Blame - llvm/lib/Target/X86/X86ISelLowering.cpp - toolchain/llvm-project

2005-11-15 00:40:23 +0000

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//===-- X86ISelLowering.h - X86 DAG Lowering Interface ----------*- C++ -*-===//

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//

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// The LLVM Compiler Infrastructure

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//

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// This file was developed by Chris Lattner and is distributed under

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// the University of Illinois Open Source License. See LICENSE.TXT for details.

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//

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//===----------------------------------------------------------------------===//

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//

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// This file defines the interfaces that X86 uses to lower LLVM code into a

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// selection DAG.

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//

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//===----------------------------------------------------------------------===//

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#include "X86.h"

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#include "X86InstrBuilder.h"

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#include "X86ISelLowering.h"

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#include "X86TargetMachine.h"

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#include "llvm/CallingConv.h"

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#include "llvm/Constants.h"

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#include "llvm/Function.h"

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#include "llvm/Intrinsics.h"

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#include "llvm/ADT/VectorExtras.h"

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#include "llvm/Analysis/ScalarEvolutionExpressions.h"

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#include "llvm/CodeGen/MachineFrameInfo.h"

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#include "llvm/CodeGen/MachineFunction.h"

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#include "llvm/CodeGen/MachineInstrBuilder.h"

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#include "llvm/CodeGen/SelectionDAG.h"

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#include "llvm/CodeGen/SSARegMap.h"

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#include "llvm/Support/MathExtras.h"

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#include "llvm/Target/TargetOptions.h"

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using namespace llvm;

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// FIXME: temporary.

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#include "llvm/Support/CommandLine.h"

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static cl::opt<bool> EnableFastCC("enable-x86-fastcc", cl::Hidden,

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cl::desc("Enable fastcc on X86"));

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X86TargetLowering::X86TargetLowering(TargetMachine &TM)

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: TargetLowering(TM) {

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Subtarget = &TM.getSubtarget<X86Subtarget>();

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X86ScalarSSE = Subtarget->hasSSE2();

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// Set up the TargetLowering object.

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// X86 is weird, it always uses i8 for shift amounts and setcc results.

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setShiftAmountType(MVT::i8);

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setSetCCResultType(MVT::i8);

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setSetCCResultContents(ZeroOrOneSetCCResult);

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setSchedulingPreference(SchedulingForRegPressure);

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setShiftAmountFlavor(Mask); // shl X, 32 == shl X, 0

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setStackPointerRegisterToSaveRestore(X86::ESP);

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if (!Subtarget->isTargetDarwin())

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// Darwin should use _setjmp/_longjmp instead of setjmp/longjmp.

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setUseUnderscoreSetJmpLongJmp(true);

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// Add legal addressing mode scale values.

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addLegalAddressScale(8);

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addLegalAddressScale(4);

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addLegalAddressScale(2);

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// Enter the ones which require both scale + index last. These are more

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// expensive.

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addLegalAddressScale(9);

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addLegalAddressScale(5);

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addLegalAddressScale(3);

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// Set up the register classes.

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addRegisterClass(MVT::i8, X86::R8RegisterClass);

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addRegisterClass(MVT::i16, X86::R16RegisterClass);

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addRegisterClass(MVT::i32, X86::R32RegisterClass);

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// Promote all UINT_TO_FP to larger SINT_TO_FP's, as X86 doesn't have this

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// operation.

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setOperationAction(ISD::UINT_TO_FP , MVT::i1 , Promote);

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setOperationAction(ISD::UINT_TO_FP , MVT::i8 , Promote);

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setOperationAction(ISD::UINT_TO_FP , MVT::i16 , Promote);

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if (X86ScalarSSE)

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// No SSE i64 SINT_TO_FP, so expand i32 UINT_TO_FP instead.

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setOperationAction(ISD::UINT_TO_FP , MVT::i32 , Expand);

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else

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setOperationAction(ISD::UINT_TO_FP , MVT::i32 , Promote);

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// Promote i1/i8 SINT_TO_FP to larger SINT_TO_FP's, as X86 doesn't have

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// this operation.

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setOperationAction(ISD::SINT_TO_FP , MVT::i1 , Promote);

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setOperationAction(ISD::SINT_TO_FP , MVT::i8 , Promote);

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// SSE has no i16 to fp conversion, only i32

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if (X86ScalarSSE)

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setOperationAction(ISD::SINT_TO_FP , MVT::i16 , Promote);

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else {

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setOperationAction(ISD::SINT_TO_FP , MVT::i16 , Custom);

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setOperationAction(ISD::SINT_TO_FP , MVT::i32 , Custom);

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}

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// We can handle SINT_TO_FP and FP_TO_SINT from/to i64 even though i64

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// isn't legal.

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setOperationAction(ISD::SINT_TO_FP , MVT::i64 , Custom);

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setOperationAction(ISD::FP_TO_SINT , MVT::i64 , Custom);

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// Promote i1/i8 FP_TO_SINT to larger FP_TO_SINTS's, as X86 doesn't have

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// this operation.

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setOperationAction(ISD::FP_TO_SINT , MVT::i1 , Promote);

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setOperationAction(ISD::FP_TO_SINT , MVT::i8 , Promote);

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if (X86ScalarSSE) {

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setOperationAction(ISD::FP_TO_SINT , MVT::i16 , Promote);

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} else {

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setOperationAction(ISD::FP_TO_SINT , MVT::i16 , Custom);

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setOperationAction(ISD::FP_TO_SINT , MVT::i32 , Custom);

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}

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// Handle FP_TO_UINT by promoting the destination to a larger signed

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// conversion.

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setOperationAction(ISD::FP_TO_UINT , MVT::i1 , Promote);

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setOperationAction(ISD::FP_TO_UINT , MVT::i8 , Promote);

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setOperationAction(ISD::FP_TO_UINT , MVT::i16 , Promote);

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if (X86ScalarSSE && !Subtarget->hasSSE3())

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// Expand FP_TO_UINT into a select.

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// FIXME: We would like to use a Custom expander here eventually to do

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// the optimal thing for SSE vs. the default expansion in the legalizer.

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setOperationAction(ISD::FP_TO_UINT , MVT::i32 , Expand);

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else

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// With SSE3 we can use fisttpll to convert to a signed i64.

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setOperationAction(ISD::FP_TO_UINT , MVT::i32 , Promote);

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setOperationAction(ISD::BIT_CONVERT , MVT::f32 , Expand);

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setOperationAction(ISD::BIT_CONVERT , MVT::i32 , Expand);

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setOperationAction(ISD::BRCOND , MVT::Other, Custom);

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setOperationAction(ISD::BR_CC , MVT::Other, Expand);

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setOperationAction(ISD::SELECT_CC , MVT::Other, Expand);

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setOperationAction(ISD::MEMMOVE , MVT::Other, Expand);

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setOperationAction(ISD::SIGN_EXTEND_INREG, MVT::i16 , Expand);

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setOperationAction(ISD::SIGN_EXTEND_INREG, MVT::i8 , Expand);

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setOperationAction(ISD::SIGN_EXTEND_INREG, MVT::i1 , Expand);

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setOperationAction(ISD::FP_ROUND_INREG , MVT::f32 , Expand);

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setOperationAction(ISD::SEXTLOAD , MVT::i1 , Expand);

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setOperationAction(ISD::FREM , MVT::f64 , Expand);

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setOperationAction(ISD::CTPOP , MVT::i8 , Expand);

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setOperationAction(ISD::CTTZ , MVT::i8 , Expand);

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setOperationAction(ISD::CTLZ , MVT::i8 , Expand);

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setOperationAction(ISD::CTPOP , MVT::i16 , Expand);

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setOperationAction(ISD::CTTZ , MVT::i16 , Expand);

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setOperationAction(ISD::CTLZ , MVT::i16 , Expand);

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setOperationAction(ISD::CTPOP , MVT::i32 , Expand);

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setOperationAction(ISD::CTTZ , MVT::i32 , Expand);

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setOperationAction(ISD::CTLZ , MVT::i32 , Expand);

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setOperationAction(ISD::READCYCLECOUNTER , MVT::i64 , Custom);

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setOperationAction(ISD::BSWAP , MVT::i16 , Expand);

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// These should be promoted to a larger select which is supported.

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setOperationAction(ISD::SELECT , MVT::i1 , Promote);

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setOperationAction(ISD::SELECT , MVT::i8 , Promote);

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// X86 wants to expand cmov itself.

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setOperationAction(ISD::SELECT , MVT::i16 , Custom);

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setOperationAction(ISD::SELECT , MVT::i32 , Custom);

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setOperationAction(ISD::SELECT , MVT::f32 , Custom);

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setOperationAction(ISD::SELECT , MVT::f64 , Custom);

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setOperationAction(ISD::SETCC , MVT::i8 , Custom);

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setOperationAction(ISD::SETCC , MVT::i16 , Custom);

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setOperationAction(ISD::SETCC , MVT::i32 , Custom);

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setOperationAction(ISD::SETCC , MVT::f32 , Custom);

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setOperationAction(ISD::SETCC , MVT::f64 , Custom);

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// X86 ret instruction may pop stack.

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setOperationAction(ISD::RET , MVT::Other, Custom);

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// Darwin ABI issue.

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setOperationAction(ISD::ConstantPool , MVT::i32 , Custom);

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setOperationAction(ISD::GlobalAddress , MVT::i32 , Custom);

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setOperationAction(ISD::ExternalSymbol , MVT::i32 , Custom);

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// 64-bit addm sub, shl, sra, srl (iff 32-bit x86)

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setOperationAction(ISD::SHL_PARTS , MVT::i32 , Custom);

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setOperationAction(ISD::SRA_PARTS , MVT::i32 , Custom);

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setOperationAction(ISD::SRL_PARTS , MVT::i32 , Custom);

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// X86 wants to expand memset / memcpy itself.

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setOperationAction(ISD::MEMSET , MVT::Other, Custom);

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setOperationAction(ISD::MEMCPY , MVT::Other, Custom);

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// We don't have line number support yet.

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setOperationAction(ISD::LOCATION, MVT::Other, Expand);

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setOperationAction(ISD::DEBUG_LOC, MVT::Other, Expand);

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// FIXME - use subtarget debug flags

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if (!Subtarget->isTargetDarwin())

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setOperationAction(ISD::DEBUG_LABEL, MVT::Other, Expand);

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// VASTART needs to be custom lowered to use the VarArgsFrameIndex

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setOperationAction(ISD::VASTART , MVT::Other, Custom);

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// Use the default implementation.

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setOperationAction(ISD::VAARG , MVT::Other, Expand);

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setOperationAction(ISD::VACOPY , MVT::Other, Expand);

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setOperationAction(ISD::VAEND , MVT::Other, Expand);

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setOperationAction(ISD::STACKSAVE, MVT::Other, Expand);

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setOperationAction(ISD::STACKRESTORE, MVT::Other, Expand);

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setOperationAction(ISD::DYNAMIC_STACKALLOC, MVT::i32 , Expand);

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setOperationAction(ISD::FCOPYSIGN, MVT::f64, Expand);

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setOperationAction(ISD::FCOPYSIGN, MVT::f32, Expand);

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if (X86ScalarSSE) {

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// Set up the FP register classes.

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addRegisterClass(MVT::f32, X86::FR32RegisterClass);

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addRegisterClass(MVT::f64, X86::FR64RegisterClass);

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// SSE has no load+extend ops

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setOperationAction(ISD::EXTLOAD, MVT::f32, Expand);

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setOperationAction(ISD::ZEXTLOAD, MVT::f32, Expand);

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// Use ANDPD to simulate FABS.

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setOperationAction(ISD::FABS , MVT::f64, Custom);

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setOperationAction(ISD::FABS , MVT::f32, Custom);

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// Use XORP to simulate FNEG.

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setOperationAction(ISD::FNEG , MVT::f64, Custom);

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setOperationAction(ISD::FNEG , MVT::f32, Custom);

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// We don't support sin/cos/fmod

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setOperationAction(ISD::FSIN , MVT::f64, Expand);

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setOperationAction(ISD::FCOS , MVT::f64, Expand);

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setOperationAction(ISD::FREM , MVT::f64, Expand);

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setOperationAction(ISD::FSIN , MVT::f32, Expand);

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setOperationAction(ISD::FCOS , MVT::f32, Expand);

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setOperationAction(ISD::FREM , MVT::f32, Expand);

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// Expand FP immediates into loads from the stack, except for the special

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// cases we handle.

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setOperationAction(ISD::ConstantFP, MVT::f64, Expand);

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setOperationAction(ISD::ConstantFP, MVT::f32, Expand);

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addLegalFPImmediate(+0.0); // xorps / xorpd

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} else {

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// Set up the FP register classes.

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addRegisterClass(MVT::f64, X86::RFPRegisterClass);

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setOperationAction(ISD::UNDEF, MVT::f64, Expand);

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if (!UnsafeFPMath) {

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setOperationAction(ISD::FSIN , MVT::f64 , Expand);

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setOperationAction(ISD::FCOS , MVT::f64 , Expand);

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}

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setOperationAction(ISD::ConstantFP, MVT::f64, Expand);

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addLegalFPImmediate(+0.0); // FLD0

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addLegalFPImmediate(+1.0); // FLD1

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addLegalFPImmediate(-0.0); // FLD0/FCHS

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addLegalFPImmediate(-1.0); // FLD1/FCHS

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}

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// First set operation action for all vector types to expand. Then we

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// will selectively turn on ones that can be effectively codegen'd.

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for (unsigned VT = (unsigned)MVT::Vector + 1;

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VT != (unsigned)MVT::LAST_VALUETYPE; VT++) {

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setOperationAction(ISD::ADD , (MVT::ValueType)VT, Expand);

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setOperationAction(ISD::SUB , (MVT::ValueType)VT, Expand);

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setOperationAction(ISD::MUL , (MVT::ValueType)VT, Expand);

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setOperationAction(ISD::LOAD, (MVT::ValueType)VT, Expand);

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setOperationAction(ISD::VECTOR_SHUFFLE, (MVT::ValueType)VT, Expand);

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setOperationAction(ISD::EXTRACT_VECTOR_ELT, (MVT::ValueType)VT, Expand);

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setOperationAction(ISD::INSERT_VECTOR_ELT, (MVT::ValueType)VT, Expand);

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}

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if (Subtarget->hasMMX()) {

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addRegisterClass(MVT::v8i8, X86::VR64RegisterClass);

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addRegisterClass(MVT::v4i16, X86::VR64RegisterClass);

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addRegisterClass(MVT::v2i32, X86::VR64RegisterClass);

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// FIXME: add MMX packed arithmetics

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setOperationAction(ISD::BUILD_VECTOR, MVT::v8i8, Expand);

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setOperationAction(ISD::BUILD_VECTOR, MVT::v4i16, Expand);

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setOperationAction(ISD::BUILD_VECTOR, MVT::v2i32, Expand);

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}

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if (Subtarget->hasSSE1()) {

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addRegisterClass(MVT::v4f32, X86::VR128RegisterClass);

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setOperationAction(ISD::AND, MVT::v4f32, Legal);

279

setOperationAction(ISD::OR, MVT::v4f32, Legal);

280

setOperationAction(ISD::XOR, MVT::v4f32, Legal);

Evan Cheng

2006-04-10 07:23:14 +0000

[diff] [blame]

281

setOperationAction(ISD::ADD, MVT::v4f32, Legal);

282

setOperationAction(ISD::SUB, MVT::v4f32, Legal);

283

setOperationAction(ISD::MUL, MVT::v4f32, Legal);

284

setOperationAction(ISD::LOAD, MVT::v4f32, Legal);

285

setOperationAction(ISD::BUILD_VECTOR, MVT::v4f32, Custom);

286

setOperationAction(ISD::VECTOR_SHUFFLE, MVT::v4f32, Custom);

Evan Cheng

2006-04-03 20:53:28 +0000

[diff] [blame]

287

setOperationAction(ISD::EXTRACT_VECTOR_ELT, MVT::v4f32, Custom);

Evan Cheng

2006-04-10 07:23:14 +0000

[diff] [blame]

288

setOperationAction(ISD::SELECT, MVT::v4f32, Custom);

Evan Cheng

2006-02-22 02:26:30 +0000

[diff] [blame]

289

}

290

Evan Cheng

2006-03-22 19:22:18 +0000

[diff] [blame]

291

if (Subtarget->hasSSE2()) {

Evan Cheng

2006-02-22 02:26:30 +0000

[diff] [blame]

292

addRegisterClass(MVT::v2f64, X86::VR128RegisterClass);

293

addRegisterClass(MVT::v16i8, X86::VR128RegisterClass);

294

addRegisterClass(MVT::v8i16, X86::VR128RegisterClass);

295

addRegisterClass(MVT::v4i32, X86::VR128RegisterClass);

296

addRegisterClass(MVT::v2i64, X86::VR128RegisterClass);

297

Evan Cheng

2006-04-10 07:23:14 +0000

[diff] [blame]

298

setOperationAction(ISD::ADD, MVT::v2f64, Legal);

299

setOperationAction(ISD::ADD, MVT::v16i8, Legal);

300

setOperationAction(ISD::ADD, MVT::v8i16, Legal);

301

setOperationAction(ISD::ADD, MVT::v4i32, Legal);

302

setOperationAction(ISD::SUB, MVT::v2f64, Legal);

303

setOperationAction(ISD::SUB, MVT::v16i8, Legal);

304

setOperationAction(ISD::SUB, MVT::v8i16, Legal);

305

setOperationAction(ISD::SUB, MVT::v4i32, Legal);

Evan Cheng

e4f97cc

2006-04-13 05:10:25 +0000

[diff] [blame]

306

setOperationAction(ISD::MUL, MVT::v8i16, Legal);

Evan Cheng

2006-04-10 07:23:14 +0000

[diff] [blame]

307

setOperationAction(ISD::MUL, MVT::v2f64, Legal);

Evan Cheng

2006-04-12 21:21:57 +0000

[diff] [blame]

308

Evan Cheng

2006-04-10 07:23:14 +0000

[diff] [blame]

309

setOperationAction(ISD::SCALAR_TO_VECTOR, MVT::v16i8, Custom);

310

setOperationAction(ISD::SCALAR_TO_VECTOR, MVT::v8i16, Custom);

Evan Cheng

2006-03-31 19:22:53 +0000

[diff] [blame]

311

setOperationAction(ISD::INSERT_VECTOR_ELT, MVT::v8i16, Custom);

Evan Cheng

2006-04-17 22:04:06 +0000

[diff] [blame]

312

setOperationAction(ISD::INSERT_VECTOR_ELT, MVT::v4i32, Custom);

313

// Implement v4f32 insert_vector_elt in terms of SSE2 v8i16 ones.

314

setOperationAction(ISD::INSERT_VECTOR_ELT, MVT::v4f32, Custom);

Evan Cheng

2006-04-10 07:23:14 +0000

[diff] [blame]

315

Evan Cheng

2006-04-12 21:21:57 +0000

[diff] [blame]

316

// Custom lower build_vector, vector_shuffle, and extract_vector_elt.

317

for (unsigned VT = (unsigned)MVT::v16i8; VT != (unsigned)MVT::v2i64; VT++) {

318

setOperationAction(ISD::BUILD_VECTOR, (MVT::ValueType)VT, Custom);

319

setOperationAction(ISD::VECTOR_SHUFFLE, (MVT::ValueType)VT, Custom);

320

setOperationAction(ISD::EXTRACT_VECTOR_ELT, (MVT::ValueType)VT, Custom);

321

}

322

setOperationAction(ISD::BUILD_VECTOR, MVT::v2f64, Custom);

323

setOperationAction(ISD::BUILD_VECTOR, MVT::v2i64, Custom);

324

setOperationAction(ISD::VECTOR_SHUFFLE, MVT::v2f64, Custom);

325

setOperationAction(ISD::VECTOR_SHUFFLE, MVT::v2i64, Custom);

326

setOperationAction(ISD::EXTRACT_VECTOR_ELT, MVT::v2f64, Custom);

327

setOperationAction(ISD::EXTRACT_VECTOR_ELT, MVT::v2i64, Custom);

328

329

// Promote v16i8, v8i16, v4i32 load, select, and, or, xor to v2i64.

330

for (unsigned VT = (unsigned)MVT::v16i8; VT != (unsigned)MVT::v2i64; VT++) {

331

setOperationAction(ISD::AND, (MVT::ValueType)VT, Promote);

332

AddPromotedToType (ISD::AND, (MVT::ValueType)VT, MVT::v2i64);

333

setOperationAction(ISD::OR, (MVT::ValueType)VT, Promote);

334

AddPromotedToType (ISD::OR, (MVT::ValueType)VT, MVT::v2i64);

335

setOperationAction(ISD::XOR, (MVT::ValueType)VT, Promote);

336

AddPromotedToType (ISD::XOR, (MVT::ValueType)VT, MVT::v2i64);

Evan Cheng

e2157c6

2006-04-12 17:12:36 +0000

[diff] [blame]

337

setOperationAction(ISD::LOAD, (MVT::ValueType)VT, Promote);

338

AddPromotedToType (ISD::LOAD, (MVT::ValueType)VT, MVT::v2i64);

Evan Cheng

2006-04-12 21:21:57 +0000

[diff] [blame]

339

setOperationAction(ISD::SELECT, (MVT::ValueType)VT, Promote);

340

AddPromotedToType (ISD::SELECT, (MVT::ValueType)VT, MVT::v2i64);

Evan Cheng

2006-04-10 07:23:14 +0000

[diff] [blame]

341

}

Evan Cheng

2006-04-12 21:21:57 +0000

[diff] [blame]

342

343

// Custom lower v2i64 and v2f64 selects.

344

setOperationAction(ISD::LOAD, MVT::v2f64, Legal);

Evan Cheng

e2157c6

2006-04-12 17:12:36 +0000

[diff] [blame]

345

setOperationAction(ISD::LOAD, MVT::v2i64, Legal);

Evan Cheng

2006-04-10 07:23:14 +0000

[diff] [blame]

346

setOperationAction(ISD::SELECT, MVT::v2f64, Custom);

Evan Cheng

2006-04-12 21:21:57 +0000

[diff] [blame]

347

setOperationAction(ISD::SELECT, MVT::v2i64, Custom);

Evan Cheng

2006-02-22 02:26:30 +0000

[diff] [blame]

348

}

349

Evan Cheng

2006-04-05 23:38:46 +0000

[diff] [blame]

350

// We want to custom lower some of our intrinsics.

351

setOperationAction(ISD::INTRINSIC_WO_CHAIN, MVT::Other, Custom);

352

Chris Lattner

2005-11-15 00:40:23 +0000

[diff] [blame]

353

computeRegisterProperties();

354

Evan Cheng

6a37456

2006-02-14 08:25:08 +0000

[diff] [blame]

355

// FIXME: These should be based on subtarget info. Plus, the values should

356

// be smaller when we are in optimizing for size mode.

Evan Cheng

4b40a42

2006-02-14 08:38:30 +0000

[diff] [blame]

357

maxStoresPerMemset = 16; // For %llvm.memset -> sequence of stores

358

maxStoresPerMemcpy = 16; // For %llvm.memcpy -> sequence of stores

359

maxStoresPerMemmove = 16; // For %llvm.memmove -> sequence of stores

Chris Lattner

2005-11-15 00:40:23 +0000

[diff] [blame]

360

allowUnalignedMemoryAccesses = true; // x86 supports it!

361

}

362

363

std::vector<SDOperand>

364

X86TargetLowering::LowerArguments(Function &F, SelectionDAG &DAG) {

365

if (F.getCallingConv() == CallingConv::Fast && EnableFastCC)

366

return LowerFastCCArguments(F, DAG);

367

return LowerCCCArguments(F, DAG);

368

}

369

370

std::pair<SDOperand, SDOperand>

371

X86TargetLowering::LowerCallTo(SDOperand Chain, const Type *RetTy,

372

bool isVarArg, unsigned CallingConv,

373

bool isTailCall,

374

SDOperand Callee, ArgListTy &Args,

375

SelectionDAG &DAG) {

376

assert((!isVarArg || CallingConv == CallingConv::C) &&

377

"Only C takes varargs!");

Evan Cheng

2006-01-06 00:43:03 +0000

[diff] [blame]

378

379

// If the callee is a GlobalAddress node (quite common, every direct call is)

380

// turn it into a TargetGlobalAddress node so that legalize doesn't hack it.

381

if (GlobalAddressSDNode *G = dyn_cast<GlobalAddressSDNode>(Callee))

382

Callee = DAG.getTargetGlobalAddress(G->getGlobal(), getPointerTy());

Evan Cheng

bc7a0f44

2006-01-11 06:09:51 +0000

[diff] [blame]

383

else if (ExternalSymbolSDNode *S = dyn_cast<ExternalSymbolSDNode>(Callee))

384

Callee = DAG.getTargetExternalSymbol(S->getSymbol(), getPointerTy());

Evan Cheng

2006-01-06 00:43:03 +0000

[diff] [blame]

385

Chris Lattner

2005-11-15 00:40:23 +0000

[diff] [blame]

386

if (CallingConv == CallingConv::Fast && EnableFastCC)

387

return LowerFastCCCallTo(Chain, RetTy, isTailCall, Callee, Args, DAG);

388

return LowerCCCCallTo(Chain, RetTy, isVarArg, isTailCall, Callee, Args, DAG);

389

}

390

391

//===----------------------------------------------------------------------===//

392

// C Calling Convention implementation

393

//===----------------------------------------------------------------------===//

394

395

std::vector<SDOperand>

396

X86TargetLowering::LowerCCCArguments(Function &F, SelectionDAG &DAG) {

397

std::vector<SDOperand> ArgValues;

398

399

MachineFunction &MF = DAG.getMachineFunction();

400

MachineFrameInfo *MFI = MF.getFrameInfo();

401

402

// Add DAG nodes to load the arguments... On entry to a function on the X86,

403

// the stack frame looks like this:

404

//

405

// [ESP] -- return address

406

// [ESP + 4] -- first argument (leftmost lexically)

407

// [ESP + 8] -- second argument, if first argument is four bytes in size

408

// ...

409

//

410

unsigned ArgOffset = 0; // Frame mechanisms handle retaddr slot

411

for (Function::arg_iterator I = F.arg_begin(), E = F.arg_end(); I != E; ++I) {

412

MVT::ValueType ObjectVT = getValueType(I->getType());

413

unsigned ArgIncrement = 4;

414

unsigned ObjSize;

415

switch (ObjectVT) {

416

default: assert(0 && "Unhandled argument type!");

417

case MVT::i1:

418

case MVT::i8: ObjSize = 1; break;

419

case MVT::i16: ObjSize = 2; break;

420

case MVT::i32: ObjSize = 4; break;

421

case MVT::i64: ObjSize = ArgIncrement = 8; break;

422

case MVT::f32: ObjSize = 4; break;

423

case MVT::f64: ObjSize = ArgIncrement = 8; break;

424

}

425

// Create the frame index object for this incoming parameter...

426

int FI = MFI->CreateFixedObject(ObjSize, ArgOffset);

427

428

// Create the SelectionDAG nodes corresponding to a load from this parameter

429

SDOperand FIN = DAG.getFrameIndex(FI, MVT::i32);

430

431

// Don't codegen dead arguments. FIXME: remove this check when we can nuke

// dead loads.

SDOperand ArgValue;

if (!I->use_empty())

ArgValue = DAG.getLoad(ObjectVT, DAG.getEntryNode(), FIN,

436

DAG.getSrcValue(NULL));

437

else {

438

if (MVT::isInteger(ObjectVT))

439

ArgValue = DAG.getConstant(0, ObjectVT);

440

else

441

ArgValue = DAG.getConstantFP(0, ObjectVT);

442

}

443

ArgValues.push_back(ArgValue);

444

445

ArgOffset += ArgIncrement; // Move on to the next argument...

446

}

447

448

// If the function takes variable number of arguments, make a frame index for

449

// the start of the first vararg value... for expansion of llvm.va_start.

450

if (F.isVarArg())

451

VarArgsFrameIndex = MFI->CreateFixedObject(1, ArgOffset);

452

ReturnAddrIndex = 0; // No return address slot generated yet.

453

BytesToPopOnReturn = 0; // Callee pops nothing.

454

BytesCallerReserves = ArgOffset;

Chris Lattner

2005-11-15 00:40:23 +0000

[diff] [blame]

return ArgValues;

}

std::pair<SDOperand, SDOperand>

459

X86TargetLowering::LowerCCCCallTo(SDOperand Chain, const Type *RetTy,

460

bool isVarArg, bool isTailCall,

461

SDOperand Callee, ArgListTy &Args,

462

SelectionDAG &DAG) {

463

// Count how many bytes are to be pushed on the stack.

464

unsigned NumBytes = 0;

465

466

if (Args.empty()) {

467

// Save zero bytes.

Chris Lattner

62c3484

2006-02-13 09:00:43 +0000

[diff] [blame]

468

Chain = DAG.getCALLSEQ_START(Chain, DAG.getConstant(0, getPointerTy()));

Chris Lattner

2005-11-15 00:40:23 +0000

[diff] [blame]

469

} else {

470

for (unsigned i = 0, e = Args.size(); i != e; ++i)

471

switch (getValueType(Args[i].second)) {

472

default: assert(0 && "Unknown value type!");

case MVT::i1:

case MVT::i8:

case MVT::i16:

case MVT::i32:

case MVT::f32:

NumBytes += 4;

break;

case MVT::i64:

case MVT::f64:

NumBytes += 8;

break;

}

Chris Lattner

2006-02-13 09:00:43 +0000

[diff] [blame]

486

Chain = DAG.getCALLSEQ_START(Chain,

487

DAG.getConstant(NumBytes, getPointerTy()));

Chris Lattner

2005-11-15 00:40:23 +0000

[diff] [blame]

488

489

// Arguments go on the stack in reverse order, as specified by the ABI.

490

unsigned ArgOffset = 0;

Evan Cheng

bc7a0f44

2006-01-11 06:09:51 +0000

[diff] [blame]

491

SDOperand StackPtr = DAG.getRegister(X86::ESP, MVT::i32);

Chris Lattner

2005-11-15 00:40:23 +0000

[diff] [blame]

492

std::vector<SDOperand> Stores;

493

494

for (unsigned i = 0, e = Args.size(); i != e; ++i) {

495

SDOperand PtrOff = DAG.getConstant(ArgOffset, getPointerTy());

496

PtrOff = DAG.getNode(ISD::ADD, MVT::i32, StackPtr, PtrOff);

497

498

switch (getValueType(Args[i].second)) {

499

default: assert(0 && "Unexpected ValueType for argument!");

case MVT::i1:

case MVT::i8:

case MVT::i16:

// Promote the integer to 32 bits. If the input type is signed use a

504

// sign extend, otherwise use a zero extend.

505

if (Args[i].second->isSigned())

506

Args[i].first =DAG.getNode(ISD::SIGN_EXTEND, MVT::i32, Args[i].first);

507

else

508

Args[i].first =DAG.getNode(ISD::ZERO_EXTEND, MVT::i32, Args[i].first);

// FALL THROUGH

case MVT::i32:

case MVT::f32:

Stores.push_back(DAG.getNode(ISD::STORE, MVT::Other, Chain,

514

Args[i].first, PtrOff,

515

DAG.getSrcValue(NULL)));

ArgOffset += 4;

break;

case MVT::i64:

case MVT::f64:

Stores.push_back(DAG.getNode(ISD::STORE, MVT::Other, Chain,

521

Args[i].first, PtrOff,

522

DAG.getSrcValue(NULL)));

ArgOffset += 8;

break;

}

}

Chain = DAG.getNode(ISD::TokenFactor, MVT::Other, Stores);

528

}

529

530

std::vector<MVT::ValueType> RetVals;

531

MVT::ValueType RetTyVT = getValueType(RetTy);

532

RetVals.push_back(MVT::Other);

533

534

// The result values produced have to be legal. Promote the result.

535

switch (RetTyVT) {

536

case MVT::isVoid: break;

537

default:

538

RetVals.push_back(RetTyVT);

break;

case MVT::i1:

case MVT::i8:

case MVT::i16:

RetVals.push_back(MVT::i32);

break;

case MVT::f32:

if (X86ScalarSSE)

RetVals.push_back(MVT::f32);

548

else

549

RetVals.push_back(MVT::f64);

550

break;

551

case MVT::i64:

552

RetVals.push_back(MVT::i32);

553

RetVals.push_back(MVT::i32);

554

break;

555

}

Chris Lattner

2005-11-15 00:40:23 +0000

[diff] [blame]

556

Nate Begeman

2006-02-17 00:03:04 +0000

[diff] [blame]

557

std::vector<MVT::ValueType> NodeTys;

558

NodeTys.push_back(MVT::Other); // Returns a chain

559

NodeTys.push_back(MVT::Flag); // Returns a flag for retval copy to use.

560

std::vector<SDOperand> Ops;

561

Ops.push_back(Chain);

562

Ops.push_back(Callee);

Evan Cheng

2006-01-05 00:27:02 +0000

[diff] [blame]

563

Nate Begeman

2006-02-17 00:03:04 +0000

[diff] [blame]

564

// FIXME: Do not generate X86ISD::TAILCALL for now.

565

Chain = DAG.getNode(X86ISD::CALL, NodeTys, Ops);

566

SDOperand InFlag = Chain.getValue(1);

Evan Cheng

2006-01-05 00:27:02 +0000

[diff] [blame]

567

Nate Begeman

2006-02-17 00:03:04 +0000

[diff] [blame]

568

NodeTys.clear();

569

NodeTys.push_back(MVT::Other); // Returns a chain

570

NodeTys.push_back(MVT::Flag); // Returns a flag for retval copy to use.

571

Ops.clear();

572

Ops.push_back(Chain);

573

Ops.push_back(DAG.getConstant(NumBytes, getPointerTy()));

574

Ops.push_back(DAG.getConstant(0, getPointerTy()));

575

Ops.push_back(InFlag);

576

Chain = DAG.getNode(ISD::CALLSEQ_END, NodeTys, Ops);

577

InFlag = Chain.getValue(1);

578

579

SDOperand RetVal;

580

if (RetTyVT != MVT::isVoid) {

Evan Cheng

2006-01-05 00:27:02 +0000

[diff] [blame]

581

switch (RetTyVT) {

Nate Begeman

2006-02-17 00:03:04 +0000

[diff] [blame]

582

default: assert(0 && "Unknown value type to return!");

Evan Cheng

2006-01-05 00:27:02 +0000

[diff] [blame]

583

case MVT::i1:

584

case MVT::i8:

Nate Begeman

2006-02-17 00:03:04 +0000

[diff] [blame]

585

RetVal = DAG.getCopyFromReg(Chain, X86::AL, MVT::i8, InFlag);

586

Chain = RetVal.getValue(1);

587

if (RetTyVT == MVT::i1)

588

RetVal = DAG.getNode(ISD::TRUNCATE, MVT::i1, RetVal);

589

break;

Evan Cheng

2006-01-05 00:27:02 +0000

[diff] [blame]

590

case MVT::i16:

Nate Begeman

2006-02-17 00:03:04 +0000

[diff] [blame]

591

RetVal = DAG.getCopyFromReg(Chain, X86::AX, MVT::i16, InFlag);

592

Chain = RetVal.getValue(1);

Evan Cheng

2006-01-05 00:27:02 +0000

[diff] [blame]

593

break;

Nate Begeman

2006-02-17 00:03:04 +0000

[diff] [blame]

594

case MVT::i32:

595

RetVal = DAG.getCopyFromReg(Chain, X86::EAX, MVT::i32, InFlag);

596

Chain = RetVal.getValue(1);

Evan Cheng

2006-01-05 00:27:02 +0000

[diff] [blame]

597

break;

Nate Begeman

2006-02-17 00:03:04 +0000

[diff] [blame]

598

case MVT::i64: {

599

SDOperand Lo = DAG.getCopyFromReg(Chain, X86::EAX, MVT::i32, InFlag);

600

SDOperand Hi = DAG.getCopyFromReg(Lo.getValue(1), X86::EDX, MVT::i32,

601

Lo.getValue(2));

602

RetVal = DAG.getNode(ISD::BUILD_PAIR, MVT::i64, Lo, Hi);

603

Chain = Hi.getValue(1);

Evan Cheng

2006-01-05 00:27:02 +0000

[diff] [blame]

604

break;

605

}

Nate Begeman

2006-02-17 00:03:04 +0000

[diff] [blame]

606

case MVT::f32:

607

case MVT::f64: {

608

std::vector<MVT::ValueType> Tys;

609

Tys.push_back(MVT::f64);

610

Tys.push_back(MVT::Other);

611

Tys.push_back(MVT::Flag);

612

std::vector<SDOperand> Ops;

613

Ops.push_back(Chain);

614

Ops.push_back(InFlag);

615

RetVal = DAG.getNode(X86ISD::FP_GET_RESULT, Tys, Ops);

616

Chain = RetVal.getValue(1);

617

InFlag = RetVal.getValue(2);

618

if (X86ScalarSSE) {

619

// FIXME: Currently the FST is flagged to the FP_GET_RESULT. This

620

// shouldn't be necessary except that RFP cannot be live across

621

// multiple blocks. When stackifier is fixed, they can be uncoupled.

622

MachineFunction &MF = DAG.getMachineFunction();

623

int SSFI = MF.getFrameInfo()->CreateStackObject(8, 8);

624

SDOperand StackSlot = DAG.getFrameIndex(SSFI, getPointerTy());

625

Tys.clear();

626

Tys.push_back(MVT::Other);

627

Ops.clear();

628

Ops.push_back(Chain);

629

Ops.push_back(RetVal);

630

Ops.push_back(StackSlot);

631

Ops.push_back(DAG.getValueType(RetTyVT));

632

Ops.push_back(InFlag);

633

Chain = DAG.getNode(X86ISD::FST, Tys, Ops);

634

RetVal = DAG.getLoad(RetTyVT, Chain, StackSlot,

635

DAG.getSrcValue(NULL));

636

Chain = RetVal.getValue(1);

637

}

Evan Cheng

2006-01-05 00:27:02 +0000

[diff] [blame]

638

Nate Begeman

2006-02-17 00:03:04 +0000

[diff] [blame]

639

if (RetTyVT == MVT::f32 && !X86ScalarSSE)

640

// FIXME: we would really like to remember that this FP_ROUND

641

// operation is okay to eliminate if we allow excess FP precision.

642

RetVal = DAG.getNode(ISD::FP_ROUND, MVT::f32, RetVal);

643

break;

644

}

645

}

Chris Lattner

2005-11-15 00:40:23 +0000

[diff] [blame]

646

}

Nate Begeman

2006-02-17 00:03:04 +0000

[diff] [blame]

647

648

return std::make_pair(RetVal, Chain);

Chris Lattner

2005-11-15 00:40:23 +0000

[diff] [blame]

649

}

650

Chris Lattner

2005-11-15 00:40:23 +0000

[diff] [blame]

651

//===----------------------------------------------------------------------===//

652

// Fast Calling Convention implementation

653

//===----------------------------------------------------------------------===//

654

//

655

// The X86 'fast' calling convention passes up to two integer arguments in

656

// registers (an appropriate portion of EAX/EDX), passes arguments in C order,

657

// and requires that the callee pop its arguments off the stack (allowing proper

658

// tail calls), and has the same return value conventions as C calling convs.

659

//

660

// This calling convention always arranges for the callee pop value to be 8n+4

661

// bytes, which is needed for tail recursion elimination and stack alignment

662

// reasons.

663

//

664

// Note that this can be enhanced in the future to pass fp vals in registers

665

// (when we have a global fp allocator) and do other tricks.

666

//

667

668

/// AddLiveIn - This helper function adds the specified physical register to the

669

/// MachineFunction as a live in value. It also creates a corresponding virtual

670

/// register for it.

671

static unsigned AddLiveIn(MachineFunction &MF, unsigned PReg,

672

TargetRegisterClass *RC) {

673

assert(RC->contains(PReg) && "Not the correct regclass!");

674

unsigned VReg = MF.getSSARegMap()->createVirtualRegister(RC);

675

MF.addLiveIn(PReg, VReg);

return VReg;

}

Chris Lattner

2006-03-17 17:27:47 +0000

[diff] [blame]

679

// FASTCC_NUM_INT_ARGS_INREGS - This is the max number of integer arguments

680

// to pass in registers. 0 is none, 1 is is "use EAX", 2 is "use EAX and

681

// EDX". Anything more is illegal.

682

//

683

// FIXME: The linscan register allocator currently has problem with

Chris Lattner

f5efddf

2006-03-24 07:12:19 +0000

[diff] [blame]

684

// coalescing. At the time of this writing, whenever it decides to coalesce

Chris Lattner

388fc4d

2006-03-17 17:27:47 +0000

[diff] [blame]

685

// a physreg with a virtreg, this increases the size of the physreg's live

686

// range, and the live range cannot ever be reduced. This causes problems if

Chris Lattner

f5efddf

2006-03-24 07:12:19 +0000

[diff] [blame]

687

// too many physregs are coaleced with virtregs, which can cause the register

Chris Lattner

388fc4d

2006-03-17 17:27:47 +0000

[diff] [blame]

688

// allocator to wedge itself.

689

//

690

// This code triggers this problem more often if we pass args in registers,

691

// so disable it until this is fixed.

692

//

693

// NOTE: this isn't marked const, so that GCC doesn't emit annoying warnings

694

// about code being dead.

695

//

696

static unsigned FASTCC_NUM_INT_ARGS_INREGS = 0;

Chris Lattner

2006-03-17 05:10:20 +0000

[diff] [blame]

697

Chris Lattner

2005-11-15 00:40:23 +0000

[diff] [blame]

698

699

std::vector<SDOperand>

700

X86TargetLowering::LowerFastCCArguments(Function &F, SelectionDAG &DAG) {

701

std::vector<SDOperand> ArgValues;

702

703

MachineFunction &MF = DAG.getMachineFunction();

704

MachineFrameInfo *MFI = MF.getFrameInfo();

705

706

// Add DAG nodes to load the arguments... On entry to a function the stack

707

// frame looks like this:

708

//

709

// [ESP] -- return address

710

// [ESP + 4] -- first nonreg argument (leftmost lexically)

711

// [ESP + 8] -- second nonreg argument, if first argument is 4 bytes in size

712

// ...

713

unsigned ArgOffset = 0; // Frame mechanisms handle retaddr slot

714

715

// Keep track of the number of integer regs passed so far. This can be either

716

// 0 (neither EAX or EDX used), 1 (EAX is used) or 2 (EAX and EDX are both

717

// used).

718

unsigned NumIntRegs = 0;

Chris Lattner

2006-03-17 05:10:20 +0000

[diff] [blame]

719

Chris Lattner

2005-11-15 00:40:23 +0000

[diff] [blame]

720

for (Function::arg_iterator I = F.arg_begin(), E = F.arg_end(); I != E; ++I) {

721

MVT::ValueType ObjectVT = getValueType(I->getType());

722

unsigned ArgIncrement = 4;

723

unsigned ObjSize = 0;

SDOperand ArgValue;

switch (ObjectVT) {

default: assert(0 && "Unhandled argument type!");

728

case MVT::i1:

729

case MVT::i8:

Chris Lattner

2006-03-17 05:10:20 +0000

[diff] [blame]

730

if (NumIntRegs < FASTCC_NUM_INT_ARGS_INREGS) {

Chris Lattner

2005-11-15 00:40:23 +0000

[diff] [blame]

731

if (!I->use_empty()) {

732

unsigned VReg = AddLiveIn(MF, NumIntRegs ? X86::DL : X86::AL,

733

X86::R8RegisterClass);

734

ArgValue = DAG.getCopyFromReg(DAG.getRoot(), VReg, MVT::i8);

735

DAG.setRoot(ArgValue.getValue(1));

Chris Lattner

8258489

2005-12-27 03:02:18 +0000

[diff] [blame]

736

if (ObjectVT == MVT::i1)

737

// FIXME: Should insert a assertzext here.

738

ArgValue = DAG.getNode(ISD::TRUNCATE, MVT::i1, ArgValue);

Chris Lattner

2005-11-15 00:40:23 +0000

[diff] [blame]

}

++NumIntRegs;

break;

}

ObjSize = 1;

break;

case MVT::i16:

Chris Lattner

2006-03-17 05:10:20 +0000

[diff] [blame]

747

if (NumIntRegs < FASTCC_NUM_INT_ARGS_INREGS) {

Chris Lattner

2005-11-15 00:40:23 +0000

[diff] [blame]

748

if (!I->use_empty()) {

749

unsigned VReg = AddLiveIn(MF, NumIntRegs ? X86::DX : X86::AX,

750

X86::R16RegisterClass);

751

ArgValue = DAG.getCopyFromReg(DAG.getRoot(), VReg, MVT::i16);

752

DAG.setRoot(ArgValue.getValue(1));

}

++NumIntRegs;

break;

}

ObjSize = 2;

break;

case MVT::i32:

Chris Lattner

2006-03-17 05:10:20 +0000

[diff] [blame]

760

if (NumIntRegs < FASTCC_NUM_INT_ARGS_INREGS) {

Chris Lattner

2005-11-15 00:40:23 +0000

[diff] [blame]

761

if (!I->use_empty()) {

Chris Lattner

2006-03-17 05:10:20 +0000

[diff] [blame]

762

unsigned VReg = AddLiveIn(MF, NumIntRegs ? X86::EDX : X86::EAX,

Chris Lattner

2005-11-15 00:40:23 +0000

[diff] [blame]

763

X86::R32RegisterClass);

764

ArgValue = DAG.getCopyFromReg(DAG.getRoot(), VReg, MVT::i32);

765

DAG.setRoot(ArgValue.getValue(1));

}

++NumIntRegs;

break;

}

ObjSize = 4;

break;

case MVT::i64:

Chris Lattner

2006-03-17 05:10:20 +0000

[diff] [blame]

773

if (NumIntRegs+2 <= FASTCC_NUM_INT_ARGS_INREGS) {

Chris Lattner

2005-11-15 00:40:23 +0000

[diff] [blame]

774

if (!I->use_empty()) {

775

unsigned BotReg = AddLiveIn(MF, X86::EAX, X86::R32RegisterClass);

776

unsigned TopReg = AddLiveIn(MF, X86::EDX, X86::R32RegisterClass);

777

778

SDOperand Low = DAG.getCopyFromReg(DAG.getRoot(), BotReg, MVT::i32);

779

SDOperand Hi = DAG.getCopyFromReg(Low.getValue(1), TopReg, MVT::i32);

780

DAG.setRoot(Hi.getValue(1));

781

782

ArgValue = DAG.getNode(ISD::BUILD_PAIR, MVT::i64, Low, Hi);

783

}

Chris Lattner

2006-03-17 05:10:20 +0000

[diff] [blame]

784

NumIntRegs += 2;

Chris Lattner

2005-11-15 00:40:23 +0000

[diff] [blame]

785

break;

Chris Lattner

2006-03-17 05:10:20 +0000

[diff] [blame]

786

} else if (NumIntRegs+1 <= FASTCC_NUM_INT_ARGS_INREGS) {

Chris Lattner

2005-11-15 00:40:23 +0000

[diff] [blame]

787

if (!I->use_empty()) {

788

unsigned BotReg = AddLiveIn(MF, X86::EDX, X86::R32RegisterClass);

789

SDOperand Low = DAG.getCopyFromReg(DAG.getRoot(), BotReg, MVT::i32);

790

DAG.setRoot(Low.getValue(1));

791

792

// Load the high part from memory.

793

// Create the frame index object for this incoming parameter...

794

int FI = MFI->CreateFixedObject(4, ArgOffset);

795

SDOperand FIN = DAG.getFrameIndex(FI, MVT::i32);

796

SDOperand Hi = DAG.getLoad(MVT::i32, DAG.getEntryNode(), FIN,

797

DAG.getSrcValue(NULL));

798

ArgValue = DAG.getNode(ISD::BUILD_PAIR, MVT::i64, Low, Hi);

799

}

800

ArgOffset += 4;

Chris Lattner

2006-03-17 05:10:20 +0000

[diff] [blame]

801

NumIntRegs = FASTCC_NUM_INT_ARGS_INREGS;

Chris Lattner

2005-11-15 00:40:23 +0000

[diff] [blame]

802

break;

803

}

804

ObjSize = ArgIncrement = 8;

805

break;

806

case MVT::f32: ObjSize = 4; break;

807

case MVT::f64: ObjSize = ArgIncrement = 8; break;

808

}

809

810

// Don't codegen dead arguments. FIXME: remove this check when we can nuke

811

// dead loads.

812

if (ObjSize && !I->use_empty()) {

813

// Create the frame index object for this incoming parameter...

814

int FI = MFI->CreateFixedObject(ObjSize, ArgOffset);

815

816

// Create the SelectionDAG nodes corresponding to a load from this

817

// parameter.

818

SDOperand FIN = DAG.getFrameIndex(FI, MVT::i32);

819

820

ArgValue = DAG.getLoad(ObjectVT, DAG.getEntryNode(), FIN,

821

DAG.getSrcValue(NULL));

822

} else if (ArgValue.Val == 0) {

823

if (MVT::isInteger(ObjectVT))

824

ArgValue = DAG.getConstant(0, ObjectVT);

825

else

826

ArgValue = DAG.getConstantFP(0, ObjectVT);

827

}

828

ArgValues.push_back(ArgValue);

829

830

if (ObjSize)

831

ArgOffset += ArgIncrement; // Move on to the next argument.

832

}

833

834

// Make sure the instruction takes 8n+4 bytes to make sure the start of the

835

// arguments and the arguments after the retaddr has been pushed are aligned.

836

if ((ArgOffset & 7) == 0)

837

ArgOffset += 4;

838

839

VarArgsFrameIndex = 0xAAAAAAA; // fastcc functions can't have varargs.

840

ReturnAddrIndex = 0; // No return address slot generated yet.

841

BytesToPopOnReturn = ArgOffset; // Callee pops all stack arguments.

842

BytesCallerReserves = 0;

843

844

// Finally, inform the code generator which regs we return values in.

845

switch (getValueType(F.getReturnType())) {

846

default: assert(0 && "Unknown type!");

847

case MVT::isVoid: break;

case MVT::i1:

case MVT::i8:

case MVT::i16:

case MVT::i32:

MF.addLiveOut(X86::EAX);

853

break;

854

case MVT::i64:

855

MF.addLiveOut(X86::EAX);

856

MF.addLiveOut(X86::EDX);

break;

case MVT::f32:

case MVT::f64:

MF.addLiveOut(X86::ST0);

break;

}

return ArgValues;

}

std::pair<SDOperand, SDOperand>

867

X86TargetLowering::LowerFastCCCallTo(SDOperand Chain, const Type *RetTy,

868

bool isTailCall, SDOperand Callee,

869

ArgListTy &Args, SelectionDAG &DAG) {

870

// Count how many bytes are to be pushed on the stack.

871

unsigned NumBytes = 0;

872

873

// Keep track of the number of integer regs passed so far. This can be either

874

// 0 (neither EAX or EDX used), 1 (EAX is used) or 2 (EAX and EDX are both

875

// used).

876

unsigned NumIntRegs = 0;

877

878

for (unsigned i = 0, e = Args.size(); i != e; ++i)

879

switch (getValueType(Args[i].second)) {

880

default: assert(0 && "Unknown value type!");

case MVT::i1:

case MVT::i8:

case MVT::i16:

case MVT::i32:

Chris Lattner

2006-03-17 05:10:20 +0000

[diff] [blame]

885

if (NumIntRegs < FASTCC_NUM_INT_ARGS_INREGS) {

Chris Lattner

2005-11-15 00:40:23 +0000

[diff] [blame]

++NumIntRegs;

break;

}

// fall through

case MVT::f32:

NumBytes += 4;

break;

case MVT::i64:

Chris Lattner

2006-03-17 05:10:20 +0000

[diff] [blame]

894

if (NumIntRegs+2 <= FASTCC_NUM_INT_ARGS_INREGS) {

895

NumIntRegs += 2;

Chris Lattner

2005-11-15 00:40:23 +0000

[diff] [blame]

896

break;

Chris Lattner

2006-03-17 05:10:20 +0000

[diff] [blame]

897

} else if (NumIntRegs+1 <= FASTCC_NUM_INT_ARGS_INREGS) {

898

NumIntRegs = FASTCC_NUM_INT_ARGS_INREGS;

Chris Lattner

2005-11-15 00:40:23 +0000

[diff] [blame]

NumBytes += 4;

break;

}

// fall through

case MVT::f64:

NumBytes += 8;

break;

}

// Make sure the instruction takes 8n+4 bytes to make sure the start of the

910

// arguments and the arguments after the retaddr has been pushed are aligned.

911

if ((NumBytes & 7) == 0)

912

NumBytes += 4;

913

Chris Lattner

62c3484

2006-02-13 09:00:43 +0000

[diff] [blame]

914

Chain = DAG.getCALLSEQ_START(Chain,DAG.getConstant(NumBytes, getPointerTy()));

Chris Lattner

2005-11-15 00:40:23 +0000

[diff] [blame]

915

916

// Arguments go on the stack in reverse order, as specified by the ABI.

917

unsigned ArgOffset = 0;

Chris Lattner

27d30a5

2006-01-24 06:14:44 +0000

[diff] [blame]

918

SDOperand StackPtr = DAG.getRegister(X86::ESP, MVT::i32);

Chris Lattner

2005-11-15 00:40:23 +0000

[diff] [blame]

919

NumIntRegs = 0;

920

std::vector<SDOperand> Stores;

921

std::vector<SDOperand> RegValuesToPass;

922

for (unsigned i = 0, e = Args.size(); i != e; ++i) {

923

switch (getValueType(Args[i].second)) {

924

default: assert(0 && "Unexpected ValueType for argument!");

925

case MVT::i1:

Chris Lattner

8258489

2005-12-27 03:02:18 +0000

[diff] [blame]

926

Args[i].first = DAG.getNode(ISD::ANY_EXTEND, MVT::i8, Args[i].first);

927

// Fall through.

Chris Lattner

2005-11-15 00:40:23 +0000

[diff] [blame]

928

case MVT::i8:

929

case MVT::i16:

930

case MVT::i32:

Chris Lattner

2006-03-17 05:10:20 +0000

[diff] [blame]

931

if (NumIntRegs < FASTCC_NUM_INT_ARGS_INREGS) {

Chris Lattner

2005-11-15 00:40:23 +0000

[diff] [blame]

932

RegValuesToPass.push_back(Args[i].first);

++NumIntRegs;

break;

}

// Fall through

case MVT::f32: {

SDOperand PtrOff = DAG.getConstant(ArgOffset, getPointerTy());

939

PtrOff = DAG.getNode(ISD::ADD, MVT::i32, StackPtr, PtrOff);

940

Stores.push_back(DAG.getNode(ISD::STORE, MVT::Other, Chain,

941

Args[i].first, PtrOff,

942

DAG.getSrcValue(NULL)));

ArgOffset += 4;

break;

}

case MVT::i64:

Chris Lattner

2006-03-17 05:10:20 +0000

[diff] [blame]

947

// Can pass (at least) part of it in regs?

948

if (NumIntRegs < FASTCC_NUM_INT_ARGS_INREGS) {

Chris Lattner

2005-11-15 00:40:23 +0000

[diff] [blame]

949

SDOperand Hi = DAG.getNode(ISD::EXTRACT_ELEMENT, MVT::i32,

950

Args[i].first, DAG.getConstant(1, MVT::i32));

951

SDOperand Lo = DAG.getNode(ISD::EXTRACT_ELEMENT, MVT::i32,

952

Args[i].first, DAG.getConstant(0, MVT::i32));

953

RegValuesToPass.push_back(Lo);

954

++NumIntRegs;

Chris Lattner

2006-03-17 05:10:20 +0000

[diff] [blame]

955

956

// Pass both parts in regs?

957

if (NumIntRegs < FASTCC_NUM_INT_ARGS_INREGS) {

Chris Lattner

2005-11-15 00:40:23 +0000

[diff] [blame]

958

RegValuesToPass.push_back(Hi);

959

++NumIntRegs;

960

} else {

961

// Pass the high part in memory.

962

SDOperand PtrOff = DAG.getConstant(ArgOffset, getPointerTy());

963

PtrOff = DAG.getNode(ISD::ADD, MVT::i32, StackPtr, PtrOff);

964

Stores.push_back(DAG.getNode(ISD::STORE, MVT::Other, Chain,

965

Hi, PtrOff, DAG.getSrcValue(NULL)));

ArgOffset += 4;

}

break;

}

// Fall through

case MVT::f64:

SDOperand PtrOff = DAG.getConstant(ArgOffset, getPointerTy());

973

PtrOff = DAG.getNode(ISD::ADD, MVT::i32, StackPtr, PtrOff);

974

Stores.push_back(DAG.getNode(ISD::STORE, MVT::Other, Chain,

975

Args[i].first, PtrOff,

976

DAG.getSrcValue(NULL)));

ArgOffset += 8;

break;

}

}

if (!Stores.empty())

Chain = DAG.getNode(ISD::TokenFactor, MVT::Other, Stores);

983

984

// Make sure the instruction takes 8n+4 bytes to make sure the start of the

985

// arguments and the arguments after the retaddr has been pushed are aligned.

986

if ((ArgOffset & 7) == 0)

987

ArgOffset += 4;

988

989

std::vector<MVT::ValueType> RetVals;

990

MVT::ValueType RetTyVT = getValueType(RetTy);

991

992

RetVals.push_back(MVT::Other);

993

994

// The result values produced have to be legal. Promote the result.

995

switch (RetTyVT) {

996

case MVT::isVoid: break;

997

default:

998

RetVals.push_back(RetTyVT);

break;

case MVT::i1:

case MVT::i8:

case MVT::i16:

RetVals.push_back(MVT::i32);

break;

case MVT::f32:

if (X86ScalarSSE)

RetVals.push_back(MVT::f32);

1008

else

1009

RetVals.push_back(MVT::f64);

1010

break;

1011

case MVT::i64:

1012

RetVals.push_back(MVT::i32);

1013

RetVals.push_back(MVT::i32);

break;

}

Nate Begeman

2006-02-17 00:03:04 +0000

[diff] [blame]

1017

// Build a sequence of copy-to-reg nodes chained together with token chain

1018

// and flag operands which copy the outgoing args into registers.

1019

SDOperand InFlag;

1020

for (unsigned i = 0, e = RegValuesToPass.size(); i != e; ++i) {

1021

unsigned CCReg;

1022

SDOperand RegToPass = RegValuesToPass[i];

1023

switch (RegToPass.getValueType()) {

1024

default: assert(0 && "Bad thing to pass in regs");

1025

case MVT::i8:

1026

CCReg = (i == 0) ? X86::AL : X86::DL;

Evan Cheng

2006-01-06 00:43:03 +0000

[diff] [blame]

1027

break;

Nate Begeman

2006-02-17 00:03:04 +0000

[diff] [blame]

1028

case MVT::i16:

1029

CCReg = (i == 0) ? X86::AX : X86::DX;

1030

break;

1031

case MVT::i32:

1032

CCReg = (i == 0) ? X86::EAX : X86::EDX;

break;

}

Chain = DAG.getCopyToReg(Chain, CCReg, RegToPass, InFlag);

1037

InFlag = Chain.getValue(1);

1038

}

1039

1040

std::vector<MVT::ValueType> NodeTys;

1041

NodeTys.push_back(MVT::Other); // Returns a chain

1042

NodeTys.push_back(MVT::Flag); // Returns a flag for retval copy to use.

1043

std::vector<SDOperand> Ops;

1044

Ops.push_back(Chain);

1045

Ops.push_back(Callee);

1046

if (InFlag.Val)

1047

Ops.push_back(InFlag);

1048

1049

// FIXME: Do not generate X86ISD::TAILCALL for now.

1050

Chain = DAG.getNode(X86ISD::CALL, NodeTys, Ops);

1051

InFlag = Chain.getValue(1);

1052

1053

NodeTys.clear();

1054

NodeTys.push_back(MVT::Other); // Returns a chain

1055

NodeTys.push_back(MVT::Flag); // Returns a flag for retval copy to use.

1056

Ops.clear();

1057

Ops.push_back(Chain);

1058

Ops.push_back(DAG.getConstant(ArgOffset, getPointerTy()));

1059

Ops.push_back(DAG.getConstant(ArgOffset, getPointerTy()));

1060

Ops.push_back(InFlag);

1061

Chain = DAG.getNode(ISD::CALLSEQ_END, NodeTys, Ops);

1062

InFlag = Chain.getValue(1);

1063

1064

SDOperand RetVal;

1065

if (RetTyVT != MVT::isVoid) {

1066

switch (RetTyVT) {

1067

default: assert(0 && "Unknown value type to return!");

Evan Cheng

2006-01-06 00:43:03 +0000

[diff] [blame]

1068

case MVT::i1:

1069

case MVT::i8:

Nate Begeman

2006-02-17 00:03:04 +0000

[diff] [blame]

1070

RetVal = DAG.getCopyFromReg(Chain, X86::AL, MVT::i8, InFlag);

1071

Chain = RetVal.getValue(1);

1072

if (RetTyVT == MVT::i1)

1073

RetVal = DAG.getNode(ISD::TRUNCATE, MVT::i1, RetVal);

1074

break;

Evan Cheng

2006-01-06 00:43:03 +0000

[diff] [blame]

1075

case MVT::i16:

Nate Begeman

2006-02-17 00:03:04 +0000

[diff] [blame]

1076

RetVal = DAG.getCopyFromReg(Chain, X86::AX, MVT::i16, InFlag);

1077

Chain = RetVal.getValue(1);

Evan Cheng

2006-01-06 00:43:03 +0000

[diff] [blame]

1078

break;

Nate Begeman

2006-02-17 00:03:04 +0000

[diff] [blame]

1079

case MVT::i32:

1080

RetVal = DAG.getCopyFromReg(Chain, X86::EAX, MVT::i32, InFlag);

1081

Chain = RetVal.getValue(1);

Evan Cheng

2006-01-06 00:43:03 +0000

[diff] [blame]

1082

break;

Nate Begeman

2006-02-17 00:03:04 +0000

[diff] [blame]

1083

case MVT::i64: {

1084

SDOperand Lo = DAG.getCopyFromReg(Chain, X86::EAX, MVT::i32, InFlag);

1085

SDOperand Hi = DAG.getCopyFromReg(Lo.getValue(1), X86::EDX, MVT::i32,

1086

Lo.getValue(2));

1087

RetVal = DAG.getNode(ISD::BUILD_PAIR, MVT::i64, Lo, Hi);

1088

Chain = Hi.getValue(1);

Evan Cheng

2006-01-06 00:43:03 +0000

[diff] [blame]

1089

break;

1090

}

Nate Begeman

2006-02-17 00:03:04 +0000

[diff] [blame]

1091

case MVT::f32:

1092

case MVT::f64: {

1093

std::vector<MVT::ValueType> Tys;

1094

Tys.push_back(MVT::f64);

1095

Tys.push_back(MVT::Other);

1096

Tys.push_back(MVT::Flag);

1097

std::vector<SDOperand> Ops;

1098

Ops.push_back(Chain);

1099

Ops.push_back(InFlag);

1100

RetVal = DAG.getNode(X86ISD::FP_GET_RESULT, Tys, Ops);

1101

Chain = RetVal.getValue(1);

1102

InFlag = RetVal.getValue(2);

1103

if (X86ScalarSSE) {

1104

// FIXME: Currently the FST is flagged to the FP_GET_RESULT. This

1105

// shouldn't be necessary except that RFP cannot be live across

1106

// multiple blocks. When stackifier is fixed, they can be uncoupled.

1107

MachineFunction &MF = DAG.getMachineFunction();

1108

int SSFI = MF.getFrameInfo()->CreateStackObject(8, 8);

1109

SDOperand StackSlot = DAG.getFrameIndex(SSFI, getPointerTy());

1110

Tys.clear();

1111

Tys.push_back(MVT::Other);

1112

Ops.clear();

1113

Ops.push_back(Chain);

1114

Ops.push_back(RetVal);

1115

Ops.push_back(StackSlot);

1116

Ops.push_back(DAG.getValueType(RetTyVT));

1117

Ops.push_back(InFlag);

1118

Chain = DAG.getNode(X86ISD::FST, Tys, Ops);

1119

RetVal = DAG.getLoad(RetTyVT, Chain, StackSlot,

1120

DAG.getSrcValue(NULL));

1121

Chain = RetVal.getValue(1);

1122

}

Evan Cheng

2006-01-06 00:43:03 +0000

[diff] [blame]

1123

Nate Begeman

2006-02-17 00:03:04 +0000

[diff] [blame]

1124

if (RetTyVT == MVT::f32 && !X86ScalarSSE)

1125

// FIXME: we would really like to remember that this FP_ROUND

1126

// operation is okay to eliminate if we allow excess FP precision.

1127

RetVal = DAG.getNode(ISD::FP_ROUND, MVT::f32, RetVal);

1128

break;

1129

}

1130

}

Chris Lattner

2005-11-15 00:40:23 +0000

[diff] [blame]

1131

}

Nate Begeman

2006-02-17 00:03:04 +0000

[diff] [blame]

1132

1133

return std::make_pair(RetVal, Chain);

Chris Lattner

2005-11-15 00:40:23 +0000

[diff] [blame]

1134

}

1135

1136

SDOperand X86TargetLowering::getReturnAddressFrameIndex(SelectionDAG &DAG) {

1137

if (ReturnAddrIndex == 0) {

1138

// Set up a frame object for the return address.

1139

MachineFunction &MF = DAG.getMachineFunction();

1140

ReturnAddrIndex = MF.getFrameInfo()->CreateFixedObject(4, -4);

1141

}

1142

1143

return DAG.getFrameIndex(ReturnAddrIndex, MVT::i32);

}

std::pair<SDOperand, SDOperand> X86TargetLowering::

1149

LowerFrameReturnAddress(bool isFrameAddress, SDOperand Chain, unsigned Depth,

1150

SelectionDAG &DAG) {

1151

SDOperand Result;

1152

if (Depth) // Depths > 0 not supported yet!

1153

Result = DAG.getConstant(0, getPointerTy());

1154

else {

1155

SDOperand RetAddrFI = getReturnAddressFrameIndex(DAG);

1156

if (!isFrameAddress)

1157

// Just load the return address

1158

Result = DAG.getLoad(MVT::i32, DAG.getEntryNode(), RetAddrFI,

1159

DAG.getSrcValue(NULL));

1160

else

1161

Result = DAG.getNode(ISD::SUB, MVT::i32, RetAddrFI,

1162

DAG.getConstant(4, MVT::i32));

1163

}

1164

return std::make_pair(Result, Chain);

1165

}

1166

Evan Cheng

2006-01-11 00:33:36 +0000

[diff] [blame]

1167

/// getCondBrOpcodeForX86CC - Returns the X86 conditional branch opcode

1168

/// which corresponds to the condition code.

1169

static unsigned getCondBrOpcodeForX86CC(unsigned X86CC) {

1170

switch (X86CC) {

1171

default: assert(0 && "Unknown X86 conditional code!");

1172

case X86ISD::COND_A: return X86::JA;

1173

case X86ISD::COND_AE: return X86::JAE;

1174

case X86ISD::COND_B: return X86::JB;

1175

case X86ISD::COND_BE: return X86::JBE;

1176

case X86ISD::COND_E: return X86::JE;

1177

case X86ISD::COND_G: return X86::JG;

1178

case X86ISD::COND_GE: return X86::JGE;

1179

case X86ISD::COND_L: return X86::JL;

1180

case X86ISD::COND_LE: return X86::JLE;

1181

case X86ISD::COND_NE: return X86::JNE;

1182

case X86ISD::COND_NO: return X86::JNO;

1183

case X86ISD::COND_NP: return X86::JNP;

1184

case X86ISD::COND_NS: return X86::JNS;

1185

case X86ISD::COND_O: return X86::JO;

1186

case X86ISD::COND_P: return X86::JP;

1187

case X86ISD::COND_S: return X86::JS;

1188

}

1189

}

Chris Lattner

2005-11-15 00:40:23 +0000

[diff] [blame]

1190

Evan Cheng

2006-01-30 23:41:35 +0000

[diff] [blame]

1191

/// translateX86CC - do a one to one translation of a ISD::CondCode to the X86

1192

/// specific condition code. It returns a false if it cannot do a direct

1193

/// translation. X86CC is the translated CondCode. Flip is set to true if the

1194

/// the order of comparison operands should be flipped.

Evan Cheng

2006-04-05 23:38:46 +0000

[diff] [blame]

1195

static bool translateX86CC(ISD::CondCode SetCCOpcode, bool isFP,

1196

unsigned &X86CC, bool &Flip) {

Evan Cheng

2006-01-30 23:41:35 +0000

[diff] [blame]

1197

Flip = false;

1198

X86CC = X86ISD::COND_INVALID;

Evan Cheng

2006-01-06 00:43:03 +0000

[diff] [blame]

1199

if (!isFP) {

1200

switch (SetCCOpcode) {

1201

default: break;

1202

case ISD::SETEQ: X86CC = X86ISD::COND_E; break;

1203

case ISD::SETGT: X86CC = X86ISD::COND_G; break;

1204

case ISD::SETGE: X86CC = X86ISD::COND_GE; break;

1205

case ISD::SETLT: X86CC = X86ISD::COND_L; break;

1206

case ISD::SETLE: X86CC = X86ISD::COND_LE; break;

1207

case ISD::SETNE: X86CC = X86ISD::COND_NE; break;

1208

case ISD::SETULT: X86CC = X86ISD::COND_B; break;

1209

case ISD::SETUGT: X86CC = X86ISD::COND_A; break;

1210

case ISD::SETULE: X86CC = X86ISD::COND_BE; break;

1211

case ISD::SETUGE: X86CC = X86ISD::COND_AE; break;

1212

}

1213

} else {

1214

// On a floating point condition, the flags are set as follows:

// ZF PF CF op

// 0 | 0 | 0 | X > Y

// 0 | 0 | 1 | X < Y

// 1 | 0 | 0 | X == Y

1219

// 1 | 1 | 1 | unordered

1220

switch (SetCCOpcode) {

1221

default: break;

1222

case ISD::SETUEQ:

1223

case ISD::SETEQ: X86CC = X86ISD::COND_E; break;

Evan Cheng

2006-04-17 07:24:10 +0000

[diff] [blame]

1224

case ISD::SETOLT: Flip = true; // Fallthrough

Evan Cheng

2006-01-06 00:43:03 +0000

[diff] [blame]

1225

case ISD::SETOGT:

1226

case ISD::SETGT: X86CC = X86ISD::COND_A; break;

Evan Cheng

2006-04-17 07:24:10 +0000

[diff] [blame]

1227

case ISD::SETOLE: Flip = true; // Fallthrough

Evan Cheng

2006-01-06 00:43:03 +0000

[diff] [blame]

1228

case ISD::SETOGE:

1229

case ISD::SETGE: X86CC = X86ISD::COND_AE; break;

Evan Cheng

2006-04-17 07:24:10 +0000

[diff] [blame]

1230

case ISD::SETUGT: Flip = true; // Fallthrough

Evan Cheng

2006-01-06 00:43:03 +0000

[diff] [blame]

1231

case ISD::SETULT:

1232

case ISD::SETLT: X86CC = X86ISD::COND_B; break;

Evan Cheng

2006-04-17 07:24:10 +0000

[diff] [blame]

1233

case ISD::SETUGE: Flip = true; // Fallthrough

Evan Cheng

2006-01-06 00:43:03 +0000

[diff] [blame]

1234

case ISD::SETULE:

1235

case ISD::SETLE: X86CC = X86ISD::COND_BE; break;

1236

case ISD::SETONE:

1237

case ISD::SETNE: X86CC = X86ISD::COND_NE; break;

1238

case ISD::SETUO: X86CC = X86ISD::COND_P; break;

1239

case ISD::SETO: X86CC = X86ISD::COND_NP; break;

1240

}

1241

}

Evan Cheng

2006-01-30 23:41:35 +0000

[diff] [blame]

1242

1243

return X86CC != X86ISD::COND_INVALID;

Evan Cheng

2006-01-06 00:43:03 +0000

[diff] [blame]

1244

}

1245

Evan Cheng

2006-04-05 23:38:46 +0000

[diff] [blame]

1246

static bool translateX86CC(SDOperand CC, bool isFP, unsigned &X86CC,

1247

bool &Flip) {

1248

return translateX86CC(cast<CondCodeSDNode>(CC)->get(), isFP, X86CC, Flip);

1249

}

1250

Evan Cheng

2006-01-11 00:33:36 +0000

[diff] [blame]

1251

/// hasFPCMov - is there a floating point cmov for the specific X86 condition

1252

/// code. Current x86 isa includes the following FP cmov instructions:

Evan Cheng

2006-01-10 20:26:56 +0000

[diff] [blame]

1253

/// fcmovb, fcomvbe, fcomve, fcmovu, fcmovae, fcmova, fcmovne, fcmovnu.

Evan Cheng

2006-01-11 00:33:36 +0000

[diff] [blame]

1254

static bool hasFPCMov(unsigned X86CC) {

Evan Cheng

2006-01-10 20:26:56 +0000

[diff] [blame]

switch (X86CC) {

default:

return false;

case X86ISD::COND_B:

case X86ISD::COND_BE:

case X86ISD::COND_E:

case X86ISD::COND_P:

case X86ISD::COND_A:

case X86ISD::COND_AE:

1264

case X86ISD::COND_NE:

1265

case X86ISD::COND_NP:

return true;

}

}

Evan Cheng

2006-01-11 00:33:36 +0000

[diff] [blame]

1270

MachineBasicBlock *

1271

X86TargetLowering::InsertAtEndOfBasicBlock(MachineInstr *MI,

1272

MachineBasicBlock *BB) {

Evan Cheng

2006-01-16 21:21:29 +0000

[diff] [blame]

1273

switch (MI->getOpcode()) {

1274

default: assert(false && "Unexpected instr type to insert");

1275

case X86::CMOV_FR32:

Evan Cheng

2006-04-10 07:23:14 +0000

[diff] [blame]

1276

case X86::CMOV_FR64:

1277

case X86::CMOV_V4F32:

1278

case X86::CMOV_V2F64:

1279

case X86::CMOV_V2I64: {

Chris Lattner

2006-01-31 19:43:35 +0000

[diff] [blame]

1280

// To "insert" a SELECT_CC instruction, we actually have to insert the

1281

// diamond control-flow pattern. The incoming instruction knows the

1282

// destination vreg to set, the condition code register to branch on, the

1283

// true/false values to select between, and a branch opcode to use.

Evan Cheng

2006-01-16 21:21:29 +0000

[diff] [blame]

1284

const BasicBlock *LLVM_BB = BB->getBasicBlock();

1285

ilist<MachineBasicBlock>::iterator It = BB;

++It;

// thisMBB:

// ...

// TrueVal = ...

// cmpTY ccX, r1, r2

// bCC copy1MBB

// fallthrough --> copy0MBB

1294

MachineBasicBlock *thisMBB = BB;

1295

MachineBasicBlock *copy0MBB = new MachineBasicBlock(LLVM_BB);

1296

MachineBasicBlock *sinkMBB = new MachineBasicBlock(LLVM_BB);

1297

unsigned Opc = getCondBrOpcodeForX86CC(MI->getOperand(3).getImmedValue());

1298

BuildMI(BB, Opc, 1).addMBB(sinkMBB);

1299

MachineFunction *F = BB->getParent();

1300

F->getBasicBlockList().insert(It, copy0MBB);

1301

F->getBasicBlockList().insert(It, sinkMBB);

Nate Begeman

ed728c1

2006-03-27 01:32:24 +0000

[diff] [blame]

1302

// Update machine-CFG edges by first adding all successors of the current

1303

// block to the new block which will contain the Phi node for the select.

1304

for(MachineBasicBlock::succ_iterator i = BB->succ_begin(),

1305

e = BB->succ_end(); i != e; ++i)

1306

sinkMBB->addSuccessor(*i);

1307

// Next, remove all successors of the current block, and add the true

1308

// and fallthrough blocks as its successors.

1309

while(!BB->succ_empty())

1310

BB->removeSuccessor(BB->succ_begin());

Evan Cheng

2006-01-16 21:21:29 +0000

[diff] [blame]

1311

BB->addSuccessor(copy0MBB);

1312

BB->addSuccessor(sinkMBB);

// copy0MBB:

// %FalseValue = ...

// # fallthrough to sinkMBB

1317

BB = copy0MBB;

1318

1319

// Update machine-CFG edges

1320

BB->addSuccessor(sinkMBB);

1321

1322

// sinkMBB:

1323

// %Result = phi [ %FalseValue, copy0MBB ], [ %TrueValue, thisMBB ]

1324

// ...

1325

BB = sinkMBB;

1326

BuildMI(BB, X86::PHI, 4, MI->getOperand(0).getReg())

1327

.addReg(MI->getOperand(1).getReg()).addMBB(copy0MBB)

1328

.addReg(MI->getOperand(2).getReg()).addMBB(thisMBB);

Evan Cheng

2006-01-11 00:33:36 +0000

[diff] [blame]

1329

Evan Cheng

2006-01-16 21:21:29 +0000

[diff] [blame]

1330

delete MI; // The pseudo instruction is gone now.

1331

return BB;

1332

}

Evan Cheng

2006-01-11 00:33:36 +0000

[diff] [blame]

1333

Evan Cheng

2006-01-16 21:21:29 +0000

[diff] [blame]

1334

case X86::FP_TO_INT16_IN_MEM:

1335

case X86::FP_TO_INT32_IN_MEM:

1336

case X86::FP_TO_INT64_IN_MEM: {

1337

// Change the floating point control register to use "round towards zero"

1338

// mode when truncating to an integer value.

1339

MachineFunction *F = BB->getParent();

1340

int CWFrameIdx = F->getFrameInfo()->CreateStackObject(2, 2);

1341

addFrameReference(BuildMI(BB, X86::FNSTCW16m, 4), CWFrameIdx);

1342

1343

// Load the old value of the high byte of the control word...

1344

unsigned OldCW =

1345

F->getSSARegMap()->createVirtualRegister(X86::R16RegisterClass);

1346

addFrameReference(BuildMI(BB, X86::MOV16rm, 4, OldCW), CWFrameIdx);

1347

1348

// Set the high part to be round to zero...

1349

addFrameReference(BuildMI(BB, X86::MOV16mi, 5), CWFrameIdx).addImm(0xC7F);

1350

1351

// Reload the modified control word now...

1352

addFrameReference(BuildMI(BB, X86::FLDCW16m, 4), CWFrameIdx);

1353

1354

// Restore the memory image of control word to original value

1355

addFrameReference(BuildMI(BB, X86::MOV16mr, 5), CWFrameIdx).addReg(OldCW);

1356

1357

// Get the X86 opcode to use.

1358

unsigned Opc;

1359

switch (MI->getOpcode()) {

Chris Lattner

ccd2a20

2006-01-28 10:34:47 +0000

[diff] [blame]

1360

default: assert(0 && "illegal opcode!");

Evan Cheng

2006-01-16 21:21:29 +0000

[diff] [blame]

1361

case X86::FP_TO_INT16_IN_MEM: Opc = X86::FpIST16m; break;

1362

case X86::FP_TO_INT32_IN_MEM: Opc = X86::FpIST32m; break;

1363

case X86::FP_TO_INT64_IN_MEM: Opc = X86::FpIST64m; break;

}

X86AddressMode AM;

MachineOperand &Op = MI->getOperand(0);

1368

if (Op.isRegister()) {

1369

AM.BaseType = X86AddressMode::RegBase;

1370

AM.Base.Reg = Op.getReg();

1371

} else {

1372

AM.BaseType = X86AddressMode::FrameIndexBase;

1373

AM.Base.FrameIndex = Op.getFrameIndex();

1374

}

1375

Op = MI->getOperand(1);

1376

if (Op.isImmediate())

1377

AM.Scale = Op.getImmedValue();

1378

Op = MI->getOperand(2);

1379

if (Op.isImmediate())

1380

AM.IndexReg = Op.getImmedValue();

1381

Op = MI->getOperand(3);

1382

if (Op.isGlobalAddress()) {

1383

AM.GV = Op.getGlobal();

1384

} else {

1385

AM.Disp = Op.getImmedValue();

1386

}

1387

addFullAddress(BuildMI(BB, Opc, 5), AM).addReg(MI->getOperand(4).getReg());

1388

1389

// Reload the original control word now.

1390

addFrameReference(BuildMI(BB, X86::FLDCW16m, 4), CWFrameIdx);

1391

1392

delete MI; // The pseudo instruction is gone now.

1393

return BB;

1394

}

1395

}

Evan Cheng

2006-01-11 00:33:36 +0000

[diff] [blame]

}

//===----------------------------------------------------------------------===//

1400

// X86 Custom Lowering Hooks

1401

//===----------------------------------------------------------------------===//

1402

Evan Cheng

2006-03-13 23:18:16 +0000

[diff] [blame]

1403

/// DarwinGVRequiresExtraLoad - true if accessing the GV requires an extra

1404

/// load. For Darwin, external and weak symbols are indirect, loading the value

1405

/// at address GV rather then the value of GV itself. This means that the

1406

/// GlobalAddress must be in the base or index register of the address, not the

1407

/// GV offset field.

1408

static bool DarwinGVRequiresExtraLoad(GlobalValue *GV) {

1409

return (GV->hasWeakLinkage() || GV->hasLinkOnceLinkage() ||

1410

(GV->isExternal() && !GV->hasNotBeenReadFromBytecode()));

1411

}

1412

Evan Cheng

2006-04-06 23:23:56 +0000

[diff] [blame]

1413

/// isUndefOrInRange - Op is either an undef node or a ConstantSDNode. Return

Evan Cheng

2006-04-07 21:53:05 +0000

[diff] [blame]

1414

/// true if Op is undef or if its value falls within the specified range (L, H].

Evan Cheng

2006-04-06 23:23:56 +0000

[diff] [blame]

1415

static bool isUndefOrInRange(SDOperand Op, unsigned Low, unsigned Hi) {

1416

if (Op.getOpcode() == ISD::UNDEF)

1417

return true;

1418

1419

unsigned Val = cast<ConstantSDNode>(Op)->getValue();

Evan Cheng

2006-04-07 21:53:05 +0000

[diff] [blame]

1420

return (Val >= Low && Val < Hi);

1421

}

1422

1423

/// isUndefOrEqual - Op is either an undef node or a ConstantSDNode. Return

1424

/// true if Op is undef or if its value equal to the specified value.

1425

static bool isUndefOrEqual(SDOperand Op, unsigned Val) {

1426

if (Op.getOpcode() == ISD::UNDEF)

1427

return true;

1428

return cast<ConstantSDNode>(Op)->getValue() == Val;

Evan Cheng

2006-04-06 23:23:56 +0000

[diff] [blame]

1429

}

1430

Evan Cheng

2006-03-22 18:59:22 +0000

[diff] [blame]

1431

/// isPSHUFDMask - Return true if the specified VECTOR_SHUFFLE operand

1432

/// specifies a shuffle of elements that is suitable for input to PSHUFD.

1433

bool X86::isPSHUFDMask(SDNode *N) {

1434

assert(N->getOpcode() == ISD::BUILD_VECTOR);

1435

1436

if (N->getNumOperands() != 4)

1437

return false;

1438

1439

// Check if the value doesn't reference the second vector.

Evan Cheng

2006-03-29 23:07:14 +0000

[diff] [blame]

1440

for (unsigned i = 0, e = N->getNumOperands(); i != e; ++i) {

Evan Cheng

2006-03-31 00:30:29 +0000

[diff] [blame]

1441

SDOperand Arg = N->getOperand(i);

1442

if (Arg.getOpcode() == ISD::UNDEF) continue;

1443

assert(isa<ConstantSDNode>(Arg) && "Invalid VECTOR_SHUFFLE mask!");

1444

if (cast<ConstantSDNode>(Arg)->getValue() >= 4)

Evan Cheng

2006-03-29 23:07:14 +0000

[diff] [blame]

return false;

}

return true;

}

/// isPSHUFHWMask - Return true if the specified VECTOR_SHUFFLE operand

Evan Cheng

2006-04-05 01:47:37 +0000

[diff] [blame]

1452

/// specifies a shuffle of elements that is suitable for input to PSHUFHW.

Evan Cheng

2006-03-29 23:07:14 +0000

[diff] [blame]

1453

bool X86::isPSHUFHWMask(SDNode *N) {

1454

assert(N->getOpcode() == ISD::BUILD_VECTOR);

1455

1456

if (N->getNumOperands() != 8)

1457

return false;

1458

1459

// Lower quadword copied in order.

1460

for (unsigned i = 0; i != 4; ++i) {

Evan Cheng

2006-03-31 00:30:29 +0000

[diff] [blame]

1461

SDOperand Arg = N->getOperand(i);

1462

if (Arg.getOpcode() == ISD::UNDEF) continue;

1463

assert(isa<ConstantSDNode>(Arg) && "Invalid VECTOR_SHUFFLE mask!");

1464

if (cast<ConstantSDNode>(Arg)->getValue() != i)

Evan Cheng

2006-03-29 23:07:14 +0000

[diff] [blame]

return false;

}

// Upper quadword shuffled.

1469

for (unsigned i = 4; i != 8; ++i) {

Evan Cheng

2006-03-31 00:30:29 +0000

[diff] [blame]

1470

SDOperand Arg = N->getOperand(i);

1471

if (Arg.getOpcode() == ISD::UNDEF) continue;

1472

assert(isa<ConstantSDNode>(Arg) && "Invalid VECTOR_SHUFFLE mask!");

1473

unsigned Val = cast<ConstantSDNode>(Arg)->getValue();

Evan Cheng

2006-03-29 23:07:14 +0000

[diff] [blame]

1474

if (Val < 4 || Val > 7)

return false;

}

return true;

}

/// isPSHUFLWMask - Return true if the specified VECTOR_SHUFFLE operand

Evan Cheng

2006-04-05 01:47:37 +0000

[diff] [blame]

1482

/// specifies a shuffle of elements that is suitable for input to PSHUFLW.

Evan Cheng

2006-03-29 23:07:14 +0000

[diff] [blame]

1483

bool X86::isPSHUFLWMask(SDNode *N) {

1484

assert(N->getOpcode() == ISD::BUILD_VECTOR);

1485

1486

if (N->getNumOperands() != 8)

1487

return false;

1488

1489

// Upper quadword copied in order.

Evan Cheng

2006-04-07 21:53:05 +0000

[diff] [blame]

1490

for (unsigned i = 4; i != 8; ++i)

1491

if (!isUndefOrEqual(N->getOperand(i), i))

Evan Cheng

2006-03-29 23:07:14 +0000

[diff] [blame]

1492

return false;

Evan Cheng

2006-03-29 23:07:14 +0000

[diff] [blame]

1493

1494

// Lower quadword shuffled.

Evan Cheng

2006-04-07 21:53:05 +0000

[diff] [blame]

1495

for (unsigned i = 0; i != 4; ++i)

1496

if (!isUndefOrInRange(N->getOperand(i), 0, 4))

Evan Cheng

2006-03-29 23:07:14 +0000

[diff] [blame]

1497

return false;

Evan Cheng

2006-03-22 18:59:22 +0000

[diff] [blame]

return true;

}

Evan Cheng

2006-03-24 01:18:28 +0000

[diff] [blame]

1502

/// isSHUFPMask - Return true if the specified VECTOR_SHUFFLE operand

1503

/// specifies a shuffle of elements that is suitable for input to SHUFP*.

1504

bool X86::isSHUFPMask(SDNode *N) {

1505

assert(N->getOpcode() == ISD::BUILD_VECTOR);

1506

Evan Cheng

2006-03-24 23:15:12 +0000

[diff] [blame]

1507

unsigned NumElems = N->getNumOperands();

1508

if (NumElems == 2) {

Evan Cheng

2006-04-06 23:23:56 +0000

[diff] [blame]

1509

// The only cases that ought be handled by SHUFPD is

Evan Cheng

2006-03-24 02:58:06 +0000

[diff] [blame]

1510

// Dest { 2, 1 } <= shuffle( Dest { 1, 0 }, Src { 3, 2 }

Evan Cheng

2006-04-06 23:23:56 +0000

[diff] [blame]

1511

// Dest { 3, 0 } <= shuffle( Dest { 1, 0 }, Src { 3, 2 }

Evan Cheng

2006-03-24 02:58:06 +0000

[diff] [blame]

1512

// Expect bit 0 == 1, bit1 == 2

1513

SDOperand Bit0 = N->getOperand(0);

1514

SDOperand Bit1 = N->getOperand(1);

Evan Cheng

2006-04-07 21:53:05 +0000

[diff] [blame]

1515

if (isUndefOrEqual(Bit0, 0) && isUndefOrEqual(Bit1, 3))

Evan Cheng

2006-04-06 23:23:56 +0000

[diff] [blame]

1516

return true;

Evan Cheng

2006-04-07 21:53:05 +0000

[diff] [blame]

1517

if (isUndefOrEqual(Bit0, 1) && isUndefOrEqual(Bit1, 2))

Evan Cheng

2006-04-06 23:23:56 +0000

[diff] [blame]

1518

return true;

1519

return false;

Evan Cheng

2006-03-24 02:58:06 +0000

[diff] [blame]

1520

}

1521

Evan Cheng

2006-03-24 23:15:12 +0000

[diff] [blame]

1522

if (NumElems != 4) return false;

Evan Cheng

2006-03-24 01:18:28 +0000

[diff] [blame]

1523

1524

// Each half must refer to only one of the vector.

Evan Cheng

2006-03-30 19:54:57 +0000

[diff] [blame]

1525

for (unsigned i = 0; i < 2; ++i) {

Evan Cheng

2006-03-31 00:30:29 +0000

[diff] [blame]

1526

SDOperand Arg = N->getOperand(i);

1527

if (Arg.getOpcode() == ISD::UNDEF) continue;

1528

assert(isa<ConstantSDNode>(Arg) && "Invalid VECTOR_SHUFFLE mask!");

1529

unsigned Val = cast<ConstantSDNode>(Arg)->getValue();

Evan Cheng

2006-03-30 19:54:57 +0000

[diff] [blame]

1530

if (Val >= 4) return false;

Evan Cheng

2006-03-24 01:18:28 +0000

[diff] [blame]

1531

}

Evan Cheng

2006-03-30 19:54:57 +0000

[diff] [blame]

1532

for (unsigned i = 2; i < 4; ++i) {

Evan Cheng

2006-03-31 00:30:29 +0000

[diff] [blame]

1533

SDOperand Arg = N->getOperand(i);

1534

if (Arg.getOpcode() == ISD::UNDEF) continue;

1535

assert(isa<ConstantSDNode>(Arg) && "Invalid VECTOR_SHUFFLE mask!");

1536

unsigned Val = cast<ConstantSDNode>(Arg)->getValue();

Evan Cheng

2006-03-30 19:54:57 +0000

[diff] [blame]

1537

if (Val < 4) return false;

Evan Cheng

2006-03-24 01:18:28 +0000

[diff] [blame]

}

return true;

}

Evan Cheng

2006-03-24 02:58:06 +0000

[diff] [blame]

1543

/// isMOVHLPSMask - Return true if the specified VECTOR_SHUFFLE operand

1544

/// specifies a shuffle of elements that is suitable for input to MOVHLPS.

1545

bool X86::isMOVHLPSMask(SDNode *N) {

1546

assert(N->getOpcode() == ISD::BUILD_VECTOR);

1547

Evan Cheng

1a194a5

2006-03-28 06:50:32 +0000

[diff] [blame]

1548

if (N->getNumOperands() != 4)

Evan Cheng

2006-03-24 02:58:06 +0000

[diff] [blame]

1549

return false;

1550

Evan Cheng

1a194a5

2006-03-28 06:50:32 +0000

[diff] [blame]

1551

// Expect bit0 == 6, bit1 == 7, bit2 == 2, bit3 == 3

Evan Cheng

2006-04-07 21:53:05 +0000

[diff] [blame]

1552

return isUndefOrEqual(N->getOperand(0), 6) &&

1553

isUndefOrEqual(N->getOperand(1), 7) &&

1554

isUndefOrEqual(N->getOperand(2), 2) &&

1555

isUndefOrEqual(N->getOperand(3), 3);

Evan Cheng

1a194a5

2006-03-28 06:50:32 +0000

[diff] [blame]

1556

}

1557

Evan Cheng

2006-04-06 23:23:56 +0000

[diff] [blame]

1558

/// isMOVLPMask - Return true if the specified VECTOR_SHUFFLE operand

1559

/// specifies a shuffle of elements that is suitable for input to MOVLP{S|D}.

1560

bool X86::isMOVLPMask(SDNode *N) {

1561

assert(N->getOpcode() == ISD::BUILD_VECTOR);

1562

1563

unsigned NumElems = N->getNumOperands();

1564

if (NumElems != 2 && NumElems != 4)

1565

return false;

1566

Evan Cheng

2006-04-07 21:53:05 +0000

[diff] [blame]

1567

for (unsigned i = 0; i < NumElems/2; ++i)

1568

if (!isUndefOrEqual(N->getOperand(i), i + NumElems))

1569

return false;

Evan Cheng

2006-04-06 23:23:56 +0000

[diff] [blame]

1570

Evan Cheng

2006-04-07 21:53:05 +0000

[diff] [blame]

1571

for (unsigned i = NumElems/2; i < NumElems; ++i)

1572

if (!isUndefOrEqual(N->getOperand(i), i))

1573

return false;

Evan Cheng

2006-04-06 23:23:56 +0000

[diff] [blame]

return true;

}

/// isMOVHPMask - Return true if the specified VECTOR_SHUFFLE operand

Evan Cheng

2006-04-19 20:35:22 +0000

[diff] [blame]

1579

/// specifies a shuffle of elements that is suitable for input to MOVHP{S|D}

1580

/// and MOVLHPS.

Evan Cheng

2006-04-06 23:23:56 +0000

[diff] [blame]

1581

bool X86::isMOVHPMask(SDNode *N) {

1582

assert(N->getOpcode() == ISD::BUILD_VECTOR);

1583

1584

unsigned NumElems = N->getNumOperands();

1585

if (NumElems != 2 && NumElems != 4)

1586

return false;

1587

Evan Cheng

2006-04-07 21:53:05 +0000

[diff] [blame]

1588

for (unsigned i = 0; i < NumElems/2; ++i)

1589

if (!isUndefOrEqual(N->getOperand(i), i))

1590

return false;

Evan Cheng

2006-04-06 23:23:56 +0000

[diff] [blame]

1591

1592

for (unsigned i = 0; i < NumElems/2; ++i) {

1593

SDOperand Arg = N->getOperand(i + NumElems/2);

Evan Cheng

2006-04-07 21:53:05 +0000

[diff] [blame]

1594

if (!isUndefOrEqual(Arg, i + NumElems))

1595

return false;

Evan Cheng

2006-04-06 23:23:56 +0000

[diff] [blame]

}

return true;

}

Evan Cheng

2006-03-28 00:39:58 +0000

[diff] [blame]

1601

/// isUNPCKLMask - Return true if the specified VECTOR_SHUFFLE operand

1602

/// specifies a shuffle of elements that is suitable for input to UNPCKL.

1603

bool X86::isUNPCKLMask(SDNode *N) {

1604

assert(N->getOpcode() == ISD::BUILD_VECTOR);

1605

1606

unsigned NumElems = N->getNumOperands();

1607

if (NumElems != 2 && NumElems != 4 && NumElems != 8 && NumElems != 16)

1608

return false;

1609

1610

for (unsigned i = 0, j = 0; i != NumElems; i += 2, ++j) {

1611

SDOperand BitI = N->getOperand(i);

1612

SDOperand BitI1 = N->getOperand(i+1);

Evan Cheng

2006-04-07 21:53:05 +0000

[diff] [blame]

1613

if (!isUndefOrEqual(BitI, j))

1614

return false;

1615

if (!isUndefOrEqual(BitI1, j + NumElems))

1616

return false;

Evan Cheng

5df7588

2006-03-28 00:39:58 +0000

[diff] [blame]

}

return true;

}

Evan Cheng

2006-03-28 02:43:26 +0000

[diff] [blame]

1622

/// isUNPCKHMask - Return true if the specified VECTOR_SHUFFLE operand

1623

/// specifies a shuffle of elements that is suitable for input to UNPCKH.

1624

bool X86::isUNPCKHMask(SDNode *N) {

1625

assert(N->getOpcode() == ISD::BUILD_VECTOR);

1626

1627

unsigned NumElems = N->getNumOperands();

1628

if (NumElems != 2 && NumElems != 4 && NumElems != 8 && NumElems != 16)

1629

return false;

1630

1631

for (unsigned i = 0, j = 0; i != NumElems; i += 2, ++j) {

1632

SDOperand BitI = N->getOperand(i);

1633

SDOperand BitI1 = N->getOperand(i+1);

Evan Cheng

2006-04-07 21:53:05 +0000

[diff] [blame]

1634

if (!isUndefOrEqual(BitI, j + NumElems/2))

1635

return false;

1636

if (!isUndefOrEqual(BitI1, j + NumElems/2 + NumElems))

1637

return false;

Evan Cheng

2bc3280

2006-03-28 02:43:26 +0000

[diff] [blame]

}

return true;

}

Evan Cheng

2006-04-05 07:20:06 +0000

[diff] [blame]

1643

/// isUNPCKL_v_undef_Mask - Special case of isUNPCKLMask for canonical form

1644

/// of vector_shuffle v, v, <0, 4, 1, 5>, i.e. vector_shuffle v, undef,

1645

/// <0, 0, 1, 1>

1646

bool X86::isUNPCKL_v_undef_Mask(SDNode *N) {

1647

assert(N->getOpcode() == ISD::BUILD_VECTOR);

1648

1649

unsigned NumElems = N->getNumOperands();

1650

if (NumElems != 4 && NumElems != 8 && NumElems != 16)

1651

return false;

1652

1653

for (unsigned i = 0, j = 0; i != NumElems; i += 2, ++j) {

1654

SDOperand BitI = N->getOperand(i);

1655

SDOperand BitI1 = N->getOperand(i+1);

1656

Evan Cheng

2006-04-07 21:53:05 +0000

[diff] [blame]

1657

if (!isUndefOrEqual(BitI, j))

1658

return false;

1659

if (!isUndefOrEqual(BitI1, j))

1660

return false;

Evan Cheng

2006-04-05 07:20:06 +0000

[diff] [blame]

}

return true;

}

Evan Cheng

2006-04-11 00:19:04 +0000

[diff] [blame]

1666

/// isMOVSMask - Return true if the specified VECTOR_SHUFFLE operand

1667

/// specifies a shuffle of elements that is suitable for input to MOVS{S|D}.

1668

bool X86::isMOVSMask(SDNode *N) {

1669

assert(N->getOpcode() == ISD::BUILD_VECTOR);

1670

1671

unsigned NumElems = N->getNumOperands();

1672

if (NumElems != 2 && NumElems != 4)

1673

return false;

1674

1675

if (!isUndefOrEqual(N->getOperand(0), NumElems))

1676

return false;

1677

1678

for (unsigned i = 1; i < NumElems; ++i) {

1679

SDOperand Arg = N->getOperand(i);

1680

if (!isUndefOrEqual(Arg, i))

return false;

}

return true;

}

Evan Cheng

2006-04-05 07:20:06 +0000

[diff] [blame]

1686

Evan Cheng

2006-04-14 21:59:03 +0000

[diff] [blame]

1687

/// isMOVSHDUPMask - Return true if the specified VECTOR_SHUFFLE operand

1688

/// specifies a shuffle of elements that is suitable for input to MOVSHDUP.

1689

bool X86::isMOVSHDUPMask(SDNode *N) {

1690

assert(N->getOpcode() == ISD::BUILD_VECTOR);

1691

1692

if (N->getNumOperands() != 4)

return false;

// Expect 1, 1, 3, 3

for (unsigned i = 0; i < 2; ++i) {

1697

SDOperand Arg = N->getOperand(i);

1698

if (Arg.getOpcode() == ISD::UNDEF) continue;

1699

assert(isa<ConstantSDNode>(Arg) && "Invalid VECTOR_SHUFFLE mask!");

1700

unsigned Val = cast<ConstantSDNode>(Arg)->getValue();

1701

if (Val != 1) return false;

1702

}

Evan Cheng

2006-04-15 05:37:34 +0000

[diff] [blame]

1703

1704

bool HasHi = false;

Evan Cheng

2006-04-14 21:59:03 +0000

[diff] [blame]

1705

for (unsigned i = 2; i < 4; ++i) {

1706

SDOperand Arg = N->getOperand(i);

1707

if (Arg.getOpcode() == ISD::UNDEF) continue;

1708

assert(isa<ConstantSDNode>(Arg) && "Invalid VECTOR_SHUFFLE mask!");

1709

unsigned Val = cast<ConstantSDNode>(Arg)->getValue();

1710

if (Val != 3) return false;

Evan Cheng

2006-04-15 05:37:34 +0000

[diff] [blame]

1711

HasHi = true;

Evan Cheng

2006-04-14 21:59:03 +0000

[diff] [blame]

1712

}

Evan Cheng

65bb720

2006-04-15 03:13:24 +0000

[diff] [blame]

1713

Evan Cheng

2006-04-15 05:37:34 +0000

[diff] [blame]

1714

// Don't use movshdup if it can be done with a shufps.

1715

return HasHi;

Evan Cheng

2006-04-14 21:59:03 +0000

[diff] [blame]

1716

}

1717

1718

/// isMOVSLDUPMask - Return true if the specified VECTOR_SHUFFLE operand

1719

/// specifies a shuffle of elements that is suitable for input to MOVSLDUP.

1720

bool X86::isMOVSLDUPMask(SDNode *N) {

1721

assert(N->getOpcode() == ISD::BUILD_VECTOR);

1722

1723

if (N->getNumOperands() != 4)

return false;

// Expect 0, 0, 2, 2

for (unsigned i = 0; i < 2; ++i) {

1728

SDOperand Arg = N->getOperand(i);

1729

if (Arg.getOpcode() == ISD::UNDEF) continue;

1730

assert(isa<ConstantSDNode>(Arg) && "Invalid VECTOR_SHUFFLE mask!");

1731

unsigned Val = cast<ConstantSDNode>(Arg)->getValue();

1732

if (Val != 0) return false;

1733

}

Evan Cheng

2006-04-15 05:37:34 +0000

[diff] [blame]

1734

1735

bool HasHi = false;

Evan Cheng

2006-04-14 21:59:03 +0000

[diff] [blame]

1736

for (unsigned i = 2; i < 4; ++i) {

1737

SDOperand Arg = N->getOperand(i);

1738

if (Arg.getOpcode() == ISD::UNDEF) continue;

1739

assert(isa<ConstantSDNode>(Arg) && "Invalid VECTOR_SHUFFLE mask!");

1740

unsigned Val = cast<ConstantSDNode>(Arg)->getValue();

1741

if (Val != 2) return false;

Evan Cheng

2006-04-15 05:37:34 +0000

[diff] [blame]

1742

HasHi = true;

Evan Cheng

2006-04-14 21:59:03 +0000

[diff] [blame]

1743

}

Evan Cheng

65bb720

2006-04-15 03:13:24 +0000

[diff] [blame]

1744

Evan Cheng

2006-04-15 05:37:34 +0000

[diff] [blame]

1745

// Don't use movshdup if it can be done with a shufps.

1746

return HasHi;

Evan Cheng

2006-04-14 21:59:03 +0000

[diff] [blame]

1747

}

1748

Evan Cheng

2006-03-22 02:53:00 +0000

[diff] [blame]

1749

/// isSplatMask - Return true if the specified VECTOR_SHUFFLE operand specifies

1750

/// a splat of a single element.

Evan Cheng

2006-04-17 20:43:08 +0000

[diff] [blame]

1751

static bool isSplatMask(SDNode *N) {

Evan Cheng

2006-03-22 02:53:00 +0000

[diff] [blame]

1752

assert(N->getOpcode() == ISD::BUILD_VECTOR);

1753

Evan Cheng

2006-03-22 02:53:00 +0000

[diff] [blame]

1754

// This is a splat operation if each element of the permute is the same, and

1755

// if the value doesn't reference the second vector.

1756

SDOperand Elt = N->getOperand(0);

1757

assert(isa<ConstantSDNode>(Elt) && "Invalid VECTOR_SHUFFLE mask!");

1758

for (unsigned i = 1, e = N->getNumOperands(); i != e; ++i) {

Evan Cheng

2006-03-31 00:30:29 +0000

[diff] [blame]

1759

SDOperand Arg = N->getOperand(i);

1760

if (Arg.getOpcode() == ISD::UNDEF) continue;

1761

assert(isa<ConstantSDNode>(Arg) && "Invalid VECTOR_SHUFFLE mask!");

1762

if (Arg != Elt) return false;

Evan Cheng

2006-03-22 02:53:00 +0000

[diff] [blame]

1763

}

1764

1765

// Make sure it is a splat of the first vector operand.

1766

return cast<ConstantSDNode>(Elt)->getValue() < N->getNumOperands();

1767

}

1768

Evan Cheng

2006-04-17 20:43:08 +0000

[diff] [blame]

1769

/// isSplatMask - Return true if the specified VECTOR_SHUFFLE operand specifies

1770

/// a splat of a single element and it's a 2 or 4 element mask.

1771

bool X86::isSplatMask(SDNode *N) {

1772

assert(N->getOpcode() == ISD::BUILD_VECTOR);

1773

1774

// We can only splat 64-bit, and 32-bit quantities.

1775

if (N->getNumOperands() != 4 && N->getNumOperands() != 2)

1776

return false;

1777

return ::isSplatMask(N);

1778

}

1779

Evan Cheng

8fdbdf2

2006-03-22 08:01:21 +0000

[diff] [blame]

1780

/// getShuffleSHUFImmediate - Return the appropriate immediate to shuffle

1781

/// the specified isShuffleMask VECTOR_SHUFFLE mask with PSHUF* and SHUFP*

1782

/// instructions.

1783

unsigned X86::getShuffleSHUFImmediate(SDNode *N) {

Evan Cheng

2006-03-22 02:53:00 +0000

[diff] [blame]

1784

unsigned NumOperands = N->getNumOperands();

1785

unsigned Shift = (NumOperands == 4) ? 2 : 1;

1786

unsigned Mask = 0;

Evan Cheng

8160fd3

2006-03-28 23:41:33 +0000

[diff] [blame]

1787

for (unsigned i = 0; i < NumOperands; ++i) {

Evan Cheng

2006-03-31 00:30:29 +0000

[diff] [blame]

1788

unsigned Val = 0;

1789

SDOperand Arg = N->getOperand(NumOperands-i-1);

1790

if (Arg.getOpcode() != ISD::UNDEF)

1791

Val = cast<ConstantSDNode>(Arg)->getValue();

Evan Cheng

2006-03-24 01:18:28 +0000

[diff] [blame]

1792

if (Val >= NumOperands) Val -= NumOperands;

Evan Cheng

8fdbdf2

2006-03-22 08:01:21 +0000

[diff] [blame]

1793

Mask |= Val;

Evan Cheng

8160fd3

2006-03-28 23:41:33 +0000

[diff] [blame]

1794

if (i != NumOperands - 1)

1795

Mask <<= Shift;

1796

}

Evan Cheng

8fdbdf2

2006-03-22 08:01:21 +0000

[diff] [blame]

return Mask;

}

Evan Cheng

2006-03-29 23:07:14 +0000

[diff] [blame]

1801

/// getShufflePSHUFHWImmediate - Return the appropriate immediate to shuffle

1802

/// the specified isShuffleMask VECTOR_SHUFFLE mask with PSHUFHW

1803

/// instructions.

1804

unsigned X86::getShufflePSHUFHWImmediate(SDNode *N) {

1805

unsigned Mask = 0;

1806

// 8 nodes, but we only care about the last 4.

1807

for (unsigned i = 7; i >= 4; --i) {

Evan Cheng

2006-03-31 00:30:29 +0000

[diff] [blame]

1808

unsigned Val = 0;

1809

SDOperand Arg = N->getOperand(i);

1810

if (Arg.getOpcode() != ISD::UNDEF)

1811

Val = cast<ConstantSDNode>(Arg)->getValue();

Evan Cheng

2006-03-29 23:07:14 +0000

[diff] [blame]

Mask |= (Val - 4);

if (i != 4)

Mask <<= 2;

}

return Mask;

}

/// getShufflePSHUFLWImmediate - Return the appropriate immediate to shuffle

1821

/// the specified isShuffleMask VECTOR_SHUFFLE mask with PSHUFLW

1822

/// instructions.

1823

unsigned X86::getShufflePSHUFLWImmediate(SDNode *N) {

1824

unsigned Mask = 0;

1825

// 8 nodes, but we only care about the first 4.

1826

for (int i = 3; i >= 0; --i) {

Evan Cheng

2006-03-31 00:30:29 +0000

[diff] [blame]

1827

unsigned Val = 0;

1828

SDOperand Arg = N->getOperand(i);

1829

if (Arg.getOpcode() != ISD::UNDEF)

1830

Val = cast<ConstantSDNode>(Arg)->getValue();

Evan Cheng

2006-03-29 23:07:14 +0000

[diff] [blame]

Mask |= Val;

if (i != 0)

Mask <<= 2;

}

return Mask;

}

Evan Cheng

2006-04-05 01:47:37 +0000

[diff] [blame]

1839

/// isPSHUFHW_PSHUFLWMask - true if the specified VECTOR_SHUFFLE operand

1840

/// specifies a 8 element shuffle that can be broken into a pair of

1841

/// PSHUFHW and PSHUFLW.

1842

static bool isPSHUFHW_PSHUFLWMask(SDNode *N) {

1843

assert(N->getOpcode() == ISD::BUILD_VECTOR);

1844

1845

if (N->getNumOperands() != 8)

1846

return false;

1847

1848

// Lower quadword shuffled.

1849

for (unsigned i = 0; i != 4; ++i) {

1850

SDOperand Arg = N->getOperand(i);

1851

if (Arg.getOpcode() == ISD::UNDEF) continue;

1852

assert(isa<ConstantSDNode>(Arg) && "Invalid VECTOR_SHUFFLE mask!");

1853

unsigned Val = cast<ConstantSDNode>(Arg)->getValue();

if (Val > 4)

return false;

}

// Upper quadword shuffled.

1859

for (unsigned i = 4; i != 8; ++i) {

1860

SDOperand Arg = N->getOperand(i);

1861

if (Arg.getOpcode() == ISD::UNDEF) continue;

1862

assert(isa<ConstantSDNode>(Arg) && "Invalid VECTOR_SHUFFLE mask!");

1863

unsigned Val = cast<ConstantSDNode>(Arg)->getValue();

1864

if (Val < 4 || Val > 7)

return false;

}

return true;

}

Evan Cheng

2006-04-06 23:23:56 +0000

[diff] [blame]

1871

/// CommuteVectorShuffle - Swap vector_shuffle operandsas well as

1872

/// values in ther permute mask.

1873

static SDOperand CommuteVectorShuffle(SDOperand Op, SelectionDAG &DAG) {

1874

SDOperand V1 = Op.getOperand(0);

1875

SDOperand V2 = Op.getOperand(1);

1876

SDOperand Mask = Op.getOperand(2);

1877

MVT::ValueType VT = Op.getValueType();

1878

MVT::ValueType MaskVT = Mask.getValueType();

1879

MVT::ValueType EltVT = MVT::getVectorBaseType(MaskVT);

1880

unsigned NumElems = Mask.getNumOperands();

1881

std::vector<SDOperand> MaskVec;

1882

1883

for (unsigned i = 0; i != NumElems; ++i) {

1884

SDOperand Arg = Mask.getOperand(i);

Evan Cheng

a3caaee

2006-04-19 22:48:17 +0000

[diff] [blame^]

1885

if (Arg.getOpcode() == ISD::UNDEF) {

1886

MaskVec.push_back(DAG.getNode(ISD::UNDEF, EltVT));

1887

continue;

1888

}

Evan Cheng

2006-04-06 23:23:56 +0000

[diff] [blame]

1889

assert(isa<ConstantSDNode>(Arg) && "Invalid VECTOR_SHUFFLE mask!");

1890

unsigned Val = cast<ConstantSDNode>(Arg)->getValue();

1891

if (Val < NumElems)

1892

MaskVec.push_back(DAG.getConstant(Val + NumElems, EltVT));

1893

else

1894

MaskVec.push_back(DAG.getConstant(Val - NumElems, EltVT));

1895

}

1896

1897

Mask = DAG.getNode(ISD::BUILD_VECTOR, MaskVT, MaskVec);

1898

return DAG.getNode(ISD::VECTOR_SHUFFLE, VT, V2, V1, Mask);

1899

}

1900

Evan Cheng

2006-04-19 20:35:22 +0000

[diff] [blame]

1901

/// ShouldXformToMOVHLPS - Return true if the node should be transformed to

1902

/// match movhlps. The lower half elements should come from upper half of

1903

/// V1 (and in order), and the upper half elements should come from the upper

1904

/// half of V2 (and in order).

1905

static bool ShouldXformToMOVHLPS(SDNode *Mask) {

1906

unsigned NumElems = Mask->getNumOperands();

1907

if (NumElems != 4)

1908

return false;

1909

for (unsigned i = 0, e = 2; i != e; ++i)

1910

if (!isUndefOrEqual(Mask->getOperand(i), i+2))

1911

return false;

1912

for (unsigned i = 2; i != 4; ++i)

1913

if (!isUndefOrEqual(Mask->getOperand(i), i+4))

return false;

return true;

}

Evan Cheng

2006-04-06 23:23:56 +0000

[diff] [blame]

1918

/// isScalarLoadToVector - Returns true if the node is a scalar load that

1919

/// is promoted to a vector.

Evan Cheng

2006-04-19 20:35:22 +0000

[diff] [blame]

1920

static inline bool isScalarLoadToVector(SDNode *N) {

1921

if (N->getOpcode() == ISD::SCALAR_TO_VECTOR) {

1922

N = N->getOperand(0).Val;

1923

return (N->getOpcode() == ISD::LOAD);

Evan Cheng

2006-04-06 23:23:56 +0000

[diff] [blame]

}

return false;

}

Evan Cheng

2006-04-19 20:35:22 +0000

[diff] [blame]

1928

/// ShouldXformToMOVLP{S|D} - Return true if the node should be transformed to

1929

/// match movlp{s|d}. The lower half elements should come from lower half of

1930

/// V1 (and in order), and the upper half elements should come from the upper

1931

/// half of V2 (and in order). And since V1 will become the source of the

1932

/// MOVLP, it must be either a vector load or a scalar load to vector.

1933

static bool ShouldXformToMOVLP(SDNode *V1, SDNode *Mask) {

1934

if (V1->getOpcode() != ISD::LOAD && !isScalarLoadToVector(V1))

1935

return false;

Evan Cheng

2006-04-06 23:23:56 +0000

[diff] [blame]

1936

Evan Cheng

2006-04-19 20:35:22 +0000

[diff] [blame]

1937

unsigned NumElems = Mask->getNumOperands();

1938

if (NumElems != 2 && NumElems != 4)

1939

return false;

1940

for (unsigned i = 0, e = NumElems/2; i != e; ++i)

1941

if (!isUndefOrEqual(Mask->getOperand(i), i))

1942

return false;

1943

for (unsigned i = NumElems/2; i != NumElems; ++i)

1944

if (!isUndefOrEqual(Mask->getOperand(i), i+NumElems))

1945

return false;

1946

return true;

Evan Cheng

2006-04-06 23:23:56 +0000

[diff] [blame]

1947

}

1948

1949

/// isLowerFromV2UpperFromV1 - Returns true if the shuffle mask is except

1950

/// the reverse of what x86 shuffles want. x86 shuffles requires the lower

1951

/// half elements to come from vector 1 (which would equal the dest.) and

1952

/// the upper half to come from vector 2.

1953

static bool isLowerFromV2UpperFromV1(SDOperand Op) {

1954

assert(Op.getOpcode() == ISD::BUILD_VECTOR);

1955

1956

unsigned NumElems = Op.getNumOperands();

1957

for (unsigned i = 0, e = NumElems/2; i != e; ++i)

Evan Cheng

2006-04-07 21:53:05 +0000

[diff] [blame]

1958

if (!isUndefOrInRange(Op.getOperand(i), NumElems, NumElems*2))

Evan Cheng

2006-04-06 23:23:56 +0000

[diff] [blame]

1959

return false;

1960

for (unsigned i = NumElems/2; i != NumElems; ++i)

Evan Cheng

2006-04-07 21:53:05 +0000

[diff] [blame]

1961

if (!isUndefOrInRange(Op.getOperand(i), 0, NumElems))

Evan Cheng

2006-04-06 23:23:56 +0000

[diff] [blame]

return false;

return true;

}

Evan Cheng

2006-04-17 20:43:08 +0000

[diff] [blame]

1966

/// getUnpacklMask - Returns a vector_shuffle mask for an unpackl operation

1967

/// of specified width.

1968

static SDOperand getUnpacklMask(unsigned NumElems, SelectionDAG &DAG) {

1969

MVT::ValueType MaskVT = MVT::getIntVectorWithNumElements(NumElems);

1970

MVT::ValueType BaseVT = MVT::getVectorBaseType(MaskVT);

1971

std::vector<SDOperand> MaskVec;

1972

for (unsigned i = 0, e = NumElems/2; i != e; ++i) {

1973

MaskVec.push_back(DAG.getConstant(i, BaseVT));

1974

MaskVec.push_back(DAG.getConstant(i + NumElems, BaseVT));

1975

}

1976

return DAG.getNode(ISD::BUILD_VECTOR, MaskVT, MaskVec);

1977

}

1978

1979

/// PromoteSplat - Promote a splat of v8i16 or v16i8 to v4i32.

1980

///

1981

static SDOperand PromoteSplat(SDOperand Op, SelectionDAG &DAG) {

1982

SDOperand V1 = Op.getOperand(0);

1983

SDOperand PermMask = Op.getOperand(2);

1984

MVT::ValueType VT = Op.getValueType();

1985

unsigned NumElems = PermMask.getNumOperands();

1986

PermMask = getUnpacklMask(NumElems, DAG);

1987

while (NumElems != 4) {

1988

V1 = DAG.getNode(ISD::VECTOR_SHUFFLE, VT, V1, V1, PermMask);

1989

NumElems >>= 1;

1990

}

1991

V1 = DAG.getNode(ISD::BIT_CONVERT, MVT::v4i32, V1);

1992

1993

MVT::ValueType MaskVT = MVT::getIntVectorWithNumElements(4);

1994

SDOperand Zero = DAG.getConstant(0, MVT::getVectorBaseType(MaskVT));

1995

std::vector<SDOperand> ZeroVec(4, Zero);

1996

SDOperand SplatMask = DAG.getNode(ISD::BUILD_VECTOR, MaskVT, ZeroVec);

1997

SDOperand Shuffle = DAG.getNode(ISD::VECTOR_SHUFFLE, MVT::v4i32, V1,

1998

DAG.getNode(ISD::UNDEF, MVT::v4i32),

1999

SplatMask);

2000

return DAG.getNode(ISD::BIT_CONVERT, VT, Shuffle);

2001

}

2002

Chris Lattner

2005-11-15 00:40:23 +0000

[diff] [blame]

2003

/// LowerOperation - Provide custom lowering hooks for some operations.

2004

///

2005

SDOperand X86TargetLowering::LowerOperation(SDOperand Op, SelectionDAG &DAG) {

2006

switch (Op.getOpcode()) {

2007

default: assert(0 && "Should not custom lower this!");

Evan Cheng

2006-01-09 18:33:28 +0000

[diff] [blame]

2008

case ISD::SHL_PARTS:

2009

case ISD::SRA_PARTS:

2010

case ISD::SRL_PARTS: {

2011

assert(Op.getNumOperands() == 3 && Op.getValueType() == MVT::i32 &&

2012

"Not an i64 shift!");

2013

bool isSRA = Op.getOpcode() == ISD::SRA_PARTS;

2014

SDOperand ShOpLo = Op.getOperand(0);

2015

SDOperand ShOpHi = Op.getOperand(1);

2016

SDOperand ShAmt = Op.getOperand(2);

2017

SDOperand Tmp1 = isSRA ? DAG.getNode(ISD::SRA, MVT::i32, ShOpHi,

Evan Cheng

621674a

2006-01-18 09:26:46 +0000

[diff] [blame]

2018

DAG.getConstant(31, MVT::i8))

Evan Cheng

2006-01-09 18:33:28 +0000

[diff] [blame]

2019

: DAG.getConstant(0, MVT::i32);

2020

2021

SDOperand Tmp2, Tmp3;

2022

if (Op.getOpcode() == ISD::SHL_PARTS) {

2023

Tmp2 = DAG.getNode(X86ISD::SHLD, MVT::i32, ShOpHi, ShOpLo, ShAmt);

2024

Tmp3 = DAG.getNode(ISD::SHL, MVT::i32, ShOpLo, ShAmt);

2025

} else {

2026

Tmp2 = DAG.getNode(X86ISD::SHRD, MVT::i32, ShOpLo, ShOpHi, ShAmt);

Evan Cheng

267ba59

2006-01-19 01:46:14 +0000

[diff] [blame]

2027

Tmp3 = DAG.getNode(isSRA ? ISD::SRA : ISD::SRL, MVT::i32, ShOpHi, ShAmt);

Evan Cheng

2006-01-09 18:33:28 +0000

[diff] [blame]

2028

}

2029

2030

SDOperand InFlag = DAG.getNode(X86ISD::TEST, MVT::Flag,

2031

ShAmt, DAG.getConstant(32, MVT::i8));

2032

2033

SDOperand Hi, Lo;

Evan Cheng

77fa919

2006-01-09 20:49:21 +0000

[diff] [blame]

2034

SDOperand CC = DAG.getConstant(X86ISD::COND_NE, MVT::i8);

Evan Cheng

2006-01-09 18:33:28 +0000

[diff] [blame]

2035

2036

std::vector<MVT::ValueType> Tys;

2037

Tys.push_back(MVT::i32);

2038

Tys.push_back(MVT::Flag);

2039

std::vector<SDOperand> Ops;

2040

if (Op.getOpcode() == ISD::SHL_PARTS) {

Ops.push_back(Tmp2);

Ops.push_back(Tmp3);

Ops.push_back(CC);

Ops.push_back(InFlag);

2045

Hi = DAG.getNode(X86ISD::CMOV, Tys, Ops);

2046

InFlag = Hi.getValue(1);

Ops.clear();

Ops.push_back(Tmp3);

Ops.push_back(Tmp1);

Ops.push_back(CC);

Ops.push_back(InFlag);

2053

Lo = DAG.getNode(X86ISD::CMOV, Tys, Ops);

} else {

Ops.push_back(Tmp2);

Ops.push_back(Tmp3);

Ops.push_back(CC);

Evan Cheng

12181af

2006-01-09 22:29:54 +0000

[diff] [blame]

2058

Ops.push_back(InFlag);

Evan Cheng

2006-01-09 18:33:28 +0000

[diff] [blame]

2059

Lo = DAG.getNode(X86ISD::CMOV, Tys, Ops);

2060

InFlag = Lo.getValue(1);

Ops.clear();

Ops.push_back(Tmp3);

Ops.push_back(Tmp1);

Ops.push_back(CC);

Ops.push_back(InFlag);

2067

Hi = DAG.getNode(X86ISD::CMOV, Tys, Ops);

}

Tys.clear();

Tys.push_back(MVT::i32);

2072

Tys.push_back(MVT::i32);

Ops.clear();

Ops.push_back(Lo);

Ops.push_back(Hi);

return DAG.getNode(ISD::MERGE_VALUES, Tys, Ops);

2077

}

Chris Lattner

2005-11-15 00:40:23 +0000

[diff] [blame]

2078

case ISD::SINT_TO_FP: {

Evan Cheng

2006-01-30 22:13:22 +0000

[diff] [blame]

2079

assert(Op.getOperand(0).getValueType() <= MVT::i64 &&

Evan Cheng

2006-01-12 22:54:21 +0000

[diff] [blame]

2080

Op.getOperand(0).getValueType() >= MVT::i16 &&

Chris Lattner

2005-11-15 00:40:23 +0000

[diff] [blame]

2081

"Unknown SINT_TO_FP to lower!");

Evan Cheng

2006-01-12 22:54:21 +0000

[diff] [blame]

2082

2083

SDOperand Result;

2084

MVT::ValueType SrcVT = Op.getOperand(0).getValueType();

2085

unsigned Size = MVT::getSizeInBits(SrcVT)/8;

Chris Lattner

2005-11-15 00:40:23 +0000

[diff] [blame]

2086

MachineFunction &MF = DAG.getMachineFunction();

Evan Cheng

2006-01-12 22:54:21 +0000

[diff] [blame]

2087

int SSFI = MF.getFrameInfo()->CreateStackObject(Size, Size);

Chris Lattner

2005-11-15 00:40:23 +0000

[diff] [blame]

2088

SDOperand StackSlot = DAG.getFrameIndex(SSFI, getPointerTy());

Evan Cheng

2006-01-12 22:54:21 +0000

[diff] [blame]

2089

SDOperand Chain = DAG.getNode(ISD::STORE, MVT::Other,

2090

DAG.getEntryNode(), Op.getOperand(0),

2091

StackSlot, DAG.getSrcValue(NULL));

2092

2093

// Build the FILD

2094

std::vector<MVT::ValueType> Tys;

2095

Tys.push_back(MVT::f64);

Evan Cheng

2006-01-30 08:02:57 +0000

[diff] [blame]

2096

Tys.push_back(MVT::Other);

Evan Cheng

2006-02-04 02:20:30 +0000

[diff] [blame]

2097

if (X86ScalarSSE) Tys.push_back(MVT::Flag);

Chris Lattner

2005-11-15 00:40:23 +0000

[diff] [blame]

2098

std::vector<SDOperand> Ops;

Evan Cheng

2006-01-12 22:54:21 +0000

[diff] [blame]

2099

Ops.push_back(Chain);

Chris Lattner

2005-11-15 00:40:23 +0000

[diff] [blame]

2100

Ops.push_back(StackSlot);

Evan Cheng

2006-01-12 22:54:21 +0000

[diff] [blame]

2101

Ops.push_back(DAG.getValueType(SrcVT));

Evan Cheng

2006-02-04 02:20:30 +0000

[diff] [blame]

2102

Result = DAG.getNode(X86ScalarSSE ? X86ISD::FILD_FLAG :X86ISD::FILD,

2103

Tys, Ops);

Evan Cheng

2006-01-30 08:02:57 +0000

[diff] [blame]

2104

2105

if (X86ScalarSSE) {

Evan Cheng

2006-01-30 08:02:57 +0000

[diff] [blame]

2106

Chain = Result.getValue(1);

2107

SDOperand InFlag = Result.getValue(2);

2108

Evan Cheng

2006-02-04 02:20:30 +0000

[diff] [blame]

2109

// FIXME: Currently the FST is flagged to the FILD_FLAG. This

Evan Cheng

2006-01-30 08:02:57 +0000

[diff] [blame]

2110

// shouldn't be necessary except that RFP cannot be live across

2111

// multiple blocks. When stackifier is fixed, they can be uncoupled.

2112

MachineFunction &MF = DAG.getMachineFunction();

2113

int SSFI = MF.getFrameInfo()->CreateStackObject(8, 8);

2114

SDOperand StackSlot = DAG.getFrameIndex(SSFI, getPointerTy());

2115

std::vector<MVT::ValueType> Tys;

2116

Tys.push_back(MVT::Other);

2117

std::vector<SDOperand> Ops;

2118

Ops.push_back(Chain);

2119

Ops.push_back(Result);

2120

Ops.push_back(StackSlot);

Evan Cheng

2006-01-30 22:13:22 +0000

[diff] [blame]

2121

Ops.push_back(DAG.getValueType(Op.getValueType()));

Evan Cheng

2006-01-30 08:02:57 +0000

[diff] [blame]

2122

Ops.push_back(InFlag);

2123

Chain = DAG.getNode(X86ISD::FST, Tys, Ops);

2124

Result = DAG.getLoad(Op.getValueType(), Chain, StackSlot,

2125

DAG.getSrcValue(NULL));

2126

}

2127

Evan Cheng

2006-01-12 22:54:21 +0000

[diff] [blame]

2128

return Result;

Chris Lattner

2005-11-15 00:40:23 +0000

[diff] [blame]

2129

}

2130

case ISD::FP_TO_SINT: {

2131

assert(Op.getValueType() <= MVT::i64 && Op.getValueType() >= MVT::i16 &&

Chris Lattner

2005-11-15 00:40:23 +0000

[diff] [blame]

2132

"Unknown FP_TO_SINT to lower!");

2133

// We lower FP->sint64 into FISTP64, followed by a load, all to a temporary

2134

// stack slot.

2135

MachineFunction &MF = DAG.getMachineFunction();

2136

unsigned MemSize = MVT::getSizeInBits(Op.getValueType())/8;

2137

int SSFI = MF.getFrameInfo()->CreateStackObject(MemSize, MemSize);

2138

SDOperand StackSlot = DAG.getFrameIndex(SSFI, getPointerTy());

2139

2140

unsigned Opc;

2141

switch (Op.getValueType()) {

2142

default: assert(0 && "Invalid FP_TO_SINT to lower!");

2143

case MVT::i16: Opc = X86ISD::FP_TO_INT16_IN_MEM; break;

2144

case MVT::i32: Opc = X86ISD::FP_TO_INT32_IN_MEM; break;

2145

case MVT::i64: Opc = X86ISD::FP_TO_INT64_IN_MEM; break;

2146

}

2147

Evan Cheng

2006-01-30 08:02:57 +0000

[diff] [blame]

2148

SDOperand Chain = DAG.getEntryNode();

2149

SDOperand Value = Op.getOperand(0);

2150

if (X86ScalarSSE) {

2151

assert(Op.getValueType() == MVT::i64 && "Invalid FP_TO_SINT to lower!");

2152

Chain = DAG.getNode(ISD::STORE, MVT::Other, Chain, Value, StackSlot,

2153

DAG.getSrcValue(0));

2154

std::vector<MVT::ValueType> Tys;

2155

Tys.push_back(MVT::f64);

2156

Tys.push_back(MVT::Other);

2157

std::vector<SDOperand> Ops;

2158

Ops.push_back(Chain);

2159

Ops.push_back(StackSlot);

Evan Cheng

2006-01-30 22:13:22 +0000

[diff] [blame]

2160

Ops.push_back(DAG.getValueType(Op.getOperand(0).getValueType()));

Evan Cheng

2006-01-30 08:02:57 +0000

[diff] [blame]

2161

Value = DAG.getNode(X86ISD::FLD, Tys, Ops);

2162

Chain = Value.getValue(1);

2163

SSFI = MF.getFrameInfo()->CreateStackObject(MemSize, MemSize);

2164

StackSlot = DAG.getFrameIndex(SSFI, getPointerTy());

2165

}

2166

Chris Lattner

2005-11-15 00:40:23 +0000

[diff] [blame]

2167

// Build the FP_TO_INT*_IN_MEM

2168

std::vector<SDOperand> Ops;

Evan Cheng

2006-01-30 08:02:57 +0000

[diff] [blame]

2169

Ops.push_back(Chain);

2170

Ops.push_back(Value);

Chris Lattner

2005-11-15 00:40:23 +0000

[diff] [blame]

2171

Ops.push_back(StackSlot);

2172

SDOperand FIST = DAG.getNode(Opc, MVT::Other, Ops);

2173

2174

// Load the result.

2175

return DAG.getLoad(Op.getValueType(), FIST, StackSlot,

2176

DAG.getSrcValue(NULL));

2177

}

Andrew Lenharth

0bf68ae

2005-11-20 21:41:10 +0000

[diff] [blame]

2178

case ISD::READCYCLECOUNTER: {

Chris Lattner

6df9e11

2005-11-20 22:01:40 +0000

[diff] [blame]

2179

std::vector<MVT::ValueType> Tys;

2180

Tys.push_back(MVT::Other);

2181

Tys.push_back(MVT::Flag);

2182

std::vector<SDOperand> Ops;

2183

Ops.push_back(Op.getOperand(0));

2184

SDOperand rd = DAG.getNode(X86ISD::RDTSC_DAG, Tys, Ops);

Chris Lattner

6c1ca88

2005-11-20 22:57:19 +0000

[diff] [blame]

2185

Ops.clear();

2186

Ops.push_back(DAG.getCopyFromReg(rd, X86::EAX, MVT::i32, rd.getValue(1)));

2187

Ops.push_back(DAG.getCopyFromReg(Ops[0].getValue(1), X86::EDX,

2188

MVT::i32, Ops[0].getValue(2)));

2189

Ops.push_back(Ops[1].getValue(1));

2190

Tys[0] = Tys[1] = MVT::i32;

2191

Tys.push_back(MVT::Other);

2192

return DAG.getNode(ISD::MERGE_VALUES, Tys, Ops);

Andrew Lenharth

0bf68ae

2005-11-20 21:41:10 +0000

[diff] [blame]

2193

}

Evan Cheng

2006-01-31 03:14:29 +0000

[diff] [blame]

2194

case ISD::FABS: {

2195

MVT::ValueType VT = Op.getValueType();

Evan Cheng

2006-01-31 22:28:30 +0000

[diff] [blame]

2196

const Type *OpNTy = MVT::getTypeForValueType(VT);

2197

std::vector<Constant*> CV;

2198

if (VT == MVT::f64) {

2199

CV.push_back(ConstantFP::get(OpNTy, BitsToDouble(~(1ULL << 63))));

2200

CV.push_back(ConstantFP::get(OpNTy, 0.0));

2201

} else {

2202

CV.push_back(ConstantFP::get(OpNTy, BitsToFloat(~(1U << 31))));

2203

CV.push_back(ConstantFP::get(OpNTy, 0.0));

2204

CV.push_back(ConstantFP::get(OpNTy, 0.0));

2205

CV.push_back(ConstantFP::get(OpNTy, 0.0));

2206

}

2207

Constant *CS = ConstantStruct::get(CV);

2208

SDOperand CPIdx = DAG.getConstantPool(CS, getPointerTy(), 4);

2209

SDOperand Mask

2210

= DAG.getNode(X86ISD::LOAD_PACK,

2211

VT, DAG.getEntryNode(), CPIdx, DAG.getSrcValue(NULL));

Evan Cheng

2006-01-31 03:14:29 +0000

[diff] [blame]

2212

return DAG.getNode(X86ISD::FAND, VT, Op.getOperand(0), Mask);

2213

}

Evan Cheng

2006-01-31 22:28:30 +0000

[diff] [blame]

2214

case ISD::FNEG: {

2215

MVT::ValueType VT = Op.getValueType();

2216

const Type *OpNTy = MVT::getTypeForValueType(VT);

2217

std::vector<Constant*> CV;

2218

if (VT == MVT::f64) {

2219

CV.push_back(ConstantFP::get(OpNTy, BitsToDouble(1ULL << 63)));

2220

CV.push_back(ConstantFP::get(OpNTy, 0.0));

2221

} else {

2222

CV.push_back(ConstantFP::get(OpNTy, BitsToFloat(1U << 31)));

2223

CV.push_back(ConstantFP::get(OpNTy, 0.0));

2224

CV.push_back(ConstantFP::get(OpNTy, 0.0));

2225

CV.push_back(ConstantFP::get(OpNTy, 0.0));

2226

}

2227

Constant *CS = ConstantStruct::get(CV);

2228

SDOperand CPIdx = DAG.getConstantPool(CS, getPointerTy(), 4);

2229

SDOperand Mask

2230

= DAG.getNode(X86ISD::LOAD_PACK,

2231

VT, DAG.getEntryNode(), CPIdx, DAG.getSrcValue(NULL));

2232

return DAG.getNode(X86ISD::FXOR, VT, Op.getOperand(0), Mask);

2233

}

Evan Cheng

2005-12-21 20:21:51 +0000

[diff] [blame]

2234

case ISD::SETCC: {

2235

assert(Op.getValueType() == MVT::i8 && "SetCC type must be 8-bit integer");

Evan Cheng

2006-01-30 23:41:35 +0000

[diff] [blame]

2236

SDOperand Cond;

2237

SDOperand CC = Op.getOperand(2);

Evan Cheng

2006-01-06 00:43:03 +0000

[diff] [blame]

2238

ISD::CondCode SetCCOpcode = cast<CondCodeSDNode>(CC)->get();

2239

bool isFP = MVT::isFloatingPoint(Op.getOperand(1).getValueType());

Evan Cheng

2006-01-30 23:41:35 +0000

[diff] [blame]

2240

bool Flip;

2241

unsigned X86CC;

2242

if (translateX86CC(CC, isFP, X86CC, Flip)) {

2243

if (Flip)

2244

Cond = DAG.getNode(X86ISD::CMP, MVT::Flag,

2245

Op.getOperand(1), Op.getOperand(0));

2246

else

2247

Cond = DAG.getNode(X86ISD::CMP, MVT::Flag,

2248

Op.getOperand(0), Op.getOperand(1));

Evan Cheng

2006-01-06 00:43:03 +0000

[diff] [blame]

2249

return DAG.getNode(X86ISD::SETCC, MVT::i8,

2250

DAG.getConstant(X86CC, MVT::i8), Cond);

2251

} else {

2252

assert(isFP && "Illegal integer SetCC!");

2253

Evan Cheng

2006-01-30 23:41:35 +0000

[diff] [blame]

2254

Cond = DAG.getNode(X86ISD::CMP, MVT::Flag,

2255

Op.getOperand(0), Op.getOperand(1));

Evan Cheng

2006-01-06 00:43:03 +0000

[diff] [blame]

2256

std::vector<MVT::ValueType> Tys;

2257

std::vector<SDOperand> Ops;

2258

switch (SetCCOpcode) {

2259

default: assert(false && "Illegal floating point SetCC!");

2260

case ISD::SETOEQ: { // !PF & ZF

2261

Tys.push_back(MVT::i8);

2262

Tys.push_back(MVT::Flag);

2263

Ops.push_back(DAG.getConstant(X86ISD::COND_NP, MVT::i8));

2264

Ops.push_back(Cond);

2265

SDOperand Tmp1 = DAG.getNode(X86ISD::SETCC, Tys, Ops);

2266

SDOperand Tmp2 = DAG.getNode(X86ISD::SETCC, MVT::i8,

2267

DAG.getConstant(X86ISD::COND_E, MVT::i8),

2268

Tmp1.getValue(1));

2269

return DAG.getNode(ISD::AND, MVT::i8, Tmp1, Tmp2);

2270

}

Evan Cheng

2006-01-06 00:43:03 +0000

[diff] [blame]

2271

case ISD::SETUNE: { // PF | !ZF

2272

Tys.push_back(MVT::i8);

2273

Tys.push_back(MVT::Flag);

2274

Ops.push_back(DAG.getConstant(X86ISD::COND_P, MVT::i8));

2275

Ops.push_back(Cond);

2276

SDOperand Tmp1 = DAG.getNode(X86ISD::SETCC, Tys, Ops);

2277

SDOperand Tmp2 = DAG.getNode(X86ISD::SETCC, MVT::i8,

2278

DAG.getConstant(X86ISD::COND_NE, MVT::i8),

2279

Tmp1.getValue(1));

2280

return DAG.getNode(ISD::OR, MVT::i8, Tmp1, Tmp2);

2281

}

2282

}

2283

}

Evan Cheng

2005-12-21 20:21:51 +0000

[diff] [blame]

2284

}

Evan Cheng

225a4d0

2005-12-17 01:21:05 +0000

[diff] [blame]

2285

case ISD::SELECT: {

Evan Cheng

2006-01-10 20:26:56 +0000

[diff] [blame]

2286

MVT::ValueType VT = Op.getValueType();

Evan Cheng

2006-04-10 07:23:14 +0000

[diff] [blame]

2287

bool isFPStack = MVT::isFloatingPoint(VT) && !X86ScalarSSE;

Evan Cheng

2006-01-13 01:03:02 +0000

[diff] [blame]

2288

bool addTest = false;

Evan Cheng

2006-01-10 20:26:56 +0000

[diff] [blame]

2289

SDOperand Op0 = Op.getOperand(0);

2290

SDOperand Cond, CC;

Evan Cheng

2006-01-30 23:41:35 +0000

[diff] [blame]

2291

if (Op0.getOpcode() == ISD::SETCC)

2292

Op0 = LowerOperation(Op0, DAG);

2293

Evan Cheng

2006-01-10 20:26:56 +0000

[diff] [blame]

2294

if (Op0.getOpcode() == X86ISD::SETCC) {

Evan Cheng

2006-01-13 01:03:02 +0000

[diff] [blame]

2295

// If condition flag is set by a X86ISD::CMP, then make a copy of it

2296

// (since flag operand cannot be shared). If the X86ISD::SETCC does not

2297

// have another use it will be eliminated.

2298

// If the X86ISD::SETCC has more than one use, then it's probably better

2299

// to use a test instead of duplicating the X86ISD::CMP (for register

2300

// pressure reason).

Evan Cheng

2006-04-05 23:38:46 +0000

[diff] [blame]

2301

unsigned CmpOpc = Op0.getOperand(1).getOpcode();

2302

if (CmpOpc == X86ISD::CMP || CmpOpc == X86ISD::COMI ||

2303

CmpOpc == X86ISD::UCOMI) {

Evan Cheng

944d1e9

2006-01-26 02:13:10 +0000

[diff] [blame]

2304

if (!Op0.hasOneUse()) {

2305

std::vector<MVT::ValueType> Tys;

2306

for (unsigned i = 0; i < Op0.Val->getNumValues(); ++i)

2307

Tys.push_back(Op0.Val->getValueType(i));

2308

std::vector<SDOperand> Ops;

2309

for (unsigned i = 0; i < Op0.getNumOperands(); ++i)

2310

Ops.push_back(Op0.getOperand(i));

2311

Op0 = DAG.getNode(X86ISD::SETCC, Tys, Ops);

2312

}

2313

Evan Cheng

2006-01-13 01:03:02 +0000

[diff] [blame]

2314

CC = Op0.getOperand(0);

2315

Cond = Op0.getOperand(1);

Evan Cheng

2006-01-25 09:05:09 +0000

[diff] [blame]

2316

// Make a copy as flag result cannot be used by more than one.

Evan Cheng

2006-04-05 23:38:46 +0000

[diff] [blame]

2317

Cond = DAG.getNode(CmpOpc, MVT::Flag,

Evan Cheng

2006-01-25 09:05:09 +0000

[diff] [blame]

2318

Cond.getOperand(0), Cond.getOperand(1));

Evan Cheng

2006-01-13 01:03:02 +0000

[diff] [blame]

2319

addTest =

Evan Cheng

d7faa4b

2006-01-13 01:17:24 +0000

[diff] [blame]

2320

isFPStack && !hasFPCMov(cast<ConstantSDNode>(CC)->getSignExtended());

Evan Cheng

2006-01-13 01:03:02 +0000

[diff] [blame]

2321

} else

2322

addTest = true;

Evan Cheng

2006-01-13 01:03:02 +0000

[diff] [blame]

2323

} else

2324

addTest = true;

Evan Cheng

2006-01-10 20:26:56 +0000

[diff] [blame]

2325

Evan Cheng

731423f

2006-01-13 01:06:49 +0000

[diff] [blame]

2326

if (addTest) {

Evan Cheng

dba84bb

2006-01-13 19:51:46 +0000

[diff] [blame]

2327

CC = DAG.getConstant(X86ISD::COND_NE, MVT::i8);

Evan Cheng

2006-01-10 20:26:56 +0000

[diff] [blame]

2328

Cond = DAG.getNode(X86ISD::TEST, MVT::Flag, Op0, Op0);

Evan Cheng

225a4d0

2005-12-17 01:21:05 +0000

[diff] [blame]

2329

}

Evan Cheng

2006-01-09 18:33:28 +0000

[diff] [blame]

2330

2331

std::vector<MVT::ValueType> Tys;

2332

Tys.push_back(Op.getValueType());

2333

Tys.push_back(MVT::Flag);

2334

std::vector<SDOperand> Ops;

Evan Cheng

dba84bb

2006-01-13 19:51:46 +0000

[diff] [blame]

2335

// X86ISD::CMOV means set the result (which is operand 1) to the RHS if

2336

// condition is true.

Evan Cheng

2006-01-09 18:33:28 +0000

[diff] [blame]

2337

Ops.push_back(Op.getOperand(2));

Evan Cheng

dba84bb

2006-01-13 19:51:46 +0000

[diff] [blame]

2338

Ops.push_back(Op.getOperand(1));

Evan Cheng

2006-01-09 18:33:28 +0000

[diff] [blame]

2339

Ops.push_back(CC);

2340

Ops.push_back(Cond);

2341

return DAG.getNode(X86ISD::CMOV, Tys, Ops);

Evan Cheng

225a4d0

2005-12-17 01:21:05 +0000

[diff] [blame]

2342

}

Evan Cheng

6fc3104

2005-12-19 23:12:38 +0000

[diff] [blame]

2343

case ISD::BRCOND: {

Evan Cheng

2006-01-13 01:03:02 +0000

[diff] [blame]

2344

bool addTest = false;

Evan Cheng

6fc3104

2005-12-19 23:12:38 +0000

[diff] [blame]

2345

SDOperand Cond = Op.getOperand(1);

2346

SDOperand Dest = Op.getOperand(2);

2347

SDOperand CC;

Evan Cheng

2006-01-30 23:41:35 +0000

[diff] [blame]

2348

if (Cond.getOpcode() == ISD::SETCC)

2349

Cond = LowerOperation(Cond, DAG);

2350

Evan Cheng

2005-12-21 20:21:51 +0000

[diff] [blame]

2351

if (Cond.getOpcode() == X86ISD::SETCC) {

Evan Cheng

2006-01-13 01:03:02 +0000

[diff] [blame]

2352

// If condition flag is set by a X86ISD::CMP, then make a copy of it

2353

// (since flag operand cannot be shared). If the X86ISD::SETCC does not

2354

// have another use it will be eliminated.

2355

// If the X86ISD::SETCC has more than one use, then it's probably better

2356

// to use a test instead of duplicating the X86ISD::CMP (for register

2357

// pressure reason).

Evan Cheng

2006-04-05 23:38:46 +0000

[diff] [blame]

2358

unsigned CmpOpc = Cond.getOperand(1).getOpcode();

2359

if (CmpOpc == X86ISD::CMP || CmpOpc == X86ISD::COMI ||

2360

CmpOpc == X86ISD::UCOMI) {

Evan Cheng

944d1e9

2006-01-26 02:13:10 +0000

[diff] [blame]

2361

if (!Cond.hasOneUse()) {

2362

std::vector<MVT::ValueType> Tys;

2363

for (unsigned i = 0; i < Cond.Val->getNumValues(); ++i)

2364

Tys.push_back(Cond.Val->getValueType(i));

2365

std::vector<SDOperand> Ops;

2366

for (unsigned i = 0; i < Cond.getNumOperands(); ++i)

2367

Ops.push_back(Cond.getOperand(i));

2368

Cond = DAG.getNode(X86ISD::SETCC, Tys, Ops);

2369

}

2370

Evan Cheng

2006-01-13 01:03:02 +0000

[diff] [blame]

2371

CC = Cond.getOperand(0);

Evan Cheng

2006-01-25 09:05:09 +0000

[diff] [blame]

2372

Cond = Cond.getOperand(1);

2373

// Make a copy as flag result cannot be used by more than one.

Evan Cheng

2006-04-05 23:38:46 +0000

[diff] [blame]

2374

Cond = DAG.getNode(CmpOpc, MVT::Flag,

Evan Cheng

2006-01-25 09:05:09 +0000

[diff] [blame]

2375

Cond.getOperand(0), Cond.getOperand(1));

Evan Cheng

2006-01-13 01:03:02 +0000

[diff] [blame]

2376

} else

2377

addTest = true;

Evan Cheng

2006-01-13 01:03:02 +0000

[diff] [blame]

} else

addTest = true;

if (addTest) {

Evan Cheng

2006-01-06 00:43:03 +0000

[diff] [blame]

2382

CC = DAG.getConstant(X86ISD::COND_NE, MVT::i8);

Evan Cheng

6fc3104

2005-12-19 23:12:38 +0000

[diff] [blame]

2383

Cond = DAG.getNode(X86ISD::TEST, MVT::Flag, Cond, Cond);

2384

}

2385

return DAG.getNode(X86ISD::BRCOND, Op.getValueType(),

2386

Op.getOperand(0), Op.getOperand(2), CC, Cond);

2387

}

Evan Cheng

2006-01-11 22:15:48 +0000

[diff] [blame]

2388

case ISD::MEMSET: {

Evan Cheng

2006-03-04 02:48:56 +0000

[diff] [blame]

2389

SDOperand InFlag(0, 0);

Evan Cheng

2006-01-11 22:15:48 +0000

[diff] [blame]

2390

SDOperand Chain = Op.getOperand(0);

2391

unsigned Align =

2392

(unsigned)cast<ConstantSDNode>(Op.getOperand(4))->getValue();

2393

if (Align == 0) Align = 1;

2394

Evan Cheng

2006-02-16 00:21:07 +0000

[diff] [blame]

2395

ConstantSDNode *I = dyn_cast<ConstantSDNode>(Op.getOperand(3));

2396

// If not DWORD aligned, call memset if size is less than the threshold.

2397

// It knows how to align to the right boundary first.

Evan Cheng

2006-03-04 02:48:56 +0000

[diff] [blame]

2398

if ((Align & 3) != 0 ||

Evan Cheng

2006-03-07 23:29:39 +0000

[diff] [blame]

2399

(I && I->getValue() < Subtarget->getMinRepStrSizeThreshold())) {

Evan Cheng

2006-02-16 00:21:07 +0000

[diff] [blame]

2400

MVT::ValueType IntPtr = getPointerTy();

2401

const Type *IntPtrTy = getTargetData().getIntPtrType();

2402

std::vector<std::pair<SDOperand, const Type*> > Args;

2403

Args.push_back(std::make_pair(Op.getOperand(1), IntPtrTy));

2404

// Extend the ubyte argument to be an int value for the call.

2405

SDOperand Val = DAG.getNode(ISD::ZERO_EXTEND, MVT::i32, Op.getOperand(2));

2406

Args.push_back(std::make_pair(Val, IntPtrTy));

2407

Args.push_back(std::make_pair(Op.getOperand(3), IntPtrTy));

2408

std::pair<SDOperand,SDOperand> CallResult =

2409

LowerCallTo(Chain, Type::VoidTy, false, CallingConv::C, false,

2410

DAG.getExternalSymbol("memset", IntPtr), Args, DAG);

2411

return CallResult.second;

2412

}

2413

Evan Cheng

2006-01-11 22:15:48 +0000

[diff] [blame]

2414

MVT::ValueType AVT;

2415

SDOperand Count;

Evan Cheng

2006-03-04 02:48:56 +0000

[diff] [blame]

2416

ConstantSDNode *ValC = dyn_cast<ConstantSDNode>(Op.getOperand(2));

2417

unsigned BytesLeft = 0;

Evan Cheng

2006-03-07 23:29:39 +0000

[diff] [blame]

2418

bool TwoRepStos = false;

Evan Cheng

2006-03-04 02:48:56 +0000

[diff] [blame]

2419

if (ValC) {

Evan Cheng

2006-01-11 22:15:48 +0000

[diff] [blame]

2420

unsigned ValReg;

2421

unsigned Val = ValC->getValue() & 255;

2422

2423

// If the value is a constant, then we can potentially use larger sets.

2424

switch (Align & 3) {

2425

case 2: // WORD aligned

2426

AVT = MVT::i16;

Evan Cheng

2006-03-04 02:48:56 +0000

[diff] [blame]

2427

Count = DAG.getConstant(I->getValue() / 2, MVT::i32);

2428

BytesLeft = I->getValue() % 2;

Evan Cheng

2006-01-11 22:15:48 +0000

[diff] [blame]

2429

Val = (Val << 8) | Val;

2430

ValReg = X86::AX;

2431

break;

2432

case 0: // DWORD aligned

2433

AVT = MVT::i32;

Evan Cheng

2006-03-07 23:29:39 +0000

[diff] [blame]

2434

if (I) {

2435

Count = DAG.getConstant(I->getValue() / 4, MVT::i32);

2436

BytesLeft = I->getValue() % 4;

2437

} else {

2438

Count = DAG.getNode(ISD::SRL, MVT::i32, Op.getOperand(3),

2439

DAG.getConstant(2, MVT::i8));

2440

TwoRepStos = true;

2441

}

Evan Cheng

2006-01-11 22:15:48 +0000

[diff] [blame]

2442

Val = (Val << 8) | Val;

2443

Val = (Val << 16) | Val;

2444

ValReg = X86::EAX;

2445

break;

2446

default: // Byte aligned

2447

AVT = MVT::i8;

2448

Count = Op.getOperand(3);

ValReg = X86::AL;

break;

}

Chain = DAG.getCopyToReg(Chain, ValReg, DAG.getConstant(Val, AVT),

2454

InFlag);

2455

InFlag = Chain.getValue(1);

2456

} else {

Evan Cheng

2006-02-16 00:21:07 +0000

[diff] [blame]

2457

AVT = MVT::i8;

Evan Cheng

2006-01-11 22:15:48 +0000

[diff] [blame]

2458

Count = Op.getOperand(3);

2459

Chain = DAG.getCopyToReg(Chain, X86::AL, Op.getOperand(2), InFlag);

2460

InFlag = Chain.getValue(1);

2461

}

2462

2463

Chain = DAG.getCopyToReg(Chain, X86::ECX, Count, InFlag);

2464

InFlag = Chain.getValue(1);

2465

Chain = DAG.getCopyToReg(Chain, X86::EDI, Op.getOperand(1), InFlag);

2466

InFlag = Chain.getValue(1);

2467

Evan Cheng

2006-03-07 23:29:39 +0000

[diff] [blame]

2468

std::vector<MVT::ValueType> Tys;

2469

Tys.push_back(MVT::Other);

2470

Tys.push_back(MVT::Flag);

2471

std::vector<SDOperand> Ops;

2472

Ops.push_back(Chain);

2473

Ops.push_back(DAG.getValueType(AVT));

2474

Ops.push_back(InFlag);

2475

Chain = DAG.getNode(X86ISD::REP_STOS, Tys, Ops);

2476

2477

if (TwoRepStos) {

2478

InFlag = Chain.getValue(1);

2479

Count = Op.getOperand(3);

2480

MVT::ValueType CVT = Count.getValueType();

2481

SDOperand Left = DAG.getNode(ISD::AND, CVT, Count,

2482

DAG.getConstant(3, CVT));

2483

Chain = DAG.getCopyToReg(Chain, X86::ECX, Left, InFlag);

2484

InFlag = Chain.getValue(1);

2485

Tys.clear();

2486

Tys.push_back(MVT::Other);

2487

Tys.push_back(MVT::Flag);

2488

Ops.clear();

2489

Ops.push_back(Chain);

2490

Ops.push_back(DAG.getValueType(MVT::i8));

2491

Ops.push_back(InFlag);

2492

Chain = DAG.getNode(X86ISD::REP_STOS, Tys, Ops);

2493

} else if (BytesLeft) {

Evan Cheng

2006-03-04 02:48:56 +0000

[diff] [blame]

2494

// Issue stores for the last 1 - 3 bytes.

2495

SDOperand Value;

2496

unsigned Val = ValC->getValue() & 255;

2497

unsigned Offset = I->getValue() - BytesLeft;

2498

SDOperand DstAddr = Op.getOperand(1);

2499

MVT::ValueType AddrVT = DstAddr.getValueType();

2500

if (BytesLeft >= 2) {

2501

Value = DAG.getConstant((Val << 8) | Val, MVT::i16);

2502

Chain = DAG.getNode(ISD::STORE, MVT::Other, Chain, Value,

2503

DAG.getNode(ISD::ADD, AddrVT, DstAddr,

2504

DAG.getConstant(Offset, AddrVT)),

2505

DAG.getSrcValue(NULL));

BytesLeft -= 2;

Offset += 2;

}

if (BytesLeft == 1) {

2511

Value = DAG.getConstant(Val, MVT::i8);

2512

Chain = DAG.getNode(ISD::STORE, MVT::Other, Chain, Value,

2513

DAG.getNode(ISD::ADD, AddrVT, DstAddr,

2514

DAG.getConstant(Offset, AddrVT)),

2515

DAG.getSrcValue(NULL));

}

}

return Chain;

Evan Cheng

2006-01-11 22:15:48 +0000

[diff] [blame]

2520

}

2521

case ISD::MEMCPY: {

2522

SDOperand Chain = Op.getOperand(0);

2523

unsigned Align =

2524

(unsigned)cast<ConstantSDNode>(Op.getOperand(4))->getValue();

2525

if (Align == 0) Align = 1;

2526

Evan Cheng

2006-02-16 00:21:07 +0000

[diff] [blame]

2527

ConstantSDNode *I = dyn_cast<ConstantSDNode>(Op.getOperand(3));

2528

// If not DWORD aligned, call memcpy if size is less than the threshold.

2529

// It knows how to align to the right boundary first.

Evan Cheng

2006-03-04 02:48:56 +0000

[diff] [blame]

2530

if ((Align & 3) != 0 ||

Evan Cheng

2006-03-07 23:29:39 +0000

[diff] [blame]

2531

(I && I->getValue() < Subtarget->getMinRepStrSizeThreshold())) {

Evan Cheng

2006-02-16 00:21:07 +0000

[diff] [blame]

2532

MVT::ValueType IntPtr = getPointerTy();

2533

const Type *IntPtrTy = getTargetData().getIntPtrType();

2534

std::vector<std::pair<SDOperand, const Type*> > Args;

2535

Args.push_back(std::make_pair(Op.getOperand(1), IntPtrTy));

2536

Args.push_back(std::make_pair(Op.getOperand(2), IntPtrTy));

2537

Args.push_back(std::make_pair(Op.getOperand(3), IntPtrTy));

2538

std::pair<SDOperand,SDOperand> CallResult =

2539

LowerCallTo(Chain, Type::VoidTy, false, CallingConv::C, false,

2540

DAG.getExternalSymbol("memcpy", IntPtr), Args, DAG);

2541

return CallResult.second;

2542

}

2543

Evan Cheng

2006-01-11 22:15:48 +0000

[diff] [blame]

2544

MVT::ValueType AVT;

2545

SDOperand Count;

Evan Cheng

2006-03-04 02:48:56 +0000

[diff] [blame]

2546

unsigned BytesLeft = 0;

Evan Cheng

2006-03-07 23:29:39 +0000

[diff] [blame]

2547

bool TwoRepMovs = false;

Evan Cheng

2006-01-11 22:15:48 +0000

[diff] [blame]

2548

switch (Align & 3) {

2549

case 2: // WORD aligned

2550

AVT = MVT::i16;

Evan Cheng

2006-03-04 02:48:56 +0000

[diff] [blame]

2551

Count = DAG.getConstant(I->getValue() / 2, MVT::i32);

2552

BytesLeft = I->getValue() % 2;

Evan Cheng

2006-01-11 22:15:48 +0000

[diff] [blame]

2553

break;

2554

case 0: // DWORD aligned

2555

AVT = MVT::i32;

Evan Cheng

2006-03-07 23:29:39 +0000

[diff] [blame]

2556

if (I) {

2557

Count = DAG.getConstant(I->getValue() / 4, MVT::i32);

2558

BytesLeft = I->getValue() % 4;

2559

} else {

2560

Count = DAG.getNode(ISD::SRL, MVT::i32, Op.getOperand(3),

2561

DAG.getConstant(2, MVT::i8));

2562

TwoRepMovs = true;

2563

}

Evan Cheng

2006-01-11 22:15:48 +0000

[diff] [blame]

2564

break;

2565

default: // Byte aligned

2566

AVT = MVT::i8;

2567

Count = Op.getOperand(3);

break;

}

Evan Cheng

2006-03-04 02:48:56 +0000

[diff] [blame]

2571

SDOperand InFlag(0, 0);

Evan Cheng

2006-01-11 22:15:48 +0000

[diff] [blame]

2572

Chain = DAG.getCopyToReg(Chain, X86::ECX, Count, InFlag);

2573

InFlag = Chain.getValue(1);

2574

Chain = DAG.getCopyToReg(Chain, X86::EDI, Op.getOperand(1), InFlag);

2575

InFlag = Chain.getValue(1);

2576

Chain = DAG.getCopyToReg(Chain, X86::ESI, Op.getOperand(2), InFlag);

2577

InFlag = Chain.getValue(1);

2578

Evan Cheng

2006-03-07 23:29:39 +0000

[diff] [blame]

2579

std::vector<MVT::ValueType> Tys;

2580

Tys.push_back(MVT::Other);

2581

Tys.push_back(MVT::Flag);

2582

std::vector<SDOperand> Ops;

2583

Ops.push_back(Chain);

2584

Ops.push_back(DAG.getValueType(AVT));

2585

Ops.push_back(InFlag);

2586

Chain = DAG.getNode(X86ISD::REP_MOVS, Tys, Ops);

2587

2588

if (TwoRepMovs) {

2589

InFlag = Chain.getValue(1);

2590

Count = Op.getOperand(3);

2591

MVT::ValueType CVT = Count.getValueType();

2592

SDOperand Left = DAG.getNode(ISD::AND, CVT, Count,

2593

DAG.getConstant(3, CVT));

2594

Chain = DAG.getCopyToReg(Chain, X86::ECX, Left, InFlag);

2595

InFlag = Chain.getValue(1);

2596

Tys.clear();

2597

Tys.push_back(MVT::Other);

2598

Tys.push_back(MVT::Flag);

2599

Ops.clear();

2600

Ops.push_back(Chain);

2601

Ops.push_back(DAG.getValueType(MVT::i8));

2602

Ops.push_back(InFlag);

2603

Chain = DAG.getNode(X86ISD::REP_MOVS, Tys, Ops);

2604

} else if (BytesLeft) {

Evan Cheng

2006-03-04 02:48:56 +0000

[diff] [blame]

2605

// Issue loads and stores for the last 1 - 3 bytes.

2606

unsigned Offset = I->getValue() - BytesLeft;

2607

SDOperand DstAddr = Op.getOperand(1);

2608

MVT::ValueType DstVT = DstAddr.getValueType();

2609

SDOperand SrcAddr = Op.getOperand(2);

2610

MVT::ValueType SrcVT = SrcAddr.getValueType();

2611

SDOperand Value;

2612

if (BytesLeft >= 2) {

2613

Value = DAG.getLoad(MVT::i16, Chain,

2614

DAG.getNode(ISD::ADD, SrcVT, SrcAddr,

2615

DAG.getConstant(Offset, SrcVT)),

2616

DAG.getSrcValue(NULL));

2617

Chain = Value.getValue(1);

2618

Chain = DAG.getNode(ISD::STORE, MVT::Other, Chain, Value,

2619

DAG.getNode(ISD::ADD, DstVT, DstAddr,

2620

DAG.getConstant(Offset, DstVT)),

2621

DAG.getSrcValue(NULL));

BytesLeft -= 2;

Offset += 2;

}

if (BytesLeft == 1) {

2627

Value = DAG.getLoad(MVT::i8, Chain,

2628

DAG.getNode(ISD::ADD, SrcVT, SrcAddr,

2629

DAG.getConstant(Offset, SrcVT)),

2630

DAG.getSrcValue(NULL));

2631

Chain = Value.getValue(1);

2632

Chain = DAG.getNode(ISD::STORE, MVT::Other, Chain, Value,

2633

DAG.getNode(ISD::ADD, DstVT, DstAddr,

2634

DAG.getConstant(Offset, DstVT)),

2635

DAG.getSrcValue(NULL));

}

}

return Chain;

Evan Cheng

2006-01-11 22:15:48 +0000

[diff] [blame]

2640

}

Evan Cheng

9947001

2006-02-25 09:55:19 +0000

[diff] [blame]

2641

2642

// ConstantPool, GlobalAddress, and ExternalSymbol are lowered as their

2643

// target countpart wrapped in the X86ISD::Wrapper node. Suppose N is

2644

// one of the above mentioned nodes. It has to be wrapped because otherwise

2645

// Select(N) returns N. So the raw TargetGlobalAddress nodes, etc. can only

2646

// be used to form addressing mode. These wrapped nodes will be selected

2647

// into MOV32ri.

Evan Cheng

2006-02-18 00:15:05 +0000

[diff] [blame]

2648

case ISD::ConstantPool: {

2649

ConstantPoolSDNode *CP = cast<ConstantPoolSDNode>(Op);

Evan Cheng

2006-02-23 20:41:18 +0000

[diff] [blame]

2650

SDOperand Result = DAG.getNode(X86ISD::Wrapper, getPointerTy(),

2651

DAG.getTargetConstantPool(CP->get(), getPointerTy(),

2652

CP->getAlignment()));

Evan Cheng

2006-03-22 19:22:18 +0000

[diff] [blame]

2653

if (Subtarget->isTargetDarwin()) {

Evan Cheng

2006-02-18 00:15:05 +0000

[diff] [blame]

2654

// With PIC, the address is actually $g + Offset.

Evan Cheng

73136df

2006-02-22 20:19:42 +0000

[diff] [blame]

2655

if (getTargetMachine().getRelocationModel() == Reloc::PIC)

Evan Cheng

2006-02-18 00:15:05 +0000

[diff] [blame]

2656

Result = DAG.getNode(ISD::ADD, getPointerTy(),

2657

DAG.getNode(X86ISD::GlobalBaseReg, getPointerTy()), Result);

}

return Result;

}

Evan Cheng

5c59d49

2005-12-23 07:31:11 +0000

[diff] [blame]

2662

case ISD::GlobalAddress: {

Evan Cheng

2006-02-23 20:41:18 +0000

[diff] [blame]

2663

GlobalValue *GV = cast<GlobalAddressSDNode>(Op)->getGlobal();

2664

SDOperand Result = DAG.getNode(X86ISD::Wrapper, getPointerTy(),

2665

DAG.getTargetGlobalAddress(GV, getPointerTy()));

Evan Cheng

2006-03-22 19:22:18 +0000

[diff] [blame]

2666

if (Subtarget->isTargetDarwin()) {

Evan Cheng

2006-02-18 00:15:05 +0000

[diff] [blame]

2667

// With PIC, the address is actually $g + Offset.

Evan Cheng

73136df

2006-02-22 20:19:42 +0000

[diff] [blame]

2668

if (getTargetMachine().getRelocationModel() == Reloc::PIC)

Evan Cheng

1f342c2

2006-02-23 02:43:52 +0000

[diff] [blame]

2669

Result = DAG.getNode(ISD::ADD, getPointerTy(),

2670

DAG.getNode(X86ISD::GlobalBaseReg, getPointerTy()), Result);

Evan Cheng

2006-02-18 00:15:05 +0000

[diff] [blame]

2671

2672

// For Darwin, external and weak symbols are indirect, so we want to load

Evan Cheng

2006-03-13 23:18:16 +0000

[diff] [blame]

2673

// the value at address GV, not the value of GV itself. This means that

Evan Cheng

2006-02-18 00:15:05 +0000

[diff] [blame]

2674

// the GlobalAddress must be in the base or index register of the address,

2675

// not the GV offset field.

Evan Cheng

73136df

2006-02-22 20:19:42 +0000

[diff] [blame]

2676

if (getTargetMachine().getRelocationModel() != Reloc::Static &&

Evan Cheng

2006-03-13 23:18:16 +0000

[diff] [blame]

2677

DarwinGVRequiresExtraLoad(GV))

Evan Cheng

5a76680

2006-02-07 08:38:37 +0000

[diff] [blame]

2678

Result = DAG.getLoad(MVT::i32, DAG.getEntryNode(),

Evan Cheng

1f342c2

2006-02-23 02:43:52 +0000

[diff] [blame]

2679

Result, DAG.getSrcValue(NULL));

Evan Cheng

5a76680

2006-02-07 08:38:37 +0000

[diff] [blame]

2680

}

Evan Cheng

2006-02-18 00:15:05 +0000

[diff] [blame]

2681

Evan Cheng

b94db9e

2006-01-12 07:56:47 +0000

[diff] [blame]

2682

return Result;

Chris Lattner

2005-11-15 00:40:23 +0000

[diff] [blame]

2683

}

Evan Cheng

2006-02-23 20:41:18 +0000

[diff] [blame]

2684

case ISD::ExternalSymbol: {

2685

const char *Sym = cast<ExternalSymbolSDNode>(Op)->getSymbol();

2686

SDOperand Result = DAG.getNode(X86ISD::Wrapper, getPointerTy(),

2687

DAG.getTargetExternalSymbol(Sym, getPointerTy()));

Evan Cheng

2006-03-22 19:22:18 +0000

[diff] [blame]

2688

if (Subtarget->isTargetDarwin()) {

Evan Cheng

2006-02-23 20:41:18 +0000

[diff] [blame]

2689

// With PIC, the address is actually $g + Offset.

2690

if (getTargetMachine().getRelocationModel() == Reloc::PIC)

2691

Result = DAG.getNode(ISD::ADD, getPointerTy(),

2692

DAG.getNode(X86ISD::GlobalBaseReg, getPointerTy()), Result);

}

return Result;

}

Nate Begeman

e74795c

2006-01-25 18:21:52 +0000

[diff] [blame]

2697

case ISD::VASTART: {

2698

// vastart just stores the address of the VarArgsFrameIndex slot into the

2699

// memory location argument.

2700

// FIXME: Replace MVT::i32 with PointerTy

2701

SDOperand FR = DAG.getFrameIndex(VarArgsFrameIndex, MVT::i32);

2702

return DAG.getNode(ISD::STORE, MVT::Other, Op.getOperand(0), FR,

2703

Op.getOperand(1), Op.getOperand(2));

2704

}

Nate Begeman

2006-01-27 21:09:22 +0000

[diff] [blame]

case ISD::RET: {

SDOperand Copy;

switch(Op.getNumOperands()) {

2709

default:

2710

assert(0 && "Do not know how to return this many arguments!");

2711

abort();

Chris Lattner

2006-04-17 20:32:50 +0000

[diff] [blame]

2712

case 1: // ret void.

Nate Begeman

2006-01-27 21:09:22 +0000

[diff] [blame]

2713

return DAG.getNode(X86ISD::RET_FLAG, MVT::Other, Op.getOperand(0),

2714

DAG.getConstant(getBytesToPopOnReturn(), MVT::i16));

2715

case 2: {

2716

MVT::ValueType ArgVT = Op.getOperand(1).getValueType();

Chris Lattner

2006-04-17 20:32:50 +0000

[diff] [blame]

2717

2718

if (MVT::isVector(ArgVT)) {

2719

// Integer or FP vector result -> XMM0.

2720

if (DAG.getMachineFunction().liveout_empty())

2721

DAG.getMachineFunction().addLiveOut(X86::XMM0);

2722

Copy = DAG.getCopyToReg(Op.getOperand(0), X86::XMM0, Op.getOperand(1),

2723

SDOperand());

2724

} else if (MVT::isInteger(ArgVT)) {

2725

// Integer result -> EAX

2726

if (DAG.getMachineFunction().liveout_empty())

2727

DAG.getMachineFunction().addLiveOut(X86::EAX);

2728

Nate Begeman

2006-01-27 21:09:22 +0000

[diff] [blame]

2729

Copy = DAG.getCopyToReg(Op.getOperand(0), X86::EAX, Op.getOperand(1),

2730

SDOperand());

Chris Lattner

2006-04-17 20:32:50 +0000

[diff] [blame]

2731

} else if (!X86ScalarSSE) {

2732

// FP return with fp-stack value.

2733

if (DAG.getMachineFunction().liveout_empty())

2734

DAG.getMachineFunction().addLiveOut(X86::ST0);

2735

Nate Begeman

2006-01-27 21:09:22 +0000

[diff] [blame]

2736

std::vector<MVT::ValueType> Tys;

2737

Tys.push_back(MVT::Other);

2738

Tys.push_back(MVT::Flag);

2739

std::vector<SDOperand> Ops;

2740

Ops.push_back(Op.getOperand(0));

2741

Ops.push_back(Op.getOperand(1));

2742

Copy = DAG.getNode(X86ISD::FP_SET_RESULT, Tys, Ops);

2743

} else {

Chris Lattner

2006-04-17 20:32:50 +0000

[diff] [blame]

2744

// FP return with ScalarSSE (return on fp-stack).

2745

if (DAG.getMachineFunction().liveout_empty())

2746

DAG.getMachineFunction().addLiveOut(X86::ST0);

2747

Evan Cheng

e1ce4d7

2006-02-01 00:20:21 +0000

[diff] [blame]

2748

SDOperand MemLoc;

2749

SDOperand Chain = Op.getOperand(0);

Evan Cheng

5659ca8

2006-01-31 23:19:54 +0000

[diff] [blame]

2750

SDOperand Value = Op.getOperand(1);

2751

Evan Cheng

a24617f

2006-02-01 01:19:32 +0000

[diff] [blame]

2752

if (Value.getOpcode() == ISD::LOAD &&

2753

(Chain == Value.getValue(1) || Chain == Value.getOperand(0))) {

Evan Cheng

5659ca8

2006-01-31 23:19:54 +0000

[diff] [blame]

2754

Chain = Value.getOperand(0);

2755

MemLoc = Value.getOperand(1);

2756

} else {

2757

// Spill the value to memory and reload it into top of stack.

2758

unsigned Size = MVT::getSizeInBits(ArgVT)/8;

2759

MachineFunction &MF = DAG.getMachineFunction();

2760

int SSFI = MF.getFrameInfo()->CreateStackObject(Size, Size);

2761

MemLoc = DAG.getFrameIndex(SSFI, getPointerTy());

2762

Chain = DAG.getNode(ISD::STORE, MVT::Other, Op.getOperand(0),

2763

Value, MemLoc, DAG.getSrcValue(0));

2764

}

Nate Begeman

2006-01-27 21:09:22 +0000

[diff] [blame]

2765

std::vector<MVT::ValueType> Tys;

2766

Tys.push_back(MVT::f64);

2767

Tys.push_back(MVT::Other);

2768

std::vector<SDOperand> Ops;

2769

Ops.push_back(Chain);

Evan Cheng

5659ca8

2006-01-31 23:19:54 +0000

[diff] [blame]

2770

Ops.push_back(MemLoc);

Nate Begeman

2006-01-27 21:09:22 +0000

[diff] [blame]

2771

Ops.push_back(DAG.getValueType(ArgVT));

2772

Copy = DAG.getNode(X86ISD::FLD, Tys, Ops);

2773

Tys.clear();

2774

Tys.push_back(MVT::Other);

2775

Tys.push_back(MVT::Flag);

2776

Ops.clear();

2777

Ops.push_back(Copy.getValue(1));

2778

Ops.push_back(Copy);

2779

Copy = DAG.getNode(X86ISD::FP_SET_RESULT, Tys, Ops);

}

break;

}

case 3:

Chris Lattner

2006-04-17 20:32:50 +0000

[diff] [blame]

2784

if (DAG.getMachineFunction().liveout_empty()) {

2785

DAG.getMachineFunction().addLiveOut(X86::EAX);

2786

DAG.getMachineFunction().addLiveOut(X86::EDX);

2787

}

2788

Nate Begeman

2006-01-27 21:09:22 +0000

[diff] [blame]

2789

Copy = DAG.getCopyToReg(Op.getOperand(0), X86::EDX, Op.getOperand(2),

2790

SDOperand());

2791

Copy = DAG.getCopyToReg(Copy, X86::EAX,Op.getOperand(1),Copy.getValue(1));

2792

break;

2793

}

2794

return DAG.getNode(X86ISD::RET_FLAG, MVT::Other,

2795

Copy, DAG.getConstant(getBytesToPopOnReturn(), MVT::i16),

2796

Copy.getValue(1));

2797

}

Evan Cheng

d5e905d

2006-03-21 23:01:21 +0000

[diff] [blame]

2798

case ISD::SCALAR_TO_VECTOR: {

2799

SDOperand AnyExt = DAG.getNode(ISD::ANY_EXTEND, MVT::i32, Op.getOperand(0));

Evan Cheng

2006-03-24 23:15:12 +0000

[diff] [blame]

2800

return DAG.getNode(X86ISD::S2VEC, Op.getValueType(), AnyExt);

Evan Cheng

d5e905d

2006-03-21 23:01:21 +0000

[diff] [blame]

2801

}

Evan Cheng

2006-03-22 02:53:00 +0000

[diff] [blame]

2802

case ISD::VECTOR_SHUFFLE: {

2803

SDOperand V1 = Op.getOperand(0);

2804

SDOperand V2 = Op.getOperand(1);

2805

SDOperand PermMask = Op.getOperand(2);

2806

MVT::ValueType VT = Op.getValueType();

Evan Cheng

2006-03-24 02:58:06 +0000

[diff] [blame]

2807

unsigned NumElems = PermMask.getNumOperands();

Evan Cheng

2006-03-22 02:53:00 +0000

[diff] [blame]

2808

Evan Cheng

2006-04-17 20:43:08 +0000

[diff] [blame]

2809

if (isSplatMask(PermMask.Val)) {

2810

if (NumElems <= 4) return Op;

2811

// Promote it to a v4i32 splat.

2812

return PromoteSplat(Op, DAG);

2813

}

Evan Cheng

2006-04-06 23:23:56 +0000

[diff] [blame]

2814

Evan Cheng

2006-04-19 20:35:22 +0000

[diff] [blame]

2815

if (ShouldXformToMOVHLPS(PermMask.Val) ||

2816

ShouldXformToMOVLP(V1.Val, PermMask.Val))

2817

return CommuteVectorShuffle(Op, DAG);

Evan Cheng

2006-04-06 23:23:56 +0000

[diff] [blame]

2818

Evan Cheng

2006-04-14 21:59:03 +0000

[diff] [blame]

2819

if (X86::isMOVSMask(PermMask.Val) ||

2820

X86::isMOVSHDUPMask(PermMask.Val) ||

Evan Cheng

2006-04-19 20:35:22 +0000

[diff] [blame]

2821

X86::isMOVSLDUPMask(PermMask.Val) ||

2822

X86::isMOVHLPSMask(PermMask.Val) ||

2823

X86::isMOVHPMask(PermMask.Val) ||

2824

X86::isMOVLPMask(PermMask.Val))

Evan Cheng

12ba3e2

2006-04-11 00:19:04 +0000

[diff] [blame]

2825

return Op;

2826

Evan Cheng

acc3364

2006-03-29 19:02:40 +0000

[diff] [blame]

2827

if (X86::isUNPCKLMask(PermMask.Val) ||

Evan Cheng

2006-04-05 07:20:06 +0000

[diff] [blame]

2828

X86::isUNPCKL_v_undef_Mask(PermMask.Val) ||

Evan Cheng

acc3364

2006-03-29 19:02:40 +0000

[diff] [blame]

2829

X86::isUNPCKHMask(PermMask.Val))

2830

// Leave the VECTOR_SHUFFLE alone. It matches {P}UNPCKL*.

Evan Cheng

2006-04-05 06:09:26 +0000

[diff] [blame]

2831

return Op;

Evan Cheng

acc3364

2006-03-29 19:02:40 +0000

[diff] [blame]

2832

Evan Cheng

2006-04-19 20:35:22 +0000

[diff] [blame]

2833

// Normalize the node to match x86 shuffle ops if needed

2834

if (V2.getOpcode() != ISD::UNDEF)

2835

if (isLowerFromV2UpperFromV1(PermMask)) {

2836

Op = CommuteVectorShuffle(Op, DAG);

2837

V1 = Op.getOperand(0);

2838

V2 = Op.getOperand(1);

2839

PermMask = Op.getOperand(2);

2840

}

2841

Evan Cheng

2006-03-30 19:54:57 +0000

[diff] [blame]

2842

// If VT is integer, try PSHUF* first, then SHUFP*.

2843

if (MVT::isInteger(VT)) {

2844

if (X86::isPSHUFDMask(PermMask.Val) ||

2845

X86::isPSHUFHWMask(PermMask.Val) ||

2846

X86::isPSHUFLWMask(PermMask.Val)) {

2847

if (V2.getOpcode() != ISD::UNDEF)

2848

return DAG.getNode(ISD::VECTOR_SHUFFLE, VT, V1,

2849

DAG.getNode(ISD::UNDEF, V1.getValueType()),PermMask);

Evan Cheng

2006-04-05 06:09:26 +0000

[diff] [blame]

2850

return Op;

Evan Cheng

2006-03-30 19:54:57 +0000

[diff] [blame]

2851

}

2852

2853

if (X86::isSHUFPMask(PermMask.Val))

Evan Cheng

2006-04-06 23:23:56 +0000

[diff] [blame]

2854

return Op;

Evan Cheng

2006-04-05 01:47:37 +0000

[diff] [blame]

2855

2856

// Handle v8i16 shuffle high / low shuffle node pair.

2857

if (VT == MVT::v8i16 && isPSHUFHW_PSHUFLWMask(PermMask.Val)) {

2858

MVT::ValueType MaskVT = MVT::getIntVectorWithNumElements(NumElems);

2859

MVT::ValueType BaseVT = MVT::getVectorBaseType(MaskVT);

2860

std::vector<SDOperand> MaskVec;

2861

for (unsigned i = 0; i != 4; ++i)

2862

MaskVec.push_back(PermMask.getOperand(i));

2863

for (unsigned i = 4; i != 8; ++i)

2864

MaskVec.push_back(DAG.getConstant(i, BaseVT));

2865

SDOperand Mask = DAG.getNode(ISD::BUILD_VECTOR, MaskVT, MaskVec);

2866

V1 = DAG.getNode(ISD::VECTOR_SHUFFLE, VT, V1, V2, Mask);

2867

MaskVec.clear();

2868

for (unsigned i = 0; i != 4; ++i)

2869

MaskVec.push_back(DAG.getConstant(i, BaseVT));

2870

for (unsigned i = 4; i != 8; ++i)

2871

MaskVec.push_back(PermMask.getOperand(i));

2872

Mask = DAG.getNode(ISD::BUILD_VECTOR, MaskVT, MaskVec);

2873

return DAG.getNode(ISD::VECTOR_SHUFFLE, VT, V1, V2, Mask);

2874

}

Evan Cheng

2006-03-30 19:54:57 +0000

[diff] [blame]

2875

} else {

2876

// Floating point cases in the other order.

2877

if (X86::isSHUFPMask(PermMask.Val))

Evan Cheng

2006-04-06 23:23:56 +0000

[diff] [blame]

2878

return Op;

Evan Cheng

2006-03-30 19:54:57 +0000

[diff] [blame]

2879

if (X86::isPSHUFDMask(PermMask.Val) ||

2880

X86::isPSHUFHWMask(PermMask.Val) ||

2881

X86::isPSHUFLWMask(PermMask.Val)) {

2882

if (V2.getOpcode() != ISD::UNDEF)

2883

return DAG.getNode(ISD::VECTOR_SHUFFLE, VT, V1,

2884

DAG.getNode(ISD::UNDEF, V1.getValueType()),PermMask);

Evan Cheng

2006-04-05 06:09:26 +0000

[diff] [blame]

2885

return Op;

Evan Cheng

2006-03-30 19:54:57 +0000

[diff] [blame]

2886

}

Evan Cheng

da59b0d

2006-03-29 01:30:51 +0000

[diff] [blame]

2887

}

Evan Cheng

2006-03-22 02:53:00 +0000

[diff] [blame]

2888

Evan Cheng

a3caaee

2006-04-19 22:48:17 +0000

[diff] [blame^]

2889

if (NumElems == 4) {

2890

// Break it into (shuffle shuffle_hi, shuffle_lo).

2891

MVT::ValueType MaskVT = PermMask.getValueType();

2892

MVT::ValueType MaskEVT = MVT::getVectorBaseType(MaskVT);

2893

std::map<unsigned, std::pair<int, int> > Locs;

2894

std::vector<SDOperand> LoMask(NumElems, DAG.getNode(ISD::UNDEF, MaskEVT));

2895

std::vector<SDOperand> HiMask(NumElems, DAG.getNode(ISD::UNDEF, MaskEVT));

2896

std::vector<SDOperand> *MaskPtr = &LoMask;

2897

unsigned MaskIdx = 0;

2898

unsigned LoIdx = 0;

2899

unsigned HiIdx = NumElems/2;

2900

for (unsigned i = 0; i != NumElems; ++i) {

2901

if (i == NumElems/2) {

MaskPtr = &HiMask;

MaskIdx = 1;

LoIdx = 0;

HiIdx = NumElems/2;

}

SDOperand Elt = PermMask.getOperand(i);

2908

if (Elt.getOpcode() == ISD::UNDEF) {

2909

Locs[i] = std::make_pair(-1, -1);

2910

} else if (cast<ConstantSDNode>(Elt)->getValue() < NumElems) {

2911

Locs[i] = std::make_pair(MaskIdx, LoIdx);

2912

(*MaskPtr)[LoIdx] = Elt;

2913

LoIdx++;

2914

} else {

2915

Locs[i] = std::make_pair(MaskIdx, HiIdx);

2916

(*MaskPtr)[HiIdx] = Elt;

HiIdx++;

}

}

SDOperand LoShuffle = DAG.getNode(ISD::VECTOR_SHUFFLE, VT, V1, V2,

2922

DAG.getNode(ISD::BUILD_VECTOR, MaskVT, LoMask));

2923

SDOperand HiShuffle = DAG.getNode(ISD::VECTOR_SHUFFLE, VT, V1, V2,

2924

DAG.getNode(ISD::BUILD_VECTOR, MaskVT, HiMask));

2925

std::vector<SDOperand> MaskOps;

2926

for (unsigned i = 0; i != NumElems; ++i) {

2927

if (Locs[i].first == -1) {

2928

MaskOps.push_back(DAG.getNode(ISD::UNDEF, MaskEVT));

2929

} else {

2930

unsigned Idx = Locs[i].first * NumElems + Locs[i].second;

2931

MaskOps.push_back(DAG.getConstant(Idx, MaskEVT));

2932

}

2933

}

2934

return DAG.getNode(ISD::VECTOR_SHUFFLE, VT, LoShuffle, HiShuffle,

2935

DAG.getNode(ISD::BUILD_VECTOR, MaskVT, MaskOps));

2936

}

2937

Evan Cheng

2006-04-05 06:09:26 +0000

[diff] [blame]

2938

return SDOperand();

Evan Cheng

2006-03-22 02:53:00 +0000

[diff] [blame]

2939

}

Evan Cheng

2006-03-24 07:29:27 +0000

[diff] [blame]

2940

case ISD::BUILD_VECTOR: {

Evan Cheng

9b9cc4f

2006-03-27 07:00:16 +0000

[diff] [blame]

2941

// All one's are handled with pcmpeqd.

2942

if (ISD::isBuildVectorAllOnes(Op.Val))

2943

return Op;

2944

Evan Cheng

2006-03-25 09:37:23 +0000

[diff] [blame]

2945

std::set<SDOperand> Values;

Evan Cheng

2006-03-24 23:15:12 +0000

[diff] [blame]

2946

SDOperand Elt0 = Op.getOperand(0);

Evan Cheng

2006-03-25 09:37:23 +0000

[diff] [blame]

2947

Values.insert(Elt0);

Evan Cheng

2006-03-24 23:15:12 +0000

[diff] [blame]

2948

bool Elt0IsZero = (isa<ConstantSDNode>(Elt0) &&

2949

cast<ConstantSDNode>(Elt0)->getValue() == 0) ||

2950

(isa<ConstantFPSDNode>(Elt0) &&

2951

cast<ConstantFPSDNode>(Elt0)->isExactlyValue(0.0));

2952

bool RestAreZero = true;

Evan Cheng

2006-03-24 07:29:27 +0000

[diff] [blame]

2953

unsigned NumElems = Op.getNumOperands();

Evan Cheng

2006-03-24 23:15:12 +0000

[diff] [blame]

2954

for (unsigned i = 1; i < NumElems; ++i) {

Evan Cheng

2006-03-25 09:37:23 +0000

[diff] [blame]

2955

SDOperand Elt = Op.getOperand(i);

2956

if (ConstantFPSDNode *FPC = dyn_cast<ConstantFPSDNode>(Elt)) {

Evan Cheng

2006-03-24 07:29:27 +0000

[diff] [blame]

2957

if (!FPC->isExactlyValue(+0.0))

Evan Cheng

2006-03-24 23:15:12 +0000

[diff] [blame]

2958

RestAreZero = false;

Evan Cheng

2006-03-25 09:37:23 +0000

[diff] [blame]

2959

} else if (ConstantSDNode *C = dyn_cast<ConstantSDNode>(Elt)) {

Evan Cheng

2006-03-24 07:29:27 +0000

[diff] [blame]

2960

if (!C->isNullValue())

Evan Cheng

2006-03-24 23:15:12 +0000

[diff] [blame]

2961

RestAreZero = false;

Evan Cheng

2006-03-24 07:29:27 +0000

[diff] [blame]

2962

} else

Evan Cheng

2006-03-24 23:15:12 +0000

[diff] [blame]

2963

RestAreZero = false;

Evan Cheng

2006-03-25 09:37:23 +0000

[diff] [blame]

2964

Values.insert(Elt);

Evan Cheng

2006-03-24 07:29:27 +0000

[diff] [blame]

2965

}

2966

Evan Cheng

2006-03-24 23:15:12 +0000

[diff] [blame]

2967

if (RestAreZero) {

2968

if (Elt0IsZero) return Op;

2969

2970

// Zero extend a scalar to a vector.

2971

return DAG.getNode(X86ISD::ZEXT_S2VEC, Op.getValueType(), Elt0);

2972

}

2973

Evan Cheng

2006-03-25 09:37:23 +0000

[diff] [blame]

2974

if (Values.size() > 2) {

2975

// Expand into a number of unpckl*.

2976

// e.g. for v4f32

2977

// Step 1: unpcklps 0, 2 ==> X: <?, ?, 2, 0>

2978

// : unpcklps 1, 3 ==> Y: <?, ?, 3, 1>

2979

// Step 2: unpcklps X, Y ==> <3, 2, 1, 0>

2980

MVT::ValueType VT = Op.getValueType();

Evan Cheng

2006-04-17 20:43:08 +0000

[diff] [blame]

2981

SDOperand PermMask = getUnpacklMask(NumElems, DAG);

Evan Cheng

2006-03-25 09:37:23 +0000

[diff] [blame]

2982

std::vector<SDOperand> V(NumElems);

2983

for (unsigned i = 0; i < NumElems; ++i)

2984

V[i] = DAG.getNode(ISD::SCALAR_TO_VECTOR, VT, Op.getOperand(i));

2985

NumElems >>= 1;

2986

while (NumElems != 0) {

2987

for (unsigned i = 0; i < NumElems; ++i)

Evan Cheng

5df7588

2006-03-28 00:39:58 +0000

[diff] [blame]

2988

V[i] = DAG.getNode(ISD::VECTOR_SHUFFLE, VT, V[i], V[i + NumElems],

2989

PermMask);

Evan Cheng

2006-03-25 09:37:23 +0000

[diff] [blame]

NumElems >>= 1;

}

return V[0];

}

Evan Cheng

2006-03-24 07:29:27 +0000

[diff] [blame]

2995

return SDOperand();

2996

}

Evan Cheng

2006-03-31 19:22:53 +0000

[diff] [blame]

2997

case ISD::EXTRACT_VECTOR_ELT: {

Evan Cheng

2006-04-03 20:53:28 +0000

[diff] [blame]

2998

if (!isa<ConstantSDNode>(Op.getOperand(1)))

2999

return SDOperand();

3000

Evan Cheng

2006-03-31 19:22:53 +0000

[diff] [blame]

3001

MVT::ValueType VT = Op.getValueType();

Evan Cheng

2006-04-12 21:21:57 +0000

[diff] [blame]

3002

// TODO: handle v16i8.

Evan Cheng

2006-03-31 19:22:53 +0000

[diff] [blame]

3003

if (MVT::getSizeInBits(VT) == 16) {

Evan Cheng

2006-04-03 20:53:28 +0000

[diff] [blame]

3004

// Transform it so it match pextrw which produces a 32-bit result.

Evan Cheng

2006-03-31 19:22:53 +0000

[diff] [blame]

3005

MVT::ValueType EVT = (MVT::ValueType)(VT+1);

3006

SDOperand Extract = DAG.getNode(X86ISD::PEXTRW, EVT,

3007

Op.getOperand(0), Op.getOperand(1));

3008

SDOperand Assert = DAG.getNode(ISD::AssertZext, EVT, Extract,

3009

DAG.getValueType(VT));

3010

return DAG.getNode(ISD::TRUNCATE, VT, Assert);

Evan Cheng

2006-04-03 20:53:28 +0000

[diff] [blame]

3011

} else if (MVT::getSizeInBits(VT) == 32) {

3012

SDOperand Vec = Op.getOperand(0);

3013

unsigned Idx = cast<ConstantSDNode>(Op.getOperand(1))->getValue();

if (Idx == 0)

return Op;

// TODO: if Idex == 2, we can use unpckhps

3018

// SHUFPS the element to the lowest double word, then movss.

3019

MVT::ValueType MaskVT = MVT::getIntVectorWithNumElements(4);

3020

SDOperand IdxNode = DAG.getConstant((Idx < 2) ? Idx : Idx+4,

3021

MVT::getVectorBaseType(MaskVT));

3022

std::vector<SDOperand> IdxVec;

3023

IdxVec.push_back(DAG.getConstant(Idx, MVT::getVectorBaseType(MaskVT)));

3024

IdxVec.push_back(DAG.getNode(ISD::UNDEF, MVT::getVectorBaseType(MaskVT)));

3025

IdxVec.push_back(DAG.getNode(ISD::UNDEF, MVT::getVectorBaseType(MaskVT)));

3026

IdxVec.push_back(DAG.getNode(ISD::UNDEF, MVT::getVectorBaseType(MaskVT)));

3027

SDOperand Mask = DAG.getNode(ISD::BUILD_VECTOR, MaskVT, IdxVec);

3028

Vec = DAG.getNode(ISD::VECTOR_SHUFFLE, Vec.getValueType(),

3029

Vec, Vec, Mask);

3030

return DAG.getNode(ISD::EXTRACT_VECTOR_ELT, VT, Vec,

3031

DAG.getConstant(0, MVT::i32));

3032

} else if (MVT::getSizeInBits(VT) == 64) {

3033

SDOperand Vec = Op.getOperand(0);

3034

unsigned Idx = cast<ConstantSDNode>(Op.getOperand(1))->getValue();

if (Idx == 0)

return Op;

// UNPCKHPD the element to the lowest double word, then movsd.

Evan Cheng

b64827e

2006-04-03 22:30:54 +0000

[diff] [blame]

3039

// Note if the lower 64 bits of the result of the UNPCKHPD is then stored

3040

// to a f64mem, the whole operation is folded into a single MOVHPDmr.

Evan Cheng

2006-04-03 20:53:28 +0000

[diff] [blame]

3041

MVT::ValueType MaskVT = MVT::getIntVectorWithNumElements(4);

3042

std::vector<SDOperand> IdxVec;

3043

IdxVec.push_back(DAG.getConstant(1, MVT::getVectorBaseType(MaskVT)));

3044

IdxVec.push_back(DAG.getNode(ISD::UNDEF, MVT::getVectorBaseType(MaskVT)));

3045

SDOperand Mask = DAG.getNode(ISD::BUILD_VECTOR, MaskVT, IdxVec);

3046

Vec = DAG.getNode(ISD::VECTOR_SHUFFLE, Vec.getValueType(),

3047

Vec, DAG.getNode(ISD::UNDEF, Vec.getValueType()), Mask);

3048

return DAG.getNode(ISD::EXTRACT_VECTOR_ELT, VT, Vec,

3049

DAG.getConstant(0, MVT::i32));

Evan Cheng

2006-03-31 19:22:53 +0000

[diff] [blame]

}

return SDOperand();

}

case ISD::INSERT_VECTOR_ELT: {

3055

// Transform it so it match pinsrw which expects a 16-bit value in a R32

3056

// as its second argument.

3057

MVT::ValueType VT = Op.getValueType();

3058

MVT::ValueType BaseVT = MVT::getVectorBaseType(VT);

Evan Cheng

2006-04-17 22:04:06 +0000

[diff] [blame]

3059

SDOperand N0 = Op.getOperand(0);

3060

SDOperand N1 = Op.getOperand(1);

3061

SDOperand N2 = Op.getOperand(2);

Evan Cheng

2006-03-31 19:22:53 +0000

[diff] [blame]

3062

if (MVT::getSizeInBits(BaseVT) == 16) {

Evan Cheng

2006-03-31 19:22:53 +0000

[diff] [blame]

3063

if (N1.getValueType() != MVT::i32)

3064

N1 = DAG.getNode(ISD::ANY_EXTEND, MVT::i32, N1);

3065

if (N2.getValueType() != MVT::i32)

3066

N2 = DAG.getConstant(cast<ConstantSDNode>(N2)->getValue(), MVT::i32);

Evan Cheng

2006-04-17 22:04:06 +0000

[diff] [blame]

3067

return DAG.getNode(X86ISD::PINSRW, VT, N0, N1, N2);

3068

} else if (MVT::getSizeInBits(BaseVT) == 32) {

Evan Cheng

2006-04-17 22:04:06 +0000

[diff] [blame]

3069

unsigned Idx = cast<ConstantSDNode>(N2)->getValue();

Evan Cheng

5421206

2006-04-17 22:45:49 +0000

[diff] [blame]

3070

if (Idx == 0) {

3071

// Use a movss.

3072

N1 = DAG.getNode(ISD::SCALAR_TO_VECTOR, VT, N1);

3073

MVT::ValueType MaskVT = MVT::getIntVectorWithNumElements(4);

3074

MVT::ValueType BaseVT = MVT::getVectorBaseType(MaskVT);

3075

std::vector<SDOperand> MaskVec;

3076

MaskVec.push_back(DAG.getConstant(4, BaseVT));

3077

for (unsigned i = 1; i <= 3; ++i)

3078

MaskVec.push_back(DAG.getConstant(i, BaseVT));

3079

return DAG.getNode(ISD::VECTOR_SHUFFLE, VT, N0, N1,

3080

DAG.getNode(ISD::BUILD_VECTOR, MaskVT, MaskVec));

3081

} else {

3082

// Use two pinsrw instructions to insert a 32 bit value.

3083

Idx <<= 1;

3084

if (MVT::isFloatingPoint(N1.getValueType())) {

3085

if (N1.getOpcode() == ISD::LOAD) {

3086

// Just load directly from f32mem to R32.

3087

N1 = DAG.getLoad(MVT::i32, N1.getOperand(0), N1.getOperand(1),

3088

N1.getOperand(2));

3089

} else {

3090

N1 = DAG.getNode(ISD::SCALAR_TO_VECTOR, MVT::v4f32, N1);

3091

N1 = DAG.getNode(ISD::BIT_CONVERT, MVT::v4i32, N1);

3092

N1 = DAG.getNode(ISD::EXTRACT_VECTOR_ELT, MVT::i32, N1,

3093

DAG.getConstant(0, MVT::i32));

3094

}

Evan Cheng

2006-04-17 22:04:06 +0000

[diff] [blame]

3095

}

Evan Cheng

5421206

2006-04-17 22:45:49 +0000

[diff] [blame]

3096

N0 = DAG.getNode(ISD::BIT_CONVERT, MVT::v8i16, N0);

3097

N0 = DAG.getNode(X86ISD::PINSRW, MVT::v8i16, N0, N1,

3098

DAG.getConstant(Idx, MVT::i32));

3099

N1 = DAG.getNode(ISD::SRL, MVT::i32, N1, DAG.getConstant(16, MVT::i8));

3100

N0 = DAG.getNode(X86ISD::PINSRW, MVT::v8i16, N0, N1,

3101

DAG.getConstant(Idx+1, MVT::i32));

3102

return DAG.getNode(ISD::BIT_CONVERT, VT, N0);

Evan Cheng

2006-04-17 22:04:06 +0000

[diff] [blame]

3103

}

Evan Cheng

2006-03-31 19:22:53 +0000

[diff] [blame]

}

return SDOperand();

}

Evan Cheng

2006-04-05 23:38:46 +0000

[diff] [blame]

3108

case ISD::INTRINSIC_WO_CHAIN: {

3109

unsigned IntNo = cast<ConstantSDNode>(Op.getOperand(0))->getValue();

3110

switch (IntNo) {

3111

default: return SDOperand(); // Don't custom lower most intrinsics.

3112

// Comparison intrinsics.

3113

case Intrinsic::x86_sse_comieq_ss:

3114

case Intrinsic::x86_sse_comilt_ss:

3115

case Intrinsic::x86_sse_comile_ss:

3116

case Intrinsic::x86_sse_comigt_ss:

3117

case Intrinsic::x86_sse_comige_ss:

3118

case Intrinsic::x86_sse_comineq_ss:

3119

case Intrinsic::x86_sse_ucomieq_ss:

3120

case Intrinsic::x86_sse_ucomilt_ss:

3121

case Intrinsic::x86_sse_ucomile_ss:

3122

case Intrinsic::x86_sse_ucomigt_ss:

3123

case Intrinsic::x86_sse_ucomige_ss:

3124

case Intrinsic::x86_sse_ucomineq_ss:

3125

case Intrinsic::x86_sse2_comieq_sd:

3126

case Intrinsic::x86_sse2_comilt_sd:

3127

case Intrinsic::x86_sse2_comile_sd:

3128

case Intrinsic::x86_sse2_comigt_sd:

3129

case Intrinsic::x86_sse2_comige_sd:

3130

case Intrinsic::x86_sse2_comineq_sd:

3131

case Intrinsic::x86_sse2_ucomieq_sd:

3132

case Intrinsic::x86_sse2_ucomilt_sd:

3133

case Intrinsic::x86_sse2_ucomile_sd:

3134

case Intrinsic::x86_sse2_ucomigt_sd:

3135

case Intrinsic::x86_sse2_ucomige_sd:

3136

case Intrinsic::x86_sse2_ucomineq_sd: {

Evan Cheng

2006-04-06 23:23:56 +0000

[diff] [blame]

3137

unsigned Opc = 0;

3138

ISD::CondCode CC = ISD::SETCC_INVALID;

Evan Cheng

2006-04-05 23:38:46 +0000

[diff] [blame]

3139

switch (IntNo) {

3140

default: break;

3141

case Intrinsic::x86_sse_comieq_ss:

3142

case Intrinsic::x86_sse2_comieq_sd:

Opc = X86ISD::COMI;

CC = ISD::SETEQ;

break;

case Intrinsic::x86_sse_comilt_ss:

3147

case Intrinsic::x86_sse2_comilt_sd:

Opc = X86ISD::COMI;

CC = ISD::SETLT;

break;

case Intrinsic::x86_sse_comile_ss:

3152

case Intrinsic::x86_sse2_comile_sd:

Opc = X86ISD::COMI;

CC = ISD::SETLE;

break;

case Intrinsic::x86_sse_comigt_ss:

3157

case Intrinsic::x86_sse2_comigt_sd:

Opc = X86ISD::COMI;

CC = ISD::SETGT;

break;

case Intrinsic::x86_sse_comige_ss:

3162

case Intrinsic::x86_sse2_comige_sd:

Opc = X86ISD::COMI;

CC = ISD::SETGE;

break;

case Intrinsic::x86_sse_comineq_ss:

3167

case Intrinsic::x86_sse2_comineq_sd:

Opc = X86ISD::COMI;

CC = ISD::SETNE;

break;

case Intrinsic::x86_sse_ucomieq_ss:

3172

case Intrinsic::x86_sse2_ucomieq_sd:

Opc = X86ISD::UCOMI;

CC = ISD::SETEQ;

break;

case Intrinsic::x86_sse_ucomilt_ss:

3177

case Intrinsic::x86_sse2_ucomilt_sd:

Opc = X86ISD::UCOMI;

CC = ISD::SETLT;

break;

case Intrinsic::x86_sse_ucomile_ss:

3182

case Intrinsic::x86_sse2_ucomile_sd:

Opc = X86ISD::UCOMI;

CC = ISD::SETLE;

break;

case Intrinsic::x86_sse_ucomigt_ss:

3187

case Intrinsic::x86_sse2_ucomigt_sd:

Opc = X86ISD::UCOMI;

CC = ISD::SETGT;

break;

case Intrinsic::x86_sse_ucomige_ss:

3192

case Intrinsic::x86_sse2_ucomige_sd:

Opc = X86ISD::UCOMI;

CC = ISD::SETGE;

break;

case Intrinsic::x86_sse_ucomineq_ss:

3197

case Intrinsic::x86_sse2_ucomineq_sd:

Opc = X86ISD::UCOMI;

CC = ISD::SETNE;

break;

}

bool Flip;

unsigned X86CC;

translateX86CC(CC, true, X86CC, Flip);

3205

SDOperand Cond = DAG.getNode(Opc, MVT::Flag, Op.getOperand(Flip?2:1),

3206

Op.getOperand(Flip?1:2));

3207

SDOperand SetCC = DAG.getNode(X86ISD::SETCC, MVT::i8,

3208

DAG.getConstant(X86CC, MVT::i8), Cond);

3209

return DAG.getNode(ISD::ANY_EXTEND, MVT::i32, SetCC);

3210

}

3211

}

3212

}

Evan Cheng

5c59d49

2005-12-23 07:31:11 +0000

[diff] [blame]

3213

}

Chris Lattner

2005-11-15 00:40:23 +0000

[diff] [blame]

3214

}

Evan Cheng

2005-12-20 06:22:03 +0000

[diff] [blame]

3215

3216

const char *X86TargetLowering::getTargetNodeName(unsigned Opcode) const {

3217

switch (Opcode) {

3218

default: return NULL;

Evan Cheng

2006-01-09 18:33:28 +0000

[diff] [blame]

3219

case X86ISD::SHLD: return "X86ISD::SHLD";

3220

case X86ISD::SHRD: return "X86ISD::SHRD";

Evan Cheng

2006-01-31 03:14:29 +0000

[diff] [blame]

3221

case X86ISD::FAND: return "X86ISD::FAND";

Evan Cheng

2006-01-31 22:28:30 +0000

[diff] [blame]

3222

case X86ISD::FXOR: return "X86ISD::FXOR";

Evan Cheng

2006-01-12 22:54:21 +0000

[diff] [blame]

3223

case X86ISD::FILD: return "X86ISD::FILD";

Evan Cheng

2006-02-04 02:20:30 +0000

[diff] [blame]

3224

case X86ISD::FILD_FLAG: return "X86ISD::FILD_FLAG";

Evan Cheng

2005-12-20 06:22:03 +0000

[diff] [blame]

3225

case X86ISD::FP_TO_INT16_IN_MEM: return "X86ISD::FP_TO_INT16_IN_MEM";

3226

case X86ISD::FP_TO_INT32_IN_MEM: return "X86ISD::FP_TO_INT32_IN_MEM";

3227

case X86ISD::FP_TO_INT64_IN_MEM: return "X86ISD::FP_TO_INT64_IN_MEM";

Evan Cheng

a74ce62

2005-12-21 02:39:21 +0000

[diff] [blame]

3228

case X86ISD::FLD: return "X86ISD::FLD";

Evan Cheng

2006-01-05 00:27:02 +0000

[diff] [blame]

3229

case X86ISD::FST: return "X86ISD::FST";

3230

case X86ISD::FP_GET_RESULT: return "X86ISD::FP_GET_RESULT";

Evan Cheng

a74ce62

2005-12-21 02:39:21 +0000

[diff] [blame]

3231

case X86ISD::FP_SET_RESULT: return "X86ISD::FP_SET_RESULT";

Evan Cheng

2005-12-20 06:22:03 +0000

[diff] [blame]

3232

case X86ISD::CALL: return "X86ISD::CALL";

3233

case X86ISD::TAILCALL: return "X86ISD::TAILCALL";

3234

case X86ISD::RDTSC_DAG: return "X86ISD::RDTSC_DAG";

3235

case X86ISD::CMP: return "X86ISD::CMP";

3236

case X86ISD::TEST: return "X86ISD::TEST";

Evan Cheng

2006-04-05 23:38:46 +0000

[diff] [blame]

3237

case X86ISD::COMI: return "X86ISD::COMI";

3238

case X86ISD::UCOMI: return "X86ISD::UCOMI";

Evan Cheng

2005-12-21 20:21:51 +0000

[diff] [blame]

3239

case X86ISD::SETCC: return "X86ISD::SETCC";

Evan Cheng

2005-12-20 06:22:03 +0000

[diff] [blame]

3240

case X86ISD::CMOV: return "X86ISD::CMOV";

3241

case X86ISD::BRCOND: return "X86ISD::BRCOND";

Evan Cheng

a74ce62

2005-12-21 02:39:21 +0000

[diff] [blame]

3242

case X86ISD::RET_FLAG: return "X86ISD::RET_FLAG";

Evan Cheng

084a102

2006-03-04 01:12:00 +0000

[diff] [blame]

3243

case X86ISD::REP_STOS: return "X86ISD::REP_STOS";

3244

case X86ISD::REP_MOVS: return "X86ISD::REP_MOVS";

Evan Cheng

2006-01-31 22:28:30 +0000

[diff] [blame]

3245

case X86ISD::LOAD_PACK: return "X86ISD::LOAD_PACK";

Evan Cheng

2006-02-18 00:15:05 +0000

[diff] [blame]

3246

case X86ISD::GlobalBaseReg: return "X86ISD::GlobalBaseReg";

Evan Cheng

2006-02-23 20:41:18 +0000

[diff] [blame]

3247

case X86ISD::Wrapper: return "X86ISD::Wrapper";

Evan Cheng

2006-03-24 23:15:12 +0000

[diff] [blame]

3248

case X86ISD::S2VEC: return "X86ISD::S2VEC";

3249

case X86ISD::ZEXT_S2VEC: return "X86ISD::ZEXT_S2VEC";

Evan Cheng

2006-03-31 19:22:53 +0000

[diff] [blame]

3250

case X86ISD::PEXTRW: return "X86ISD::PEXTRW";

Evan Cheng

5fd7c69

2006-03-31 21:55:24 +0000

[diff] [blame]

3251

case X86ISD::PINSRW: return "X86ISD::PINSRW";

Evan Cheng

2005-12-20 06:22:03 +0000

[diff] [blame]

3252

}

3253

}

Evan Cheng

2005-12-21 23:05:39 +0000

[diff] [blame]

3254

Nate Begeman

8a77efe

2006-02-16 21:11:51 +0000

[diff] [blame]

3255

void X86TargetLowering::computeMaskedBitsForTargetNode(const SDOperand Op,

uint64_t Mask,

uint64_t &KnownZero,

uint64_t &KnownOne,

unsigned Depth) const {

Evan Cheng

2005-12-21 23:05:39 +0000

[diff] [blame]

3260

unsigned Opc = Op.getOpcode();

Evan Cheng

6d196db

2006-04-05 06:11:20 +0000

[diff] [blame]

3261

assert((Opc >= ISD::BUILTIN_OP_END ||

3262

Opc == ISD::INTRINSIC_WO_CHAIN ||

3263

Opc == ISD::INTRINSIC_W_CHAIN ||

3264

Opc == ISD::INTRINSIC_VOID) &&

3265

"Should use MaskedValueIsZero if you don't know whether Op"

3266

" is a target node!");

Evan Cheng

2005-12-21 23:05:39 +0000

[diff] [blame]

3267

Evan Cheng

6d196db

2006-04-05 06:11:20 +0000

[diff] [blame]

3268

KnownZero = KnownOne = 0; // Don't know anything.

Evan Cheng

2005-12-21 23:05:39 +0000

[diff] [blame]

3269

switch (Opc) {

Evan Cheng

6d196db

2006-04-05 06:11:20 +0000

[diff] [blame]

3270

default: break;

Nate Begeman

8a77efe

2006-02-16 21:11:51 +0000

[diff] [blame]

3271

case X86ISD::SETCC:

3272

KnownZero |= (MVT::getIntVTBitMask(Op.getValueType()) ^ 1ULL);

3273

break;

Evan Cheng

2005-12-21 23:05:39 +0000

[diff] [blame]

3274

}

Evan Cheng

2005-12-21 23:05:39 +0000

[diff] [blame]

3275

}

Chris Lattner

2006-01-31 19:43:35 +0000

[diff] [blame]

3276

3277

std::vector<unsigned> X86TargetLowering::

Chris Lattner

7ad77df

2006-02-22 00:56:39 +0000

[diff] [blame]

3278

getRegClassForInlineAsmConstraint(const std::string &Constraint,

3279

MVT::ValueType VT) const {

Chris Lattner

2006-01-31 19:43:35 +0000

[diff] [blame]

3280

if (Constraint.size() == 1) {

3281

// FIXME: not handling fp-stack yet!

3282

// FIXME: not handling MMX registers yet ('y' constraint).

3283

switch (Constraint[0]) { // GCC X86 Constraint Letters

3284

default: break; // Unknown constriant letter

3285

case 'r': // GENERAL_REGS

3286

case 'R': // LEGACY_REGS

3287

return make_vector<unsigned>(X86::EAX, X86::EBX, X86::ECX, X86::EDX,

3288

X86::ESI, X86::EDI, X86::EBP, X86::ESP, 0);

3289

case 'l': // INDEX_REGS

3290

return make_vector<unsigned>(X86::EAX, X86::EBX, X86::ECX, X86::EDX,

3291

X86::ESI, X86::EDI, X86::EBP, 0);

3292

case 'q': // Q_REGS (GENERAL_REGS in 64-bit mode)

3293

case 'Q': // Q_REGS

3294

return make_vector<unsigned>(X86::EAX, X86::EBX, X86::ECX, X86::EDX, 0);

3295

case 'x': // SSE_REGS if SSE1 allowed

3296

if (Subtarget->hasSSE1())

3297

return make_vector<unsigned>(X86::XMM0, X86::XMM1, X86::XMM2, X86::XMM3,

3298

X86::XMM4, X86::XMM5, X86::XMM6, X86::XMM7,

3299

0);

3300

return std::vector<unsigned>();

3301

case 'Y': // SSE_REGS if SSE2 allowed

3302

if (Subtarget->hasSSE2())

3303

return make_vector<unsigned>(X86::XMM0, X86::XMM1, X86::XMM2, X86::XMM3,

3304

X86::XMM4, X86::XMM5, X86::XMM6, X86::XMM7,

3305

0);

3306

return std::vector<unsigned>();

}

}

Chris Lattner

2006-02-22 00:56:39 +0000

[diff] [blame]

3310

return std::vector<unsigned>();

Chris Lattner

2006-01-31 19:43:35 +0000

[diff] [blame]

3311

}

Evan Cheng

2006-03-13 23:18:16 +0000

[diff] [blame]

3312

3313

/// isLegalAddressImmediate - Return true if the integer value or

3314

/// GlobalValue can be used as the offset of the target addressing mode.

3315

bool X86TargetLowering::isLegalAddressImmediate(int64_t V) const {

3316

// X86 allows a sign-extended 32-bit immediate field.

3317

return (V > -(1LL << 32) && V < (1LL << 32)-1);

3318

}

3319

3320

bool X86TargetLowering::isLegalAddressImmediate(GlobalValue *GV) const {

Evan Cheng

2006-03-22 19:22:18 +0000

[diff] [blame]

3321

if (Subtarget->isTargetDarwin()) {

Evan Cheng

2006-03-13 23:18:16 +0000

[diff] [blame]

3322

Reloc::Model RModel = getTargetMachine().getRelocationModel();

3323

if (RModel == Reloc::Static)

3324

return true;

3325

else if (RModel == Reloc::DynamicNoPIC)

Evan Cheng

f75555f

2006-03-16 22:02:48 +0000

[diff] [blame]

3326

return !DarwinGVRequiresExtraLoad(GV);

Evan Cheng

2006-03-13 23:18:16 +0000

[diff] [blame]

else

return false;

} else

return true;

}

Evan Cheng

2006-03-22 18:59:22 +0000

[diff] [blame]

3332

3333

/// isShuffleMaskLegal - Targets can use this to indicate that they only

3334

/// support *some* VECTOR_SHUFFLE operations, those with specific masks.

3335

/// By default, if a target supports the VECTOR_SHUFFLE node, all mask values

3336

/// are assumed to be legal.

Evan Cheng

021bb7c

2006-03-22 22:07:06 +0000

[diff] [blame]

3337

bool

3338

X86TargetLowering::isShuffleMaskLegal(SDOperand Mask, MVT::ValueType VT) const {

3339

// Only do shuffles on 128-bit vector types for now.

3340

if (MVT::getSizeInBits(VT) == 64) return false;

Evan Cheng

a3caaee

2006-04-19 22:48:17 +0000

[diff] [blame^]

3341

return (Mask.Val->getNumOperands() <= 4 ||

Evan Cheng

2006-04-17 20:43:08 +0000

[diff] [blame]

3342

isSplatMask(Mask.Val) ||

Evan Cheng

2006-04-05 01:47:37 +0000

[diff] [blame]

3343

isPSHUFHW_PSHUFLWMask(Mask.Val) ||

Evan Cheng

21e5476

2006-03-28 08:27:15 +0000

[diff] [blame]

3344

X86::isUNPCKLMask(Mask.Val) ||

Evan Cheng

2006-04-05 07:20:06 +0000

[diff] [blame]

3345

X86::isUNPCKL_v_undef_Mask(Mask.Val) ||

Jim Laskey

457e54e

2006-03-28 10:17:11 +0000

[diff] [blame]

3346

X86::isUNPCKHMask(Mask.Val));

Evan Cheng