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d0c1e29aec
git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@54842 91177308-0d34-0410-b5e6-96231b3b80d8
445 lines
16 KiB
C++
445 lines
16 KiB
C++
//===-- X86TargetAsmInfo.cpp - X86 asm properties ---------------*- C++ -*-===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file is distributed under the University of Illinois Open Source
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// License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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//
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// This file contains the declarations of the X86TargetAsmInfo properties.
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//
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//===----------------------------------------------------------------------===//
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#include "X86TargetAsmInfo.h"
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#include "X86TargetMachine.h"
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#include "X86Subtarget.h"
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#include "llvm/DerivedTypes.h"
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#include "llvm/InlineAsm.h"
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#include "llvm/Instructions.h"
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#include "llvm/Intrinsics.h"
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#include "llvm/Module.h"
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#include "llvm/ADT/StringExtras.h"
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#include "llvm/Support/Dwarf.h"
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using namespace llvm;
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using namespace llvm::dwarf;
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static const char *const x86_asm_table[] = {
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"{si}", "S",
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"{di}", "D",
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"{ax}", "a",
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"{cx}", "c",
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"{memory}", "memory",
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"{flags}", "",
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"{dirflag}", "",
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"{fpsr}", "",
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"{cc}", "cc",
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0,0};
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X86TargetAsmInfo::X86TargetAsmInfo(const X86TargetMachine &TM) {
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const X86Subtarget *Subtarget = &TM.getSubtarget<X86Subtarget>();
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AsmTransCBE = x86_asm_table;
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AssemblerDialect = Subtarget->getAsmFlavor();
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}
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bool X86TargetAsmInfo::LowerToBSwap(CallInst *CI) const {
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// FIXME: this should verify that we are targetting a 486 or better. If not,
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// we will turn this bswap into something that will be lowered to logical ops
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// instead of emitting the bswap asm. For now, we don't support 486 or lower
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// so don't worry about this.
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// Verify this is a simple bswap.
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if (CI->getNumOperands() != 2 ||
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CI->getType() != CI->getOperand(1)->getType() ||
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!CI->getType()->isInteger())
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return false;
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const IntegerType *Ty = dyn_cast<IntegerType>(CI->getType());
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if (!Ty || Ty->getBitWidth() % 16 != 0)
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return false;
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// Okay, we can do this xform, do so now.
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const Type *Tys[] = { Ty };
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Module *M = CI->getParent()->getParent()->getParent();
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Constant *Int = Intrinsic::getDeclaration(M, Intrinsic::bswap, Tys, 1);
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Value *Op = CI->getOperand(1);
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Op = CallInst::Create(Int, Op, CI->getName(), CI);
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CI->replaceAllUsesWith(Op);
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CI->eraseFromParent();
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return true;
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}
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bool X86TargetAsmInfo::ExpandInlineAsm(CallInst *CI) const {
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InlineAsm *IA = cast<InlineAsm>(CI->getCalledValue());
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std::vector<InlineAsm::ConstraintInfo> Constraints = IA->ParseConstraints();
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std::string AsmStr = IA->getAsmString();
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// TODO: should remove alternatives from the asmstring: "foo {a|b}" -> "foo a"
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std::vector<std::string> AsmPieces;
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SplitString(AsmStr, AsmPieces, "\n"); // ; as separator?
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switch (AsmPieces.size()) {
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default: return false;
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case 1:
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AsmStr = AsmPieces[0];
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AsmPieces.clear();
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SplitString(AsmStr, AsmPieces, " \t"); // Split with whitespace.
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// bswap $0
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if (AsmPieces.size() == 2 &&
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AsmPieces[0] == "bswap" && AsmPieces[1] == "$0") {
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// No need to check constraints, nothing other than the equivalent of
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// "=r,0" would be valid here.
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return LowerToBSwap(CI);
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}
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break;
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case 3:
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if (CI->getType() == Type::Int64Ty && Constraints.size() >= 2 &&
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Constraints[0].Codes.size() == 1 && Constraints[0].Codes[0] == "A" &&
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Constraints[1].Codes.size() == 1 && Constraints[1].Codes[0] == "0") {
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// bswap %eax / bswap %edx / xchgl %eax, %edx -> llvm.bswap.i64
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std::vector<std::string> Words;
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SplitString(AsmPieces[0], Words, " \t");
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if (Words.size() == 2 && Words[0] == "bswap" && Words[1] == "%eax") {
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Words.clear();
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SplitString(AsmPieces[1], Words, " \t");
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if (Words.size() == 2 && Words[0] == "bswap" && Words[1] == "%edx") {
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Words.clear();
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SplitString(AsmPieces[2], Words, " \t,");
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if (Words.size() == 3 && Words[0] == "xchgl" && Words[1] == "%eax" &&
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Words[2] == "%edx") {
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return LowerToBSwap(CI);
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}
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}
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}
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}
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break;
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}
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return false;
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}
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X86DarwinTargetAsmInfo::X86DarwinTargetAsmInfo(const X86TargetMachine &TM):
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X86TargetAsmInfo(TM), DarwinTargetAsmInfo(TM) {
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const X86Subtarget* Subtarget = &DTM->getSubtarget<X86Subtarget>();
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bool is64Bit = Subtarget->is64Bit();
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AlignmentIsInBytes = false;
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TextAlignFillValue = 0x90;
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GlobalPrefix = "_";
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if (!is64Bit)
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Data64bitsDirective = 0; // we can't emit a 64-bit unit
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ZeroDirective = "\t.space\t"; // ".space N" emits N zeros.
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PrivateGlobalPrefix = "L"; // Marker for constant pool idxs
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BSSSection = 0; // no BSS section.
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ZeroFillDirective = "\t.zerofill\t"; // Uses .zerofill
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if (DTM->getRelocationModel() != Reloc::Static)
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ConstantPoolSection = "\t.const_data";
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else
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ConstantPoolSection = "\t.const\n";
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JumpTableDataSection = "\t.const\n";
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CStringSection = "\t.cstring";
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FourByteConstantSection = "\t.literal4\n";
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EightByteConstantSection = "\t.literal8\n";
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// FIXME: Why don't always use this section?
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if (is64Bit) {
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SixteenByteConstantSection = "\t.literal16\n";
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SixteenByteConstantSection_ = getUnnamedSection("\t.literal16\n",
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SectionFlags::Mergeable);
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}
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ReadOnlySection = "\t.const\n";
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LCOMMDirective = "\t.lcomm\t";
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SwitchToSectionDirective = "\t.section ";
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StringConstantPrefix = "\1LC";
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// Leopard and above support aligned common symbols.
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COMMDirectiveTakesAlignment = (Subtarget->getDarwinVers() >= 9);
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HasDotTypeDotSizeDirective = false;
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if (TM.getRelocationModel() == Reloc::Static) {
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StaticCtorsSection = ".constructor";
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StaticDtorsSection = ".destructor";
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} else {
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StaticCtorsSection = ".mod_init_func";
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StaticDtorsSection = ".mod_term_func";
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}
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if (is64Bit) {
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PersonalityPrefix = "";
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PersonalitySuffix = "+4@GOTPCREL";
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} else {
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PersonalityPrefix = "L";
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PersonalitySuffix = "$non_lazy_ptr";
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}
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NeedsIndirectEncoding = true;
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InlineAsmStart = "## InlineAsm Start";
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InlineAsmEnd = "## InlineAsm End";
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CommentString = "##";
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SetDirective = "\t.set";
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PCSymbol = ".";
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UsedDirective = "\t.no_dead_strip\t";
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WeakDefDirective = "\t.weak_definition ";
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WeakRefDirective = "\t.weak_reference ";
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HiddenDirective = "\t.private_extern ";
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ProtectedDirective = "\t.globl\t";
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// In non-PIC modes, emit a special label before jump tables so that the
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// linker can perform more accurate dead code stripping.
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if (TM.getRelocationModel() != Reloc::PIC_) {
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// Emit a local label that is preserved until the linker runs.
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JumpTableSpecialLabelPrefix = "l";
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}
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SupportsDebugInformation = true;
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NeedsSet = true;
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DwarfAbbrevSection = ".section __DWARF,__debug_abbrev,regular,debug";
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DwarfInfoSection = ".section __DWARF,__debug_info,regular,debug";
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DwarfLineSection = ".section __DWARF,__debug_line,regular,debug";
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DwarfFrameSection = ".section __DWARF,__debug_frame,regular,debug";
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DwarfPubNamesSection = ".section __DWARF,__debug_pubnames,regular,debug";
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DwarfPubTypesSection = ".section __DWARF,__debug_pubtypes,regular,debug";
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DwarfStrSection = ".section __DWARF,__debug_str,regular,debug";
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DwarfLocSection = ".section __DWARF,__debug_loc,regular,debug";
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DwarfARangesSection = ".section __DWARF,__debug_aranges,regular,debug";
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DwarfRangesSection = ".section __DWARF,__debug_ranges,regular,debug";
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DwarfMacInfoSection = ".section __DWARF,__debug_macinfo,regular,debug";
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// Exceptions handling
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SupportsExceptionHandling = true;
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GlobalEHDirective = "\t.globl\t";
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SupportsWeakOmittedEHFrame = false;
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AbsoluteEHSectionOffsets = false;
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DwarfEHFrameSection =
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".section __TEXT,__eh_frame,coalesced,no_toc+strip_static_syms+live_support";
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DwarfExceptionSection = ".section __DATA,__gcc_except_tab";
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}
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unsigned
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X86DarwinTargetAsmInfo::PreferredEHDataFormat(DwarfEncoding::Target Reason,
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bool Global) const {
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if (Reason == DwarfEncoding::Functions && Global)
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return (DW_EH_PE_pcrel | DW_EH_PE_indirect | DW_EH_PE_sdata4);
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else if (Reason == DwarfEncoding::CodeLabels || !Global)
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return DW_EH_PE_pcrel;
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else
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return DW_EH_PE_absptr;
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}
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X86ELFTargetAsmInfo::X86ELFTargetAsmInfo(const X86TargetMachine &TM):
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X86TargetAsmInfo(TM), ELFTargetAsmInfo(TM) {
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bool is64Bit = ETM->getSubtarget<X86Subtarget>().is64Bit();
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ReadOnlySection = ".rodata";
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FourByteConstantSection = "\t.section\t.rodata.cst4,\"aM\",@progbits,4";
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EightByteConstantSection = "\t.section\t.rodata.cst8,\"aM\",@progbits,8";
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SixteenByteConstantSection = "\t.section\t.rodata.cst16,\"aM\",@progbits,16";
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CStringSection = ".rodata.str";
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PrivateGlobalPrefix = ".L";
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WeakRefDirective = "\t.weak\t";
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SetDirective = "\t.set\t";
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PCSymbol = ".";
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// Set up DWARF directives
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HasLEB128 = true; // Target asm supports leb128 directives (little-endian)
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// Debug Information
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AbsoluteDebugSectionOffsets = true;
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SupportsDebugInformation = true;
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DwarfAbbrevSection = "\t.section\t.debug_abbrev,\"\",@progbits";
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DwarfInfoSection = "\t.section\t.debug_info,\"\",@progbits";
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DwarfLineSection = "\t.section\t.debug_line,\"\",@progbits";
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DwarfFrameSection = "\t.section\t.debug_frame,\"\",@progbits";
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DwarfPubNamesSection ="\t.section\t.debug_pubnames,\"\",@progbits";
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DwarfPubTypesSection ="\t.section\t.debug_pubtypes,\"\",@progbits";
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DwarfStrSection = "\t.section\t.debug_str,\"\",@progbits";
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DwarfLocSection = "\t.section\t.debug_loc,\"\",@progbits";
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DwarfARangesSection = "\t.section\t.debug_aranges,\"\",@progbits";
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DwarfRangesSection = "\t.section\t.debug_ranges,\"\",@progbits";
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DwarfMacInfoSection = "\t.section\t.debug_macinfo,\"\",@progbits";
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// Exceptions handling
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if (!is64Bit)
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SupportsExceptionHandling = true;
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AbsoluteEHSectionOffsets = false;
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DwarfEHFrameSection = "\t.section\t.eh_frame,\"aw\",@progbits";
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DwarfExceptionSection = "\t.section\t.gcc_except_table,\"a\",@progbits";
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// On Linux we must declare when we can use a non-executable stack.
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if (ETM->getSubtarget<X86Subtarget>().isLinux())
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NonexecutableStackDirective = "\t.section\t.note.GNU-stack,\"\",@progbits";
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}
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unsigned
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X86ELFTargetAsmInfo::PreferredEHDataFormat(DwarfEncoding::Target Reason,
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bool Global) const {
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CodeModel::Model CM = ETM->getCodeModel();
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bool is64Bit = ETM->getSubtarget<X86Subtarget>().is64Bit();
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if (ETM->getRelocationModel() == Reloc::PIC_) {
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unsigned Format = 0;
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if (!is64Bit)
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// 32 bit targets always encode pointers as 4 bytes
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Format = DW_EH_PE_sdata4;
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else {
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// 64 bit targets encode pointers in 4 bytes iff:
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// - code model is small OR
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// - code model is medium and we're emitting externally visible symbols
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// or any code symbols
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if (CM == CodeModel::Small ||
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(CM == CodeModel::Medium && (Global ||
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Reason != DwarfEncoding::Data)))
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Format = DW_EH_PE_sdata4;
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else
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Format = DW_EH_PE_sdata8;
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}
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if (Global)
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Format |= DW_EH_PE_indirect;
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return (Format | DW_EH_PE_pcrel);
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} else {
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if (is64Bit &&
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(CM == CodeModel::Small ||
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(CM == CodeModel::Medium && Reason != DwarfEncoding::Data)))
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return DW_EH_PE_udata4;
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else
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return DW_EH_PE_absptr;
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}
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}
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X86COFFTargetAsmInfo::X86COFFTargetAsmInfo(const X86TargetMachine &TM):
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X86TargetAsmInfo(TM) {
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X86TM = &TM;
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GlobalPrefix = "_";
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LCOMMDirective = "\t.lcomm\t";
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COMMDirectiveTakesAlignment = false;
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HasDotTypeDotSizeDirective = false;
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StaticCtorsSection = "\t.section .ctors,\"aw\"";
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StaticDtorsSection = "\t.section .dtors,\"aw\"";
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HiddenDirective = NULL;
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PrivateGlobalPrefix = "L"; // Prefix for private global symbols
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WeakRefDirective = "\t.weak\t";
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SetDirective = "\t.set\t";
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// Set up DWARF directives
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HasLEB128 = true; // Target asm supports leb128 directives (little-endian)
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AbsoluteDebugSectionOffsets = true;
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AbsoluteEHSectionOffsets = false;
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SupportsDebugInformation = true;
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DwarfSectionOffsetDirective = "\t.secrel32\t";
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DwarfAbbrevSection = "\t.section\t.debug_abbrev,\"dr\"";
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DwarfInfoSection = "\t.section\t.debug_info,\"dr\"";
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DwarfLineSection = "\t.section\t.debug_line,\"dr\"";
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DwarfFrameSection = "\t.section\t.debug_frame,\"dr\"";
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DwarfPubNamesSection ="\t.section\t.debug_pubnames,\"dr\"";
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DwarfPubTypesSection ="\t.section\t.debug_pubtypes,\"dr\"";
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DwarfStrSection = "\t.section\t.debug_str,\"dr\"";
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DwarfLocSection = "\t.section\t.debug_loc,\"dr\"";
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DwarfARangesSection = "\t.section\t.debug_aranges,\"dr\"";
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DwarfRangesSection = "\t.section\t.debug_ranges,\"dr\"";
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DwarfMacInfoSection = "\t.section\t.debug_macinfo,\"dr\"";
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}
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unsigned
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X86COFFTargetAsmInfo::PreferredEHDataFormat(DwarfEncoding::Target Reason,
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bool Global) const {
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CodeModel::Model CM = X86TM->getCodeModel();
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bool is64Bit = X86TM->getSubtarget<X86Subtarget>().is64Bit();
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if (X86TM->getRelocationModel() == Reloc::PIC_) {
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unsigned Format = 0;
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if (!is64Bit)
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// 32 bit targets always encode pointers as 4 bytes
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Format = DW_EH_PE_sdata4;
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else {
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// 64 bit targets encode pointers in 4 bytes iff:
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// - code model is small OR
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// - code model is medium and we're emitting externally visible symbols
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// or any code symbols
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if (CM == CodeModel::Small ||
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(CM == CodeModel::Medium && (Global ||
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Reason != DwarfEncoding::Data)))
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Format = DW_EH_PE_sdata4;
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else
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Format = DW_EH_PE_sdata8;
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}
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if (Global)
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Format |= DW_EH_PE_indirect;
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return (Format | DW_EH_PE_pcrel);
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} else {
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if (is64Bit &&
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(CM == CodeModel::Small ||
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(CM == CodeModel::Medium && Reason != DwarfEncoding::Data)))
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return DW_EH_PE_udata4;
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else
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return DW_EH_PE_absptr;
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}
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}
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std::string
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X86COFFTargetAsmInfo::UniqueSectionForGlobal(const GlobalValue* GV,
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SectionKind::Kind kind) const {
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switch (kind) {
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case SectionKind::Text:
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return ".text$linkonce" + GV->getName();
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case SectionKind::Data:
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case SectionKind::BSS:
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case SectionKind::ThreadData:
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case SectionKind::ThreadBSS:
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return ".data$linkonce" + GV->getName();
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case SectionKind::ROData:
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case SectionKind::RODataMergeConst:
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case SectionKind::RODataMergeStr:
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return ".rdata$linkonce" + GV->getName();
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default:
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assert(0 && "Unknown section kind");
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}
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}
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std::string X86COFFTargetAsmInfo::printSectionFlags(unsigned flags) const {
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std::string Flags = ",\"";
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if (flags & SectionFlags::Code)
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Flags += 'x';
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if (flags & SectionFlags::Writeable)
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Flags += 'w';
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Flags += "\"";
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return Flags;
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}
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X86WinTargetAsmInfo::X86WinTargetAsmInfo(const X86TargetMachine &TM):
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X86TargetAsmInfo(TM) {
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GlobalPrefix = "_";
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CommentString = ";";
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PrivateGlobalPrefix = "$";
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AlignDirective = "\talign\t";
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ZeroDirective = "\tdb\t";
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ZeroDirectiveSuffix = " dup(0)";
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AsciiDirective = "\tdb\t";
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AscizDirective = 0;
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Data8bitsDirective = "\tdb\t";
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Data16bitsDirective = "\tdw\t";
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Data32bitsDirective = "\tdd\t";
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Data64bitsDirective = "\tdq\t";
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HasDotTypeDotSizeDirective = false;
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TextSection = "_text";
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DataSection = "_data";
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JumpTableDataSection = NULL;
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SwitchToSectionDirective = "";
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TextSectionStartSuffix = "\tsegment 'CODE'";
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DataSectionStartSuffix = "\tsegment 'DATA'";
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SectionEndDirectiveSuffix = "\tends\n";
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}
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