // of 'true' or 'false'. 487015a9356464f0809e1cb24aa3a7cc2577914ff5bbFariborz Jahanian if (T->isIntegralType(S.Context)) { 487115a9356464f0809e1cb24aa3a7cc2577914ff5bbFariborz Jahanian llvm::APSInt RHSValue; 487215a9356464f0809e1cb24aa3a7cc2577914ff5bbFariborz Jahanian bool IsRHSIntegralLiteral = 487315a9356464f0809e1cb24aa3a7cc2577914ff5bbFariborz Jahanian RHS->isIntegerConstantExpr(RHSValue, S.Context); 487415a9356464f0809e1cb24aa3a7cc2577914ff5bbFariborz Jahanian llvm::APSInt LHSValue; 487515a9356464f0809e1cb24aa3a7cc2577914ff5bbFariborz Jahanian bool IsLHSIntegralLiteral = 487615a9356464f0809e1cb24aa3a7cc2577914ff5bbFariborz Jahanian LHS->isIntegerConstantExpr(LHSValue, S.Context); 487715a9356464f0809e1cb24aa3a7cc2577914ff5bbFariborz Jahanian if (IsRHSIntegralLiteral && !IsLHSIntegralLiteral) 487815a9356464f0809e1cb24aa3a7cc2577914ff5bbFariborz Jahanian DiagnoseOutOfRangeComparison(S, E, RHS, LHS, RHSValue, true); 487915a9356464f0809e1cb24aa3a7cc2577914ff5bbFariborz Jahanian else if (!IsRHSIntegralLiteral && IsLHSIntegralLiteral) 488015a9356464f0809e1cb24aa3a7cc2577914ff5bbFariborz Jahanian DiagnoseOutOfRangeComparison(S, E, LHS, RHS, LHSValue, false); 488115a9356464f0809e1cb24aa3a7cc2577914ff5bbFariborz Jahanian else 488215a9356464f0809e1cb24aa3a7cc2577914ff5bbFariborz Jahanian IsComparisonConstant = 488315a9356464f0809e1cb24aa3a7cc2577914ff5bbFariborz Jahanian (IsRHSIntegralLiteral && IsLHSIntegralLiteral); 4884a193f20916f0e0e5a3b0f76ca69e2b3870c1a325Fariborz Jahanian } else if (!T->hasUnsignedIntegerRepresentation()) 4885a193f20916f0e0e5a3b0f76ca69e2b3870c1a325Fariborz Jahanian IsComparisonConstant = E->isIntegerConstantExpr(S.Context); 488615a9356464f0809e1cb24aa3a7cc2577914ff5bbFariborz Jahanian 4887323ed74658bc8375278eabf074b4777458376540John McCall // We don't do anything special if this isn't an unsigned integral 4888323ed74658bc8375278eabf074b4777458376540John McCall // comparison: we're only interested in integral comparisons, and 4889323ed74658bc8375278eabf074b4777458376540John McCall // signed comparisons only happen in cases we don't care to warn about. 48903e026e323f1bd820fb9c880b1db951c87df94bb4Douglas Gregor // 48913e026e323f1bd820fb9c880b1db951c87df94bb4Douglas Gregor // We also don't care about value-dependent expressions or expressions 48923e026e323f1bd820fb9c880b1db951c87df94bb4Douglas Gregor // whose result is a constant. 489315a9356464f0809e1cb24aa3a7cc2577914ff5bbFariborz Jahanian if (!T->hasUnsignedIntegerRepresentation() || IsComparisonConstant) 4894323ed74658bc8375278eabf074b4777458376540John McCall return AnalyzeImpConvsInComparison(S, E); 489515a9356464f0809e1cb24aa3a7cc2577914ff5bbFariborz Jahanian 4896323ed74658bc8375278eabf074b4777458376540John McCall // Check to see if one of the (unmodified) operands is of different 4897323ed74658bc8375278eabf074b4777458376540John McCall // signedness. 4898323ed74658bc8375278eabf074b4777458376540John McCall Expr *signedOperand, *unsignedOperand; 4899dd22509c82eb7681a0f46b41d61cb2e25a4d8fa1Richard Trieu if (LHS->getType()->hasSignedIntegerRepresentation()) { 4900dd22509c82eb7681a0f46b41d61cb2e25a4d8fa1Richard Trieu assert(!RHS->getType()->hasSignedIntegerRepresentation() && 4901323ed74658bc8375278eabf074b4777458376540John McCall "unsigned comparison between two signed integer expressions?"); 4902dd22509c82eb7681a0f46b41d61cb2e25a4d8fa1Richard Trieu signedOperand = LHS; 4903dd22509c82eb7681a0f46b41d61cb2e25a4d8fa1Richard Trieu unsignedOperand = RHS; 4904dd22509c82eb7681a0f46b41d61cb2e25a4d8fa1Richard Trieu } else if (RHS->getType()->hasSignedIntegerRepresentation()) { 4905dd22509c82eb7681a0f46b41d61cb2e25a4d8fa1Richard Trieu signedOperand = RHS; 4906dd22509c82eb7681a0f46b41d61cb2e25a4d8fa1Richard Trieu unsignedOperand = LHS; 4907ba26e58c64b4f6233dfc4bcd3ef6ce83aab47ffcJohn McCall } else { 4908323ed74658bc8375278eabf074b4777458376540John McCall CheckTrivialUnsignedComparison(S, E); 4909323ed74658bc8375278eabf074b4777458376540John McCall return AnalyzeImpConvsInComparison(S, E); 4910ba26e58c64b4f6233dfc4bcd3ef6ce83aab47ffcJohn McCall } 4911ba26e58c64b4f6233dfc4bcd3ef6ce83aab47ffcJohn McCall 4912323ed74658bc8375278eabf074b4777458376540John McCall // Otherwise, calculate the effective range of the signed operand. 4913323ed74658bc8375278eabf074b4777458376540John McCall IntRange signedRange = GetExprRange(S.Context, signedOperand); 4914f2370c9b4aade940e2253b5b33262ba507d1d71fJohn McCall 4915323ed74658bc8375278eabf074b4777458376540John McCall // Go ahead and analyze implicit conversions in the operands. Note 4916323ed74658bc8375278eabf074b4777458376540John McCall // that we skip the implicit conversions on both sides. 4917dd22509c82eb7681a0f46b41d61cb2e25a4d8fa1Richard Trieu AnalyzeImplicitConversions(S, LHS, E->getOperatorLoc()); 4918dd22509c82eb7681a0f46b41d61cb2e25a4d8fa1Richard Trieu AnalyzeImplicitConversions(S, RHS, E->getOperatorLoc()); 4919ba26e58c64b4f6233dfc4bcd3ef6ce83aab47ffcJohn McCall 4920323ed74658bc8375278eabf074b4777458376540John McCall // If the signed range is non-negative, -Wsign-compare won't fire, 4921323ed74658bc8375278eabf074b4777458376540John McCall // but we should still check for comparisons which are always true 4922323ed74658bc8375278eabf074b4777458376540John McCall // or false. 4923323ed74658bc8375278eabf074b4777458376540John McCall if (signedRange.NonNegative) 4924323ed74658bc8375278eabf074b4777458376540John McCall return CheckTrivialUnsignedComparison(S, E); 4925ba26e58c64b4f6233dfc4bcd3ef6ce83aab47ffcJohn McCall 4926ba26e58c64b4f6233dfc4bcd3ef6ce83aab47ffcJohn McCall // For (in)equality comparisons, if the unsigned operand is a 4927ba26e58c64b4f6233dfc4bcd3ef6ce83aab47ffcJohn McCall // constant which cannot collide with a overflowed signed operand, 4928ba26e58c64b4f6233dfc4bcd3ef6ce83aab47ffcJohn McCall // then reinterpreting the signed operand as unsigned will not 4929ba26e58c64b4f6233dfc4bcd3ef6ce83aab47ffcJohn McCall // change the result of the comparison. 4930323ed74658bc8375278eabf074b4777458376540John McCall if (E->isEqualityOp()) { 4931323ed74658bc8375278eabf074b4777458376540John McCall unsigned comparisonWidth = S.Context.getIntWidth(T); 4932323ed74658bc8375278eabf074b4777458376540John McCall IntRange unsignedRange = GetExprRange(S.Context, unsignedOperand); 4933323ed74658bc8375278eabf074b4777458376540John McCall 4934323ed74658bc8375278eabf074b4777458376540John McCall // We should never be unable to prove that the unsigned operand is 4935323ed74658bc8375278eabf074b4777458376540John McCall // non-negative. 4936323ed74658bc8375278eabf074b4777458376540John McCall assert(unsignedRange.NonNegative && "unsigned range includes negative?"); 4937ba26e58c64b4f6233dfc4bcd3ef6ce83aab47ffcJohn McCall 4938323ed74658bc8375278eabf074b4777458376540John McCall if (unsignedRange.Width < comparisonWidth) 4939323ed74658bc8375278eabf074b4777458376540John McCall return; 4940323ed74658bc8375278eabf074b4777458376540John McCall } 4941323ed74658bc8375278eabf074b4777458376540John McCall 49426d3b93d631640125f912339df19b0d2a15af5c9bDouglas Gregor S.DiagRuntimeBehavior(E->getOperatorLoc(), E, 49436d3b93d631640125f912339df19b0d2a15af5c9bDouglas Gregor S.PDiag(diag::warn_mixed_sign_comparison) 49446d3b93d631640125f912339df19b0d2a15af5c9bDouglas Gregor << LHS->getType() << RHS->getType() 49456d3b93d631640125f912339df19b0d2a15af5c9bDouglas Gregor << LHS->getSourceRange() << RHS->getSourceRange()); 4946ba26e58c64b4f6233dfc4bcd3ef6ce83aab47ffcJohn McCall} 4947ba26e58c64b4f6233dfc4bcd3ef6ce83aab47ffcJohn McCall 494815d7d12226f83de24f96f4bf4e27ebba30fef51eJohn McCall/// Analyzes an attempt to assign the given value to a bitfield. 494915d7d12226f83de24f96f4bf4e27ebba30fef51eJohn McCall/// 495015d7d12226f83de24f96f4bf4e27ebba30fef51eJohn McCall/// Returns true if there was something fishy about the attempt. 49510692a1991bdb8b3112887fce90d75f2103a0080bTed Kremenekstatic bool AnalyzeBitFieldAssignment(Sema &S, FieldDecl *Bitfield, Expr *Init, 49520692a1991bdb8b3112887fce90d75f2103a0080bTed Kremenek SourceLocation InitLoc) { 495315d7d12226f83de24f96f4bf4e27ebba30fef51eJohn McCall assert(Bitfield->isBitField()); 495415d7d12226f83de24f96f4bf4e27ebba30fef51eJohn McCall if (Bitfield->isInvalidDecl()) 495515d7d12226f83de24f96f4bf4e27ebba30fef51eJohn McCall return false; 495615d7d12226f83de24f96f4bf4e27ebba30fef51eJohn McCall 495791b6014876e9186f968f74a8975ab8fc08ef1b68John McCall // White-list bool bitfields. 495891b6014876e9186f968f74a8975ab8fc08ef1b68John McCall if (Bitfield->getType()->isBooleanType()) 495991b6014876e9186f968f74a8975ab8fc08ef1b68John McCall return false; 496091b6014876e9186f968f74a8975ab8fc08ef1b68John McCall 496146ff3034d14aaa92b530e96480741f3d5d458cb8Douglas Gregor // Ignore value- or type-dependent expressions. 496246ff3034d14aaa92b530e96480741f3d5d458cb8Douglas Gregor if (Bitfield->getBitWidth()->isValueDependent() || 496346ff3034d14aaa92b530e96480741f3d5d458cb8Douglas Gregor Bitfield->getBitWidth()->isTypeDependent() || 496446ff3034d14aaa92b530e96480741f3d5d458cb8Douglas Gregor Init->isValueDependent() || 496546ff3034d14aaa92b530e96480741f3d5d458cb8Douglas Gregor Init->isTypeDependent()) 496646ff3034d14aaa92b530e96480741f3d5d458cb8Douglas Gregor return false; 496746ff3034d14aaa92b530e96480741f3d5d458cb8Douglas Gregor 496815d7d12226f83de24f96f4bf4e27ebba30fef51eJohn McCall Expr *OriginalInit = Init->IgnoreParenImpCasts(); 496915d7d12226f83de24f96f4bf4e27ebba30fef51eJohn McCall 497080d4b55db94db2172a04617d1a80feca6bbcea5cRichard Smith llvm::APSInt Value; 497180d4b55db94db2172a04617d1a80feca6bbcea5cRichard Smith if (!OriginalInit->EvaluateAsInt(Value, S.Context, Expr::SE_AllowSideEffects)) 497215d7d12226f83de24f96f4bf4e27ebba30fef51eJohn McCall return false; 497315d7d12226f83de24f96f4bf4e27ebba30fef51eJohn McCall 497415d7d12226f83de24f96f4bf4e27ebba30fef51eJohn McCall unsigned OriginalWidth = Value.getBitWidth(); 4975a6b8b2c09610b8bc4330e948ece8b940c2386406Richard Smith unsigned FieldWidth = Bitfield->getBitWidthValue(S.Context); 497615d7d12226f83de24f96f4bf4e27ebba30fef51eJohn McCall 497715d7d12226f83de24f96f4bf4e27ebba30fef51eJohn McCall if (OriginalWidth <= FieldWidth) 497815d7d12226f83de24f96f4bf4e27ebba30fef51eJohn McCall return false; 497915d7d12226f83de24f96f4bf4e27ebba30fef51eJohn McCall 49803a643afa402d51b5fc4faccb4329e9c4392d4551Eli Friedman // Compute the value which the bitfield will contain. 49819f71a8f4c7a182a5236da9e747d57cc1d1bd24c2Jay Foad llvm::APSInt TruncatedValue = Value.trunc(FieldWidth); 49823a643afa402d51b5fc4faccb4329e9c4392d4551Eli Friedman TruncatedValue.setIsSigned(Bitfield->getType()->isSignedIntegerType()); 498315d7d12226f83de24f96f4bf4e27ebba30fef51eJohn McCall 49843a643afa402d51b5fc4faccb4329e9c4392d4551Eli Friedman // Check whether the stored value is equal to the original value. 49853a643afa402d51b5fc4faccb4329e9c4392d4551Eli Friedman TruncatedValue = TruncatedValue.extend(OriginalWidth); 4986e1ecdc168175719d74e112bcacd4aae5e12d4631Richard Trieu if (llvm::APSInt::isSameValue(Value, TruncatedValue)) 498715d7d12226f83de24f96f4bf4e27ebba30fef51eJohn McCall return false; 498815d7d12226f83de24f96f4bf4e27ebba30fef51eJohn McCall 49893a643afa402d51b5fc4faccb4329e9c4392d4551Eli Friedman // Special-case bitfields of width 1: booleans are naturally 0/1, and 499034ff062936ac78142a2c0dc8d1ae6a40df456819Eli Friedman // therefore don't strictly fit into a signed bitfield of width 1. 499134ff062936ac78142a2c0dc8d1ae6a40df456819Eli Friedman if (FieldWidth == 1 && Value == 1) 49923a643afa402d51b5fc4faccb4329e9c4392d4551Eli Friedman return false; 49933a643afa402d51b5fc4faccb4329e9c4392d4551Eli Friedman 499415d7d12226f83de24f96f4bf4e27ebba30fef51eJohn McCall std::string PrettyValue = Value.toString(10); 499515d7d12226f83de24f96f4bf4e27ebba30fef51eJohn McCall std::string PrettyTrunc = TruncatedValue.toString(10); 499615d7d12226f83de24f96f4bf4e27ebba30fef51eJohn McCall 499715d7d12226f83de24f96f4bf4e27ebba30fef51eJohn McCall S.Diag(InitLoc, diag::warn_impcast_bitfield_precision_constant) 499815d7d12226f83de24f96f4bf4e27ebba30fef51eJohn McCall << PrettyValue << PrettyTrunc << OriginalInit->getType() 499915d7d12226f83de24f96f4bf4e27ebba30fef51eJohn McCall << Init->getSourceRange(); 500015d7d12226f83de24f96f4bf4e27ebba30fef51eJohn McCall 500115d7d12226f83de24f96f4bf4e27ebba30fef51eJohn McCall return true; 500215d7d12226f83de24f96f4bf4e27ebba30fef51eJohn McCall} 500315d7d12226f83de24f96f4bf4e27ebba30fef51eJohn McCall 5004beb22aaa22e255241d6a81e8b0a9239f5fa584f3John McCall/// Analyze the given simple or compound assignment for warning-worthy 5005beb22aaa22e255241d6a81e8b0a9239f5fa584f3John McCall/// operations. 50060692a1991bdb8b3112887fce90d75f2103a0080bTed Kremenekstatic void AnalyzeAssignment(Sema &S, BinaryOperator *E) { 5007beb22aaa22e255241d6a81e8b0a9239f5fa584f3John McCall // Just recurse on the LHS. 5008beb22aaa22e255241d6a81e8b0a9239f5fa584f3John McCall AnalyzeImplicitConversions(S, E->getLHS(), E->getOperatorLoc()); 5009beb22aaa22e255241d6a81e8b0a9239f5fa584f3John McCall 5010beb22aaa22e255241d6a81e8b0a9239f5fa584f3John McCall // We want to recurse on the RHS as normal unless we're assigning to 5011beb22aaa22e255241d6a81e8b0a9239f5fa584f3John McCall // a bitfield. 5012993f43f24d7a45a5cd4678a3316b0852261fc5d4John McCall if (FieldDecl *Bitfield = E->getLHS()->getSourceBitField()) { 5013dff2be8ba441f5c61af8444479f7133b22dcfcf4Timur Iskhodzhanov if (AnalyzeBitFieldAssignment(S, Bitfield, E->getRHS(), 501415d7d12226f83de24f96f4bf4e27ebba30fef51eJohn McCall E->getOperatorLoc())) { 501515d7d12226f83de24f96f4bf4e27ebba30fef51eJohn McCall // Recurse, ignoring any implicit conversions on the RHS. 501615d7d12226f83de24f96f4bf4e27ebba30fef51eJohn McCall return AnalyzeImplicitConversions(S, E->getRHS()->IgnoreParenImpCasts(), 501715d7d12226f83de24f96f4bf4e27ebba30fef51eJohn McCall E->getOperatorLoc()); 5018beb22aaa22e255241d6a81e8b0a9239f5fa584f3John McCall } 5019beb22aaa22e255241d6a81e8b0a9239f5fa584f3John McCall } 5020beb22aaa22e255241d6a81e8b0a9239f5fa584f3John McCall 5021beb22aaa22e255241d6a81e8b0a9239f5fa584f3John McCall AnalyzeImplicitConversions(S, E->getRHS(), E->getOperatorLoc()); 5022beb22aaa22e255241d6a81e8b0a9239f5fa584f3John McCall} 5023beb22aaa22e255241d6a81e8b0a9239f5fa584f3John McCall 502451313c39c84407dd6a323be99a8c322bf8d052a9John McCall/// Diagnose an implicit cast; purely a helper for CheckImplicitConversion. 50250692a1991bdb8b3112887fce90d75f2103a0080bTed Kremenekstatic void DiagnoseImpCast(Sema &S, Expr *E, QualType SourceType, QualType T, 5026c36bedc90c687caa71748480c60707ea4608b092Anna Zaks SourceLocation CContext, unsigned diag, 5027c36bedc90c687caa71748480c60707ea4608b092Anna Zaks bool pruneControlFlow = false) { 5028c36bedc90c687caa71748480c60707ea4608b092Anna Zaks if (pruneControlFlow) { 5029c36bedc90c687caa71748480c60707ea4608b092Anna Zaks S.DiagRuntimeBehavior(E->getExprLoc(), E, 5030c36bedc90c687caa71748480c60707ea4608b092Anna Zaks S.PDiag(diag) 5031c36bedc90c687caa71748480c60707ea4608b092Anna Zaks << SourceType << T << E->getSourceRange() 5032c36bedc90c687caa71748480c60707ea4608b092Anna Zaks << SourceRange(CContext)); 5033c36bedc90c687caa71748480c60707ea4608b092Anna Zaks return; 5034c36bedc90c687caa71748480c60707ea4608b092Anna Zaks } 50355a5b38f4afaf4f203b96a11ba79890c7cd4cc4b8Douglas Gregor S.Diag(E->getExprLoc(), diag) 50365a5b38f4afaf4f203b96a11ba79890c7cd4cc4b8Douglas Gregor << SourceType << T << E->getSourceRange() << SourceRange(CContext); 50375a5b38f4afaf4f203b96a11ba79890c7cd4cc4b8Douglas Gregor} 50385a5b38f4afaf4f203b96a11ba79890c7cd4cc4b8Douglas Gregor 5039e1b02e00d851389415a5b7a1398de26c382887c6Chandler Carruth/// Diagnose an implicit cast; purely a helper for CheckImplicitConversion. 50400692a1991bdb8b3112887fce90d75f2103a0080bTed Kremenekstatic void DiagnoseImpCast(Sema &S, Expr *E, QualType T, 5041c36bedc90c687caa71748480c60707ea4608b092Anna Zaks SourceLocation CContext, unsigned diag, 5042c36bedc90c687caa71748480c60707ea4608b092Anna Zaks bool pruneControlFlow = false) { 5043c36bedc90c687caa71748480c60707ea4608b092Anna Zaks DiagnoseImpCast(S, E, E->getType(), T, CContext, diag, pruneControlFlow); 5044e1b02e00d851389415a5b7a1398de26c382887c6Chandler Carruth} 5045e1b02e00d851389415a5b7a1398de26c382887c6Chandler Carruth 50469ce6377714a8eb8f577c87028300421e72b00dc9Matt Beaumont-Gay/// Diagnose an implicit cast from a literal expression. Does not warn when the 50479ce6377714a8eb8f577c87028300421e72b00dc9Matt Beaumont-Gay/// cast wouldn't lose information. 5048f65076ebf5e8bc5ae7b77fe3c3a65dc5db8d763fChandler Carruthvoid DiagnoseFloatingLiteralImpCast(Sema &S, FloatingLiteral *FL, QualType T, 5049f65076ebf5e8bc5ae7b77fe3c3a65dc5db8d763fChandler Carruth SourceLocation CContext) { 50509ce6377714a8eb8f577c87028300421e72b00dc9Matt Beaumont-Gay // Try to convert the literal exactly to an integer. If we can, don't warn. 5051f65076ebf5e8bc5ae7b77fe3c3a65dc5db8d763fChandler Carruth bool isExact = false; 50529ce6377714a8eb8f577c87028300421e72b00dc9Matt Beaumont-Gay const llvm::APFloat &Value = FL->getValue(); 50533e1ef7849845a9e7bf79156bbb8a2c26d77a1d2eJeffrey Yasskin llvm::APSInt IntegerValue(S.Context.getIntWidth(T), 50543e1ef7849845a9e7bf79156bbb8a2c26d77a1d2eJeffrey Yasskin T->hasUnsignedIntegerRepresentation()); 50553e1ef7849845a9e7bf79156bbb8a2c26d77a1d2eJeffrey Yasskin if (Value.convertToInteger(IntegerValue, 5056f65076ebf5e8bc5ae7b77fe3c3a65dc5db8d763fChandler Carruth llvm::APFloat::rmTowardZero, &isExact) 50579ce6377714a8eb8f577c87028300421e72b00dc9Matt Beaumont-Gay == llvm::APFloat::opOK && isExact) 5058f65076ebf5e8bc5ae7b77fe3c3a65dc5db8d763fChandler Carruth return; 5059f65076ebf5e8bc5ae7b77fe3c3a65dc5db8d763fChandler Carruth 5060be0ee875d8a91c031a085cbbd73ad9e8dc1aa8ffDavid Blaikie SmallString<16> PrettySourceValue; 5061be0ee875d8a91c031a085cbbd73ad9e8dc1aa8ffDavid Blaikie Value.toString(PrettySourceValue); 5062de7e7b857c8c6f9dc7fecb18fcb947b003748d16David Blaikie SmallString<16> PrettyTargetValue; 5063be0ee875d8a91c031a085cbbd73ad9e8dc1aa8ffDavid Blaikie if (T->isSpecificBuiltinType(BuiltinType::Bool)) 5064be0ee875d8a91c031a085cbbd73ad9e8dc1aa8ffDavid Blaikie PrettyTargetValue = IntegerValue == 0 ? "false" : "true"; 5065be0ee875d8a91c031a085cbbd73ad9e8dc1aa8ffDavid Blaikie else 5066de7e7b857c8c6f9dc7fecb18fcb947b003748d16David Blaikie IntegerValue.toString(PrettyTargetValue); 5067be0ee875d8a91c031a085cbbd73ad9e8dc1aa8ffDavid Blaikie 50689ce6377714a8eb8f577c87028300421e72b00dc9Matt Beaumont-Gay S.Diag(FL->getExprLoc(), diag::warn_impcast_literal_float_to_integer) 5069be0ee875d8a91c031a085cbbd73ad9e8dc1aa8ffDavid Blaikie << FL->getType() << T.getUnqualifiedType() << PrettySourceValue 5070be0ee875d8a91c031a085cbbd73ad9e8dc1aa8ffDavid Blaikie << PrettyTargetValue << FL->getSourceRange() << SourceRange(CContext); 5071f65076ebf5e8bc5ae7b77fe3c3a65dc5db8d763fChandler Carruth} 5072f65076ebf5e8bc5ae7b77fe3c3a65dc5db8d763fChandler Carruth 5073091f23f1d6d4bcffd6641cda72a6831e08c02ea7John McCallstd::string PrettyPrintInRange(const llvm::APSInt &Value, IntRange Range) { 5074091f23f1d6d4bcffd6641cda72a6831e08c02ea7John McCall if (!Range.Width) return "0"; 5075091f23f1d6d4bcffd6641cda72a6831e08c02ea7John McCall 5076091f23f1d6d4bcffd6641cda72a6831e08c02ea7John McCall llvm::APSInt ValueInRange = Value; 5077091f23f1d6d4bcffd6641cda72a6831e08c02ea7John McCall ValueInRange.setIsSigned(!Range.NonNegative); 50789f71a8f4c7a182a5236da9e747d57cc1d1bd24c2Jay Foad ValueInRange = ValueInRange.trunc(Range.Width); 5079091f23f1d6d4bcffd6641cda72a6831e08c02ea7John McCall return ValueInRange.toString(10); 5080091f23f1d6d4bcffd6641cda72a6831e08c02ea7John McCall} 5081091f23f1d6d4bcffd6641cda72a6831e08c02ea7John McCall 508288617a24adafed42e33d196972f97c72d9a5e0a0Hans Wennborgstatic bool IsImplicitBoolFloatConversion(Sema &S, Expr *Ex, bool ToBool) { 508388617a24adafed42e33d196972f97c72d9a5e0a0Hans Wennborg if (!isa<ImplicitCastExpr>(Ex)) 508488617a24adafed42e33d196972f97c72d9a5e0a0Hans Wennborg return false; 508588617a24adafed42e33d196972f97c72d9a5e0a0Hans Wennborg 508688617a24adafed42e33d196972f97c72d9a5e0a0Hans Wennborg Expr *InnerE = Ex->IgnoreParenImpCasts(); 508788617a24adafed42e33d196972f97c72d9a5e0a0Hans Wennborg const Type *Target = S.Context.getCanonicalType(Ex->getType()).getTypePtr(); 508888617a24adafed42e33d196972f97c72d9a5e0a0Hans Wennborg const Type *Source = 508988617a24adafed42e33d196972f97c72d9a5e0a0Hans Wennborg S.Context.getCanonicalType(InnerE->getType()).getTypePtr(); 509088617a24adafed42e33d196972f97c72d9a5e0a0Hans Wennborg if (Target->isDependentType()) 509188617a24adafed42e33d196972f97c72d9a5e0a0Hans Wennborg return false; 509288617a24adafed42e33d196972f97c72d9a5e0a0Hans Wennborg 509388617a24adafed42e33d196972f97c72d9a5e0a0Hans Wennborg const BuiltinType *FloatCandidateBT = 509488617a24adafed42e33d196972f97c72d9a5e0a0Hans Wennborg dyn_cast<BuiltinType>(ToBool ? Source : Target); 509588617a24adafed42e33d196972f97c72d9a5e0a0Hans Wennborg const Type *BoolCandidateType = ToBool ? Target : Source; 509688617a24adafed42e33d196972f97c72d9a5e0a0Hans Wennborg 509788617a24adafed42e33d196972f97c72d9a5e0a0Hans Wennborg return (BoolCandidateType->isSpecificBuiltinType(BuiltinType::Bool) && 509888617a24adafed42e33d196972f97c72d9a5e0a0Hans Wennborg FloatCandidateBT && (FloatCandidateBT->isFloatingPoint())); 509988617a24adafed42e33d196972f97c72d9a5e0a0Hans Wennborg} 510088617a24adafed42e33d196972f97c72d9a5e0a0Hans Wennborg 510188617a24adafed42e33d196972f97c72d9a5e0a0Hans Wennborgvoid CheckImplicitArgumentConversions(Sema &S, CallExpr *TheCall, 510288617a24adafed42e33d196972f97c72d9a5e0a0Hans Wennborg SourceLocation CC) { 510388617a24adafed42e33d196972f97c72d9a5e0a0Hans Wennborg unsigned NumArgs = TheCall->getNumArgs(); 510488617a24adafed42e33d196972f97c72d9a5e0a0Hans Wennborg for (unsigned i = 0; i < NumArgs; ++i) { 510588617a24adafed42e33d196972f97c72d9a5e0a0Hans Wennborg Expr *CurrA = TheCall->getArg(i); 510688617a24adafed42e33d196972f97c72d9a5e0a0Hans Wennborg if (!IsImplicitBoolFloatConversion(S, CurrA, true)) 510788617a24adafed42e33d196972f97c72d9a5e0a0Hans Wennborg continue; 510888617a24adafed42e33d196972f97c72d9a5e0a0Hans Wennborg 510988617a24adafed42e33d196972f97c72d9a5e0a0Hans Wennborg bool IsSwapped = ((i > 0) && 511088617a24adafed42e33d196972f97c72d9a5e0a0Hans Wennborg IsImplicitBoolFloatConversion(S, TheCall->getArg(i - 1), false)); 511188617a24adafed42e33d196972f97c72d9a5e0a0Hans Wennborg IsSwapped |= ((i < (NumArgs - 1)) && 511288617a24adafed42e33d196972f97c72d9a5e0a0Hans Wennborg IsImplicitBoolFloatConversion(S, TheCall->getArg(i + 1), false)); 511388617a24adafed42e33d196972f97c72d9a5e0a0Hans Wennborg if (IsSwapped) { 511488617a24adafed42e33d196972f97c72d9a5e0a0Hans Wennborg // Warn on this floating-point to bool conversion. 511588617a24adafed42e33d196972f97c72d9a5e0a0Hans Wennborg DiagnoseImpCast(S, CurrA->IgnoreParenImpCasts(), 511688617a24adafed42e33d196972f97c72d9a5e0a0Hans Wennborg CurrA->getType(), CC, 511788617a24adafed42e33d196972f97c72d9a5e0a0Hans Wennborg diag::warn_impcast_floating_point_to_bool); 511888617a24adafed42e33d196972f97c72d9a5e0a0Hans Wennborg } 511988617a24adafed42e33d196972f97c72d9a5e0a0Hans Wennborg } 512088617a24adafed42e33d196972f97c72d9a5e0a0Hans Wennborg} 512188617a24adafed42e33d196972f97c72d9a5e0a0Hans Wennborg 5122323ed74658bc8375278eabf074b4777458376540John McCallvoid CheckImplicitConversion(Sema &S, Expr *E, QualType T, 5123dff2be8ba441f5c61af8444479f7133b22dcfcf4Timur Iskhodzhanov SourceLocation CC, bool *ICContext = 0) { 5124323ed74658bc8375278eabf074b4777458376540John McCall if (E->isTypeDependent() || E->isValueDependent()) return; 512551313c39c84407dd6a323be99a8c322bf8d052a9John McCall 5126323ed74658bc8375278eabf074b4777458376540John McCall const Type *Source = S.Context.getCanonicalType(E->getType()).getTypePtr(); 5127323ed74658bc8375278eabf074b4777458376540John McCall const Type *Target = S.Context.getCanonicalType(T).getTypePtr(); 5128323ed74658bc8375278eabf074b4777458376540John McCall if (Source == Target) return; 5129323ed74658bc8375278eabf074b4777458376540John McCall if (Target->isDependentType()) return; 513051313c39c84407dd6a323be99a8c322bf8d052a9John McCall 5131108f756bebd991eaa980cfb9994353612a2e5ff6Chandler Carruth // If the conversion context location is invalid don't complain. We also 5132108f756bebd991eaa980cfb9994353612a2e5ff6Chandler Carruth // don't want to emit a warning if the issue occurs from the expansion of 5133108f756bebd991eaa980cfb9994353612a2e5ff6Chandler Carruth // a system macro. The problem is that 'getSpellingLoc()' is slow, so we 5134108f756bebd991eaa980cfb9994353612a2e5ff6Chandler Carruth // delay this check as long as possible. Once we detect we are in that 5135108f756bebd991eaa980cfb9994353612a2e5ff6Chandler Carruth // scenario, we just return. 5136ef9ff88f54ff26ac9782d98a34b74aa424149be1Ted Kremenek if (CC.isInvalid()) 5137b4eb64d8426c0eaa58d398961e0e74ff85063d7cJohn McCall return; 5138b4eb64d8426c0eaa58d398961e0e74ff85063d7cJohn McCall 5139f1f8b1a404d9ce6f0eb78e97b598a220d8ca9090Richard Trieu // Diagnose implicit casts to bool. 5140f1f8b1a404d9ce6f0eb78e97b598a220d8ca9090Richard Trieu if (Target->isSpecificBuiltinType(BuiltinType::Bool)) { 5141f1f8b1a404d9ce6f0eb78e97b598a220d8ca9090Richard Trieu if (isa<StringLiteral>(E)) 5142f1f8b1a404d9ce6f0eb78e97b598a220d8ca9090Richard Trieu // Warn on string literal to bool. Checks for string literals in logical 5143f1f8b1a404d9ce6f0eb78e97b598a220d8ca9090Richard Trieu // expressions, for instances, assert(0 && "error here"), is prevented 5144f1f8b1a404d9ce6f0eb78e97b598a220d8ca9090Richard Trieu // by a check in AnalyzeImplicitConversions(). 5145f1f8b1a404d9ce6f0eb78e97b598a220d8ca9090Richard Trieu return DiagnoseImpCast(S, E, T, CC, 5146f1f8b1a404d9ce6f0eb78e97b598a220d8ca9090Richard Trieu diag::warn_impcast_string_literal_to_bool); 5147e14ca9f509dc22d8fcc5d21d70d28a5848983b42Lang Hames if (Source->isFunctionType()) { 5148e14ca9f509dc22d8fcc5d21d70d28a5848983b42Lang Hames // Warn on function to bool. Checks free functions and static member 5149e14ca9f509dc22d8fcc5d21d70d28a5848983b42Lang Hames // functions. Weakly imported functions are excluded from the check, 5150e14ca9f509dc22d8fcc5d21d70d28a5848983b42Lang Hames // since it's common to test their value to check whether the linker 5151e14ca9f509dc22d8fcc5d21d70d28a5848983b42Lang Hames // found a definition for them. 5152e14ca9f509dc22d8fcc5d21d70d28a5848983b42Lang Hames ValueDecl *D = 0; 5153e14ca9f509dc22d8fcc5d21d70d28a5848983b42Lang Hames if (DeclRefExpr* R = dyn_cast<DeclRefExpr>(E)) { 5154e14ca9f509dc22d8fcc5d21d70d28a5848983b42Lang Hames D = R->getDecl(); 5155e14ca9f509dc22d8fcc5d21d70d28a5848983b42Lang Hames } else if (MemberExpr *M = dyn_cast<MemberExpr>(E)) { 5156e14ca9f509dc22d8fcc5d21d70d28a5848983b42Lang Hames D = M->getMemberDecl(); 5157e14ca9f509dc22d8fcc5d21d70d28a5848983b42Lang Hames } 5158e14ca9f509dc22d8fcc5d21d70d28a5848983b42Lang Hames 5159e14ca9f509dc22d8fcc5d21d70d28a5848983b42Lang Hames if (D && !D->isWeak()) { 516026b45d86085a125af036dbcf85dad3087b664ab2Richard Trieu if (FunctionDecl* F = dyn_cast<FunctionDecl>(D)) { 516126b45d86085a125af036dbcf85dad3087b664ab2Richard Trieu S.Diag(E->getExprLoc(), diag::warn_impcast_function_to_bool) 516226b45d86085a125af036dbcf85dad3087b664ab2Richard Trieu << F << E->getSourceRange() << SourceRange(CC); 51632def77399ab3088106a2d61372344f5b7104e1a2David Blaikie S.Diag(E->getExprLoc(), diag::note_function_to_bool_silence) 51642def77399ab3088106a2d61372344f5b7104e1a2David Blaikie << FixItHint::CreateInsertion(E->getExprLoc(), "&"); 51652def77399ab3088106a2d61372344f5b7104e1a2David Blaikie QualType ReturnType; 51662def77399ab3088106a2d61372344f5b7104e1a2David Blaikie UnresolvedSet<4> NonTemplateOverloads; 5167c8fa525b5b81eeb7a62294dd3218ca2a6ccf0a6aDavid Blaikie S.tryExprAsCall(*E, ReturnType, NonTemplateOverloads); 51682def77399ab3088106a2d61372344f5b7104e1a2David Blaikie if (!ReturnType.isNull() 51692def77399ab3088106a2d61372344f5b7104e1a2David Blaikie && ReturnType->isSpecificBuiltinType(BuiltinType::Bool)) 51702def77399ab3088106a2d61372344f5b7104e1a2David Blaikie S.Diag(E->getExprLoc(), diag::note_function_to_bool_call) 51712def77399ab3088106a2d61372344f5b7104e1a2David Blaikie << FixItHint::CreateInsertion( 51722def77399ab3088106a2d61372344f5b7104e1a2David Blaikie S.getPreprocessor().getLocForEndOfToken(E->getLocEnd()), "()"); 517326b45d86085a125af036dbcf85dad3087b664ab2Richard Trieu return; 517426b45d86085a125af036dbcf85dad3087b664ab2Richard Trieu } 5175e14ca9f509dc22d8fcc5d21d70d28a5848983b42Lang Hames } 5176e14ca9f509dc22d8fcc5d21d70d28a5848983b42Lang Hames } 5177f1f8b1a404d9ce6f0eb78e97b598a220d8ca9090Richard Trieu } 517851313c39c84407dd6a323be99a8c322bf8d052a9John McCall 517951313c39c84407dd6a323be99a8c322bf8d052a9John McCall // Strip vector types. 518051313c39c84407dd6a323be99a8c322bf8d052a9John McCall if (isa<VectorType>(Source)) { 5181ef9ff88f54ff26ac9782d98a34b74aa424149be1Ted Kremenek if (!isa<VectorType>(Target)) { 5182d87a0cd2b3e1c9e9f01212875f4cbe5b7bb7ab57Matt Beaumont-Gay if (S.SourceMgr.isInSystemMacro(CC)) 5183ef9ff88f54ff26ac9782d98a34b74aa424149be1Ted Kremenek return; 5184b4eb64d8426c0eaa58d398961e0e74ff85063d7cJohn McCall return DiagnoseImpCast(S, E, T, CC, diag::warn_impcast_vector_scalar); 5185ef9ff88f54ff26ac9782d98a34b74aa424149be1Ted Kremenek } 5186b792b30ce3d31e3eb3cfee3321238cf3cc2165b0Chris Lattner 5187b792b30ce3d31e3eb3cfee3321238cf3cc2165b0Chris Lattner // If the vector cast is cast between two vectors of the same size, it is 5188b792b30ce3d31e3eb3cfee3321238cf3cc2165b0Chris Lattner // a bitcast, not a conversion. 5189b792b30ce3d31e3eb3cfee3321238cf3cc2165b0Chris Lattner if (S.Context.getTypeSize(Source) == S.Context.getTypeSize(Target)) 5190b792b30ce3d31e3eb3cfee3321238cf3cc2165b0Chris Lattner return; 519151313c39c84407dd6a323be99a8c322bf8d052a9John McCall 519251313c39c84407dd6a323be99a8c322bf8d052a9John McCall Source = cast<VectorType>(Source)->getElementType().getTypePtr(); 519351313c39c84407dd6a323be99a8c322bf8d052a9John McCall Target = cast<VectorType>(Target)->getElementType().getTypePtr(); 519451313c39c84407dd6a323be99a8c322bf8d052a9John McCall } 519551313c39c84407dd6a323be99a8c322bf8d052a9John McCall 519651313c39c84407dd6a323be99a8c322bf8d052a9John McCall // Strip complex types. 519751313c39c84407dd6a323be99a8c322bf8d052a9John McCall if (isa<ComplexType>(Source)) { 5198ef9ff88f54ff26ac9782d98a34b74aa424149be1Ted Kremenek if (!isa<ComplexType>(Target)) { 5199d87a0cd2b3e1c9e9f01212875f4cbe5b7bb7ab57Matt Beaumont-Gay if (S.SourceMgr.isInSystemMacro(CC)) 5200ef9ff88f54ff26ac9782d98a34b74aa424149be1Ted Kremenek return; 5201ef9ff88f54ff26ac9782d98a34b74aa424149be1Ted Kremenek 5202b4eb64d8426c0eaa58d398961e0e74ff85063d7cJohn McCall return DiagnoseImpCast(S, E, T, CC, diag::warn_impcast_complex_scalar); 5203ef9ff88f54ff26ac9782d98a34b74aa424149be1Ted Kremenek } 520451313c39c84407dd6a323be99a8c322bf8d052a9John McCall 520551313c39c84407dd6a323be99a8c322bf8d052a9John McCall Source = cast<ComplexType>(Source)->getElementType().getTypePtr(); 520651313c39c84407dd6a323be99a8c322bf8d052a9John McCall Target = cast<ComplexType>(Target)->getElementType().getTypePtr(); 520751313c39c84407dd6a323be99a8c322bf8d052a9John McCall } 520851313c39c84407dd6a323be99a8c322bf8d052a9John McCall 520951313c39c84407dd6a323be99a8c322bf8d052a9John McCall const BuiltinType *SourceBT = dyn_cast<BuiltinType>(Source); 521051313c39c84407dd6a323be99a8c322bf8d052a9John McCall const BuiltinType *TargetBT = dyn_cast<BuiltinType>(Target); 521151313c39c84407dd6a323be99a8c322bf8d052a9John McCall 521251313c39c84407dd6a323be99a8c322bf8d052a9John McCall // If the source is floating point... 521351313c39c84407dd6a323be99a8c322bf8d052a9John McCall if (SourceBT && SourceBT->isFloatingPoint()) { 521451313c39c84407dd6a323be99a8c322bf8d052a9John McCall // ...and the target is floating point... 521551313c39c84407dd6a323be99a8c322bf8d052a9John McCall if (TargetBT && TargetBT->isFloatingPoint()) { 521651313c39c84407dd6a323be99a8c322bf8d052a9John McCall // ...then warn if we're dropping FP rank. 521751313c39c84407dd6a323be99a8c322bf8d052a9John McCall 521851313c39c84407dd6a323be99a8c322bf8d052a9John McCall // Builtin FP kinds are ordered by increasing FP rank. 521951313c39c84407dd6a323be99a8c322bf8d052a9John McCall if (SourceBT->getKind() > TargetBT->getKind()) { 522051313c39c84407dd6a323be99a8c322bf8d052a9John McCall // Don't warn about float constants that are precisely 522151313c39c84407dd6a323be99a8c322bf8d052a9John McCall // representable in the target type. 522251313c39c84407dd6a323be99a8c322bf8d052a9John McCall Expr::EvalResult result; 522351f4708c00110940ca3f337961915f2ca1668375Richard Smith if (E->EvaluateAsRValue(result, S.Context)) { 522451313c39c84407dd6a323be99a8c322bf8d052a9John McCall // Value might be a float, a float vector, or a float complex. 522551313c39c84407dd6a323be99a8c322bf8d052a9John McCall if (IsSameFloatAfterCast(result.Val, 5226323ed74658bc8375278eabf074b4777458376540John McCall S.Context.getFloatTypeSemantics(QualType(TargetBT, 0)), 5227323ed74658bc8375278eabf074b4777458376540John McCall S.Context.getFloatTypeSemantics(QualType(SourceBT, 0)))) 522851313c39c84407dd6a323be99a8c322bf8d052a9John McCall return; 522951313c39c84407dd6a323be99a8c322bf8d052a9John McCall } 523051313c39c84407dd6a323be99a8c322bf8d052a9John McCall 5231d87a0cd2b3e1c9e9f01212875f4cbe5b7bb7ab57Matt Beaumont-Gay if (S.SourceMgr.isInSystemMacro(CC)) 5232ef9ff88f54ff26ac9782d98a34b74aa424149be1Ted Kremenek return; 5233ef9ff88f54ff26ac9782d98a34b74aa424149be1Ted Kremenek 5234b4eb64d8426c0eaa58d398961e0e74ff85063d7cJohn McCall DiagnoseImpCast(S, E, T, CC, diag::warn_impcast_float_precision); 523551313c39c84407dd6a323be99a8c322bf8d052a9John McCall } 523651313c39c84407dd6a323be99a8c322bf8d052a9John McCall return; 523751313c39c84407dd6a323be99a8c322bf8d052a9John McCall } 523851313c39c84407dd6a323be99a8c322bf8d052a9John McCall 5239ef9ff88f54ff26ac9782d98a34b74aa424149be1Ted Kremenek // If the target is integral, always warn. 5240be0ee875d8a91c031a085cbbd73ad9e8dc1aa8ffDavid Blaikie if (TargetBT && TargetBT->isInteger()) { 5241d87a0cd2b3e1c9e9f01212875f4cbe5b7bb7ab57Matt Beaumont-Gay if (S.SourceMgr.isInSystemMacro(CC)) 5242ef9ff88f54ff26ac9782d98a34b74aa424149be1Ted Kremenek return; 5243ef9ff88f54ff26ac9782d98a34b74aa424149be1Ted Kremenek 5244a5b9332418f25338f118358e27303cd510d54107Chandler Carruth Expr *InnerE = E->IgnoreParenImpCasts(); 5245634c8af0805ba33b1530470e03aa314141036aa2Matt Beaumont-Gay // We also want to warn on, e.g., "int i = -1.234" 5246634c8af0805ba33b1530470e03aa314141036aa2Matt Beaumont-Gay if (UnaryOperator *UOp = dyn_cast<UnaryOperator>(InnerE)) 5247634c8af0805ba33b1530470e03aa314141036aa2Matt Beaumont-Gay if (UOp->getOpcode() == UO_Minus || UOp->getOpcode() == UO_Plus) 5248634c8af0805ba33b1530470e03aa314141036aa2Matt Beaumont-Gay InnerE = UOp->getSubExpr()->IgnoreParenImpCasts(); 5249634c8af0805ba33b1530470e03aa314141036aa2Matt Beaumont-Gay 5250f65076ebf5e8bc5ae7b77fe3c3a65dc5db8d763fChandler Carruth if (FloatingLiteral *FL = dyn_cast<FloatingLiteral>(InnerE)) { 5251f65076ebf5e8bc5ae7b77fe3c3a65dc5db8d763fChandler Carruth DiagnoseFloatingLiteralImpCast(S, FL, T, CC); 5252a5b9332418f25338f118358e27303cd510d54107Chandler Carruth } else { 5253a5b9332418f25338f118358e27303cd510d54107Chandler Carruth DiagnoseImpCast(S, E, T, CC, diag::warn_impcast_float_integer); 5254a5b9332418f25338f118358e27303cd510d54107Chandler Carruth } 5255a5b9332418f25338f118358e27303cd510d54107Chandler Carruth } 525651313c39c84407dd6a323be99a8c322bf8d052a9John McCall 525788617a24adafed42e33d196972f97c72d9a5e0a0Hans Wennborg // If the target is bool, warn if expr is a function or method call. 525888617a24adafed42e33d196972f97c72d9a5e0a0Hans Wennborg if (Target->isSpecificBuiltinType(BuiltinType::Bool) && 525988617a24adafed42e33d196972f97c72d9a5e0a0Hans Wennborg isa<CallExpr>(E)) { 526088617a24adafed42e33d196972f97c72d9a5e0a0Hans Wennborg // Check last argument of function call to see if it is an 526188617a24adafed42e33d196972f97c72d9a5e0a0Hans Wennborg // implicit cast from a type matching the type the result 526288617a24adafed42e33d196972f97c72d9a5e0a0Hans Wennborg // is being cast to. 526388617a24adafed42e33d196972f97c72d9a5e0a0Hans Wennborg CallExpr *CEx = cast<CallExpr>(E); 526488617a24adafed42e33d196972f97c72d9a5e0a0Hans Wennborg unsigned NumArgs = CEx->getNumArgs(); 526588617a24adafed42e33d196972f97c72d9a5e0a0Hans Wennborg if (NumArgs > 0) { 526688617a24adafed42e33d196972f97c72d9a5e0a0Hans Wennborg Expr *LastA = CEx->getArg(NumArgs - 1); 526788617a24adafed42e33d196972f97c72d9a5e0a0Hans Wennborg Expr *InnerE = LastA->IgnoreParenImpCasts(); 526888617a24adafed42e33d196972f97c72d9a5e0a0Hans Wennborg const Type *InnerType = 526988617a24adafed42e33d196972f97c72d9a5e0a0Hans Wennborg S.Context.getCanonicalType(InnerE->getType()).getTypePtr(); 527088617a24adafed42e33d196972f97c72d9a5e0a0Hans Wennborg if (isa<ImplicitCastExpr>(LastA) && (InnerType == Target)) { 527188617a24adafed42e33d196972f97c72d9a5e0a0Hans Wennborg // Warn on this floating-point to bool conversion 527288617a24adafed42e33d196972f97c72d9a5e0a0Hans Wennborg DiagnoseImpCast(S, E, T, CC, 527388617a24adafed42e33d196972f97c72d9a5e0a0Hans Wennborg diag::warn_impcast_floating_point_to_bool); 527488617a24adafed42e33d196972f97c72d9a5e0a0Hans Wennborg } 527588617a24adafed42e33d196972f97c72d9a5e0a0Hans Wennborg } 527688617a24adafed42e33d196972f97c72d9a5e0a0Hans Wennborg } 527751313c39c84407dd6a323be99a8c322bf8d052a9John McCall return; 527851313c39c84407dd6a323be99a8c322bf8d052a9John McCall } 527951313c39c84407dd6a323be99a8c322bf8d052a9John McCall 52801838ca5618bc6c84ca3d13d84717bf32d9862bb3Richard Trieu if ((E->isNullPointerConstant(S.Context, Expr::NPC_ValueDependentIsNotNull) 5281b26331b4ff419b22861b0823daf83bc8f22a6803David Blaikie == Expr::NPCK_GNUNull) && !Target->isAnyPointerType() 5282e81b43bc306d361fcf4d411aeb14b43f8464bf4aDavid Blaikie && !Target->isBlockPointerType() && !Target->isMemberPointerType() 5283896c7dd62801c0aacf14b05183c3c471c1fe9f7aDavid Blaikie && Target->isScalarType() && !Target->isNullPtrType()) { 5284b1360498b0c0794fd7925f4bdac68ae91ff7493bDavid Blaikie SourceLocation Loc = E->getSourceRange().getBegin(); 5285b1360498b0c0794fd7925f4bdac68ae91ff7493bDavid Blaikie if (Loc.isMacroID()) 5286b1360498b0c0794fd7925f4bdac68ae91ff7493bDavid Blaikie Loc = S.SourceMgr.getImmediateExpansionRange(Loc).first; 52879fb1ac520d1806ba2b069f6087f40fc9c704b067David Blaikie if (!Loc.isMacroID() || CC.isMacroID()) 52889fb1ac520d1806ba2b069f6087f40fc9c704b067David Blaikie S.Diag(Loc, diag::warn_impcast_null_pointer_to_integer) 52899fb1ac520d1806ba2b069f6087f40fc9c704b067David Blaikie << T << clang::SourceRange(CC) 52909fb1ac520d1806ba2b069f6087f40fc9c704b067David Blaikie << FixItHint::CreateReplacement(Loc, S.getFixItZeroLiteralForType(T)); 52911838ca5618bc6c84ca3d13d84717bf32d9862bb3Richard Trieu } 52921838ca5618bc6c84ca3d13d84717bf32d9862bb3Richard Trieu 5293b26331b4ff419b22861b0823daf83bc8f22a6803David Blaikie if (!Source->isIntegerType() || !Target->isIntegerType()) 5294b26331b4ff419b22861b0823daf83bc8f22a6803David Blaikie return; 5295b26331b4ff419b22861b0823daf83bc8f22a6803David Blaikie 5296be0ee875d8a91c031a085cbbd73ad9e8dc1aa8ffDavid Blaikie // TODO: remove this early return once the false positives for constant->bool 5297be0ee875d8a91c031a085cbbd73ad9e8dc1aa8ffDavid Blaikie // in templates, macros, etc, are reduced or removed. 5298be0ee875d8a91c031a085cbbd73ad9e8dc1aa8ffDavid Blaikie if (Target->isSpecificBuiltinType(BuiltinType::Bool)) 5299be0ee875d8a91c031a085cbbd73ad9e8dc1aa8ffDavid Blaikie return; 5300be0ee875d8a91c031a085cbbd73ad9e8dc1aa8ffDavid Blaikie 5301323ed74658bc8375278eabf074b4777458376540John McCall IntRange SourceRange = GetExprRange(S.Context, E); 53021844a6e1074a5c1fd8eadac7fc7317c3e29d4653John McCall IntRange TargetRange = IntRange::forTargetOfCanonicalType(S.Context, Target); 530351313c39c84407dd6a323be99a8c322bf8d052a9John McCall 5304dff2be8ba441f5c61af8444479f7133b22dcfcf4Timur Iskhodzhanov if (SourceRange.Width > TargetRange.Width) { 530525ffbef84450f0c666957a2d00cdf928c61b44d7Sam Panzer // If the source is a constant, use a default-on diagnostic. 5306dff2be8ba441f5c61af8444479f7133b22dcfcf4Timur Iskhodzhanov // TODO: this should happen for bitfield stores, too. 5307dff2be8ba441f5c61af8444479f7133b22dcfcf4Timur Iskhodzhanov llvm::APSInt Value(32); 5308dff2be8ba441f5c61af8444479f7133b22dcfcf4Timur Iskhodzhanov if (E->isIntegerConstantExpr(Value, S.Context)) { 5309dff2be8ba441f5c61af8444479f7133b22dcfcf4Timur Iskhodzhanov if (S.SourceMgr.isInSystemMacro(CC)) 5310dff2be8ba441f5c61af8444479f7133b22dcfcf4Timur Iskhodzhanov return; 5311dff2be8ba441f5c61af8444479f7133b22dcfcf4Timur Iskhodzhanov 5312091f23f1d6d4bcffd6641cda72a6831e08c02ea7John McCall std::string PrettySourceValue = Value.toString(10); 5313091f23f1d6d4bcffd6641cda72a6831e08c02ea7John McCall std::string PrettyTargetValue = PrettyPrintInRange(Value, TargetRange); 5314dff2be8ba441f5c61af8444479f7133b22dcfcf4Timur Iskhodzhanov 53155e745da03df27ac620b0a5cc280d0d1757cfbac1Ted Kremenek S.DiagRuntimeBehavior(E->getExprLoc(), E, 53165e745da03df27ac620b0a5cc280d0d1757cfbac1Ted Kremenek S.PDiag(diag::warn_impcast_integer_precision_constant) 53175e745da03df27ac620b0a5cc280d0d1757cfbac1Ted Kremenek << PrettySourceValue << PrettyTargetValue 53185e745da03df27ac620b0a5cc280d0d1757cfbac1Ted Kremenek << E->getType() << T << E->getSourceRange() 53195e745da03df27ac620b0a5cc280d0d1757cfbac1Ted Kremenek << clang::SourceRange(CC)); 5320091f23f1d6d4bcffd6641cda72a6831e08c02ea7John McCall return; 5321091f23f1d6d4bcffd6641cda72a6831e08c02ea7John McCall } 5322091f23f1d6d4bcffd6641cda72a6831e08c02ea7John McCall 5323dff2be8ba441f5c61af8444479f7133b22dcfcf4Timur Iskhodzhanov // People want to build with -Wshorten-64-to-32 and not -Wconversion. 5324dff2be8ba441f5c61af8444479f7133b22dcfcf4Timur Iskhodzhanov if (S.SourceMgr.isInSystemMacro(CC)) 5325dff2be8ba441f5c61af8444479f7133b22dcfcf4Timur Iskhodzhanov return; 5326dff2be8ba441f5c61af8444479f7133b22dcfcf4Timur Iskhodzhanov 532737050841d7b852497b85d5275d9ea92c07ddf059David Blaikie if (TargetRange.Width == 32 && S.Context.getIntWidth(E->getType()) == 64) 5328c36bedc90c687caa71748480c60707ea4608b092Anna Zaks return DiagnoseImpCast(S, E, T, CC, diag::warn_impcast_integer_64_32, 5329c36bedc90c687caa71748480c60707ea4608b092Anna Zaks /* pruneControlFlow */ true); 5330b4eb64d8426c0eaa58d398961e0e74ff85063d7cJohn McCall return DiagnoseImpCast(S, E, T, CC, diag::warn_impcast_integer_precision); 5331323ed74658bc8375278eabf074b4777458376540John McCall } 5332323ed74658bc8375278eabf074b4777458376540John McCall 5333323ed74658bc8375278eabf074b4777458376540John McCall if ((TargetRange.NonNegative && !SourceRange.NonNegative) || 5334323ed74658bc8375278eabf074b4777458376540John McCall (!TargetRange.NonNegative && SourceRange.NonNegative && 5335323ed74658bc8375278eabf074b4777458376540John McCall SourceRange.Width == TargetRange.Width)) { 5336ef9ff88f54ff26ac9782d98a34b74aa424149be1Ted Kremenek 5337d87a0cd2b3e1c9e9f01212875f4cbe5b7bb7ab57Matt Beaumont-Gay if (S.SourceMgr.isInSystemMacro(CC)) 5338ef9ff88f54ff26ac9782d98a34b74aa424149be1Ted Kremenek return; 5339ef9ff88f54ff26ac9782d98a34b74aa424149be1Ted Kremenek 5340323ed74658bc8375278eabf074b4777458376540John McCall unsigned DiagID = diag::warn_impcast_integer_sign; 5341323ed74658bc8375278eabf074b4777458376540John McCall 5342323ed74658bc8375278eabf074b4777458376540John McCall // Traditionally, gcc has warned about this under -Wsign-compare. 5343323ed74658bc8375278eabf074b4777458376540John McCall // We also want to warn about it in -Wconversion. 5344323ed74658bc8375278eabf074b4777458376540John McCall // So if -Wconversion is off, use a completely identical diagnostic 5345323ed74658bc8375278eabf074b4777458376540John McCall // in the sign-compare group. 5346323ed74658bc8375278eabf074b4777458376540John McCall // The conditional-checking code will 5347323ed74658bc8375278eabf074b4777458376540John McCall if (ICContext) { 5348323ed74658bc8375278eabf074b4777458376540John McCall DiagID = diag::warn_impcast_integer_sign_conditional; 5349323ed74658bc8375278eabf074b4777458376540John McCall *ICContext = true; 5350323ed74658bc8375278eabf074b4777458376540John McCall } 5351323ed74658bc8375278eabf074b4777458376540John McCall 5352b4eb64d8426c0eaa58d398961e0e74ff85063d7cJohn McCall return DiagnoseImpCast(S, E, T, CC, DiagID); 535351313c39c84407dd6a323be99a8c322bf8d052a9John McCall } 535451313c39c84407dd6a323be99a8c322bf8d052a9John McCall 5355284cc8d8a90ae6558e0a4b60b7dc1ddcfd220758Douglas Gregor // Diagnose conversions between different enumeration types. 53565a5b38f4afaf4f203b96a11ba79890c7cd4cc4b8Douglas Gregor // In C, we pretend that the type of an EnumConstantDecl is its enumeration 53575a5b38f4afaf4f203b96a11ba79890c7cd4cc4b8Douglas Gregor // type, to give us better diagnostics. 53585a5b38f4afaf4f203b96a11ba79890c7cd4cc4b8Douglas Gregor QualType SourceType = E->getType(); 53594e4d08403ca5cfd4d558fa2936215d3a4e5a528dDavid Blaikie if (!S.getLangOpts().CPlusPlus) { 53605a5b38f4afaf4f203b96a11ba79890c7cd4cc4b8Douglas Gregor if (DeclRefExpr *DRE = dyn_cast<DeclRefExpr>(E)) 53615a5b38f4afaf4f203b96a11ba79890c7cd4cc4b8Douglas Gregor if (EnumConstantDecl *ECD = dyn_cast<EnumConstantDecl>(DRE->getDecl())) { 53625a5b38f4afaf4f203b96a11ba79890c7cd4cc4b8Douglas Gregor EnumDecl *Enum = cast<EnumDecl>(ECD->getDeclContext()); 53635a5b38f4afaf4f203b96a11ba79890c7cd4cc4b8Douglas Gregor SourceType = S.Context.getTypeDeclType(Enum); 53645a5b38f4afaf4f203b96a11ba79890c7cd4cc4b8Douglas Gregor Source = S.Context.getCanonicalType(SourceType).getTypePtr(); 53655a5b38f4afaf4f203b96a11ba79890c7cd4cc4b8Douglas Gregor } 53665a5b38f4afaf4f203b96a11ba79890c7cd4cc4b8Douglas Gregor } 53675a5b38f4afaf4f203b96a11ba79890c7cd4cc4b8Douglas Gregor 5368284cc8d8a90ae6558e0a4b60b7dc1ddcfd220758Douglas Gregor if (const EnumType *SourceEnum = Source->getAs<EnumType>()) 5369284cc8d8a90ae6558e0a4b60b7dc1ddcfd220758Douglas Gregor if (const EnumType *TargetEnum = Target->getAs<EnumType>()) 537083972f128e9218c051692bf96361327a701aeb79John McCall if (SourceEnum->getDecl()->hasNameForLinkage() && 537183972f128e9218c051692bf96361327a701aeb79John McCall TargetEnum->getDecl()->hasNameForLinkage() && 5372ef9ff88f54ff26ac9782d98a34b74aa424149be1Ted Kremenek SourceEnum != TargetEnum) { 5373d87a0cd2b3e1c9e9f01212875f4cbe5b7bb7ab57Matt Beaumont-Gay if (S.SourceMgr.isInSystemMacro(CC)) 5374ef9ff88f54ff26ac9782d98a34b74aa424149be1Ted Kremenek return; 5375ef9ff88f54ff26ac9782d98a34b74aa424149be1Ted Kremenek 53765a5b38f4afaf4f203b96a11ba79890c7cd4cc4b8Douglas Gregor return DiagnoseImpCast(S, E, SourceType, T, CC, 5377284cc8d8a90ae6558e0a4b60b7dc1ddcfd220758Douglas Gregor diag::warn_impcast_different_enum_types); 5378ef9ff88f54ff26ac9782d98a34b74aa424149be1Ted Kremenek } 5379284cc8d8a90ae6558e0a4b60b7dc1ddcfd220758Douglas Gregor 538051313c39c84407dd6a323be99a8c322bf8d052a9John McCall return; 538151313c39c84407dd6a323be99a8c322bf8d052a9John McCall} 538251313c39c84407dd6a323be99a8c322bf8d052a9John McCall 53839fb1ac520d1806ba2b069f6087f40fc9c704b067David Blaikievoid CheckConditionalOperator(Sema &S, ConditionalOperator *E, 53849fb1ac520d1806ba2b069f6087f40fc9c704b067David Blaikie SourceLocation CC, QualType T); 5385323ed74658bc8375278eabf074b4777458376540John McCall 5386323ed74658bc8375278eabf074b4777458376540John McCallvoid CheckConditionalOperand(Sema &S, Expr *E, QualType T, 5387b4eb64d8426c0eaa58d398961e0e74ff85063d7cJohn McCall SourceLocation CC, bool &ICContext) { 5388323ed74658bc8375278eabf074b4777458376540John McCall E = E->IgnoreParenImpCasts(); 5389323ed74658bc8375278eabf074b4777458376540John McCall 5390323ed74658bc8375278eabf074b4777458376540John McCall if (isa<ConditionalOperator>(E)) 53919fb1ac520d1806ba2b069f6087f40fc9c704b067David Blaikie return CheckConditionalOperator(S, cast<ConditionalOperator>(E), CC, T); 5392323ed74658bc8375278eabf074b4777458376540John McCall 5393b4eb64d8426c0eaa58d398961e0e74ff85063d7cJohn McCall AnalyzeImplicitConversions(S, E, CC); 5394323ed74658bc8375278eabf074b4777458376540John McCall if (E->getType() != T) 5395b4eb64d8426c0eaa58d398961e0e74ff85063d7cJohn McCall return CheckImplicitConversion(S, E, T, CC, &ICContext); 5396323ed74658bc8375278eabf074b4777458376540John McCall return; 5397323ed74658bc8375278eabf074b4777458376540John McCall} 5398323ed74658bc8375278eabf074b4777458376540John McCall 53999fb1ac520d1806ba2b069f6087f40fc9c704b067David Blaikievoid CheckConditionalOperator(Sema &S, ConditionalOperator *E, 54009fb1ac520d1806ba2b069f6087f40fc9c704b067David Blaikie SourceLocation CC, QualType T) { 5401b4eb64d8426c0eaa58d398961e0e74ff85063d7cJohn McCall AnalyzeImplicitConversions(S, E->getCond(), CC); 5402323ed74658bc8375278eabf074b4777458376540John McCall 5403323ed74658bc8375278eabf074b4777458376540John McCall bool Suspicious = false; 5404b4eb64d8426c0eaa58d398961e0e74ff85063d7cJohn McCall CheckConditionalOperand(S, E->getTrueExpr(), T, CC, Suspicious); 5405b4eb64d8426c0eaa58d398961e0e74ff85063d7cJohn McCall CheckConditionalOperand(S, E->getFalseExpr(), T, CC, Suspicious); 5406323ed74658bc8375278eabf074b4777458376540John McCall 5407323ed74658bc8375278eabf074b4777458376540John McCall // If -Wconversion would have warned about either of the candidates 5408323ed74658bc8375278eabf074b4777458376540John McCall // for a signedness conversion to the context type... 5409323ed74658bc8375278eabf074b4777458376540John McCall if (!Suspicious) return; 5410323ed74658bc8375278eabf074b4777458376540John McCall 5411323ed74658bc8375278eabf074b4777458376540John McCall // ...but it's currently ignored... 54120827408865e32789e0ec4b8113a302ccdc531423Argyrios Kyrtzidis if (S.Diags.getDiagnosticLevel(diag::warn_impcast_integer_sign_conditional, 54130827408865e32789e0ec4b8113a302ccdc531423Argyrios Kyrtzidis CC)) 5414323ed74658bc8375278eabf074b4777458376540John McCall return; 5415323ed74658bc8375278eabf074b4777458376540John McCall 5416323ed74658bc8375278eabf074b4777458376540John McCall // ...then check whether it would have warned about either of the 5417323ed74658bc8375278eabf074b4777458376540John McCall // candidates for a signedness conversion to the condition type. 54185254161b269829b74e7a9379b1bdfa27de72d7ccRichard Trieu if (E->getType() == T) return; 54195254161b269829b74e7a9379b1bdfa27de72d7ccRichard Trieu 54205254161b269829b74e7a9379b1bdfa27de72d7ccRichard Trieu Suspicious = false; 54215254161b269829b74e7a9379b1bdfa27de72d7ccRichard Trieu CheckImplicitConversion(S, E->getTrueExpr()->IgnoreParenImpCasts(), 54225254161b269829b74e7a9379b1bdfa27de72d7ccRichard Trieu E->getType(), CC, &Suspicious); 54235254161b269829b74e7a9379b1bdfa27de72d7ccRichard Trieu if (!Suspicious) 54245254161b269829b74e7a9379b1bdfa27de72d7ccRichard Trieu CheckImplicitConversion(S, E->getFalseExpr()->IgnoreParenImpCasts(), 5425b4eb64d8426c0eaa58d398961e0e74ff85063d7cJohn McCall E->getType(), CC, &Suspicious); 5426323ed74658bc8375278eabf074b4777458376540John McCall} 5427323ed74658bc8375278eabf074b4777458376540John McCall 5428323ed74658bc8375278eabf074b4777458376540John McCall/// AnalyzeImplicitConversions - Find and report any interesting 5429323ed74658bc8375278eabf074b4777458376540John McCall/// implicit conversions in the given expression. There are a couple 5430323ed74658bc8375278eabf074b4777458376540John McCall/// of competing diagnostics here, -Wconversion and -Wsign-compare. 5431b4eb64d8426c0eaa58d398961e0e74ff85063d7cJohn McCallvoid AnalyzeImplicitConversions(Sema &S, Expr *OrigE, SourceLocation CC) { 5432323ed74658bc8375278eabf074b4777458376540John McCall QualType T = OrigE->getType(); 5433323ed74658bc8375278eabf074b4777458376540John McCall Expr *E = OrigE->IgnoreParenImpCasts(); 5434323ed74658bc8375278eabf074b4777458376540John McCall 5435f8b6e1591b5c5085cf4dec8df657e32a68053b12Douglas Gregor if (E->isTypeDependent() || E->isValueDependent()) 5436f8b6e1591b5c5085cf4dec8df657e32a68053b12Douglas Gregor return; 5437f8b6e1591b5c5085cf4dec8df657e32a68053b12Douglas Gregor 5438323ed74658bc8375278eabf074b4777458376540John McCall // For conditional operators, we analyze the arguments as if they 5439323ed74658bc8375278eabf074b4777458376540John McCall // were being fed directly into the output. 5440323ed74658bc8375278eabf074b4777458376540John McCall if (isa<ConditionalOperator>(E)) { 5441323ed74658bc8375278eabf074b4777458376540John McCall ConditionalOperator *CO = cast<ConditionalOperator>(E); 54429fb1ac520d1806ba2b069f6087f40fc9c704b067David Blaikie CheckConditionalOperator(S, CO, CC, T); 5443323ed74658bc8375278eabf074b4777458376540John McCall return; 5444323ed74658bc8375278eabf074b4777458376540John McCall } 5445323ed74658bc8375278eabf074b4777458376540John McCall 544688617a24adafed42e33d196972f97c72d9a5e0a0Hans Wennborg // Check implicit argument conversions for function calls. 544788617a24adafed42e33d196972f97c72d9a5e0a0Hans Wennborg if (CallExpr *Call = dyn_cast<CallExpr>(E)) 544888617a24adafed42e33d196972f97c72d9a5e0a0Hans Wennborg CheckImplicitArgumentConversions(S, Call, CC); 544988617a24adafed42e33d196972f97c72d9a5e0a0Hans Wennborg 5450323ed74658bc8375278eabf074b4777458376540John McCall // Go ahead and check any implicit conversions we might have skipped. 5451323ed74658bc8375278eabf074b4777458376540John McCall // The non-canonical typecheck is just an optimization; 5452323ed74658bc8375278eabf074b4777458376540John McCall // CheckImplicitConversion will filter out dead implicit conversions. 5453323ed74658bc8375278eabf074b4777458376540John McCall if (E->getType() != T) 5454b4eb64d8426c0eaa58d398961e0e74ff85063d7cJohn McCall CheckImplicitConversion(S, E, T, CC); 5455323ed74658bc8375278eabf074b4777458376540John McCall 5456323ed74658bc8375278eabf074b4777458376540John McCall // Now continue drilling into this expression. 54576f2a9fa0f787d3023b643496e8c321bdb7a85fa0Fariborz Jahanian 54586f2a9fa0f787d3023b643496e8c321bdb7a85fa0Fariborz Jahanian if (PseudoObjectExpr * POE = dyn_cast<PseudoObjectExpr>(E)) { 5459a1bfe1ceeb633fe955bcaf218a101106ad97fc74Fariborz Jahanian if (POE->getResultExpr()) 5460a1bfe1ceeb633fe955bcaf218a101106ad97fc74Fariborz Jahanian E = POE->getResultExpr(); 54616f2a9fa0f787d3023b643496e8c321bdb7a85fa0Fariborz Jahanian } 54626f2a9fa0f787d3023b643496e8c321bdb7a85fa0Fariborz Jahanian 5463a1bfe1ceeb633fe955bcaf218a101106ad97fc74Fariborz Jahanian if (const OpaqueValueExpr *OVE = dyn_cast<OpaqueValueExpr>(E)) 5464a1bfe1ceeb633fe955bcaf218a101106ad97fc74Fariborz Jahanian return AnalyzeImplicitConversions(S, OVE->getSourceExpr(), CC); 5465a1bfe1ceeb633fe955bcaf218a101106ad97fc74Fariborz Jahanian 5466323ed74658bc8375278eabf074b4777458376540John McCall // Skip past explicit casts. 5467323ed74658bc8375278eabf074b4777458376540John McCall if (isa<ExplicitCastExpr>(E)) { 5468323ed74658bc8375278eabf074b4777458376540John McCall E = cast<ExplicitCastExpr>(E)->getSubExpr()->IgnoreParenImpCasts(); 5469b4eb64d8426c0eaa58d398961e0e74ff85063d7cJohn McCall return AnalyzeImplicitConversions(S, E, CC); 5470323ed74658bc8375278eabf074b4777458376540John McCall } 5471323ed74658bc8375278eabf074b4777458376540John McCall 5472beb22aaa22e255241d6a81e8b0a9239f5fa584f3John McCall if (BinaryOperator *BO = dyn_cast<BinaryOperator>(E)) { 5473beb22aaa22e255241d6a81e8b0a9239f5fa584f3John McCall // Do a somewhat different check with comparison operators. 5474beb22aaa22e255241d6a81e8b0a9239f5fa584f3John McCall if (BO->isComparisonOp()) 5475beb22aaa22e255241d6a81e8b0a9239f5fa584f3John McCall return AnalyzeComparison(S, BO); 5476beb22aaa22e255241d6a81e8b0a9239f5fa584f3John McCall 5477dff2be8ba441f5c61af8444479f7133b22dcfcf4Timur Iskhodzhanov // And with simple assignments. 5478dff2be8ba441f5c61af8444479f7133b22dcfcf4Timur Iskhodzhanov if (BO->getOpcode() == BO_Assign) 5479beb22aaa22e255241d6a81e8b0a9239f5fa584f3John McCall return AnalyzeAssignment(S, BO); 5480beb22aaa22e255241d6a81e8b0a9239f5fa584f3John McCall } 5481323ed74658bc8375278eabf074b4777458376540John McCall 5482323ed74658bc8375278eabf074b4777458376540John McCall // These break the otherwise-useful invariant below. Fortunately, 5483323ed74658bc8375278eabf074b4777458376540John McCall // we don't really need to recurse into them, because any internal 5484323ed74658bc8375278eabf074b4777458376540John McCall // expressions should have been analyzed already when they were 5485323ed74658bc8375278eabf074b4777458376540John McCall // built into statements. 5486323ed74658bc8375278eabf074b4777458376540John McCall if (isa<StmtExpr>(E)) return; 5487323ed74658bc8375278eabf074b4777458376540John McCall 5488323ed74658bc8375278eabf074b4777458376540John McCall // Don't descend into unevaluated contexts. 5489f4e3cfbe8abd124be6341ef5d714819b4fbd9082Peter Collingbourne if (isa<UnaryExprOrTypeTraitExpr>(E)) return; 5490323ed74658bc8375278eabf074b4777458376540John McCall 5491323ed74658bc8375278eabf074b4777458376540John McCall // Now just recurse over the expression's children. 5492b4eb64d8426c0eaa58d398961e0e74ff85063d7cJohn McCall CC = E->getExprLoc(); 5493f1f8b1a404d9ce6f0eb78e97b598a220d8ca9090Richard Trieu BinaryOperator *BO = dyn_cast<BinaryOperator>(E); 5494f1f8b1a404d9ce6f0eb78e97b598a220d8ca9090Richard Trieu bool IsLogicalOperator = BO && BO->isLogicalOp(); 5495f1f8b1a404d9ce6f0eb78e97b598a220d8ca9090Richard Trieu for (Stmt::child_range I = E->children(); I; ++I) { 549654042f1bd78f1f1ea86be7d4af541462e127d2edDouglas Gregor Expr *ChildExpr = dyn_cast_or_null<Expr>(*I); 5497503384f731b5abcbf870b0a5224eb920e631db0aDouglas Gregor if (!ChildExpr) 5498503384f731b5abcbf870b0a5224eb920e631db0aDouglas Gregor continue; 5499503384f731b5abcbf870b0a5224eb920e631db0aDouglas Gregor 5500f1f8b1a404d9ce6f0eb78e97b598a220d8ca9090Richard Trieu if (IsLogicalOperator && 5501f1f8b1a404d9ce6f0eb78e97b598a220d8ca9090Richard Trieu isa<StringLiteral>(ChildExpr->IgnoreParenImpCasts())) 5502f1f8b1a404d9ce6f0eb78e97b598a220d8ca9090Richard Trieu // Ignore checking string literals that are in logical operators. 5503f1f8b1a404d9ce6f0eb78e97b598a220d8ca9090Richard Trieu continue; 5504f1f8b1a404d9ce6f0eb78e97b598a220d8ca9090Richard Trieu AnalyzeImplicitConversions(S, ChildExpr, CC); 5505f1f8b1a404d9ce6f0eb78e97b598a220d8ca9090Richard Trieu } 5506323ed74658bc8375278eabf074b4777458376540John McCall} 5507323ed74658bc8375278eabf074b4777458376540John McCall 5508323ed74658bc8375278eabf074b4777458376540John McCall} // end anonymous namespace 5509323ed74658bc8375278eabf074b4777458376540John McCall 5510323ed74658bc8375278eabf074b4777458376540John McCall/// Diagnoses "dangerous" implicit conversions within the given 5511323ed74658bc8375278eabf074b4777458376540John McCall/// expression (which is a full expression). Implements -Wconversion 5512323ed74658bc8375278eabf074b4777458376540John McCall/// and -Wsign-compare. 5513b4eb64d8426c0eaa58d398961e0e74ff85063d7cJohn McCall/// 5514b4eb64d8426c0eaa58d398961e0e74ff85063d7cJohn McCall/// \param CC the "context" location of the implicit conversion, i.e. 5515b4eb64d8426c0eaa58d398961e0e74ff85063d7cJohn McCall/// the most location of the syntactic entity requiring the implicit 5516b4eb64d8426c0eaa58d398961e0e74ff85063d7cJohn McCall/// conversion 5517b4eb64d8426c0eaa58d398961e0e74ff85063d7cJohn McCallvoid Sema::CheckImplicitConversions(Expr *E, SourceLocation CC) { 5518323ed74658bc8375278eabf074b4777458376540John McCall // Don't diagnose in unevaluated contexts. 551971f55f771794674a410171dbf3cb5dbedf95d033David Blaikie if (isUnevaluatedContext()) 5520323ed74658bc8375278eabf074b4777458376540John McCall return; 5521323ed74658bc8375278eabf074b4777458376540John McCall 5522323ed74658bc8375278eabf074b4777458376540John McCall // Don't diagnose for value- or type-dependent expressions. 5523323ed74658bc8375278eabf074b4777458376540John McCall if (E->isTypeDependent() || E->isValueDependent()) 5524323ed74658bc8375278eabf074b4777458376540John McCall return; 5525323ed74658bc8375278eabf074b4777458376540John McCall 5526d6c8865e6f306556b7eef972ceec2cc8ba026a0dKaelyn Uhrain // Check for array bounds violations in cases where the check isn't triggered 5527d6c8865e6f306556b7eef972ceec2cc8ba026a0dKaelyn Uhrain // elsewhere for other Expr types (like BinaryOperators), e.g. when an 5528d6c8865e6f306556b7eef972ceec2cc8ba026a0dKaelyn Uhrain // ArraySubscriptExpr is on the RHS of a variable initialization. 5529d6c8865e6f306556b7eef972ceec2cc8ba026a0dKaelyn Uhrain CheckArrayAccess(E); 5530d6c8865e6f306556b7eef972ceec2cc8ba026a0dKaelyn Uhrain 5531b4eb64d8426c0eaa58d398961e0e74ff85063d7cJohn McCall // This is not the right CC for (e.g.) a variable initialization. 5532b4eb64d8426c0eaa58d398961e0e74ff85063d7cJohn McCall AnalyzeImplicitConversions(*this, E, CC); 5533323ed74658bc8375278eabf074b4777458376540John McCall} 5534323ed74658bc8375278eabf074b4777458376540John McCall 5535ad48a500596d7d678b99c7f94326cfa856c3b49fFariborz Jahanian/// Diagnose when expression is an integer constant expression and its evaluation 5536ad48a500596d7d678b99c7f94326cfa856c3b49fFariborz Jahanian/// results in integer overflow 5537ad48a500596d7d678b99c7f94326cfa856c3b49fFariborz Jahanianvoid Sema::CheckForIntOverflow (Expr *E) { 55381fd8d46d222fab7f17b91846e2c50bef640a60a0Fariborz Jahanian if (isa<BinaryOperator>(E->IgnoreParens())) { 5539ad48a500596d7d678b99c7f94326cfa856c3b49fFariborz Jahanian llvm::SmallVector<PartialDiagnosticAt, 4> Diags; 5540ad48a500596d7d678b99c7f94326cfa856c3b49fFariborz Jahanian E->EvaluateForOverflow(Context, &Diags); 5541ad48a500596d7d678b99c7f94326cfa856c3b49fFariborz Jahanian } 5542ad48a500596d7d678b99c7f94326cfa856c3b49fFariborz Jahanian} 5543ad48a500596d7d678b99c7f94326cfa856c3b49fFariborz Jahanian 55446c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smithnamespace { 55456c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith/// \brief Visitor for expressions which looks for unsequenced operations on the 55466c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith/// same object. 55476c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smithclass SequenceChecker : public EvaluatedExprVisitor<SequenceChecker> { 55480c0b3909d11de7440d77556089516918b9c04cefRichard Smith typedef EvaluatedExprVisitor<SequenceChecker> Base; 55490c0b3909d11de7440d77556089516918b9c04cefRichard Smith 55506c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith /// \brief A tree of sequenced regions within an expression. Two regions are 55516c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith /// unsequenced if one is an ancestor or a descendent of the other. When we 55526c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith /// finish processing an expression with sequencing, such as a comma 55536c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith /// expression, we fold its tree nodes into its parent, since they are 55546c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith /// unsequenced with respect to nodes we will visit later. 55556c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith class SequenceTree { 55566c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith struct Value { 55576c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith explicit Value(unsigned Parent) : Parent(Parent), Merged(false) {} 55586c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith unsigned Parent : 31; 55596c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith bool Merged : 1; 55606c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith }; 55616c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith llvm::SmallVector<Value, 8> Values; 55626c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith 55636c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith public: 55646c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith /// \brief A region within an expression which may be sequenced with respect 55656c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith /// to some other region. 55666c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith class Seq { 55676c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith explicit Seq(unsigned N) : Index(N) {} 55686c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith unsigned Index; 55696c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith friend class SequenceTree; 55706c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith public: 55716c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith Seq() : Index(0) {} 55726c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith }; 55736c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith 55746c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith SequenceTree() { Values.push_back(Value(0)); } 55756c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith Seq root() const { return Seq(0); } 55766c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith 55776c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith /// \brief Create a new sequence of operations, which is an unsequenced 55786c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith /// subset of \p Parent. This sequence of operations is sequenced with 55796c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith /// respect to other children of \p Parent. 55806c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith Seq allocate(Seq Parent) { 55816c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith Values.push_back(Value(Parent.Index)); 55826c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith return Seq(Values.size() - 1); 55836c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith } 55846c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith 55856c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith /// \brief Merge a sequence of operations into its parent. 55866c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith void merge(Seq S) { 55876c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith Values[S.Index].Merged = true; 55886c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith } 55896c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith 55906c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith /// \brief Determine whether two operations are unsequenced. This operation 55916c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith /// is asymmetric: \p Cur should be the more recent sequence, and \p Old 55926c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith /// should have been merged into its parent as appropriate. 55936c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith bool isUnsequenced(Seq Cur, Seq Old) { 55946c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith unsigned C = representative(Cur.Index); 55956c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith unsigned Target = representative(Old.Index); 55966c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith while (C >= Target) { 55976c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith if (C == Target) 55986c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith return true; 55996c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith C = Values[C].Parent; 56006c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith } 56016c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith return false; 56026c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith } 56036c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith 56046c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith private: 56056c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith /// \brief Pick a representative for a sequence. 56066c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith unsigned representative(unsigned K) { 56076c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith if (Values[K].Merged) 56086c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith // Perform path compression as we go. 56096c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith return Values[K].Parent = representative(Values[K].Parent); 56106c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith return K; 56116c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith } 56126c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith }; 56136c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith 56146c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith /// An object for which we can track unsequenced uses. 56156c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith typedef NamedDecl *Object; 56166c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith 56176c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith /// Different flavors of object usage which we track. We only track the 56186c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith /// least-sequenced usage of each kind. 56196c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith enum UsageKind { 56206c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith /// A read of an object. Multiple unsequenced reads are OK. 56216c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith UK_Use, 56226c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith /// A modification of an object which is sequenced before the value 5623418dd3eb3e813235af089b5c88182941f8a03d20Richard Smith /// computation of the expression, such as ++n in C++. 56246c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith UK_ModAsValue, 56256c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith /// A modification of an object which is not sequenced before the value 56266c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith /// computation of the expression, such as n++. 56276c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith UK_ModAsSideEffect, 56286c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith 56296c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith UK_Count = UK_ModAsSideEffect + 1 56306c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith }; 56316c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith 56326c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith struct Usage { 56336c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith Usage() : Use(0), Seq() {} 56346c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith Expr *Use; 56356c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith SequenceTree::Seq Seq; 56366c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith }; 56376c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith 56386c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith struct UsageInfo { 56396c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith UsageInfo() : Diagnosed(false) {} 56406c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith Usage Uses[UK_Count]; 56416c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith /// Have we issued a diagnostic for this variable already? 56426c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith bool Diagnosed; 56436c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith }; 56446c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith typedef llvm::SmallDenseMap<Object, UsageInfo, 16> UsageInfoMap; 56456c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith 56466c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith Sema &SemaRef; 56476c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith /// Sequenced regions within the expression. 56486c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith SequenceTree Tree; 56496c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith /// Declaration modifications and references which we have seen. 56506c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith UsageInfoMap UsageMap; 56516c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith /// The region we are currently within. 56526c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith SequenceTree::Seq Region; 56536c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith /// Filled in with declarations which were modified as a side-effect 56546c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith /// (that is, post-increment operations). 56556c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith llvm::SmallVectorImpl<std::pair<Object, Usage> > *ModAsSideEffect; 56561a2dcd55a1924b46c919474390a3f0cdf2cebeb0Richard Smith /// Expressions to check later. We defer checking these to reduce 56571a2dcd55a1924b46c919474390a3f0cdf2cebeb0Richard Smith /// stack usage. 56581a2dcd55a1924b46c919474390a3f0cdf2cebeb0Richard Smith llvm::SmallVectorImpl<Expr*> &WorkList; 56596c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith 56606c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith /// RAII object wrapping the visitation of a sequenced subexpression of an 56616c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith /// expression. At the end of this process, the side-effects of the evaluation 56626c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith /// become sequenced with respect to the value computation of the result, so 56636c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith /// we downgrade any UK_ModAsSideEffect within the evaluation to 56646c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith /// UK_ModAsValue. 56656c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith struct SequencedSubexpression { 56666c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith SequencedSubexpression(SequenceChecker &Self) 56676c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith : Self(Self), OldModAsSideEffect(Self.ModAsSideEffect) { 56686c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith Self.ModAsSideEffect = &ModAsSideEffect; 56696c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith } 56706c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith ~SequencedSubexpression() { 56716c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith for (unsigned I = 0, E = ModAsSideEffect.size(); I != E; ++I) { 56726c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith UsageInfo &U = Self.UsageMap[ModAsSideEffect[I].first]; 56736c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith U.Uses[UK_ModAsSideEffect] = ModAsSideEffect[I].second; 56746c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith Self.addUsage(U, ModAsSideEffect[I].first, 56756c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith ModAsSideEffect[I].second.Use, UK_ModAsValue); 56766c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith } 56776c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith Self.ModAsSideEffect = OldModAsSideEffect; 56786c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith } 56796c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith 56806c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith SequenceChecker &Self; 56816c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith llvm::SmallVector<std::pair<Object, Usage>, 4> ModAsSideEffect; 56826c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith llvm::SmallVectorImpl<std::pair<Object, Usage> > *OldModAsSideEffect; 56836c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith }; 56846c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith 5685674700516fb7ef0277fbb2a01f56f0c2fa8e7ce5Richard Smith /// RAII object wrapping the visitation of a subexpression which we might 5686674700516fb7ef0277fbb2a01f56f0c2fa8e7ce5Richard Smith /// choose to evaluate as a constant. If any subexpression is evaluated and 5687674700516fb7ef0277fbb2a01f56f0c2fa8e7ce5Richard Smith /// found to be non-constant, this allows us to suppress the evaluation of 5688674700516fb7ef0277fbb2a01f56f0c2fa8e7ce5Richard Smith /// the outer expression. 5689674700516fb7ef0277fbb2a01f56f0c2fa8e7ce5Richard Smith class EvaluationTracker { 5690674700516fb7ef0277fbb2a01f56f0c2fa8e7ce5Richard Smith public: 5691674700516fb7ef0277fbb2a01f56f0c2fa8e7ce5Richard Smith EvaluationTracker(SequenceChecker &Self) 5692674700516fb7ef0277fbb2a01f56f0c2fa8e7ce5Richard Smith : Self(Self), Prev(Self.EvalTracker), EvalOK(true) { 5693674700516fb7ef0277fbb2a01f56f0c2fa8e7ce5Richard Smith Self.EvalTracker = this; 5694674700516fb7ef0277fbb2a01f56f0c2fa8e7ce5Richard Smith } 5695674700516fb7ef0277fbb2a01f56f0c2fa8e7ce5Richard Smith ~EvaluationTracker() { 5696674700516fb7ef0277fbb2a01f56f0c2fa8e7ce5Richard Smith Self.EvalTracker = Prev; 5697674700516fb7ef0277fbb2a01f56f0c2fa8e7ce5Richard Smith if (Prev) 5698674700516fb7ef0277fbb2a01f56f0c2fa8e7ce5Richard Smith Prev->EvalOK &= EvalOK; 5699674700516fb7ef0277fbb2a01f56f0c2fa8e7ce5Richard Smith } 5700674700516fb7ef0277fbb2a01f56f0c2fa8e7ce5Richard Smith 5701674700516fb7ef0277fbb2a01f56f0c2fa8e7ce5Richard Smith bool evaluate(const Expr *E, bool &Result) { 5702674700516fb7ef0277fbb2a01f56f0c2fa8e7ce5Richard Smith if (!EvalOK || E->isValueDependent()) 5703674700516fb7ef0277fbb2a01f56f0c2fa8e7ce5Richard Smith return false; 5704674700516fb7ef0277fbb2a01f56f0c2fa8e7ce5Richard Smith EvalOK = E->EvaluateAsBooleanCondition(Result, Self.SemaRef.Context); 5705674700516fb7ef0277fbb2a01f56f0c2fa8e7ce5Richard Smith return EvalOK; 5706674700516fb7ef0277fbb2a01f56f0c2fa8e7ce5Richard Smith } 5707674700516fb7ef0277fbb2a01f56f0c2fa8e7ce5Richard Smith 5708674700516fb7ef0277fbb2a01f56f0c2fa8e7ce5Richard Smith private: 5709674700516fb7ef0277fbb2a01f56f0c2fa8e7ce5Richard Smith SequenceChecker &Self; 5710674700516fb7ef0277fbb2a01f56f0c2fa8e7ce5Richard Smith EvaluationTracker *Prev; 5711674700516fb7ef0277fbb2a01f56f0c2fa8e7ce5Richard Smith bool EvalOK; 5712674700516fb7ef0277fbb2a01f56f0c2fa8e7ce5Richard Smith } *EvalTracker; 5713674700516fb7ef0277fbb2a01f56f0c2fa8e7ce5Richard Smith 57146c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith /// \brief Find the object which is produced by the specified expression, 57156c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith /// if any. 57166c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith Object getObject(Expr *E, bool Mod) const { 57176c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith E = E->IgnoreParenCasts(); 57186c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith if (UnaryOperator *UO = dyn_cast<UnaryOperator>(E)) { 57196c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith if (Mod && (UO->getOpcode() == UO_PreInc || UO->getOpcode() == UO_PreDec)) 57206c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith return getObject(UO->getSubExpr(), Mod); 57216c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith } else if (BinaryOperator *BO = dyn_cast<BinaryOperator>(E)) { 57226c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith if (BO->getOpcode() == BO_Comma) 57236c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith return getObject(BO->getRHS(), Mod); 57246c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith if (Mod && BO->isAssignmentOp()) 57256c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith return getObject(BO->getLHS(), Mod); 57266c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith } else if (MemberExpr *ME = dyn_cast<MemberExpr>(E)) { 57276c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith // FIXME: Check for more interesting cases, like "x.n = ++x.n". 57286c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith if (isa<CXXThisExpr>(ME->getBase()->IgnoreParenCasts())) 57296c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith return ME->getMemberDecl(); 57306c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith } else if (DeclRefExpr *DRE = dyn_cast<DeclRefExpr>(E)) 57316c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith // FIXME: If this is a reference, map through to its value. 57326c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith return DRE->getDecl(); 57336c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith return 0; 57346c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith } 57356c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith 57366c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith /// \brief Note that an object was modified or used by an expression. 57376c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith void addUsage(UsageInfo &UI, Object O, Expr *Ref, UsageKind UK) { 57386c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith Usage &U = UI.Uses[UK]; 57396c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith if (!U.Use || !Tree.isUnsequenced(Region, U.Seq)) { 57406c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith if (UK == UK_ModAsSideEffect && ModAsSideEffect) 57416c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith ModAsSideEffect->push_back(std::make_pair(O, U)); 57426c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith U.Use = Ref; 57436c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith U.Seq = Region; 57446c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith } 57456c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith } 57466c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith /// \brief Check whether a modification or use conflicts with a prior usage. 57476c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith void checkUsage(Object O, UsageInfo &UI, Expr *Ref, UsageKind OtherKind, 57486c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith bool IsModMod) { 57496c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith if (UI.Diagnosed) 57506c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith return; 57516c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith 57526c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith const Usage &U = UI.Uses[OtherKind]; 57536c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith if (!U.Use || !Tree.isUnsequenced(Region, U.Seq)) 57546c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith return; 57556c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith 57566c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith Expr *Mod = U.Use; 57576c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith Expr *ModOrUse = Ref; 57586c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith if (OtherKind == UK_Use) 57596c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith std::swap(Mod, ModOrUse); 57606c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith 57616c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith SemaRef.Diag(Mod->getExprLoc(), 57626c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith IsModMod ? diag::warn_unsequenced_mod_mod 57636c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith : diag::warn_unsequenced_mod_use) 57646c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith << O << SourceRange(ModOrUse->getExprLoc()); 57656c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith UI.Diagnosed = true; 57666c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith } 57676c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith 57686c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith void notePreUse(Object O, Expr *Use) { 57696c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith UsageInfo &U = UsageMap[O]; 57706c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith // Uses conflict with other modifications. 57716c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith checkUsage(O, U, Use, UK_ModAsValue, false); 57726c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith } 57736c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith void notePostUse(Object O, Expr *Use) { 57746c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith UsageInfo &U = UsageMap[O]; 57756c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith checkUsage(O, U, Use, UK_ModAsSideEffect, false); 57766c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith addUsage(U, O, Use, UK_Use); 57776c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith } 57786c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith 57796c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith void notePreMod(Object O, Expr *Mod) { 57806c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith UsageInfo &U = UsageMap[O]; 57816c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith // Modifications conflict with other modifications and with uses. 57826c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith checkUsage(O, U, Mod, UK_ModAsValue, true); 57836c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith checkUsage(O, U, Mod, UK_Use, false); 57846c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith } 57856c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith void notePostMod(Object O, Expr *Use, UsageKind UK) { 57866c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith UsageInfo &U = UsageMap[O]; 57876c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith checkUsage(O, U, Use, UK_ModAsSideEffect, true); 57886c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith addUsage(U, O, Use, UK); 57896c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith } 57906c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith 57916c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smithpublic: 57921a2dcd55a1924b46c919474390a3f0cdf2cebeb0Richard Smith SequenceChecker(Sema &S, Expr *E, 57931a2dcd55a1924b46c919474390a3f0cdf2cebeb0Richard Smith llvm::SmallVectorImpl<Expr*> &WorkList) 57940c0b3909d11de7440d77556089516918b9c04cefRichard Smith : Base(S.Context), SemaRef(S), Region(Tree.root()), 57950c0b3909d11de7440d77556089516918b9c04cefRichard Smith ModAsSideEffect(0), WorkList(WorkList), EvalTracker(0) { 57966c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith Visit(E); 57976c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith } 57986c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith 57996c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith void VisitStmt(Stmt *S) { 58006c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith // Skip all statements which aren't expressions for now. 58016c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith } 58026c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith 58036c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith void VisitExpr(Expr *E) { 58046c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith // By default, just recurse to evaluated subexpressions. 58050c0b3909d11de7440d77556089516918b9c04cefRichard Smith Base::VisitStmt(E); 58066c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith } 58076c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith 58086c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith void VisitCastExpr(CastExpr *E) { 58096c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith Object O = Object(); 58106c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith if (E->getCastKind() == CK_LValueToRValue) 58116c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith O = getObject(E->getSubExpr(), false); 58126c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith 58136c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith if (O) 58146c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith notePreUse(O, E); 58156c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith VisitExpr(E); 58166c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith if (O) 58176c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith notePostUse(O, E); 58186c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith } 58196c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith 58206c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith void VisitBinComma(BinaryOperator *BO) { 58216c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith // C++11 [expr.comma]p1: 58226c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith // Every value computation and side effect associated with the left 58236c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith // expression is sequenced before every value computation and side 58246c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith // effect associated with the right expression. 58256c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith SequenceTree::Seq LHS = Tree.allocate(Region); 58266c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith SequenceTree::Seq RHS = Tree.allocate(Region); 58276c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith SequenceTree::Seq OldRegion = Region; 58286c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith 58296c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith { 58306c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith SequencedSubexpression SeqLHS(*this); 58316c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith Region = LHS; 58326c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith Visit(BO->getLHS()); 58336c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith } 58346c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith 58356c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith Region = RHS; 58366c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith Visit(BO->getRHS()); 58376c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith 58386c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith Region = OldRegion; 58396c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith 58406c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith // Forget that LHS and RHS are sequenced. They are both unsequenced 58416c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith // with respect to other stuff. 58426c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith Tree.merge(LHS); 58436c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith Tree.merge(RHS); 58446c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith } 58456c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith 58466c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith void VisitBinAssign(BinaryOperator *BO) { 58476c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith // The modification is sequenced after the value computation of the LHS 58486c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith // and RHS, so check it before inspecting the operands and update the 58496c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith // map afterwards. 58506c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith Object O = getObject(BO->getLHS(), true); 58516c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith if (!O) 58526c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith return VisitExpr(BO); 58536c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith 58546c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith notePreMod(O, BO); 58556c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith 58566c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith // C++11 [expr.ass]p7: 58576c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith // E1 op= E2 is equivalent to E1 = E1 op E2, except that E1 is evaluated 58586c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith // only once. 58596c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith // 58606c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith // Therefore, for a compound assignment operator, O is considered used 58616c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith // everywhere except within the evaluation of E1 itself. 58626c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith if (isa<CompoundAssignOperator>(BO)) 58636c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith notePreUse(O, BO); 58646c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith 58656c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith Visit(BO->getLHS()); 58666c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith 58676c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith if (isa<CompoundAssignOperator>(BO)) 58686c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith notePostUse(O, BO); 58696c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith 58706c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith Visit(BO->getRHS()); 58716c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith 5872418dd3eb3e813235af089b5c88182941f8a03d20Richard Smith // C++11 [expr.ass]p1: 5873418dd3eb3e813235af089b5c88182941f8a03d20Richard Smith // the assignment is sequenced [...] before the value computation of the 5874418dd3eb3e813235af089b5c88182941f8a03d20Richard Smith // assignment expression. 5875418dd3eb3e813235af089b5c88182941f8a03d20Richard Smith // C11 6.5.16/3 has no such rule. 5876418dd3eb3e813235af089b5c88182941f8a03d20Richard Smith notePostMod(O, BO, SemaRef.getLangOpts().CPlusPlus ? UK_ModAsValue 5877418dd3eb3e813235af089b5c88182941f8a03d20Richard Smith : UK_ModAsSideEffect); 58786c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith } 58796c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith void VisitCompoundAssignOperator(CompoundAssignOperator *CAO) { 58806c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith VisitBinAssign(CAO); 58816c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith } 58826c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith 58836c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith void VisitUnaryPreInc(UnaryOperator *UO) { VisitUnaryPreIncDec(UO); } 58846c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith void VisitUnaryPreDec(UnaryOperator *UO) { VisitUnaryPreIncDec(UO); } 58856c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith void VisitUnaryPreIncDec(UnaryOperator *UO) { 58866c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith Object O = getObject(UO->getSubExpr(), true); 58876c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith if (!O) 58886c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith return VisitExpr(UO); 58896c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith 58906c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith notePreMod(O, UO); 58916c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith Visit(UO->getSubExpr()); 5892418dd3eb3e813235af089b5c88182941f8a03d20Richard Smith // C++11 [expr.pre.incr]p1: 5893418dd3eb3e813235af089b5c88182941f8a03d20Richard Smith // the expression ++x is equivalent to x+=1 5894418dd3eb3e813235af089b5c88182941f8a03d20Richard Smith notePostMod(O, UO, SemaRef.getLangOpts().CPlusPlus ? UK_ModAsValue 5895418dd3eb3e813235af089b5c88182941f8a03d20Richard Smith : UK_ModAsSideEffect); 58966c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith } 58976c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith 58986c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith void VisitUnaryPostInc(UnaryOperator *UO) { VisitUnaryPostIncDec(UO); } 58996c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith void VisitUnaryPostDec(UnaryOperator *UO) { VisitUnaryPostIncDec(UO); } 59006c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith void VisitUnaryPostIncDec(UnaryOperator *UO) { 59016c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith Object O = getObject(UO->getSubExpr(), true); 59026c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith if (!O) 59036c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith return VisitExpr(UO); 59046c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith 59056c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith notePreMod(O, UO); 59066c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith Visit(UO->getSubExpr()); 59076c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith notePostMod(O, UO, UK_ModAsSideEffect); 59086c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith } 59096c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith 59106c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith /// Don't visit the RHS of '&&' or '||' if it might not be evaluated. 59116c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith void VisitBinLOr(BinaryOperator *BO) { 59126c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith // The side-effects of the LHS of an '&&' are sequenced before the 59136c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith // value computation of the RHS, and hence before the value computation 59146c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith // of the '&&' itself, unless the LHS evaluates to zero. We treat them 59156c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith // as if they were unconditionally sequenced. 5916674700516fb7ef0277fbb2a01f56f0c2fa8e7ce5Richard Smith EvaluationTracker Eval(*this); 59176c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith { 59186c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith SequencedSubexpression Sequenced(*this); 59196c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith Visit(BO->getLHS()); 59206c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith } 59216c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith 59226c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith bool Result; 5923674700516fb7ef0277fbb2a01f56f0c2fa8e7ce5Richard Smith if (Eval.evaluate(BO->getLHS(), Result)) { 5924995e4a7530d705147c875b63608532c483c011a8Richard Smith if (!Result) 5925995e4a7530d705147c875b63608532c483c011a8Richard Smith Visit(BO->getRHS()); 5926995e4a7530d705147c875b63608532c483c011a8Richard Smith } else { 5927995e4a7530d705147c875b63608532c483c011a8Richard Smith // Check for unsequenced operations in the RHS, treating it as an 5928995e4a7530d705147c875b63608532c483c011a8Richard Smith // entirely separate evaluation. 5929995e4a7530d705147c875b63608532c483c011a8Richard Smith // 5930995e4a7530d705147c875b63608532c483c011a8Richard Smith // FIXME: If there are operations in the RHS which are unsequenced 5931995e4a7530d705147c875b63608532c483c011a8Richard Smith // with respect to operations outside the RHS, and those operations 5932995e4a7530d705147c875b63608532c483c011a8Richard Smith // are unconditionally evaluated, diagnose them. 59331a2dcd55a1924b46c919474390a3f0cdf2cebeb0Richard Smith WorkList.push_back(BO->getRHS()); 5934995e4a7530d705147c875b63608532c483c011a8Richard Smith } 59356c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith } 59366c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith void VisitBinLAnd(BinaryOperator *BO) { 5937674700516fb7ef0277fbb2a01f56f0c2fa8e7ce5Richard Smith EvaluationTracker Eval(*this); 59386c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith { 59396c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith SequencedSubexpression Sequenced(*this); 59406c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith Visit(BO->getLHS()); 59416c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith } 59426c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith 59436c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith bool Result; 5944674700516fb7ef0277fbb2a01f56f0c2fa8e7ce5Richard Smith if (Eval.evaluate(BO->getLHS(), Result)) { 5945995e4a7530d705147c875b63608532c483c011a8Richard Smith if (Result) 5946995e4a7530d705147c875b63608532c483c011a8Richard Smith Visit(BO->getRHS()); 5947995e4a7530d705147c875b63608532c483c011a8Richard Smith } else { 59481a2dcd55a1924b46c919474390a3f0cdf2cebeb0Richard Smith WorkList.push_back(BO->getRHS()); 5949995e4a7530d705147c875b63608532c483c011a8Richard Smith } 59506c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith } 59516c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith 59526c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith // Only visit the condition, unless we can be sure which subexpression will 59536c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith // be chosen. 59546c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith void VisitAbstractConditionalOperator(AbstractConditionalOperator *CO) { 5955674700516fb7ef0277fbb2a01f56f0c2fa8e7ce5Richard Smith EvaluationTracker Eval(*this); 5956418dd3eb3e813235af089b5c88182941f8a03d20Richard Smith { 5957418dd3eb3e813235af089b5c88182941f8a03d20Richard Smith SequencedSubexpression Sequenced(*this); 5958418dd3eb3e813235af089b5c88182941f8a03d20Richard Smith Visit(CO->getCond()); 5959418dd3eb3e813235af089b5c88182941f8a03d20Richard Smith } 59606c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith 59616c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith bool Result; 5962674700516fb7ef0277fbb2a01f56f0c2fa8e7ce5Richard Smith if (Eval.evaluate(CO->getCond(), Result)) 59636c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith Visit(Result ? CO->getTrueExpr() : CO->getFalseExpr()); 5964995e4a7530d705147c875b63608532c483c011a8Richard Smith else { 59651a2dcd55a1924b46c919474390a3f0cdf2cebeb0Richard Smith WorkList.push_back(CO->getTrueExpr()); 59661a2dcd55a1924b46c919474390a3f0cdf2cebeb0Richard Smith WorkList.push_back(CO->getFalseExpr()); 5967995e4a7530d705147c875b63608532c483c011a8Richard Smith } 59686c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith } 59696c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith 59700c0b3909d11de7440d77556089516918b9c04cefRichard Smith void VisitCallExpr(CallExpr *CE) { 59710c0b3909d11de7440d77556089516918b9c04cefRichard Smith // C++11 [intro.execution]p15: 59720c0b3909d11de7440d77556089516918b9c04cefRichard Smith // When calling a function [...], every value computation and side effect 59730c0b3909d11de7440d77556089516918b9c04cefRichard Smith // associated with any argument expression, or with the postfix expression 59740c0b3909d11de7440d77556089516918b9c04cefRichard Smith // designating the called function, is sequenced before execution of every 59750c0b3909d11de7440d77556089516918b9c04cefRichard Smith // expression or statement in the body of the function [and thus before 59760c0b3909d11de7440d77556089516918b9c04cefRichard Smith // the value computation of its result]. 59770c0b3909d11de7440d77556089516918b9c04cefRichard Smith SequencedSubexpression Sequenced(*this); 59780c0b3909d11de7440d77556089516918b9c04cefRichard Smith Base::VisitCallExpr(CE); 59790c0b3909d11de7440d77556089516918b9c04cefRichard Smith 59800c0b3909d11de7440d77556089516918b9c04cefRichard Smith // FIXME: CXXNewExpr and CXXDeleteExpr implicitly call functions. 59810c0b3909d11de7440d77556089516918b9c04cefRichard Smith } 59820c0b3909d11de7440d77556089516918b9c04cefRichard Smith 59836c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith void VisitCXXConstructExpr(CXXConstructExpr *CCE) { 59840c0b3909d11de7440d77556089516918b9c04cefRichard Smith // This is a call, so all subexpressions are sequenced before the result. 59850c0b3909d11de7440d77556089516918b9c04cefRichard Smith SequencedSubexpression Sequenced(*this); 59860c0b3909d11de7440d77556089516918b9c04cefRichard Smith 59876c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith if (!CCE->isListInitialization()) 59886c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith return VisitExpr(CCE); 59896c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith 59906c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith // In C++11, list initializations are sequenced. 59916c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith llvm::SmallVector<SequenceTree::Seq, 32> Elts; 59926c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith SequenceTree::Seq Parent = Region; 59936c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith for (CXXConstructExpr::arg_iterator I = CCE->arg_begin(), 59946c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith E = CCE->arg_end(); 59956c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith I != E; ++I) { 59966c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith Region = Tree.allocate(Parent); 59976c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith Elts.push_back(Region); 59986c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith Visit(*I); 59996c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith } 60006c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith 60016c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith // Forget that the initializers are sequenced. 60026c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith Region = Parent; 60036c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith for (unsigned I = 0; I < Elts.size(); ++I) 60046c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith Tree.merge(Elts[I]); 60056c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith } 60066c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith 60076c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith void VisitInitListExpr(InitListExpr *ILE) { 60086c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith if (!SemaRef.getLangOpts().CPlusPlus11) 60096c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith return VisitExpr(ILE); 60106c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith 60116c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith // In C++11, list initializations are sequenced. 60126c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith llvm::SmallVector<SequenceTree::Seq, 32> Elts; 60136c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith SequenceTree::Seq Parent = Region; 60146c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith for (unsigned I = 0; I < ILE->getNumInits(); ++I) { 60156c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith Expr *E = ILE->getInit(I); 60166c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith if (!E) continue; 60176c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith Region = Tree.allocate(Parent); 60186c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith Elts.push_back(Region); 60196c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith Visit(E); 60206c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith } 60216c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith 60226c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith // Forget that the initializers are sequenced. 60236c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith Region = Parent; 60246c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith for (unsigned I = 0; I < Elts.size(); ++I) 60256c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith Tree.merge(Elts[I]); 60266c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith } 60276c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith}; 60286c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith} 60296c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith 60306c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smithvoid Sema::CheckUnsequencedOperations(Expr *E) { 60311a2dcd55a1924b46c919474390a3f0cdf2cebeb0Richard Smith llvm::SmallVector<Expr*, 8> WorkList; 60321a2dcd55a1924b46c919474390a3f0cdf2cebeb0Richard Smith WorkList.push_back(E); 60331a2dcd55a1924b46c919474390a3f0cdf2cebeb0Richard Smith while (!WorkList.empty()) { 60341a2dcd55a1924b46c919474390a3f0cdf2cebeb0Richard Smith Expr *Item = WorkList.back(); 60351a2dcd55a1924b46c919474390a3f0cdf2cebeb0Richard Smith WorkList.pop_back(); 60361a2dcd55a1924b46c919474390a3f0cdf2cebeb0Richard Smith SequenceChecker(*this, Item, WorkList); 60371a2dcd55a1924b46c919474390a3f0cdf2cebeb0Richard Smith } 60386c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith} 60396c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith 6040ad48a500596d7d678b99c7f94326cfa856c3b49fFariborz Jahanianvoid Sema::CheckCompletedExpr(Expr *E, SourceLocation CheckLoc, 6041ad48a500596d7d678b99c7f94326cfa856c3b49fFariborz Jahanian bool IsConstexpr) { 60426c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith CheckImplicitConversions(E, CheckLoc); 60436c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith CheckUnsequencedOperations(E); 6044ad48a500596d7d678b99c7f94326cfa856c3b49fFariborz Jahanian if (!IsConstexpr && !E->isValueDependent()) 6045ad48a500596d7d678b99c7f94326cfa856c3b49fFariborz Jahanian CheckForIntOverflow(E); 60466c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith} 60476c3af3d0e3e65bcbca57bfd458d684941f6d0531Richard Smith 604815d7d12226f83de24f96f4bf4e27ebba30fef51eJohn McCallvoid Sema::CheckBitFieldInitialization(SourceLocation InitLoc, 604915d7d12226f83de24f96f4bf4e27ebba30fef51eJohn McCall FieldDecl *BitField, 605015d7d12226f83de24f96f4bf4e27ebba30fef51eJohn McCall Expr *Init) { 605115d7d12226f83de24f96f4bf4e27ebba30fef51eJohn McCall (void) AnalyzeBitFieldAssignment(*this, BitField, Init, InitLoc); 605215d7d12226f83de24f96f4bf4e27ebba30fef51eJohn McCall} 605315d7d12226f83de24f96f4bf4e27ebba30fef51eJohn McCall 6054f8c4921c73d73123e2b79221ad4f1775ce984cfdMike Stump/// CheckParmsForFunctionDef - Check that the parameters of the given 6055f8c4921c73d73123e2b79221ad4f1775ce984cfdMike Stump/// function are appropriate for the definition of a function. This 6056f8c4921c73d73123e2b79221ad4f1775ce984cfdMike Stump/// takes care of any checks that cannot be performed on the 6057f8c4921c73d73123e2b79221ad4f1775ce984cfdMike Stump/// declaration itself, e.g., that the types of each of the function 6058f8c4921c73d73123e2b79221ad4f1775ce984cfdMike Stump/// parameters are complete. 60598c0501c7370d894a735692b92fab62bbb05d86bdReid Klecknerbool Sema::CheckParmsForFunctionDef(ParmVarDecl *const *P, 60608c0501c7370d894a735692b92fab62bbb05d86bdReid Kleckner ParmVarDecl *const *PEnd, 606182aa713bcda99f388836c2a30bb868d9c9974817Douglas Gregor bool CheckParameterNames) { 6062f8c4921c73d73123e2b79221ad4f1775ce984cfdMike Stump bool HasInvalidParm = false; 606382aa713bcda99f388836c2a30bb868d9c9974817Douglas Gregor for (; P != PEnd; ++P) { 606482aa713bcda99f388836c2a30bb868d9c9974817Douglas Gregor ParmVarDecl *Param = *P; 606582aa713bcda99f388836c2a30bb868d9c9974817Douglas Gregor 6066f8c4921c73d73123e2b79221ad4f1775ce984cfdMike Stump // C99 6.7.5.3p4: the parameters in a parameter type list in a 6067f8c4921c73d73123e2b79221ad4f1775ce984cfdMike Stump // function declarator that is part of a function definition of 6068f8c4921c73d73123e2b79221ad4f1775ce984cfdMike Stump // that function shall not have incomplete type. 6069f8c4921c73d73123e2b79221ad4f1775ce984cfdMike Stump // 6070f8c4921c73d73123e2b79221ad4f1775ce984cfdMike Stump // This is also C++ [dcl.fct]p6. 6071f8c4921c73d73123e2b79221ad4f1775ce984cfdMike Stump if (!Param->isInvalidDecl() && 6072f8c4921c73d73123e2b79221ad4f1775ce984cfdMike Stump RequireCompleteType(Param->getLocation(), Param->getType(), 6073d10099e5c8238fa0327f03921cf2e3c8975c881eDouglas Gregor diag::err_typecheck_decl_incomplete_type)) { 6074f8c4921c73d73123e2b79221ad4f1775ce984cfdMike Stump Param->setInvalidDecl(); 6075f8c4921c73d73123e2b79221ad4f1775ce984cfdMike Stump HasInvalidParm = true; 6076f8c4921c73d73123e2b79221ad4f1775ce984cfdMike Stump } 6077f8c4921c73d73123e2b79221ad4f1775ce984cfdMike Stump 6078f8c4921c73d73123e2b79221ad4f1775ce984cfdMike Stump // C99 6.9.1p5: If the declarator includes a parameter type list, the 6079f8c4921c73d73123e2b79221ad4f1775ce984cfdMike Stump // declaration of each parameter shall include an identifier. 608082aa713bcda99f388836c2a30bb868d9c9974817Douglas Gregor if (CheckParameterNames && 608182aa713bcda99f388836c2a30bb868d9c9974817Douglas Gregor Param->getIdentifier() == 0 && 6082f8c4921c73d73123e2b79221ad4f1775ce984cfdMike Stump !Param->isImplicit() && 60834e4d08403ca5cfd4d558fa2936215d3a4e5a528dDavid Blaikie !getLangOpts().CPlusPlus) 6084f8c4921c73d73123e2b79221ad4f1775ce984cfdMike Stump Diag(Param->getLocation(), diag::err_parameter_name_omitted); 6085d17e340e2d516139931768697bf080f60920ba9dSam Weinig 6086d17e340e2d516139931768697bf080f60920ba9dSam Weinig // C99 6.7.5.3p12: 6087d17e340e2d516139931768697bf080f60920ba9dSam Weinig // If the function declarator is not part of a definition of that 6088d17e340e2d516139931768697bf080f60920ba9dSam Weinig // function, parameters may have incomplete type and may use the [*] 6089d17e340e2d516139931768697bf080f60920ba9dSam Weinig // notation in their sequences of declarator specifiers to specify 6090d17e340e2d516139931768697bf080f60920ba9dSam Weinig // variable length array types. 6091d17e340e2d516139931768697bf080f60920ba9dSam Weinig QualType PType = Param->getOriginalType(); 6092d237d2e6b85a74f31c986dc585fa6c39733b74a2Fariborz Jahanian while (const ArrayType *AT = Context.getAsArrayType(PType)) { 6093d17e340e2d516139931768697bf080f60920ba9dSam Weinig if (AT->getSizeModifier() == ArrayType::Star) { 6094fc09336a5965040736f9bc63a70416003972364eStefanus Du Toit // FIXME: This diagnostic should point the '[*]' if source-location 6095d17e340e2d516139931768697bf080f60920ba9dSam Weinig // information is added for it. 6096d17e340e2d516139931768697bf080f60920ba9dSam Weinig Diag(Param->getLocation(), diag::err_array_star_in_function_definition); 6097d237d2e6b85a74f31c986dc585fa6c39733b74a2Fariborz Jahanian break; 6098d17e340e2d516139931768697bf080f60920ba9dSam Weinig } 6099d237d2e6b85a74f31c986dc585fa6c39733b74a2Fariborz Jahanian PType= AT->getElementType(); 6100d17e340e2d516139931768697bf080f60920ba9dSam Weinig } 61019b60195ad4843c9e2e231673a0dbc0d5c8c6eb2bReid Kleckner 61029b60195ad4843c9e2e231673a0dbc0d5c8c6eb2bReid Kleckner // MSVC destroys objects passed by value in the callee. Therefore a 61039b60195ad4843c9e2e231673a0dbc0d5c8c6eb2bReid Kleckner // function definition which takes such a parameter must be able to call the 61049b60195ad4843c9e2e231673a0dbc0d5c8c6eb2bReid Kleckner // object's destructor. 61059b60195ad4843c9e2e231673a0dbc0d5c8c6eb2bReid Kleckner if (getLangOpts().CPlusPlus && 61069b60195ad4843c9e2e231673a0dbc0d5c8c6eb2bReid Kleckner Context.getTargetInfo().getCXXABI().isArgumentDestroyedByCallee()) { 61079b60195ad4843c9e2e231673a0dbc0d5c8c6eb2bReid Kleckner if (const RecordType *RT = Param->getType()->getAs<RecordType>()) 61089b60195ad4843c9e2e231673a0dbc0d5c8c6eb2bReid Kleckner FinalizeVarWithDestructor(Param, RT); 61099b60195ad4843c9e2e231673a0dbc0d5c8c6eb2bReid Kleckner } 6110f8c4921c73d73123e2b79221ad4f1775ce984cfdMike Stump } 6111f8c4921c73d73123e2b79221ad4f1775ce984cfdMike Stump 6112f8c4921c73d73123e2b79221ad4f1775ce984cfdMike Stump return HasInvalidParm; 6113f8c4921c73d73123e2b79221ad4f1775ce984cfdMike Stump} 6114b7f4ffe073fa419613946461a2583ba2fcb72280John McCall 6115b7f4ffe073fa419613946461a2583ba2fcb72280John McCall/// CheckCastAlign - Implements -Wcast-align, which warns when a 6116b7f4ffe073fa419613946461a2583ba2fcb72280John McCall/// pointer cast increases the alignment requirements. 6117b7f4ffe073fa419613946461a2583ba2fcb72280John McCallvoid Sema::CheckCastAlign(Expr *Op, QualType T, SourceRange TRange) { 6118b7f4ffe073fa419613946461a2583ba2fcb72280John McCall // This is actually a lot of work to potentially be doing on every 6119b7f4ffe073fa419613946461a2583ba2fcb72280John McCall // cast; don't do it if we're ignoring -Wcast_align (as is the default). 61200827408865e32789e0ec4b8113a302ccdc531423Argyrios Kyrtzidis if (getDiagnostics().getDiagnosticLevel(diag::warn_cast_align, 61210827408865e32789e0ec4b8113a302ccdc531423Argyrios Kyrtzidis TRange.getBegin()) 6122d6471f7c1921c7802804ce3ff6fe9768310f72b9David Blaikie == DiagnosticsEngine::Ignored) 6123b7f4ffe073fa419613946461a2583ba2fcb72280John McCall return; 6124b7f4ffe073fa419613946461a2583ba2fcb72280John McCall 6125b7f4ffe073fa419613946461a2583ba2fcb72280John McCall // Ignore dependent types. 6126b7f4ffe073fa419613946461a2583ba2fcb72280John McCall if (T->isDependentType() || Op->getType()->isDependentType()) 6127b7f4ffe073fa419613946461a2583ba2fcb72280John McCall return; 6128b7f4ffe073fa419613946461a2583ba2fcb72280John McCall 6129b7f4ffe073fa419613946461a2583ba2fcb72280John McCall // Require that the destination be a pointer type. 6130b7f4ffe073fa419613946461a2583ba2fcb72280John McCall const PointerType *DestPtr = T->getAs<PointerType>(); 6131b7f4ffe073fa419613946461a2583ba2fcb72280John McCall if (!DestPtr) return; 6132b7f4ffe073fa419613946461a2583ba2fcb72280John McCall 6133b7f4ffe073fa419613946461a2583ba2fcb72280John McCall // If the destination has alignment 1, we're done. 6134b7f4ffe073fa419613946461a2583ba2fcb72280John McCall QualType DestPointee = DestPtr->getPointeeType(); 6135b7f4ffe073fa419613946461a2583ba2fcb72280John McCall if (DestPointee->isIncompleteType()) return; 6136b7f4ffe073fa419613946461a2583ba2fcb72280John McCall CharUnits DestAlign = Context.getTypeAlignInChars(DestPointee); 6137b7f4ffe073fa419613946461a2583ba2fcb72280John McCall if (DestAlign.isOne()) return; 6138b7f4ffe073fa419613946461a2583ba2fcb72280John McCall 6139b7f4ffe073fa419613946461a2583ba2fcb72280John McCall // Require that the source be a pointer type. 6140b7f4ffe073fa419613946461a2583ba2fcb72280John McCall const PointerType *SrcPtr = Op->getType()->getAs<PointerType>(); 6141b7f4ffe073fa419613946461a2583ba2fcb72280John McCall if (!SrcPtr) return; 6142b7f4ffe073fa419613946461a2583ba2fcb72280John McCall QualType SrcPointee = SrcPtr->getPointeeType(); 6143b7f4ffe073fa419613946461a2583ba2fcb72280John McCall 6144b7f4ffe073fa419613946461a2583ba2fcb72280John McCall // Whitelist casts from cv void*. We already implicitly 6145b7f4ffe073fa419613946461a2583ba2fcb72280John McCall // whitelisted casts to cv void*, since they have alignment 1. 6146b7f4ffe073fa419613946461a2583ba2fcb72280John McCall // Also whitelist casts involving incomplete types, which implicitly 6147b7f4ffe073fa419613946461a2583ba2fcb72280John McCall // includes 'void'. 6148b7f4ffe073fa419613946461a2583ba2fcb72280John McCall if (SrcPointee->isIncompleteType()) return; 6149b7f4ffe073fa419613946461a2583ba2fcb72280John McCall 6150b7f4ffe073fa419613946461a2583ba2fcb72280John McCall CharUnits SrcAlign = Context.getTypeAlignInChars(SrcPointee); 6151b7f4ffe073fa419613946461a2583ba2fcb72280John McCall if (SrcAlign >= DestAlign) return; 6152b7f4ffe073fa419613946461a2583ba2fcb72280John McCall 6153b7f4ffe073fa419613946461a2583ba2fcb72280John McCall Diag(TRange.getBegin(), diag::warn_cast_align) 6154b7f4ffe073fa419613946461a2583ba2fcb72280John McCall << Op->getType() << T 6155b7f4ffe073fa419613946461a2583ba2fcb72280John McCall << static_cast<unsigned>(SrcAlign.getQuantity()) 6156b7f4ffe073fa419613946461a2583ba2fcb72280John McCall << static_cast<unsigned>(DestAlign.getQuantity()) 6157b7f4ffe073fa419613946461a2583ba2fcb72280John McCall << TRange << Op->getSourceRange(); 6158b7f4ffe073fa419613946461a2583ba2fcb72280John McCall} 6159b7f4ffe073fa419613946461a2583ba2fcb72280John McCall 6160d6c8865e6f306556b7eef972ceec2cc8ba026a0dKaelyn Uhrainstatic const Type* getElementType(const Expr *BaseExpr) { 6161d6c8865e6f306556b7eef972ceec2cc8ba026a0dKaelyn Uhrain const Type* EltType = BaseExpr->getType().getTypePtr(); 6162d6c8865e6f306556b7eef972ceec2cc8ba026a0dKaelyn Uhrain if (EltType->isAnyPointerType()) 6163d6c8865e6f306556b7eef972ceec2cc8ba026a0dKaelyn Uhrain return EltType->getPointeeType().getTypePtr(); 6164d6c8865e6f306556b7eef972ceec2cc8ba026a0dKaelyn Uhrain else if (EltType->isArrayType()) 6165d6c8865e6f306556b7eef972ceec2cc8ba026a0dKaelyn Uhrain return EltType->getBaseElementTypeUnsafe(); 6166d6c8865e6f306556b7eef972ceec2cc8ba026a0dKaelyn Uhrain return EltType; 6167d6c8865e6f306556b7eef972ceec2cc8ba026a0dKaelyn Uhrain} 6168d6c8865e6f306556b7eef972ceec2cc8ba026a0dKaelyn Uhrain 6169c268434b332bbe57950d977633369bf5822d9554Chandler Carruth/// \brief Check whether this array fits the idiom of a size-one tail padded 6170c268434b332bbe57950d977633369bf5822d9554Chandler Carruth/// array member of a struct. 6171c268434b332bbe57950d977633369bf5822d9554Chandler Carruth/// 6172c268434b332bbe57950d977633369bf5822d9554Chandler Carruth/// We avoid emitting out-of-bounds access warnings for such arrays as they are 6173c268434b332bbe57950d977633369bf5822d9554Chandler Carruth/// commonly used to emulate flexible arrays in C89 code. 6174c268434b332bbe57950d977633369bf5822d9554Chandler Carruthstatic bool IsTailPaddedMemberArray(Sema &S, llvm::APInt Size, 6175c268434b332bbe57950d977633369bf5822d9554Chandler Carruth const NamedDecl *ND) { 6176c268434b332bbe57950d977633369bf5822d9554Chandler Carruth if (Size != 1 || !ND) return false; 6177c268434b332bbe57950d977633369bf5822d9554Chandler Carruth 6178c268434b332bbe57950d977633369bf5822d9554Chandler Carruth const FieldDecl *FD = dyn_cast<FieldDecl>(ND); 6179c268434b332bbe57950d977633369bf5822d9554Chandler Carruth if (!FD) return false; 6180c268434b332bbe57950d977633369bf5822d9554Chandler Carruth 6181c268434b332bbe57950d977633369bf5822d9554Chandler Carruth // Don't consider sizes resulting from macro expansions or template argument 6182c268434b332bbe57950d977633369bf5822d9554Chandler Carruth // substitution to form C89 tail-padded arrays. 6183d2cf348f0df76bf1745f131db2ceeb59f23a7305Sean Callanan 6184d2cf348f0df76bf1745f131db2ceeb59f23a7305Sean Callanan TypeSourceInfo *TInfo = FD->getTypeSourceInfo(); 618500e1f6f5fed4f33f67181578be0232accd342282Ted Kremenek while (TInfo) { 618600e1f6f5fed4f33f67181578be0232accd342282Ted Kremenek TypeLoc TL = TInfo->getTypeLoc(); 618700e1f6f5fed4f33f67181578be0232accd342282Ted Kremenek // Look through typedefs. 618839e6ab4be93d9c5e729a578ddd9d415cd2d49872David Blaikie if (TypedefTypeLoc TTL = TL.getAs<TypedefTypeLoc>()) { 618939e6ab4be93d9c5e729a578ddd9d415cd2d49872David Blaikie const TypedefNameDecl *TDL = TTL.getTypedefNameDecl(); 619000e1f6f5fed4f33f67181578be0232accd342282Ted Kremenek TInfo = TDL->getTypeSourceInfo(); 619100e1f6f5fed4f33f67181578be0232accd342282Ted Kremenek continue; 619200e1f6f5fed4f33f67181578be0232accd342282Ted Kremenek } 619339e6ab4be93d9c5e729a578ddd9d415cd2d49872David Blaikie if (ConstantArrayTypeLoc CTL = TL.getAs<ConstantArrayTypeLoc>()) { 619439e6ab4be93d9c5e729a578ddd9d415cd2d49872David Blaikie const Expr *SizeExpr = dyn_cast<IntegerLiteral>(CTL.getSizeExpr()); 61955e25301c24c92a9b7018cee20e524c4eb7192bf0Chad Rosier if (!SizeExpr || SizeExpr->getExprLoc().isMacroID()) 61965e25301c24c92a9b7018cee20e524c4eb7192bf0Chad Rosier return false; 61975e25301c24c92a9b7018cee20e524c4eb7192bf0Chad Rosier } 619800e1f6f5fed4f33f67181578be0232accd342282Ted Kremenek break; 6199d2cf348f0df76bf1745f131db2ceeb59f23a7305Sean Callanan } 6200c268434b332bbe57950d977633369bf5822d9554Chandler Carruth 6201c268434b332bbe57950d977633369bf5822d9554Chandler Carruth const RecordDecl *RD = dyn_cast<RecordDecl>(FD->getDeclContext()); 6202381711c6e7911d762f81a65e9ef4339a6a3d6524Matt Beaumont-Gay if (!RD) return false; 6203381711c6e7911d762f81a65e9ef4339a6a3d6524Matt Beaumont-Gay if (RD->isUnion()) return false; 6204381711c6e7911d762f81a65e9ef4339a6a3d6524Matt Beaumont-Gay if (const CXXRecordDecl *CRD = dyn_cast<CXXRecordDecl>(RD)) { 6205381711c6e7911d762f81a65e9ef4339a6a3d6524Matt Beaumont-Gay if (!CRD->isStandardLayout()) return false; 6206381711c6e7911d762f81a65e9ef4339a6a3d6524Matt Beaumont-Gay } 6207c268434b332bbe57950d977633369bf5822d9554Chandler Carruth 620822d4fed17df02f5fa07165a69228b0b0f1a73a28Benjamin Kramer // See if this is the last field decl in the record. 620922d4fed17df02f5fa07165a69228b0b0f1a73a28Benjamin Kramer const Decl *D = FD; 621022d4fed17df02f5fa07165a69228b0b0f1a73a28Benjamin Kramer while ((D = D->getNextDeclInContext())) 621122d4fed17df02f5fa07165a69228b0b0f1a73a28Benjamin Kramer if (isa<FieldDecl>(D)) 621222d4fed17df02f5fa07165a69228b0b0f1a73a28Benjamin Kramer return false; 621322d4fed17df02f5fa07165a69228b0b0f1a73a28Benjamin Kramer return true; 6214c268434b332bbe57950d977633369bf5822d9554Chandler Carruth} 6215c268434b332bbe57950d977633369bf5822d9554Chandler Carruth 6216d6c8865e6f306556b7eef972ceec2cc8ba026a0dKaelyn Uhrainvoid Sema::CheckArrayAccess(const Expr *BaseExpr, const Expr *IndexExpr, 621780fb7dd8e0c56632dc68f5864f70abb2fde0e1dfMatt Beaumont-Gay const ArraySubscriptExpr *ASE, 621825b009a9d2a79929112d3c28c7dd1730bf5246c8Richard Smith bool AllowOnePastEnd, bool IndexNegated) { 621992b670e1ee0b11d7e558ec659795ddf452e583edEli Friedman IndexExpr = IndexExpr->IgnoreParenImpCasts(); 622080fb7dd8e0c56632dc68f5864f70abb2fde0e1dfMatt Beaumont-Gay if (IndexExpr->isValueDependent()) 622180fb7dd8e0c56632dc68f5864f70abb2fde0e1dfMatt Beaumont-Gay return; 6222d6c8865e6f306556b7eef972ceec2cc8ba026a0dKaelyn Uhrain 622380fb7dd8e0c56632dc68f5864f70abb2fde0e1dfMatt Beaumont-Gay const Type *EffectiveType = getElementType(BaseExpr); 622480fb7dd8e0c56632dc68f5864f70abb2fde0e1dfMatt Beaumont-Gay BaseExpr = BaseExpr->IgnoreParenCasts(); 62253406458512c3cdfe2076c46b9aedb4621297efd5Chandler Carruth const ConstantArrayType *ArrayTy = 6226d6c8865e6f306556b7eef972ceec2cc8ba026a0dKaelyn Uhrain Context.getAsConstantArrayType(BaseExpr->getType()); 62273406458512c3cdfe2076c46b9aedb4621297efd5Chandler Carruth if (!ArrayTy) 6228a0125d8520f65aca581378c235384e7affefa1fcTed Kremenek return; 622935001ca261f895817916b468379b696d6d45959dChandler Carruth 62303406458512c3cdfe2076c46b9aedb4621297efd5Chandler Carruth llvm::APSInt index; 623180fb7dd8e0c56632dc68f5864f70abb2fde0e1dfMatt Beaumont-Gay if (!IndexExpr->EvaluateAsInt(index, Context)) 6232a0125d8520f65aca581378c235384e7affefa1fcTed Kremenek return; 623325b009a9d2a79929112d3c28c7dd1730bf5246c8Richard Smith if (IndexNegated) 623425b009a9d2a79929112d3c28c7dd1730bf5246c8Richard Smith index = -index; 62358fd0a5dfb025a51f48b7931b95efbf35d3c5dfc3Ted Kremenek 6236ba44712b0e578a851751e199bb75dbbff5836fedChandler Carruth const NamedDecl *ND = NULL; 6237ba44712b0e578a851751e199bb75dbbff5836fedChandler Carruth if (const DeclRefExpr *DRE = dyn_cast<DeclRefExpr>(BaseExpr)) 6238ba44712b0e578a851751e199bb75dbbff5836fedChandler Carruth ND = dyn_cast<NamedDecl>(DRE->getDecl()); 6239c268434b332bbe57950d977633369bf5822d9554Chandler Carruth if (const MemberExpr *ME = dyn_cast<MemberExpr>(BaseExpr)) 6240ba44712b0e578a851751e199bb75dbbff5836fedChandler Carruth ND = dyn_cast<NamedDecl>(ME->getMemberDecl()); 6241ba44712b0e578a851751e199bb75dbbff5836fedChandler Carruth 62429e060ca641a1f845cecb3371b3a3018d306a5198Ted Kremenek if (index.isUnsigned() || !index.isNegative()) { 624325b3b849e3ad340b04442707038c86980035765bTed Kremenek llvm::APInt size = ArrayTy->getSize(); 624435001ca261f895817916b468379b696d6d45959dChandler Carruth if (!size.isStrictlyPositive()) 624535001ca261f895817916b468379b696d6d45959dChandler Carruth return; 6246d6c8865e6f306556b7eef972ceec2cc8ba026a0dKaelyn Uhrain 6247d6c8865e6f306556b7eef972ceec2cc8ba026a0dKaelyn Uhrain const Type* BaseType = getElementType(BaseExpr); 6248de5998f1d7dcecb777257ec932142d65de636eb8Nico Weber if (BaseType != EffectiveType) { 6249d6c8865e6f306556b7eef972ceec2cc8ba026a0dKaelyn Uhrain // Make sure we're comparing apples to apples when comparing index to size 6250d6c8865e6f306556b7eef972ceec2cc8ba026a0dKaelyn Uhrain uint64_t ptrarith_typesize = Context.getTypeSize(EffectiveType); 6251d6c8865e6f306556b7eef972ceec2cc8ba026a0dKaelyn Uhrain uint64_t array_typesize = Context.getTypeSize(BaseType); 6252d10f4bc5a05ce0cdc1646dbb0f706bb9d3dfc0c5Kaelyn Uhrain // Handle ptrarith_typesize being zero, such as when casting to void* 625318f169770d9d3f826bad8f1359c8c5770c5ab16fKaelyn Uhrain if (!ptrarith_typesize) ptrarith_typesize = 1; 6254d6c8865e6f306556b7eef972ceec2cc8ba026a0dKaelyn Uhrain if (ptrarith_typesize != array_typesize) { 6255d6c8865e6f306556b7eef972ceec2cc8ba026a0dKaelyn Uhrain // There's a cast to a different size type involved 6256d6c8865e6f306556b7eef972ceec2cc8ba026a0dKaelyn Uhrain uint64_t ratio = array_typesize / ptrarith_typesize; 6257d6c8865e6f306556b7eef972ceec2cc8ba026a0dKaelyn Uhrain // TODO: Be smarter about handling cases where array_typesize is not a 6258d6c8865e6f306556b7eef972ceec2cc8ba026a0dKaelyn Uhrain // multiple of ptrarith_typesize 6259d6c8865e6f306556b7eef972ceec2cc8ba026a0dKaelyn Uhrain if (ptrarith_typesize * ratio == array_typesize) 6260d6c8865e6f306556b7eef972ceec2cc8ba026a0dKaelyn Uhrain size *= llvm::APInt(size.getBitWidth(), ratio); 6261d6c8865e6f306556b7eef972ceec2cc8ba026a0dKaelyn Uhrain } 6262d6c8865e6f306556b7eef972ceec2cc8ba026a0dKaelyn Uhrain } 6263d6c8865e6f306556b7eef972ceec2cc8ba026a0dKaelyn Uhrain 62643406458512c3cdfe2076c46b9aedb4621297efd5Chandler Carruth if (size.getBitWidth() > index.getBitWidth()) 626592b670e1ee0b11d7e558ec659795ddf452e583edEli Friedman index = index.zext(size.getBitWidth()); 626625b3b849e3ad340b04442707038c86980035765bTed Kremenek else if (size.getBitWidth() < index.getBitWidth()) 626792b670e1ee0b11d7e558ec659795ddf452e583edEli Friedman size = size.zext(index.getBitWidth()); 626825b3b849e3ad340b04442707038c86980035765bTed Kremenek 6269d6c8865e6f306556b7eef972ceec2cc8ba026a0dKaelyn Uhrain // For array subscripting the index must be less than size, but for pointer 6270d6c8865e6f306556b7eef972ceec2cc8ba026a0dKaelyn Uhrain // arithmetic also allow the index (offset) to be equal to size since 6271d6c8865e6f306556b7eef972ceec2cc8ba026a0dKaelyn Uhrain // computing the next address after the end of the array is legal and 6272d6c8865e6f306556b7eef972ceec2cc8ba026a0dKaelyn Uhrain // commonly done e.g. in C++ iterators and range-based for loops. 627392b670e1ee0b11d7e558ec659795ddf452e583edEli Friedman if (AllowOnePastEnd ? index.ule(size) : index.ult(size)) 6274ba44712b0e578a851751e199bb75dbbff5836fedChandler Carruth return; 6275ba44712b0e578a851751e199bb75dbbff5836fedChandler Carruth 6276ba44712b0e578a851751e199bb75dbbff5836fedChandler Carruth // Also don't warn for arrays of size 1 which are members of some 6277ba44712b0e578a851751e199bb75dbbff5836fedChandler Carruth // structure. These are often used to approximate flexible arrays in C89 6278ba44712b0e578a851751e199bb75dbbff5836fedChandler Carruth // code. 6279d6c8865e6f306556b7eef972ceec2cc8ba026a0dKaelyn Uhrain if (IsTailPaddedMemberArray(*this, size, ND)) 62808fd0a5dfb025a51f48b7931b95efbf35d3c5dfc3Ted Kremenek return; 62813406458512c3cdfe2076c46b9aedb4621297efd5Chandler Carruth 628280fb7dd8e0c56632dc68f5864f70abb2fde0e1dfMatt Beaumont-Gay // Suppress the warning if the subscript expression (as identified by the 628380fb7dd8e0c56632dc68f5864f70abb2fde0e1dfMatt Beaumont-Gay // ']' location) and the index expression are both from macro expansions 628480fb7dd8e0c56632dc68f5864f70abb2fde0e1dfMatt Beaumont-Gay // within a system header. 628580fb7dd8e0c56632dc68f5864f70abb2fde0e1dfMatt Beaumont-Gay if (ASE) { 628680fb7dd8e0c56632dc68f5864f70abb2fde0e1dfMatt Beaumont-Gay SourceLocation RBracketLoc = SourceMgr.getSpellingLoc( 628780fb7dd8e0c56632dc68f5864f70abb2fde0e1dfMatt Beaumont-Gay ASE->getRBracketLoc()); 628880fb7dd8e0c56632dc68f5864f70abb2fde0e1dfMatt Beaumont-Gay if (SourceMgr.isInSystemHeader(RBracketLoc)) { 628980fb7dd8e0c56632dc68f5864f70abb2fde0e1dfMatt Beaumont-Gay SourceLocation IndexLoc = SourceMgr.getSpellingLoc( 629080fb7dd8e0c56632dc68f5864f70abb2fde0e1dfMatt Beaumont-Gay IndexExpr->getLocStart()); 629180fb7dd8e0c56632dc68f5864f70abb2fde0e1dfMatt Beaumont-Gay if (SourceMgr.isFromSameFile(RBracketLoc, IndexLoc)) 629280fb7dd8e0c56632dc68f5864f70abb2fde0e1dfMatt Beaumont-Gay return; 629380fb7dd8e0c56632dc68f5864f70abb2fde0e1dfMatt Beaumont-Gay } 629480fb7dd8e0c56632dc68f5864f70abb2fde0e1dfMatt Beaumont-Gay } 629580fb7dd8e0c56632dc68f5864f70abb2fde0e1dfMatt Beaumont-Gay 6296d6c8865e6f306556b7eef972ceec2cc8ba026a0dKaelyn Uhrain unsigned DiagID = diag::warn_ptr_arith_exceeds_bounds; 629780fb7dd8e0c56632dc68f5864f70abb2fde0e1dfMatt Beaumont-Gay if (ASE) 6298d6c8865e6f306556b7eef972ceec2cc8ba026a0dKaelyn Uhrain DiagID = diag::warn_array_index_exceeds_bounds; 6299d6c8865e6f306556b7eef972ceec2cc8ba026a0dKaelyn Uhrain 6300d6c8865e6f306556b7eef972ceec2cc8ba026a0dKaelyn Uhrain DiagRuntimeBehavior(BaseExpr->getLocStart(), BaseExpr, 6301d6c8865e6f306556b7eef972ceec2cc8ba026a0dKaelyn Uhrain PDiag(DiagID) << index.toString(10, true) 6302d6c8865e6f306556b7eef972ceec2cc8ba026a0dKaelyn Uhrain << size.toString(10, true) 6303d6c8865e6f306556b7eef972ceec2cc8ba026a0dKaelyn Uhrain << (unsigned)size.getLimitedValue(~0U) 6304d6c8865e6f306556b7eef972ceec2cc8ba026a0dKaelyn Uhrain << IndexExpr->getSourceRange()); 63053406458512c3cdfe2076c46b9aedb4621297efd5Chandler Carruth } else { 6306d6c8865e6f306556b7eef972ceec2cc8ba026a0dKaelyn Uhrain unsigned DiagID = diag::warn_array_index_precedes_bounds; 630780fb7dd8e0c56632dc68f5864f70abb2fde0e1dfMatt Beaumont-Gay if (!ASE) { 6308d6c8865e6f306556b7eef972ceec2cc8ba026a0dKaelyn Uhrain DiagID = diag::warn_ptr_arith_precedes_bounds; 6309d6c8865e6f306556b7eef972ceec2cc8ba026a0dKaelyn Uhrain if (index.isNegative()) index = -index; 6310d6c8865e6f306556b7eef972ceec2cc8ba026a0dKaelyn Uhrain } 6311d6c8865e6f306556b7eef972ceec2cc8ba026a0dKaelyn Uhrain 6312d6c8865e6f306556b7eef972ceec2cc8ba026a0dKaelyn Uhrain DiagRuntimeBehavior(BaseExpr->getLocStart(), BaseExpr, 6313d6c8865e6f306556b7eef972ceec2cc8ba026a0dKaelyn Uhrain PDiag(DiagID) << index.toString(10, true) 6314d6c8865e6f306556b7eef972ceec2cc8ba026a0dKaelyn Uhrain << IndexExpr->getSourceRange()); 6315a0125d8520f65aca581378c235384e7affefa1fcTed Kremenek } 631635001ca261f895817916b468379b696d6d45959dChandler Carruth 6317cfbc5b5660f49fae63acc1f5ef05df87070a2a3cMatt Beaumont-Gay if (!ND) { 6318cfbc5b5660f49fae63acc1f5ef05df87070a2a3cMatt Beaumont-Gay // Try harder to find a NamedDecl to point at in the note. 6319cfbc5b5660f49fae63acc1f5ef05df87070a2a3cMatt Beaumont-Gay while (const ArraySubscriptExpr *ASE = 6320cfbc5b5660f49fae63acc1f5ef05df87070a2a3cMatt Beaumont-Gay dyn_cast<ArraySubscriptExpr>(BaseExpr)) 6321cfbc5b5660f49fae63acc1f5ef05df87070a2a3cMatt Beaumont-Gay BaseExpr = ASE->getBase()->IgnoreParenCasts(); 6322cfbc5b5660f49fae63acc1f5ef05df87070a2a3cMatt Beaumont-Gay if (const DeclRefExpr *DRE = dyn_cast<DeclRefExpr>(BaseExpr)) 6323cfbc5b5660f49fae63acc1f5ef05df87070a2a3cMatt Beaumont-Gay ND = dyn_cast<NamedDecl>(DRE->getDecl()); 6324cfbc5b5660f49fae63acc1f5ef05df87070a2a3cMatt Beaumont-Gay if (const MemberExpr *ME = dyn_cast<MemberExpr>(BaseExpr)) 6325cfbc5b5660f49fae63acc1f5ef05df87070a2a3cMatt Beaumont-Gay ND = dyn_cast<NamedDecl>(ME->getMemberDecl()); 6326cfbc5b5660f49fae63acc1f5ef05df87070a2a3cMatt Beaumont-Gay } 6327cfbc5b5660f49fae63acc1f5ef05df87070a2a3cMatt Beaumont-Gay 632835001ca261f895817916b468379b696d6d45959dChandler Carruth if (ND) 6329d6c8865e6f306556b7eef972ceec2cc8ba026a0dKaelyn Uhrain DiagRuntimeBehavior(ND->getLocStart(), BaseExpr, 6330d6c8865e6f306556b7eef972ceec2cc8ba026a0dKaelyn Uhrain PDiag(diag::note_array_index_out_of_bounds) 6331d6c8865e6f306556b7eef972ceec2cc8ba026a0dKaelyn Uhrain << ND->getDeclName()); 63323aea4dac830cb03d883a13ab30c28a3a53beca58Ted Kremenek} 63333aea4dac830cb03d883a13ab30c28a3a53beca58Ted Kremenek 63343aea4dac830cb03d883a13ab30c28a3a53beca58Ted Kremenekvoid Sema::CheckArrayAccess(const Expr *expr) { 6335d6c8865e6f306556b7eef972ceec2cc8ba026a0dKaelyn Uhrain int AllowOnePastEnd = 0; 6336d6c8865e6f306556b7eef972ceec2cc8ba026a0dKaelyn Uhrain while (expr) { 6337d6c8865e6f306556b7eef972ceec2cc8ba026a0dKaelyn Uhrain expr = expr->IgnoreParenImpCasts(); 63383aea4dac830cb03d883a13ab30c28a3a53beca58Ted Kremenek switch (expr->getStmtClass()) { 6339d6c8865e6f306556b7eef972ceec2cc8ba026a0dKaelyn Uhrain case Stmt::ArraySubscriptExprClass: { 6340d6c8865e6f306556b7eef972ceec2cc8ba026a0dKaelyn Uhrain const ArraySubscriptExpr *ASE = cast<ArraySubscriptExpr>(expr); 634180fb7dd8e0c56632dc68f5864f70abb2fde0e1dfMatt Beaumont-Gay CheckArrayAccess(ASE->getBase(), ASE->getIdx(), ASE, 6342d6c8865e6f306556b7eef972ceec2cc8ba026a0dKaelyn Uhrain AllowOnePastEnd > 0); 63433aea4dac830cb03d883a13ab30c28a3a53beca58Ted Kremenek return; 6344d6c8865e6f306556b7eef972ceec2cc8ba026a0dKaelyn Uhrain } 6345d6c8865e6f306556b7eef972ceec2cc8ba026a0dKaelyn Uhrain case Stmt::UnaryOperatorClass: { 6346d6c8865e6f306556b7eef972ceec2cc8ba026a0dKaelyn Uhrain // Only unwrap the * and & unary operators 6347d6c8865e6f306556b7eef972ceec2cc8ba026a0dKaelyn Uhrain const UnaryOperator *UO = cast<UnaryOperator>(expr); 6348d6c8865e6f306556b7eef972ceec2cc8ba026a0dKaelyn Uhrain expr = UO->getSubExpr(); 6349d6c8865e6f306556b7eef972ceec2cc8ba026a0dKaelyn Uhrain switch (UO->getOpcode()) { 6350d6c8865e6f306556b7eef972ceec2cc8ba026a0dKaelyn Uhrain case UO_AddrOf: 6351d6c8865e6f306556b7eef972ceec2cc8ba026a0dKaelyn Uhrain AllowOnePastEnd++; 6352d6c8865e6f306556b7eef972ceec2cc8ba026a0dKaelyn Uhrain break; 6353d6c8865e6f306556b7eef972ceec2cc8ba026a0dKaelyn Uhrain case UO_Deref: 6354d6c8865e6f306556b7eef972ceec2cc8ba026a0dKaelyn Uhrain AllowOnePastEnd--; 6355d6c8865e6f306556b7eef972ceec2cc8ba026a0dKaelyn Uhrain break; 6356d6c8865e6f306556b7eef972ceec2cc8ba026a0dKaelyn Uhrain default: 6357d6c8865e6f306556b7eef972ceec2cc8ba026a0dKaelyn Uhrain return; 6358d6c8865e6f306556b7eef972ceec2cc8ba026a0dKaelyn Uhrain } 6359d6c8865e6f306556b7eef972ceec2cc8ba026a0dKaelyn Uhrain break; 6360d6c8865e6f306556b7eef972ceec2cc8ba026a0dKaelyn Uhrain } 63613aea4dac830cb03d883a13ab30c28a3a53beca58Ted Kremenek case Stmt::ConditionalOperatorClass: { 63623aea4dac830cb03d883a13ab30c28a3a53beca58Ted Kremenek const ConditionalOperator *cond = cast<ConditionalOperator>(expr); 63633aea4dac830cb03d883a13ab30c28a3a53beca58Ted Kremenek if (const Expr *lhs = cond->getLHS()) 63643aea4dac830cb03d883a13ab30c28a3a53beca58Ted Kremenek CheckArrayAccess(lhs); 63653aea4dac830cb03d883a13ab30c28a3a53beca58Ted Kremenek if (const Expr *rhs = cond->getRHS()) 63663aea4dac830cb03d883a13ab30c28a3a53beca58Ted Kremenek CheckArrayAccess(rhs); 63673aea4dac830cb03d883a13ab30c28a3a53beca58Ted Kremenek return; 63683aea4dac830cb03d883a13ab30c28a3a53beca58Ted Kremenek } 63693aea4dac830cb03d883a13ab30c28a3a53beca58Ted Kremenek default: 63703aea4dac830cb03d883a13ab30c28a3a53beca58Ted Kremenek return; 63713aea4dac830cb03d883a13ab30c28a3a53beca58Ted Kremenek } 6372f111d935722ed488144600cea5ed03a6b5069e8fPeter Collingbourne } 6373a0125d8520f65aca581378c235384e7affefa1fcTed Kremenek} 6374f85e193739c953358c865005855253af4f68a497John McCall 6375f85e193739c953358c865005855253af4f68a497John McCall//===--- CHECK: Objective-C retain cycles ----------------------------------// 6376f85e193739c953358c865005855253af4f68a497John McCall 6377f85e193739c953358c865005855253af4f68a497John McCallnamespace { 6378f85e193739c953358c865005855253af4f68a497John McCall struct RetainCycleOwner { 6379f85e193739c953358c865005855253af4f68a497John McCall RetainCycleOwner() : Variable(0), Indirect(false) {} 6380f85e193739c953358c865005855253af4f68a497John McCall VarDecl *Variable; 6381f85e193739c953358c865005855253af4f68a497John McCall SourceRange Range; 6382f85e193739c953358c865005855253af4f68a497John McCall SourceLocation Loc; 6383f85e193739c953358c865005855253af4f68a497John McCall bool Indirect; 6384f85e193739c953358c865005855253af4f68a497John McCall 6385f85e193739c953358c865005855253af4f68a497John McCall void setLocsFrom(Expr *e) { 6386f85e193739c953358c865005855253af4f68a497John McCall Loc = e->getExprLoc(); 6387f85e193739c953358c865005855253af4f68a497John McCall Range = e->getSourceRange(); 6388f85e193739c953358c865005855253af4f68a497John McCall } 6389f85e193739c953358c865005855253af4f68a497John McCall }; 6390f85e193739c953358c865005855253af4f68a497John McCall} 6391f85e193739c953358c865005855253af4f68a497John McCall 6392f85e193739c953358c865005855253af4f68a497John McCall/// Consider whether capturing the given variable can possibly lead to 6393f85e193739c953358c865005855253af4f68a497John McCall/// a retain cycle. 6394f85e193739c953358c865005855253af4f68a497John McCallstatic bool considerVariable(VarDecl *var, Expr *ref, RetainCycleOwner &owner) { 6395f3477c13eeaf11b32a41f181398fb5deffd0dd73Sylvestre Ledru // In ARC, it's captured strongly iff the variable has __strong 6396f85e193739c953358c865005855253af4f68a497John McCall // lifetime. In MRR, it's captured strongly if the variable is 6397f85e193739c953358c865005855253af4f68a497John McCall // __block and has an appropriate type. 6398f85e193739c953358c865005855253af4f68a497John McCall if (var->getType().getObjCLifetime() != Qualifiers::OCL_Strong) 6399f85e193739c953358c865005855253af4f68a497John McCall return false; 6400f85e193739c953358c865005855253af4f68a497John McCall 6401f85e193739c953358c865005855253af4f68a497John McCall owner.Variable = var; 6402e10f4d384f5ae113d72a5193a1332c1930635cccJordan Rose if (ref) 6403e10f4d384f5ae113d72a5193a1332c1930635cccJordan Rose owner.setLocsFrom(ref); 6404f85e193739c953358c865005855253af4f68a497John McCall return true; 6405f85e193739c953358c865005855253af4f68a497John McCall} 6406f85e193739c953358c865005855253af4f68a497John McCall 64076e6f93a1f16d9804db79390382e9d1f6322cdbfdFariborz Jahanianstatic bool findRetainCycleOwner(Sema &S, Expr *e, RetainCycleOwner &owner) { 6408f85e193739c953358c865005855253af4f68a497John McCall while (true) { 6409f85e193739c953358c865005855253af4f68a497John McCall e = e->IgnoreParens(); 6410f85e193739c953358c865005855253af4f68a497John McCall if (CastExpr *cast = dyn_cast<CastExpr>(e)) { 6411f85e193739c953358c865005855253af4f68a497John McCall switch (cast->getCastKind()) { 6412f85e193739c953358c865005855253af4f68a497John McCall case CK_BitCast: 6413f85e193739c953358c865005855253af4f68a497John McCall case CK_LValueBitCast: 6414f85e193739c953358c865005855253af4f68a497John McCall case CK_LValueToRValue: 641533e56f3273457bfa22c7c50bc46cf5a18216863dJohn McCall case CK_ARCReclaimReturnedObject: 6416f85e193739c953358c865005855253af4f68a497John McCall e = cast->getSubExpr(); 6417f85e193739c953358c865005855253af4f68a497John McCall continue; 6418f85e193739c953358c865005855253af4f68a497John McCall 6419f85e193739c953358c865005855253af4f68a497John McCall default: 6420f85e193739c953358c865005855253af4f68a497John McCall return false; 6421f85e193739c953358c865005855253af4f68a497John McCall } 6422f85e193739c953358c865005855253af4f68a497John McCall } 6423f85e193739c953358c865005855253af4f68a497John McCall 6424f85e193739c953358c865005855253af4f68a497John McCall if (ObjCIvarRefExpr *ref = dyn_cast<ObjCIvarRefExpr>(e)) { 6425f85e193739c953358c865005855253af4f68a497John McCall ObjCIvarDecl *ivar = ref->getDecl(); 6426f85e193739c953358c865005855253af4f68a497John McCall if (ivar->getType().getObjCLifetime() != Qualifiers::OCL_Strong) 6427f85e193739c953358c865005855253af4f68a497John McCall return false; 6428f85e193739c953358c865005855253af4f68a497John McCall 6429f85e193739c953358c865005855253af4f68a497John McCall // Try to find a retain cycle in the base. 64306e6f93a1f16d9804db79390382e9d1f6322cdbfdFariborz Jahanian if (!findRetainCycleOwner(S, ref->getBase(), owner)) 6431f85e193739c953358c865005855253af4f68a497John McCall return false; 6432f85e193739c953358c865005855253af4f68a497John McCall 6433f85e193739c953358c865005855253af4f68a497John McCall if (ref->isFreeIvar()) owner.setLocsFrom(ref); 6434f85e193739c953358c865005855253af4f68a497John McCall owner.Indirect = true; 6435f85e193739c953358c865005855253af4f68a497John McCall return true; 6436f85e193739c953358c865005855253af4f68a497John McCall } 6437f85e193739c953358c865005855253af4f68a497John McCall 6438f85e193739c953358c865005855253af4f68a497John McCall if (DeclRefExpr *ref = dyn_cast<DeclRefExpr>(e)) { 6439f85e193739c953358c865005855253af4f68a497John McCall VarDecl *var = dyn_cast<VarDecl>(ref->getDecl()); 6440f85e193739c953358c865005855253af4f68a497John McCall if (!var) return false; 6441f85e193739c953358c865005855253af4f68a497John McCall return considerVariable(var, ref, owner); 6442f85e193739c953358c865005855253af4f68a497John McCall } 6443f85e193739c953358c865005855253af4f68a497John McCall 6444f85e193739c953358c865005855253af4f68a497John McCall if (MemberExpr *member = dyn_cast<MemberExpr>(e)) { 6445f85e193739c953358c865005855253af4f68a497John McCall if (member->isArrow()) return false; 6446f85e193739c953358c865005855253af4f68a497John McCall 6447f85e193739c953358c865005855253af4f68a497John McCall // Don't count this as an indirect ownership. 6448f85e193739c953358c865005855253af4f68a497John McCall e = member->getBase(); 6449f85e193739c953358c865005855253af4f68a497John McCall continue; 6450f85e193739c953358c865005855253af4f68a497John McCall } 6451f85e193739c953358c865005855253af4f68a497John McCall 64524b9c2d235fb9449e249d74f48ecfec601650de93John McCall if (PseudoObjectExpr *pseudo = dyn_cast<PseudoObjectExpr>(e)) { 64534b9c2d235fb9449e249d74f48ecfec601650de93John McCall // Only pay attention to pseudo-objects on property references. 64544b9c2d235fb9449e249d74f48ecfec601650de93John McCall ObjCPropertyRefExpr *pre 64554b9c2d235fb9449e249d74f48ecfec601650de93John McCall = dyn_cast<ObjCPropertyRefExpr>(pseudo->getSyntacticForm() 64564b9c2d235fb9449e249d74f48ecfec601650de93John McCall ->IgnoreParens()); 64574b9c2d235fb9449e249d74f48ecfec601650de93John McCall if (!pre) return false; 64584b9c2d235fb9449e249d74f48ecfec601650de93John McCall if (pre->isImplicitProperty()) return false; 64594b9c2d235fb9449e249d74f48ecfec601650de93John McCall ObjCPropertyDecl *property = pre->getExplicitProperty(); 64604b9c2d235fb9449e249d74f48ecfec601650de93John McCall if (!property->isRetaining() && 64614b9c2d235fb9449e249d74f48ecfec601650de93John McCall !(property->getPropertyIvarDecl() && 64624b9c2d235fb9449e249d74f48ecfec601650de93John McCall property->getPropertyIvarDecl()->getType() 64634b9c2d235fb9449e249d74f48ecfec601650de93John McCall .getObjCLifetime() == Qualifiers::OCL_Strong)) 64644b9c2d235fb9449e249d74f48ecfec601650de93John McCall return false; 64654b9c2d235fb9449e249d74f48ecfec601650de93John McCall 64664b9c2d235fb9449e249d74f48ecfec601650de93John McCall owner.Indirect = true; 64676e6f93a1f16d9804db79390382e9d1f6322cdbfdFariborz Jahanian if (pre->isSuperReceiver()) { 64686e6f93a1f16d9804db79390382e9d1f6322cdbfdFariborz Jahanian owner.Variable = S.getCurMethodDecl()->getSelfDecl(); 64696e6f93a1f16d9804db79390382e9d1f6322cdbfdFariborz Jahanian if (!owner.Variable) 64706e6f93a1f16d9804db79390382e9d1f6322cdbfdFariborz Jahanian return false; 64716e6f93a1f16d9804db79390382e9d1f6322cdbfdFariborz Jahanian owner.Loc = pre->getLocation(); 64726e6f93a1f16d9804db79390382e9d1f6322cdbfdFariborz Jahanian owner.Range = pre->getSourceRange(); 64736e6f93a1f16d9804db79390382e9d1f6322cdbfdFariborz Jahanian return true; 64746e6f93a1f16d9804db79390382e9d1f6322cdbfdFariborz Jahanian } 64754b9c2d235fb9449e249d74f48ecfec601650de93John McCall e = const_cast<Expr*>(cast<OpaqueValueExpr>(pre->getBase()) 64764b9c2d235fb9449e249d74f48ecfec601650de93John McCall ->getSourceExpr()); 64774b9c2d235fb9449e249d74f48ecfec601650de93John McCall continue; 64784b9c2d235fb9449e249d74f48ecfec601650de93John McCall } 64794b9c2d235fb9449e249d74f48ecfec601650de93John McCall 6480f85e193739c953358c865005855253af4f68a497John McCall // Array ivars? 6481f85e193739c953358c865005855253af4f68a497John McCall 6482f85e193739c953358c865005855253af4f68a497John McCall return false; 6483f85e193739c953358c865005855253af4f68a497John McCall } 6484f85e193739c953358c865005855253af4f68a497John McCall} 6485f85e193739c953358c865005855253af4f68a497John McCall 6486f85e193739c953358c865005855253af4f68a497John McCallnamespace { 6487f85e193739c953358c865005855253af4f68a497John McCall struct FindCaptureVisitor : EvaluatedExprVisitor<FindCaptureVisitor> { 6488f85e193739c953358c865005855253af4f68a497John McCall FindCaptureVisitor(ASTContext &Context, VarDecl *variable) 6489f85e193739c953358c865005855253af4f68a497John McCall : EvaluatedExprVisitor<FindCaptureVisitor>(Context), 6490f85e193739c953358c865005855253af4f68a497John McCall Variable(variable), Capturer(0) {} 6491f85e193739c953358c865005855253af4f68a497John McCall 6492f85e193739c953358c865005855253af4f68a497John McCall VarDecl *Variable; 6493f85e193739c953358c865005855253af4f68a497John McCall Expr *Capturer; 6494f85e193739c953358c865005855253af4f68a497John McCall 6495f85e193739c953358c865005855253af4f68a497John McCall void VisitDeclRefExpr(DeclRefExpr *ref) { 6496f85e193739c953358c865005855253af4f68a497John McCall if (ref->getDecl() == Variable && !Capturer) 6497f85e193739c953358c865005855253af4f68a497John McCall Capturer = ref; 6498f85e193739c953358c865005855253af4f68a497John McCall } 6499f85e193739c953358c865005855253af4f68a497John McCall 6500f85e193739c953358c865005855253af4f68a497John McCall void VisitObjCIvarRefExpr(ObjCIvarRefExpr *ref) { 6501f85e193739c953358c865005855253af4f68a497John McCall if (Capturer) return; 6502f85e193739c953358c865005855253af4f68a497John McCall Visit(ref->getBase()); 6503f85e193739c953358c865005855253af4f68a497John McCall if (Capturer && ref->isFreeIvar()) 6504f85e193739c953358c865005855253af4f68a497John McCall Capturer = ref; 6505f85e193739c953358c865005855253af4f68a497John McCall } 6506f85e193739c953358c865005855253af4f68a497John McCall 6507f85e193739c953358c865005855253af4f68a497John McCall void VisitBlockExpr(BlockExpr *block) { 6508f85e193739c953358c865005855253af4f68a497John McCall // Look inside nested blocks 6509f85e193739c953358c865005855253af4f68a497John McCall if (block->getBlockDecl()->capturesVariable(Variable)) 6510f85e193739c953358c865005855253af4f68a497John McCall Visit(block->getBlockDecl()->getBody()); 6511f85e193739c953358c865005855253af4f68a497John McCall } 65127e2e4c33cdd347d0f3faac3e391245d06fa42811Fariborz Jahanian 65137e2e4c33cdd347d0f3faac3e391245d06fa42811Fariborz Jahanian void VisitOpaqueValueExpr(OpaqueValueExpr *OVE) { 65147e2e4c33cdd347d0f3faac3e391245d06fa42811Fariborz Jahanian if (Capturer) return; 65157e2e4c33cdd347d0f3faac3e391245d06fa42811Fariborz Jahanian if (OVE->getSourceExpr()) 65167e2e4c33cdd347d0f3faac3e391245d06fa42811Fariborz Jahanian Visit(OVE->getSourceExpr()); 65177e2e4c33cdd347d0f3faac3e391245d06fa42811Fariborz Jahanian } 6518f85e193739c953358c865005855253af4f68a497John McCall }; 6519f85e193739c953358c865005855253af4f68a497John McCall} 6520f85e193739c953358c865005855253af4f68a497John McCall 6521f85e193739c953358c865005855253af4f68a497John McCall/// Check whether the given argument is a block which captures a 6522f85e193739c953358c865005855253af4f68a497John McCall/// variable. 6523f85e193739c953358c865005855253af4f68a497John McCallstatic Expr *findCapturingExpr(Sema &S, Expr *e, RetainCycleOwner &owner) { 6524f85e193739c953358c865005855253af4f68a497John McCall assert(owner.Variable && owner.Loc.isValid()); 6525f85e193739c953358c865005855253af4f68a497John McCall 6526f85e193739c953358c865005855253af4f68a497John McCall e = e->IgnoreParenCasts(); 65271fac58a2ff3c56a18765b2c7395ed91ac7b80544Jordan Rose 65281fac58a2ff3c56a18765b2c7395ed91ac7b80544Jordan Rose // Look through [^{...} copy] and Block_copy(^{...}). 65291fac58a2ff3c56a18765b2c7395ed91ac7b80544Jordan Rose if (ObjCMessageExpr *ME = dyn_cast<ObjCMessageExpr>(e)) { 65301fac58a2ff3c56a18765b2c7395ed91ac7b80544Jordan Rose Selector Cmd = ME->getSelector(); 65311fac58a2ff3c56a18765b2c7395ed91ac7b80544Jordan Rose if (Cmd.isUnarySelector() && Cmd.getNameForSlot(0) == "copy") { 65321fac58a2ff3c56a18765b2c7395ed91ac7b80544Jordan Rose e = ME->getInstanceReceiver(); 65331fac58a2ff3c56a18765b2c7395ed91ac7b80544Jordan Rose if (!e) 65341fac58a2ff3c56a18765b2c7395ed91ac7b80544Jordan Rose return 0; 65351fac58a2ff3c56a18765b2c7395ed91ac7b80544Jordan Rose e = e->IgnoreParenCasts(); 65361fac58a2ff3c56a18765b2c7395ed91ac7b80544Jordan Rose } 65371fac58a2ff3c56a18765b2c7395ed91ac7b80544Jordan Rose } else if (CallExpr *CE = dyn_cast<CallExpr>(e)) { 65381fac58a2ff3c56a18765b2c7395ed91ac7b80544Jordan Rose if (CE->getNumArgs() == 1) { 65391fac58a2ff3c56a18765b2c7395ed91ac7b80544Jordan Rose FunctionDecl *Fn = dyn_cast_or_null<FunctionDecl>(CE->getCalleeDecl()); 6540d13eff6f77216a6fb25e18f600b492db4f0492e8Ted Kremenek if (Fn) { 6541d13eff6f77216a6fb25e18f600b492db4f0492e8Ted Kremenek const IdentifierInfo *FnI = Fn->getIdentifier(); 6542d13eff6f77216a6fb25e18f600b492db4f0492e8Ted Kremenek if (FnI && FnI->isStr("_Block_copy")) { 6543d13eff6f77216a6fb25e18f600b492db4f0492e8Ted Kremenek e = CE->getArg(0)->IgnoreParenCasts(); 6544d13eff6f77216a6fb25e18f600b492db4f0492e8Ted Kremenek } 6545d13eff6f77216a6fb25e18f600b492db4f0492e8Ted Kremenek } 65461fac58a2ff3c56a18765b2c7395ed91ac7b80544Jordan Rose } 65471fac58a2ff3c56a18765b2c7395ed91ac7b80544Jordan Rose } 65481fac58a2ff3c56a18765b2c7395ed91ac7b80544Jordan Rose 6549f85e193739c953358c865005855253af4f68a497John McCall BlockExpr *block = dyn_cast<BlockExpr>(e); 6550f85e193739c953358c865005855253af4f68a497John McCall if (!block || !block->getBlockDecl()->capturesVariable(owner.Variable)) 6551f85e193739c953358c865005855253af4f68a497John McCall return 0; 6552f85e193739c953358c865005855253af4f68a497John McCall 6553f85e193739c953358c865005855253af4f68a497John McCall FindCaptureVisitor visitor(S.Context, owner.Variable); 6554f85e193739c953358c865005855253af4f68a497John McCall visitor.Visit(block->getBlockDecl()->getBody()); 6555f85e193739c953358c865005855253af4f68a497John McCall return visitor.Capturer; 6556f85e193739c953358c865005855253af4f68a497John McCall} 6557f85e193739c953358c865005855253af4f68a497John McCall 6558f85e193739c953358c865005855253af4f68a497John McCallstatic void diagnoseRetainCycle(Sema &S, Expr *capturer, 6559f85e193739c953358c865005855253af4f68a497John McCall RetainCycleOwner &owner) { 6560f85e193739c953358c865005855253af4f68a497John McCall assert(capturer); 6561f85e193739c953358c865005855253af4f68a497John McCall assert(owner.Variable && owner.Loc.isValid()); 6562f85e193739c953358c865005855253af4f68a497John McCall 6563f85e193739c953358c865005855253af4f68a497John McCall S.Diag(capturer->getExprLoc(), diag::warn_arc_retain_cycle) 6564f85e193739c953358c865005855253af4f68a497John McCall << owner.Variable << capturer->getSourceRange(); 6565f85e193739c953358c865005855253af4f68a497John McCall S.Diag(owner.Loc, diag::note_arc_retain_cycle_owner) 6566f85e193739c953358c865005855253af4f68a497John McCall << owner.Indirect << owner.Range; 6567f85e193739c953358c865005855253af4f68a497John McCall} 6568f85e193739c953358c865005855253af4f68a497John McCall 6569f85e193739c953358c865005855253af4f68a497John McCall/// Check for a keyword selector that starts with the word 'add' or 6570f85e193739c953358c865005855253af4f68a497John McCall/// 'set'. 6571f85e193739c953358c865005855253af4f68a497John McCallstatic bool isSetterLikeSelector(Selector sel) { 6572f85e193739c953358c865005855253af4f68a497John McCall if (sel.isUnarySelector()) return false; 6573f85e193739c953358c865005855253af4f68a497John McCall 65745f9e272e632e951b1efe824cd16acb4d96077930Chris Lattner StringRef str = sel.getNameForSlot(0); 6575f85e193739c953358c865005855253af4f68a497John McCall while (!str.empty() && str.front() == '_') str = str.substr(1); 6576968a0ee9d98549308e3e70e787e4fd669d2a829dTed Kremenek if (str.startswith("set")) 6577f85e193739c953358c865005855253af4f68a497John McCall str = str.substr(3); 6578968a0ee9d98549308e3e70e787e4fd669d2a829dTed Kremenek else if (str.startswith("add")) { 6579968a0ee9d98549308e3e70e787e4fd669d2a829dTed Kremenek // Specially whitelist 'addOperationWithBlock:'. 6580968a0ee9d98549308e3e70e787e4fd669d2a829dTed Kremenek if (sel.getNumArgs() == 1 && str.startswith("addOperationWithBlock")) 6581968a0ee9d98549308e3e70e787e4fd669d2a829dTed Kremenek return false; 6582968a0ee9d98549308e3e70e787e4fd669d2a829dTed Kremenek str = str.substr(3); 6583968a0ee9d98549308e3e70e787e4fd669d2a829dTed Kremenek } 6584f85e193739c953358c865005855253af4f68a497John McCall else 6585f85e193739c953358c865005855253af4f68a497John McCall return false; 6586f85e193739c953358c865005855253af4f68a497John McCall 6587f85e193739c953358c865005855253af4f68a497John McCall if (str.empty()) return true; 65883f6f51e28231f65de9c2dd150a2d757b2162cfa3Jordan Rose return !isLowercase(str.front()); 6589f85e193739c953358c865005855253af4f68a497John McCall} 6590f85e193739c953358c865005855253af4f68a497John McCall 6591f85e193739c953358c865005855253af4f68a497John McCall/// Check a message send to see if it's likely to cause a retain cycle. 6592f85e193739c953358c865005855253af4f68a497John McCallvoid Sema::checkRetainCycles(ObjCMessageExpr *msg) { 6593f85e193739c953358c865005855253af4f68a497John McCall // Only check instance methods whose selector looks like a setter. 6594f85e193739c953358c865005855253af4f68a497John McCall if (!msg->isInstanceMessage() || !isSetterLikeSelector(msg->getSelector())) 6595f85e193739c953358c865005855253af4f68a497John McCall return; 6596f85e193739c953358c865005855253af4f68a497John McCall 6597f85e193739c953358c865005855253af4f68a497John McCall // Try to find a variable that the receiver is strongly owned by. 6598f85e193739c953358c865005855253af4f68a497John McCall RetainCycleOwner owner; 6599f85e193739c953358c865005855253af4f68a497John McCall if (msg->getReceiverKind() == ObjCMessageExpr::Instance) { 66006e6f93a1f16d9804db79390382e9d1f6322cdbfdFariborz Jahanian if (!findRetainCycleOwner(*this, msg->getInstanceReceiver(), owner)) 6601f85e193739c953358c865005855253af4f68a497John McCall return; 6602f85e193739c953358c865005855253af4f68a497John McCall } else { 6603f85e193739c953358c865005855253af4f68a497John McCall assert(msg->getReceiverKind() == ObjCMessageExpr::SuperInstance); 6604f85e193739c953358c865005855253af4f68a497John McCall owner.Variable = getCurMethodDecl()->getSelfDecl(); 6605f85e193739c953358c865005855253af4f68a497John McCall owner.Loc = msg->getSuperLoc(); 6606f85e193739c953358c865005855253af4f68a497John McCall owner.Range = msg->getSuperLoc(); 6607f85e193739c953358c865005855253af4f68a497John McCall } 6608f85e193739c953358c865005855253af4f68a497John McCall 6609f85e193739c953358c865005855253af4f68a497John McCall // Check whether the receiver is captured by any of the arguments. 6610f85e193739c953358c865005855253af4f68a497John McCall for (unsigned i = 0, e = msg->getNumArgs(); i != e; ++i) 6611f85e193739c953358c865005855253af4f68a497John McCall if (Expr *capturer = findCapturingExpr(*this, msg->getArg(i), owner)) 6612f85e193739c953358c865005855253af4f68a497John McCall return diagnoseRetainCycle(*this, capturer, owner); 6613f85e193739c953358c865005855253af4f68a497John McCall} 6614f85e193739c953358c865005855253af4f68a497John McCall 6615f85e193739c953358c865005855253af4f68a497John McCall/// Check a property assign to see if it's likely to cause a retain cycle. 6616f85e193739c953358c865005855253af4f68a497John McCallvoid Sema::checkRetainCycles(Expr *receiver, Expr *argument) { 6617f85e193739c953358c865005855253af4f68a497John McCall RetainCycleOwner owner; 66186e6f93a1f16d9804db79390382e9d1f6322cdbfdFariborz Jahanian if (!findRetainCycleOwner(*this, receiver, owner)) 6619f85e193739c953358c865005855253af4f68a497John McCall return; 6620f85e193739c953358c865005855253af4f68a497John McCall 6621f85e193739c953358c865005855253af4f68a497John McCall if (Expr *capturer = findCapturingExpr(*this, argument, owner)) 6622f85e193739c953358c865005855253af4f68a497John McCall diagnoseRetainCycle(*this, capturer, owner); 6623f85e193739c953358c865005855253af4f68a497John McCall} 6624f85e193739c953358c865005855253af4f68a497John McCall 6625e10f4d384f5ae113d72a5193a1332c1930635cccJordan Rosevoid Sema::checkRetainCycles(VarDecl *Var, Expr *Init) { 6626e10f4d384f5ae113d72a5193a1332c1930635cccJordan Rose RetainCycleOwner Owner; 6627e10f4d384f5ae113d72a5193a1332c1930635cccJordan Rose if (!considerVariable(Var, /*DeclRefExpr=*/0, Owner)) 6628e10f4d384f5ae113d72a5193a1332c1930635cccJordan Rose return; 6629e10f4d384f5ae113d72a5193a1332c1930635cccJordan Rose 6630e10f4d384f5ae113d72a5193a1332c1930635cccJordan Rose // Because we don't have an expression for the variable, we have to set the 6631e10f4d384f5ae113d72a5193a1332c1930635cccJordan Rose // location explicitly here. 6632e10f4d384f5ae113d72a5193a1332c1930635cccJordan Rose Owner.Loc = Var->getLocation(); 6633e10f4d384f5ae113d72a5193a1332c1930635cccJordan Rose Owner.Range = Var->getSourceRange(); 6634e10f4d384f5ae113d72a5193a1332c1930635cccJordan Rose 6635e10f4d384f5ae113d72a5193a1332c1930635cccJordan Rose if (Expr *Capturer = findCapturingExpr(*this, Init, Owner)) 6636e10f4d384f5ae113d72a5193a1332c1930635cccJordan Rose diagnoseRetainCycle(*this, Capturer, Owner); 6637e10f4d384f5ae113d72a5193a1332c1930635cccJordan Rose} 6638e10f4d384f5ae113d72a5193a1332c1930635cccJordan Rose 66399d0840141a0922e2d8b1d322f21ef51803ede23dTed Kremenekstatic bool checkUnsafeAssignLiteral(Sema &S, SourceLocation Loc, 66409d0840141a0922e2d8b1d322f21ef51803ede23dTed Kremenek Expr *RHS, bool isProperty) { 66419d0840141a0922e2d8b1d322f21ef51803ede23dTed Kremenek // Check if RHS is an Objective-C object literal, which also can get 66429d0840141a0922e2d8b1d322f21ef51803ede23dTed Kremenek // immediately zapped in a weak reference. Note that we explicitly 66439d0840141a0922e2d8b1d322f21ef51803ede23dTed Kremenek // allow ObjCStringLiterals, since those are designed to never really die. 66449d0840141a0922e2d8b1d322f21ef51803ede23dTed Kremenek RHS = RHS->IgnoreParenImpCasts(); 6645f530ff76de3b270f2287d3555d93b5d270643eebTed Kremenek 6646d3292c88ad6360823818b78d67875eceb3caedfbTed Kremenek // This enum needs to match with the 'select' in 6647d3292c88ad6360823818b78d67875eceb3caedfbTed Kremenek // warn_objc_arc_literal_assign (off-by-1). 6648d3292c88ad6360823818b78d67875eceb3caedfbTed Kremenek Sema::ObjCLiteralKind Kind = S.CheckLiteralKind(RHS); 6649d3292c88ad6360823818b78d67875eceb3caedfbTed Kremenek if (Kind == Sema::LK_String || Kind == Sema::LK_None) 6650d3292c88ad6360823818b78d67875eceb3caedfbTed Kremenek return false; 6651f530ff76de3b270f2287d3555d93b5d270643eebTed Kremenek 6652f530ff76de3b270f2287d3555d93b5d270643eebTed Kremenek S.Diag(Loc, diag::warn_arc_literal_assign) 6653d3292c88ad6360823818b78d67875eceb3caedfbTed Kremenek << (unsigned) Kind 66549d0840141a0922e2d8b1d322f21ef51803ede23dTed Kremenek << (isProperty ? 0 : 1) 66559d0840141a0922e2d8b1d322f21ef51803ede23dTed Kremenek << RHS->getSourceRange(); 6656f530ff76de3b270f2287d3555d93b5d270643eebTed Kremenek 6657f530ff76de3b270f2287d3555d93b5d270643eebTed Kremenek return true; 66589d0840141a0922e2d8b1d322f21ef51803ede23dTed Kremenek} 66599d0840141a0922e2d8b1d322f21ef51803ede23dTed Kremenek 6660b29b30f9631937916786dc2e06c2842acf9c1500Ted Kremenekstatic bool checkUnsafeAssignObject(Sema &S, SourceLocation Loc, 6661b29b30f9631937916786dc2e06c2842acf9c1500Ted Kremenek Qualifiers::ObjCLifetime LT, 6662b29b30f9631937916786dc2e06c2842acf9c1500Ted Kremenek Expr *RHS, bool isProperty) { 6663b29b30f9631937916786dc2e06c2842acf9c1500Ted Kremenek // Strip off any implicit cast added to get to the one ARC-specific. 6664b29b30f9631937916786dc2e06c2842acf9c1500Ted Kremenek while (ImplicitCastExpr *cast = dyn_cast<ImplicitCastExpr>(RHS)) { 6665b29b30f9631937916786dc2e06c2842acf9c1500Ted Kremenek if (cast->getCastKind() == CK_ARCConsumeObject) { 6666b29b30f9631937916786dc2e06c2842acf9c1500Ted Kremenek S.Diag(Loc, diag::warn_arc_retained_assign) 6667b29b30f9631937916786dc2e06c2842acf9c1500Ted Kremenek << (LT == Qualifiers::OCL_ExplicitNone) 6668b29b30f9631937916786dc2e06c2842acf9c1500Ted Kremenek << (isProperty ? 0 : 1) 6669b29b30f9631937916786dc2e06c2842acf9c1500Ted Kremenek << RHS->getSourceRange(); 6670b29b30f9631937916786dc2e06c2842acf9c1500Ted Kremenek return true; 6671b29b30f9631937916786dc2e06c2842acf9c1500Ted Kremenek } 6672b29b30f9631937916786dc2e06c2842acf9c1500Ted Kremenek RHS = cast->getSubExpr(); 6673b29b30f9631937916786dc2e06c2842acf9c1500Ted Kremenek } 6674b29b30f9631937916786dc2e06c2842acf9c1500Ted Kremenek 6675b29b30f9631937916786dc2e06c2842acf9c1500Ted Kremenek if (LT == Qualifiers::OCL_Weak && 6676b29b30f9631937916786dc2e06c2842acf9c1500Ted Kremenek checkUnsafeAssignLiteral(S, Loc, RHS, isProperty)) 6677b29b30f9631937916786dc2e06c2842acf9c1500Ted Kremenek return true; 6678b29b30f9631937916786dc2e06c2842acf9c1500Ted Kremenek 6679b29b30f9631937916786dc2e06c2842acf9c1500Ted Kremenek return false; 6680b29b30f9631937916786dc2e06c2842acf9c1500Ted Kremenek} 6681b29b30f9631937916786dc2e06c2842acf9c1500Ted Kremenek 6682b1ea510de0ef4ebfbbe8fa7668ab1635410fc080Ted Kremenekbool Sema::checkUnsafeAssigns(SourceLocation Loc, 6683b1ea510de0ef4ebfbbe8fa7668ab1635410fc080Ted Kremenek QualType LHS, Expr *RHS) { 6684b1ea510de0ef4ebfbbe8fa7668ab1635410fc080Ted Kremenek Qualifiers::ObjCLifetime LT = LHS.getObjCLifetime(); 6685b1ea510de0ef4ebfbbe8fa7668ab1635410fc080Ted Kremenek 6686b1ea510de0ef4ebfbbe8fa7668ab1635410fc080Ted Kremenek if (LT != Qualifiers::OCL_Weak && LT != Qualifiers::OCL_ExplicitNone) 6687b1ea510de0ef4ebfbbe8fa7668ab1635410fc080Ted Kremenek return false; 6688b1ea510de0ef4ebfbbe8fa7668ab1635410fc080Ted Kremenek 6689b1ea510de0ef4ebfbbe8fa7668ab1635410fc080Ted Kremenek if (checkUnsafeAssignObject(*this, Loc, LT, RHS, false)) 6690b1ea510de0ef4ebfbbe8fa7668ab1635410fc080Ted Kremenek return true; 6691b1ea510de0ef4ebfbbe8fa7668ab1635410fc080Ted Kremenek 6692b1ea510de0ef4ebfbbe8fa7668ab1635410fc080Ted Kremenek return false; 6693b1ea510de0ef4ebfbbe8fa7668ab1635410fc080Ted Kremenek} 6694b1ea510de0ef4ebfbbe8fa7668ab1635410fc080Ted Kremenek 6695921c14322977253a60dcb171f45e468c95fe41f8Fariborz Jahanianvoid Sema::checkUnsafeExprAssigns(SourceLocation Loc, 6696921c14322977253a60dcb171f45e468c95fe41f8Fariborz Jahanian Expr *LHS, Expr *RHS) { 669787eaf726528124a1ad49f38402e9b619685fe30bFariborz Jahanian QualType LHSType; 669887eaf726528124a1ad49f38402e9b619685fe30bFariborz Jahanian // PropertyRef on LHS type need be directly obtained from 669987eaf726528124a1ad49f38402e9b619685fe30bFariborz Jahanian // its declaration as it has a PsuedoType. 670087eaf726528124a1ad49f38402e9b619685fe30bFariborz Jahanian ObjCPropertyRefExpr *PRE 670187eaf726528124a1ad49f38402e9b619685fe30bFariborz Jahanian = dyn_cast<ObjCPropertyRefExpr>(LHS->IgnoreParens()); 670287eaf726528124a1ad49f38402e9b619685fe30bFariborz Jahanian if (PRE && !PRE->isImplicitProperty()) { 670387eaf726528124a1ad49f38402e9b619685fe30bFariborz Jahanian const ObjCPropertyDecl *PD = PRE->getExplicitProperty(); 670487eaf726528124a1ad49f38402e9b619685fe30bFariborz Jahanian if (PD) 670587eaf726528124a1ad49f38402e9b619685fe30bFariborz Jahanian LHSType = PD->getType(); 670687eaf726528124a1ad49f38402e9b619685fe30bFariborz Jahanian } 670787eaf726528124a1ad49f38402e9b619685fe30bFariborz Jahanian 670887eaf726528124a1ad49f38402e9b619685fe30bFariborz Jahanian if (LHSType.isNull()) 670987eaf726528124a1ad49f38402e9b619685fe30bFariborz Jahanian LHSType = LHS->getType(); 67107a2704800943fbb69207e125d28186278712af36Jordan Rose 67117a2704800943fbb69207e125d28186278712af36Jordan Rose Qualifiers::ObjCLifetime LT = LHSType.getObjCLifetime(); 67127a2704800943fbb69207e125d28186278712af36Jordan Rose 67137a2704800943fbb69207e125d28186278712af36Jordan Rose if (LT == Qualifiers::OCL_Weak) { 67147a2704800943fbb69207e125d28186278712af36Jordan Rose DiagnosticsEngine::Level Level = 67157a2704800943fbb69207e125d28186278712af36Jordan Rose Diags.getDiagnosticLevel(diag::warn_arc_repeated_use_of_weak, Loc); 67167a2704800943fbb69207e125d28186278712af36Jordan Rose if (Level != DiagnosticsEngine::Ignored) 67177a2704800943fbb69207e125d28186278712af36Jordan Rose getCurFunction()->markSafeWeakUse(LHS); 67187a2704800943fbb69207e125d28186278712af36Jordan Rose } 67197a2704800943fbb69207e125d28186278712af36Jordan Rose 6720921c14322977253a60dcb171f45e468c95fe41f8Fariborz Jahanian if (checkUnsafeAssigns(Loc, LHSType, RHS)) 6721921c14322977253a60dcb171f45e468c95fe41f8Fariborz Jahanian return; 67227a2704800943fbb69207e125d28186278712af36Jordan Rose 6723921c14322977253a60dcb171f45e468c95fe41f8Fariborz Jahanian // FIXME. Check for other life times. 6724921c14322977253a60dcb171f45e468c95fe41f8Fariborz Jahanian if (LT != Qualifiers::OCL_None) 6725921c14322977253a60dcb171f45e468c95fe41f8Fariborz Jahanian return; 6726921c14322977253a60dcb171f45e468c95fe41f8Fariborz Jahanian 672787eaf726528124a1ad49f38402e9b619685fe30bFariborz Jahanian if (PRE) { 6728921c14322977253a60dcb171f45e468c95fe41f8Fariborz Jahanian if (PRE->isImplicitProperty()) 6729921c14322977253a60dcb171f45e468c95fe41f8Fariborz Jahanian return; 6730921c14322977253a60dcb171f45e468c95fe41f8Fariborz Jahanian const ObjCPropertyDecl *PD = PRE->getExplicitProperty(); 6731921c14322977253a60dcb171f45e468c95fe41f8Fariborz Jahanian if (!PD) 6732921c14322977253a60dcb171f45e468c95fe41f8Fariborz Jahanian return; 6733921c14322977253a60dcb171f45e468c95fe41f8Fariborz Jahanian 6734ad017fa7a4df7389d245d02a49b3c79ed70bedb9Bill Wendling unsigned Attributes = PD->getPropertyAttributes(); 6735ad017fa7a4df7389d245d02a49b3c79ed70bedb9Bill Wendling if (Attributes & ObjCPropertyDecl::OBJC_PR_assign) { 673687eaf726528124a1ad49f38402e9b619685fe30bFariborz Jahanian // when 'assign' attribute was not explicitly specified 673787eaf726528124a1ad49f38402e9b619685fe30bFariborz Jahanian // by user, ignore it and rely on property type itself 673887eaf726528124a1ad49f38402e9b619685fe30bFariborz Jahanian // for lifetime info. 673987eaf726528124a1ad49f38402e9b619685fe30bFariborz Jahanian unsigned AsWrittenAttr = PD->getPropertyAttributesAsWritten(); 674087eaf726528124a1ad49f38402e9b619685fe30bFariborz Jahanian if (!(AsWrittenAttr & ObjCPropertyDecl::OBJC_PR_assign) && 674187eaf726528124a1ad49f38402e9b619685fe30bFariborz Jahanian LHSType->isObjCRetainableType()) 674287eaf726528124a1ad49f38402e9b619685fe30bFariborz Jahanian return; 674387eaf726528124a1ad49f38402e9b619685fe30bFariborz Jahanian 6744921c14322977253a60dcb171f45e468c95fe41f8Fariborz Jahanian while (ImplicitCastExpr *cast = dyn_cast<ImplicitCastExpr>(RHS)) { 674533e56f3273457bfa22c7c50bc46cf5a18216863dJohn McCall if (cast->getCastKind() == CK_ARCConsumeObject) { 6746921c14322977253a60dcb171f45e468c95fe41f8Fariborz Jahanian Diag(Loc, diag::warn_arc_retained_property_assign) 6747921c14322977253a60dcb171f45e468c95fe41f8Fariborz Jahanian << RHS->getSourceRange(); 6748921c14322977253a60dcb171f45e468c95fe41f8Fariborz Jahanian return; 6749921c14322977253a60dcb171f45e468c95fe41f8Fariborz Jahanian } 6750921c14322977253a60dcb171f45e468c95fe41f8Fariborz Jahanian RHS = cast->getSubExpr(); 6751921c14322977253a60dcb171f45e468c95fe41f8Fariborz Jahanian } 675287eaf726528124a1ad49f38402e9b619685fe30bFariborz Jahanian } 6753ad017fa7a4df7389d245d02a49b3c79ed70bedb9Bill Wendling else if (Attributes & ObjCPropertyDecl::OBJC_PR_weak) { 6754b1ea510de0ef4ebfbbe8fa7668ab1635410fc080Ted Kremenek if (checkUnsafeAssignObject(*this, Loc, Qualifiers::OCL_Weak, RHS, true)) 6755b1ea510de0ef4ebfbbe8fa7668ab1635410fc080Ted Kremenek return; 6756bd2e27e8484c1d378c9c9d089f61ff496627f391Fariborz Jahanian } 6757921c14322977253a60dcb171f45e468c95fe41f8Fariborz Jahanian } 6758921c14322977253a60dcb171f45e468c95fe41f8Fariborz Jahanian} 6759625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko 6760625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko//===--- CHECK: Empty statement body (-Wempty-body) ---------------------===// 6761625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko 6762625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenkonamespace { 6763625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenkobool ShouldDiagnoseEmptyStmtBody(const SourceManager &SourceMgr, 6764625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko SourceLocation StmtLoc, 6765625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko const NullStmt *Body) { 6766625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko // Do not warn if the body is a macro that expands to nothing, e.g: 6767625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko // 6768625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko // #define CALL(x) 6769625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko // if (condition) 6770625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko // CALL(0); 6771625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko // 6772625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko if (Body->hasLeadingEmptyMacro()) 6773625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko return false; 6774625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko 6775625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko // Get line numbers of statement and body. 6776625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko bool StmtLineInvalid; 6777625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko unsigned StmtLine = SourceMgr.getSpellingLineNumber(StmtLoc, 6778625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko &StmtLineInvalid); 6779625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko if (StmtLineInvalid) 6780625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko return false; 6781625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko 6782625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko bool BodyLineInvalid; 6783625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko unsigned BodyLine = SourceMgr.getSpellingLineNumber(Body->getSemiLoc(), 6784625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko &BodyLineInvalid); 6785625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko if (BodyLineInvalid) 6786625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko return false; 6787625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko 6788625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko // Warn if null statement and body are on the same line. 6789625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko if (StmtLine != BodyLine) 6790625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko return false; 6791625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko 6792625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko return true; 6793625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko} 6794625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko} // Unnamed namespace 6795625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko 6796625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenkovoid Sema::DiagnoseEmptyStmtBody(SourceLocation StmtLoc, 6797625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko const Stmt *Body, 6798625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko unsigned DiagID) { 6799625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko // Since this is a syntactic check, don't emit diagnostic for template 6800625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko // instantiations, this just adds noise. 6801625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko if (CurrentInstantiationScope) 6802625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko return; 6803625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko 6804625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko // The body should be a null statement. 6805625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko const NullStmt *NBody = dyn_cast<NullStmt>(Body); 6806625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko if (!NBody) 6807625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko return; 6808625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko 6809625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko // Do the usual checks. 6810625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko if (!ShouldDiagnoseEmptyStmtBody(SourceMgr, StmtLoc, NBody)) 6811625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko return; 6812625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko 6813625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko Diag(NBody->getSemiLoc(), DiagID); 6814625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko Diag(NBody->getSemiLoc(), diag::note_empty_body_on_separate_line); 6815625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko} 6816625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko 6817625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenkovoid Sema::DiagnoseEmptyLoopBody(const Stmt *S, 6818625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko const Stmt *PossibleBody) { 6819625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko assert(!CurrentInstantiationScope); // Ensured by caller 6820625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko 6821625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko SourceLocation StmtLoc; 6822625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko const Stmt *Body; 6823625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko unsigned DiagID; 6824625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko if (const ForStmt *FS = dyn_cast<ForStmt>(S)) { 6825625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko StmtLoc = FS->getRParenLoc(); 6826625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko Body = FS->getBody(); 6827625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko DiagID = diag::warn_empty_for_body; 6828625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko } else if (const WhileStmt *WS = dyn_cast<WhileStmt>(S)) { 6829625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko StmtLoc = WS->getCond()->getSourceRange().getEnd(); 6830625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko Body = WS->getBody(); 6831625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko DiagID = diag::warn_empty_while_body; 6832625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko } else 6833625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko return; // Neither `for' nor `while'. 6834625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko 6835625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko // The body should be a null statement. 6836625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko const NullStmt *NBody = dyn_cast<NullStmt>(Body); 6837625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko if (!NBody) 6838625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko return; 6839625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko 6840625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko // Skip expensive checks if diagnostic is disabled. 6841625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko if (Diags.getDiagnosticLevel(DiagID, NBody->getSemiLoc()) == 6842625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko DiagnosticsEngine::Ignored) 6843625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko return; 6844625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko 6845625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko // Do the usual checks. 6846625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko if (!ShouldDiagnoseEmptyStmtBody(SourceMgr, StmtLoc, NBody)) 6847625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko return; 6848625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko 6849625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko // `for(...);' and `while(...);' are popular idioms, so in order to keep 6850625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko // noise level low, emit diagnostics only if for/while is followed by a 6851625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko // CompoundStmt, e.g.: 6852625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko // for (int i = 0; i < n; i++); 6853625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko // { 6854625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko // a(i); 6855625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko // } 6856625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko // or if for/while is followed by a statement with more indentation 6857625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko // than for/while itself: 6858625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko // for (int i = 0; i < n; i++); 6859625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko // a(i); 6860625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko bool ProbableTypo = isa<CompoundStmt>(PossibleBody); 6861625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko if (!ProbableTypo) { 6862625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko bool BodyColInvalid; 6863625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko unsigned BodyCol = SourceMgr.getPresumedColumnNumber( 6864625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko PossibleBody->getLocStart(), 6865625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko &BodyColInvalid); 6866625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko if (BodyColInvalid) 6867625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko return; 6868625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko 6869625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko bool StmtColInvalid; 6870625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko unsigned StmtCol = SourceMgr.getPresumedColumnNumber( 6871625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko S->getLocStart(), 6872625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko &StmtColInvalid); 6873625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko if (StmtColInvalid) 6874625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko return; 6875625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko 6876625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko if (BodyCol > StmtCol) 6877625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko ProbableTypo = true; 6878625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko } 6879625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko 6880625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko if (ProbableTypo) { 6881625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko Diag(NBody->getSemiLoc(), DiagID); 6882625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko Diag(NBody->getSemiLoc(), diag::note_empty_body_on_separate_line); 6883625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko } 6884625bb569df0c34feec0d52c0ec5215f21ef2e054Dmitri Gribenko} 68850d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko 68860d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko//===--- Layout compatibility ----------------------------------------------// 68870d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko 68880d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenkonamespace { 68890d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko 68900d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenkobool isLayoutCompatible(ASTContext &C, QualType T1, QualType T2); 68910d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko 68920d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko/// \brief Check if two enumeration types are layout-compatible. 68930d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenkobool isLayoutCompatible(ASTContext &C, EnumDecl *ED1, EnumDecl *ED2) { 68940d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko // C++11 [dcl.enum] p8: 68950d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko // Two enumeration types are layout-compatible if they have the same 68960d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko // underlying type. 68970d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko return ED1->isComplete() && ED2->isComplete() && 68980d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko C.hasSameType(ED1->getIntegerType(), ED2->getIntegerType()); 68990d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko} 69000d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko 69010d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko/// \brief Check if two fields are layout-compatible. 69020d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenkobool isLayoutCompatible(ASTContext &C, FieldDecl *Field1, FieldDecl *Field2) { 69030d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko if (!isLayoutCompatible(C, Field1->getType(), Field2->getType())) 69040d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko return false; 69050d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko 69060d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko if (Field1->isBitField() != Field2->isBitField()) 69070d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko return false; 69080d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko 69090d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko if (Field1->isBitField()) { 69100d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko // Make sure that the bit-fields are the same length. 69110d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko unsigned Bits1 = Field1->getBitWidthValue(C); 69120d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko unsigned Bits2 = Field2->getBitWidthValue(C); 69130d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko 69140d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko if (Bits1 != Bits2) 69150d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko return false; 69160d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko } 69170d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko 69180d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko return true; 69190d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko} 69200d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko 69210d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko/// \brief Check if two standard-layout structs are layout-compatible. 69220d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko/// (C++11 [class.mem] p17) 69230d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenkobool isLayoutCompatibleStruct(ASTContext &C, 69240d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko RecordDecl *RD1, 69250d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko RecordDecl *RD2) { 69260d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko // If both records are C++ classes, check that base classes match. 69270d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko if (const CXXRecordDecl *D1CXX = dyn_cast<CXXRecordDecl>(RD1)) { 69280d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko // If one of records is a CXXRecordDecl we are in C++ mode, 69290d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko // thus the other one is a CXXRecordDecl, too. 69300d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko const CXXRecordDecl *D2CXX = cast<CXXRecordDecl>(RD2); 69310d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko // Check number of base classes. 69320d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko if (D1CXX->getNumBases() != D2CXX->getNumBases()) 69330d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko return false; 69340d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko 69350d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko // Check the base classes. 69360d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko for (CXXRecordDecl::base_class_const_iterator 69370d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko Base1 = D1CXX->bases_begin(), 69380d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko BaseEnd1 = D1CXX->bases_end(), 69390d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko Base2 = D2CXX->bases_begin(); 69400d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko Base1 != BaseEnd1; 69410d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko ++Base1, ++Base2) { 69420d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko if (!isLayoutCompatible(C, Base1->getType(), Base2->getType())) 69430d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko return false; 69440d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko } 69450d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko } else if (const CXXRecordDecl *D2CXX = dyn_cast<CXXRecordDecl>(RD2)) { 69460d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko // If only RD2 is a C++ class, it should have zero base classes. 69470d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko if (D2CXX->getNumBases() > 0) 69480d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko return false; 69490d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko } 69500d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko 69510d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko // Check the fields. 69520d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko RecordDecl::field_iterator Field2 = RD2->field_begin(), 69530d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko Field2End = RD2->field_end(), 69540d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko Field1 = RD1->field_begin(), 69550d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko Field1End = RD1->field_end(); 69560d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko for ( ; Field1 != Field1End && Field2 != Field2End; ++Field1, ++Field2) { 69570d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko if (!isLayoutCompatible(C, *Field1, *Field2)) 69580d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko return false; 69590d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko } 69600d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko if (Field1 != Field1End || Field2 != Field2End) 69610d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko return false; 69620d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko 69630d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko return true; 69640d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko} 69650d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko 69660d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko/// \brief Check if two standard-layout unions are layout-compatible. 69670d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko/// (C++11 [class.mem] p18) 69680d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenkobool isLayoutCompatibleUnion(ASTContext &C, 69690d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko RecordDecl *RD1, 69700d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko RecordDecl *RD2) { 69710d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko llvm::SmallPtrSet<FieldDecl *, 8> UnmatchedFields; 69720d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko for (RecordDecl::field_iterator Field2 = RD2->field_begin(), 69730d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko Field2End = RD2->field_end(); 69740d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko Field2 != Field2End; ++Field2) { 69750d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko UnmatchedFields.insert(*Field2); 69760d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko } 69770d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko 69780d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko for (RecordDecl::field_iterator Field1 = RD1->field_begin(), 69790d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko Field1End = RD1->field_end(); 69800d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko Field1 != Field1End; ++Field1) { 69810d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko llvm::SmallPtrSet<FieldDecl *, 8>::iterator 69820d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko I = UnmatchedFields.begin(), 69830d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko E = UnmatchedFields.end(); 69840d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko 69850d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko for ( ; I != E; ++I) { 69860d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko if (isLayoutCompatible(C, *Field1, *I)) { 69870d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko bool Result = UnmatchedFields.erase(*I); 69880d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko (void) Result; 69890d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko assert(Result); 69900d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko break; 69910d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko } 69920d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko } 69930d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko if (I == E) 69940d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko return false; 69950d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko } 69960d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko 69970d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko return UnmatchedFields.empty(); 69980d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko} 69990d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko 70000d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenkobool isLayoutCompatible(ASTContext &C, RecordDecl *RD1, RecordDecl *RD2) { 70010d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko if (RD1->isUnion() != RD2->isUnion()) 70020d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko return false; 70030d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko 70040d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko if (RD1->isUnion()) 70050d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko return isLayoutCompatibleUnion(C, RD1, RD2); 70060d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko else 70070d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko return isLayoutCompatibleStruct(C, RD1, RD2); 70080d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko} 70090d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko 70100d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko/// \brief Check if two types are layout-compatible in C++11 sense. 70110d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenkobool isLayoutCompatible(ASTContext &C, QualType T1, QualType T2) { 70120d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko if (T1.isNull() || T2.isNull()) 70130d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko return false; 70140d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko 70150d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko // C++11 [basic.types] p11: 70160d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko // If two types T1 and T2 are the same type, then T1 and T2 are 70170d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko // layout-compatible types. 70180d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko if (C.hasSameType(T1, T2)) 70190d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko return true; 70200d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko 70210d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko T1 = T1.getCanonicalType().getUnqualifiedType(); 70220d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko T2 = T2.getCanonicalType().getUnqualifiedType(); 70230d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko 70240d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko const Type::TypeClass TC1 = T1->getTypeClass(); 70250d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko const Type::TypeClass TC2 = T2->getTypeClass(); 70260d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko 70270d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko if (TC1 != TC2) 70280d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko return false; 70290d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko 70300d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko if (TC1 == Type::Enum) { 70310d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko return isLayoutCompatible(C, 70320d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko cast<EnumType>(T1)->getDecl(), 70330d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko cast<EnumType>(T2)->getDecl()); 70340d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko } else if (TC1 == Type::Record) { 70350d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko if (!T1->isStandardLayoutType() || !T2->isStandardLayoutType()) 70360d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko return false; 70370d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko 70380d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko return isLayoutCompatible(C, 70390d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko cast<RecordType>(T1)->getDecl(), 70400d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko cast<RecordType>(T2)->getDecl()); 70410d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko } 70420d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko 70430d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko return false; 70440d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko} 70450d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko} 70460d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko 70470d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko//===--- CHECK: pointer_with_type_tag attribute: datatypes should match ----// 70480d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko 70490d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenkonamespace { 70500d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko/// \brief Given a type tag expression find the type tag itself. 70510d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko/// 70520d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko/// \param TypeExpr Type tag expression, as it appears in user's code. 70530d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko/// 70540d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko/// \param VD Declaration of an identifier that appears in a type tag. 70550d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko/// 70560d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko/// \param MagicValue Type tag magic value. 70570d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenkobool FindTypeTagExpr(const Expr *TypeExpr, const ASTContext &Ctx, 70580d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko const ValueDecl **VD, uint64_t *MagicValue) { 70590d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko while(true) { 70600d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko if (!TypeExpr) 70610d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko return false; 70620d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko 70630d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko TypeExpr = TypeExpr->IgnoreParenImpCasts()->IgnoreParenCasts(); 70640d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko 70650d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko switch (TypeExpr->getStmtClass()) { 70660d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko case Stmt::UnaryOperatorClass: { 70670d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko const UnaryOperator *UO = cast<UnaryOperator>(TypeExpr); 70680d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko if (UO->getOpcode() == UO_AddrOf || UO->getOpcode() == UO_Deref) { 70690d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko TypeExpr = UO->getSubExpr(); 70700d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko continue; 70710d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko } 70720d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko return false; 70730d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko } 70740d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko 70750d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko case Stmt::DeclRefExprClass: { 70760d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko const DeclRefExpr *DRE = cast<DeclRefExpr>(TypeExpr); 70770d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko *VD = DRE->getDecl(); 70780d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko return true; 70790d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko } 70800d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko 70810d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko case Stmt::IntegerLiteralClass: { 70820d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko const IntegerLiteral *IL = cast<IntegerLiteral>(TypeExpr); 70830d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko llvm::APInt MagicValueAPInt = IL->getValue(); 70840d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko if (MagicValueAPInt.getActiveBits() <= 64) { 70850d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko *MagicValue = MagicValueAPInt.getZExtValue(); 70860d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko return true; 70870d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko } else 70880d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko return false; 70890d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko } 70900d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko 70910d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko case Stmt::BinaryConditionalOperatorClass: 70920d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko case Stmt::ConditionalOperatorClass: { 70930d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko const AbstractConditionalOperator *ACO = 70940d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko cast<AbstractConditionalOperator>(TypeExpr); 70950d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko bool Result; 70960d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko if (ACO->getCond()->EvaluateAsBooleanCondition(Result, Ctx)) { 70970d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko if (Result) 70980d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko TypeExpr = ACO->getTrueExpr(); 70990d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko else 71000d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko TypeExpr = ACO->getFalseExpr(); 71010d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko continue; 71020d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko } 71030d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko return false; 71040d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko } 71050d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko 71060d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko case Stmt::BinaryOperatorClass: { 71070d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko const BinaryOperator *BO = cast<BinaryOperator>(TypeExpr); 71080d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko if (BO->getOpcode() == BO_Comma) { 71090d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko TypeExpr = BO->getRHS(); 71100d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko continue; 71110d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko } 71120d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko return false; 71130d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko } 71140d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko 71150d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko default: 71160d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko return false; 71170d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko } 71180d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko } 71190d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko} 71200d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko 71210d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko/// \brief Retrieve the C type corresponding to type tag TypeExpr. 71220d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko/// 71230d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko/// \param TypeExpr Expression that specifies a type tag. 71240d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko/// 71250d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko/// \param MagicValues Registered magic values. 71260d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko/// 71270d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko/// \param FoundWrongKind Set to true if a type tag was found, but of a wrong 71280d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko/// kind. 71290d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko/// 71300d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko/// \param TypeInfo Information about the corresponding C type. 71310d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko/// 71320d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko/// \returns true if the corresponding C type was found. 71330d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenkobool GetMatchingCType( 71340d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko const IdentifierInfo *ArgumentKind, 71350d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko const Expr *TypeExpr, const ASTContext &Ctx, 71360d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko const llvm::DenseMap<Sema::TypeTagMagicValue, 71370d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko Sema::TypeTagData> *MagicValues, 71380d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko bool &FoundWrongKind, 71390d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko Sema::TypeTagData &TypeInfo) { 71400d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko FoundWrongKind = false; 71410d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko 71420d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko // Variable declaration that has type_tag_for_datatype attribute. 71430d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko const ValueDecl *VD = NULL; 71440d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko 71450d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko uint64_t MagicValue; 71460d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko 71470d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko if (!FindTypeTagExpr(TypeExpr, Ctx, &VD, &MagicValue)) 71480d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko return false; 71490d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko 71500d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko if (VD) { 71510d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko for (specific_attr_iterator<TypeTagForDatatypeAttr> 71520d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko I = VD->specific_attr_begin<TypeTagForDatatypeAttr>(), 71530d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko E = VD->specific_attr_end<TypeTagForDatatypeAttr>(); 71540d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko I != E; ++I) { 71550d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko if (I->getArgumentKind() != ArgumentKind) { 71560d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko FoundWrongKind = true; 71570d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko return false; 71580d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko } 71590d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko TypeInfo.Type = I->getMatchingCType(); 71600d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko TypeInfo.LayoutCompatible = I->getLayoutCompatible(); 71610d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko TypeInfo.MustBeNull = I->getMustBeNull(); 71620d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko return true; 71630d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko } 71640d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko return false; 71650d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko } 71660d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko 71670d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko if (!MagicValues) 71680d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko return false; 71690d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko 71700d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko llvm::DenseMap<Sema::TypeTagMagicValue, 71710d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko Sema::TypeTagData>::const_iterator I = 71720d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko MagicValues->find(std::make_pair(ArgumentKind, MagicValue)); 71730d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko if (I == MagicValues->end()) 71740d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko return false; 71750d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko 71760d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko TypeInfo = I->second; 71770d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko return true; 71780d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko} 71790d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko} // unnamed namespace 71800d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko 71810d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenkovoid Sema::RegisterTypeTagForDatatype(const IdentifierInfo *ArgumentKind, 71820d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko uint64_t MagicValue, QualType Type, 71830d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko bool LayoutCompatible, 71840d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko bool MustBeNull) { 71850d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko if (!TypeTagForDatatypeMagicValues) 71860d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko TypeTagForDatatypeMagicValues.reset( 71870d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko new llvm::DenseMap<TypeTagMagicValue, TypeTagData>); 71880d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko 71890d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko TypeTagMagicValue Magic(ArgumentKind, MagicValue); 71900d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko (*TypeTagForDatatypeMagicValues)[Magic] = 71910d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko TypeTagData(Type, LayoutCompatible, MustBeNull); 71920d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko} 71930d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko 71940d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenkonamespace { 71950d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenkobool IsSameCharType(QualType T1, QualType T2) { 71960d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko const BuiltinType *BT1 = T1->getAs<BuiltinType>(); 71970d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko if (!BT1) 71980d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko return false; 71990d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko 72000d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko const BuiltinType *BT2 = T2->getAs<BuiltinType>(); 72010d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko if (!BT2) 72020d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko return false; 72030d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko 72040d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko BuiltinType::Kind T1Kind = BT1->getKind(); 72050d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko BuiltinType::Kind T2Kind = BT2->getKind(); 72060d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko 72070d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko return (T1Kind == BuiltinType::SChar && T2Kind == BuiltinType::Char_S) || 72080d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko (T1Kind == BuiltinType::UChar && T2Kind == BuiltinType::Char_U) || 72090d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko (T1Kind == BuiltinType::Char_U && T2Kind == BuiltinType::UChar) || 72100d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko (T1Kind == BuiltinType::Char_S && T2Kind == BuiltinType::SChar); 72110d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko} 72120d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko} // unnamed namespace 72130d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko 72140d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenkovoid Sema::CheckArgumentWithTypeTag(const ArgumentWithTypeTagAttr *Attr, 72150d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko const Expr * const *ExprArgs) { 72160d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko const IdentifierInfo *ArgumentKind = Attr->getArgumentKind(); 72170d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko bool IsPointerAttr = Attr->getIsPointer(); 72180d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko 72190d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko const Expr *TypeTagExpr = ExprArgs[Attr->getTypeTagIdx()]; 72200d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko bool FoundWrongKind; 72210d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko TypeTagData TypeInfo; 72220d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko if (!GetMatchingCType(ArgumentKind, TypeTagExpr, Context, 72230d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko TypeTagForDatatypeMagicValues.get(), 72240d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko FoundWrongKind, TypeInfo)) { 72250d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko if (FoundWrongKind) 72260d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko Diag(TypeTagExpr->getExprLoc(), 72270d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko diag::warn_type_tag_for_datatype_wrong_kind) 72280d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko << TypeTagExpr->getSourceRange(); 72290d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko return; 72300d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko } 72310d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko 72320d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko const Expr *ArgumentExpr = ExprArgs[Attr->getArgumentIdx()]; 72330d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko if (IsPointerAttr) { 72340d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko // Skip implicit cast of pointer to `void *' (as a function argument). 72350d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko if (const ImplicitCastExpr *ICE = dyn_cast<ImplicitCastExpr>(ArgumentExpr)) 72365a24980d059cd9fbe8375a4c549313101ad20698Dmitri Gribenko if (ICE->getType()->isVoidPointerType() && 7237b57ce4e8918656f5f4070f59d74354fcefbbb6f8Dmitri Gribenko ICE->getCastKind() == CK_BitCast) 72380d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko ArgumentExpr = ICE->getSubExpr(); 72390d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko } 72400d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko QualType ArgumentType = ArgumentExpr->getType(); 72410d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko 72420d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko // Passing a `void*' pointer shouldn't trigger a warning. 72430d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko if (IsPointerAttr && ArgumentType->isVoidPointerType()) 72440d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko return; 72450d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko 72460d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko if (TypeInfo.MustBeNull) { 72470d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko // Type tag with matching void type requires a null pointer. 72480d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko if (!ArgumentExpr->isNullPointerConstant(Context, 72490d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko Expr::NPC_ValueDependentIsNotNull)) { 72500d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko Diag(ArgumentExpr->getExprLoc(), 72510d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko diag::warn_type_safety_null_pointer_required) 72520d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko << ArgumentKind->getName() 72530d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko << ArgumentExpr->getSourceRange() 72540d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko << TypeTagExpr->getSourceRange(); 72550d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko } 72560d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko return; 72570d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko } 72580d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko 72590d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko QualType RequiredType = TypeInfo.Type; 72600d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko if (IsPointerAttr) 72610d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko RequiredType = Context.getPointerType(RequiredType); 72620d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko 72630d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko bool mismatch = false; 72640d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko if (!TypeInfo.LayoutCompatible) { 72650d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko mismatch = !Context.hasSameType(ArgumentType, RequiredType); 72660d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko 72670d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko // C++11 [basic.fundamental] p1: 72680d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko // Plain char, signed char, and unsigned char are three distinct types. 72690d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko // 72700d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko // But we treat plain `char' as equivalent to `signed char' or `unsigned 72710d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko // char' depending on the current char signedness mode. 72720d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko if (mismatch) 72730d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko if ((IsPointerAttr && IsSameCharType(ArgumentType->getPointeeType(), 72740d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko RequiredType->getPointeeType())) || 72750d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko (!IsPointerAttr && IsSameCharType(ArgumentType, RequiredType))) 72760d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko mismatch = false; 72770d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko } else 72780d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko if (IsPointerAttr) 72790d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko mismatch = !isLayoutCompatible(Context, 72800d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko ArgumentType->getPointeeType(), 72810d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko RequiredType->getPointeeType()); 72820d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko else 72830d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko mismatch = !isLayoutCompatible(Context, ArgumentType, RequiredType); 72840d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko 72850d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko if (mismatch) 72860d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko Diag(ArgumentExpr->getExprLoc(), diag::warn_type_safety_type_mismatch) 72870d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko << ArgumentType << ArgumentKind->getName() 72880d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko << TypeInfo.LayoutCompatible << RequiredType 72890d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko << ArgumentExpr->getSourceRange() 72900d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko << TypeTagExpr->getSourceRange(); 72910d5a069f66df09b3308ccfdce84a88170034c657Dmitri Gribenko} 7292