Index: cfe/trunk/lib/CodeGen/PatternInit.cpp =================================================================== --- cfe/trunk/lib/CodeGen/PatternInit.cpp +++ cfe/trunk/lib/CodeGen/PatternInit.cpp @@ -17,12 +17,13 @@ // repeated byte-pattern which makes it easier to synthesize. We use it for // pointers as well as integers so that aggregates are likely to be // initialized with this repeated value. - constexpr uint64_t LargeValue = 0xAAAAAAAAAAAAAAAAull; // For 32-bit platforms it's a bit trickier because, across systems, only the - // zero page can reasonably be expected to be unmapped, and even then we need - // a very low address. We use a smaller value, and that value sadly doesn't - // have a repeated byte-pattern. We don't use it for integers. - constexpr uint32_t SmallValue = 0x000000AA; + // zero page can reasonably be expected to be unmapped. We use max 0xFFFFFFFF + // assuming that memory access will overlap into zero page. + const uint64_t IntValue = + CGM.getContext().getTargetInfo().getMaxPointerWidth() < 64 + ? 0xFFFFFFFFFFFFFFFFull + : 0xAAAAAAAAAAAAAAAAull; // Floating-point values are initialized as NaNs because they propagate. Using // a repeated byte pattern means that it will be easier to initialize // all-floating-point aggregates and arrays with memset. Further, aggregates @@ -36,27 +37,18 @@ Ty->isVectorTy() ? Ty->getVectorElementType() : Ty) ->getBitWidth(); if (BitWidth <= 64) - return llvm::ConstantInt::get(Ty, LargeValue); + return llvm::ConstantInt::get(Ty, IntValue); return llvm::ConstantInt::get( - Ty, llvm::APInt::getSplat(BitWidth, llvm::APInt(64, LargeValue))); + Ty, llvm::APInt::getSplat(BitWidth, llvm::APInt(64, IntValue))); } if (Ty->isPtrOrPtrVectorTy()) { auto *PtrTy = cast( Ty->isVectorTy() ? Ty->getVectorElementType() : Ty); unsigned PtrWidth = CGM.getContext().getTargetInfo().getPointerWidth( PtrTy->getAddressSpace()); - llvm::Type *IntTy = llvm::IntegerType::get(CGM.getLLVMContext(), PtrWidth); - uint64_t IntValue; - switch (PtrWidth) { - default: + if (PtrWidth > 64) llvm_unreachable("pattern initialization of unsupported pointer width"); - case 64: - IntValue = LargeValue; - break; - case 32: - IntValue = SmallValue; - break; - } + llvm::Type *IntTy = llvm::IntegerType::get(CGM.getLLVMContext(), PtrWidth); auto *Int = llvm::ConstantInt::get(IntTy, IntValue); return llvm::ConstantExpr::getIntToPtr(Int, PtrTy); } Index: cfe/trunk/test/CodeGenCXX/auto-var-init.cpp =================================================================== --- cfe/trunk/test/CodeGenCXX/auto-var-init.cpp +++ cfe/trunk/test/CodeGenCXX/auto-var-init.cpp @@ -12,7 +12,7 @@ #ifdef __x86_64__ char inits[] = {"-86/-21846/-1431655766/i64/-6148914691236517206/-6148914691236517206/i128/-113427455640312821154458202477256070486/i64/-6148914691236517206/AA/"}; #else -char inits[] = {"-86/-21846/-1431655766/i32/-1431655766/-6148914691236517206/i32/-1431655766/i32/170/AA/"}; +char inits[] = {"-1/-1/-1/i32/-1/-1/i32/-1/i32/-1/FF/"}; #define __int128 int; #endif // PATTERN: @inits = {{.*}} c"[[I8:[^/]+]]/[[I16:[^/]+]]/[[I32:[^/]+]]/[[ILONGT:[^/]+]]/[[ILONG:[^/]+]]/[[I64:[^/]+]]/[[I128T:[^/]+]]/[[I128:[^/]+]]/[[IPTRT:[^/]+]]/[[IPTR:[^/]+]]/[[IC:[^/]+]]/\00", align 1