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Pull in r221170 from upstream clang trunk (by Roman Divacky):

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Implement vaarg lowering for ppc32. Lowering of scalars and
  aggregates is supported. Complex numbers are not.

This adds va_args support for PowerPC (32 bit) to clang.

Reviewed by:	jhibbits
MFC after:	3 days
Differential Revision: https://reviews.freebsd.org/D1308
This commit is contained in:
dim 2014-12-14 13:38:10 +00:00
parent 9bf8c0f790
commit ae8b564996
1 changed files with 101 additions and 3 deletions
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104
contrib/llvm/tools/clang/lib/CodeGen/TargetInfo.cpp
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@ -2733,11 +2733,19 @@ llvm::Value *NaClX86_64ABIInfo::EmitVAArg(llvm::Value *VAListAddr, QualType Ty,
// PowerPC-32
namespace {
class PPC32TargetCodeGenInfo : public DefaultTargetCodeGenInfo {
/// PPC32_SVR4_ABIInfo - The 32-bit PowerPC ELF (SVR4) ABI information.
class PPC32_SVR4_ABIInfo : public DefaultABIInfo {
public:
PPC32TargetCodeGenInfo(CodeGenTypes &CGT) : DefaultTargetCodeGenInfo(CGT) {}
PPC32_SVR4_ABIInfo(CodeGen::CodeGenTypes &CGT) : DefaultABIInfo(CGT) {}
llvm::Value *EmitVAArg(llvm::Value *VAListAddr, QualType Ty,
CodeGenFunction &CGF) const;
};
class PPC32TargetCodeGenInfo : public TargetCodeGenInfo {
public:
PPC32TargetCodeGenInfo(CodeGenTypes &CGT) : TargetCodeGenInfo(new PPC32_SVR4_ABIInfo(CGT)) {}
int getDwarfEHStackPointer(CodeGen::CodeGenModule &M) const {
// This is recovered from gcc output.
@ -2750,6 +2758,96 @@ class PPC32TargetCodeGenInfo : public DefaultTargetCodeGenInfo {
}
llvm::Value *PPC32_SVR4_ABIInfo::EmitVAArg(llvm::Value *VAListAddr,
QualType Ty,
CodeGenFunction &CGF) const {
if (const ComplexType *CTy = Ty->getAs<ComplexType>()) {
// TODO: Implement this. For now ignore.
(void)CTy;
return NULL;
}
bool isI64 = Ty->isIntegerType() && getContext().getTypeSize(Ty) == 64;
bool isInt = Ty->isIntegerType() || Ty->isPointerType() || Ty->isAggregateType();
llvm::Type *CharPtr = CGF.Int8PtrTy;
llvm::Type *CharPtrPtr = CGF.Int8PtrPtrTy;
CGBuilderTy &Builder = CGF.Builder;
llvm::Value *GPRPtr = Builder.CreateBitCast(VAListAddr, CharPtr, "gprptr");
llvm::Value *GPRPtrAsInt = Builder.CreatePtrToInt(GPRPtr, CGF.Int32Ty);
llvm::Value *FPRPtrAsInt = Builder.CreateAdd(GPRPtrAsInt, Builder.getInt32(1));
llvm::Value *FPRPtr = Builder.CreateIntToPtr(FPRPtrAsInt, CharPtr);
llvm::Value *OverflowAreaPtrAsInt = Builder.CreateAdd(FPRPtrAsInt, Builder.getInt32(3));
llvm::Value *OverflowAreaPtr = Builder.CreateIntToPtr(OverflowAreaPtrAsInt, CharPtrPtr);
llvm::Value *RegsaveAreaPtrAsInt = Builder.CreateAdd(OverflowAreaPtrAsInt, Builder.getInt32(4));
llvm::Value *RegsaveAreaPtr = Builder.CreateIntToPtr(RegsaveAreaPtrAsInt, CharPtrPtr);
llvm::Value *GPR = Builder.CreateLoad(GPRPtr, false, "gpr");
// Align GPR when TY is i64.
if (isI64) {
llvm::Value *GPRAnd = Builder.CreateAnd(GPR, Builder.getInt8(1));
llvm::Value *CC64 = Builder.CreateICmpEQ(GPRAnd, Builder.getInt8(1));
llvm::Value *GPRPlusOne = Builder.CreateAdd(GPR, Builder.getInt8(1));
GPR = Builder.CreateSelect(CC64, GPRPlusOne, GPR);
}
llvm::Value *FPR = Builder.CreateLoad(FPRPtr, false, "fpr");
llvm::Value *OverflowArea = Builder.CreateLoad(OverflowAreaPtr, false, "overflow_area");
llvm::Value *OverflowAreaAsInt = Builder.CreatePtrToInt(OverflowArea, CGF.Int32Ty);
llvm::Value *RegsaveArea = Builder.CreateLoad(RegsaveAreaPtr, false, "regsave_area");
llvm::Value *RegsaveAreaAsInt = Builder.CreatePtrToInt(RegsaveArea, CGF.Int32Ty);
llvm::Value *CC = Builder.CreateICmpULT(isInt ? GPR : FPR,
Builder.getInt8(8), "cond");
llvm::Value *RegConstant = Builder.CreateMul(isInt ? GPR : FPR,
Builder.getInt8(isInt ? 4 : 8));
llvm::Value *OurReg = Builder.CreateAdd(RegsaveAreaAsInt, Builder.CreateSExt(RegConstant, CGF.Int32Ty));
if (Ty->isFloatingType())
OurReg = Builder.CreateAdd(OurReg, Builder.getInt32(32));
llvm::BasicBlock *UsingRegs = CGF.createBasicBlock("using_regs");
llvm::BasicBlock *UsingOverflow = CGF.createBasicBlock("using_overflow");
llvm::BasicBlock *Cont = CGF.createBasicBlock("cont");
Builder.CreateCondBr(CC, UsingRegs, UsingOverflow);
CGF.EmitBlock(UsingRegs);
llvm::Type *PTy = llvm::PointerType::getUnqual(CGF.ConvertType(Ty));
llvm::Value *Result1 = Builder.CreateIntToPtr(OurReg, PTy);
// Increase the GPR/FPR indexes.
if (isInt) {
GPR = Builder.CreateAdd(GPR, Builder.getInt8(isI64 ? 2 : 1));
Builder.CreateStore(GPR, GPRPtr);
} else {
FPR = Builder.CreateAdd(FPR, Builder.getInt8(1));
Builder.CreateStore(FPR, FPRPtr);
}
CGF.EmitBranch(Cont);
CGF.EmitBlock(UsingOverflow);
// Increase the overflow area.
llvm::Value *Result2 = Builder.CreateIntToPtr(OverflowAreaAsInt, PTy);
OverflowAreaAsInt = Builder.CreateAdd(OverflowAreaAsInt, Builder.getInt32(isInt ? 4 : 8));
Builder.CreateStore(Builder.CreateIntToPtr(OverflowAreaAsInt, CharPtr), OverflowAreaPtr);
CGF.EmitBranch(Cont);
CGF.EmitBlock(Cont);
llvm::PHINode *Result = CGF.Builder.CreatePHI(PTy, 2, "vaarg.addr");
Result->addIncoming(Result1, UsingRegs);
Result->addIncoming(Result2, UsingOverflow);
if (Ty->isAggregateType()) {
llvm::Value *AGGPtr = Builder.CreateBitCast(Result, CharPtrPtr, "aggrptr") ;
return Builder.CreateLoad(AGGPtr, false, "aggr");
}
return Result;
}
bool
PPC32TargetCodeGenInfo::initDwarfEHRegSizeTable(CodeGen::CodeGenFunction &CGF,
llvm::Value *Address) const {