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475cbdd9be
Summary: Change MCExpr to support Aurora VE's modifiers. Change asmparser to use existing MCExpr parser (parseExpression) to parse an expression contining symbols with modifiers and offsets. Also add several regression tests of MC layer. Reviewers: simoll, k-ishizaka Reviewed By: simoll Subscribers: hiraditya, llvm-commits Tags: #llvm, #ve Differential Revision: https://reviews.llvm.org/D83170
987 lines
34 KiB
C++
987 lines
34 KiB
C++
//===- MCExpr.cpp - Assembly Level Expression Implementation --------------===//
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//
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// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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//
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//===----------------------------------------------------------------------===//
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#include "llvm/MC/MCExpr.h"
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#include "llvm/ADT/Statistic.h"
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#include "llvm/ADT/StringExtras.h"
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#include "llvm/ADT/StringSwitch.h"
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#include "llvm/Config/llvm-config.h"
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#include "llvm/MC/MCAsmBackend.h"
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#include "llvm/MC/MCAsmInfo.h"
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#include "llvm/MC/MCAsmLayout.h"
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#include "llvm/MC/MCAssembler.h"
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#include "llvm/MC/MCContext.h"
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#include "llvm/MC/MCObjectWriter.h"
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#include "llvm/MC/MCSymbol.h"
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#include "llvm/MC/MCValue.h"
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#include "llvm/Support/Casting.h"
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#include "llvm/Support/Compiler.h"
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#include "llvm/Support/Debug.h"
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#include "llvm/Support/ErrorHandling.h"
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#include "llvm/Support/raw_ostream.h"
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#include <cassert>
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#include <cstdint>
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using namespace llvm;
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#define DEBUG_TYPE "mcexpr"
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namespace {
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namespace stats {
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STATISTIC(MCExprEvaluate, "Number of MCExpr evaluations");
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} // end namespace stats
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} // end anonymous namespace
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void MCExpr::print(raw_ostream &OS, const MCAsmInfo *MAI, bool InParens) const {
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switch (getKind()) {
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case MCExpr::Target:
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return cast<MCTargetExpr>(this)->printImpl(OS, MAI);
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case MCExpr::Constant: {
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auto Value = cast<MCConstantExpr>(*this).getValue();
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auto PrintInHex = cast<MCConstantExpr>(*this).useHexFormat();
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auto SizeInBytes = cast<MCConstantExpr>(*this).getSizeInBytes();
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if (PrintInHex)
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switch (SizeInBytes) {
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default:
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OS << "0x" << Twine::utohexstr(Value);
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break;
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case 1:
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OS << format("0x%02" PRIx64, Value);
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break;
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case 2:
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OS << format("0x%04" PRIx64, Value);
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break;
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case 4:
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OS << format("0x%08" PRIx64, Value);
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break;
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case 8:
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OS << format("0x%016" PRIx64, Value);
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break;
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}
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else
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OS << Value;
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return;
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}
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case MCExpr::SymbolRef: {
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const MCSymbolRefExpr &SRE = cast<MCSymbolRefExpr>(*this);
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const MCSymbol &Sym = SRE.getSymbol();
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// Parenthesize names that start with $ so that they don't look like
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// absolute names.
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bool UseParens =
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!InParens && !Sym.getName().empty() && Sym.getName()[0] == '$';
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if (UseParens) {
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OS << '(';
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Sym.print(OS, MAI);
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OS << ')';
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} else
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Sym.print(OS, MAI);
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if (SRE.getKind() != MCSymbolRefExpr::VK_None)
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SRE.printVariantKind(OS);
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return;
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}
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case MCExpr::Unary: {
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const MCUnaryExpr &UE = cast<MCUnaryExpr>(*this);
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switch (UE.getOpcode()) {
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case MCUnaryExpr::LNot: OS << '!'; break;
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case MCUnaryExpr::Minus: OS << '-'; break;
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case MCUnaryExpr::Not: OS << '~'; break;
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case MCUnaryExpr::Plus: OS << '+'; break;
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}
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bool Binary = UE.getSubExpr()->getKind() == MCExpr::Binary;
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if (Binary) OS << "(";
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UE.getSubExpr()->print(OS, MAI);
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if (Binary) OS << ")";
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return;
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}
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case MCExpr::Binary: {
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const MCBinaryExpr &BE = cast<MCBinaryExpr>(*this);
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// Only print parens around the LHS if it is non-trivial.
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if (isa<MCConstantExpr>(BE.getLHS()) || isa<MCSymbolRefExpr>(BE.getLHS())) {
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BE.getLHS()->print(OS, MAI);
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} else {
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OS << '(';
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BE.getLHS()->print(OS, MAI);
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OS << ')';
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}
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switch (BE.getOpcode()) {
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case MCBinaryExpr::Add:
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// Print "X-42" instead of "X+-42".
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if (const MCConstantExpr *RHSC = dyn_cast<MCConstantExpr>(BE.getRHS())) {
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if (RHSC->getValue() < 0) {
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OS << RHSC->getValue();
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return;
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}
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}
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OS << '+';
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break;
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case MCBinaryExpr::AShr: OS << ">>"; break;
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case MCBinaryExpr::And: OS << '&'; break;
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case MCBinaryExpr::Div: OS << '/'; break;
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case MCBinaryExpr::EQ: OS << "=="; break;
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case MCBinaryExpr::GT: OS << '>'; break;
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case MCBinaryExpr::GTE: OS << ">="; break;
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case MCBinaryExpr::LAnd: OS << "&&"; break;
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case MCBinaryExpr::LOr: OS << "||"; break;
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case MCBinaryExpr::LShr: OS << ">>"; break;
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case MCBinaryExpr::LT: OS << '<'; break;
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case MCBinaryExpr::LTE: OS << "<="; break;
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case MCBinaryExpr::Mod: OS << '%'; break;
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case MCBinaryExpr::Mul: OS << '*'; break;
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case MCBinaryExpr::NE: OS << "!="; break;
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case MCBinaryExpr::Or: OS << '|'; break;
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case MCBinaryExpr::Shl: OS << "<<"; break;
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case MCBinaryExpr::Sub: OS << '-'; break;
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case MCBinaryExpr::Xor: OS << '^'; break;
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}
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// Only print parens around the LHS if it is non-trivial.
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if (isa<MCConstantExpr>(BE.getRHS()) || isa<MCSymbolRefExpr>(BE.getRHS())) {
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BE.getRHS()->print(OS, MAI);
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} else {
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OS << '(';
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BE.getRHS()->print(OS, MAI);
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OS << ')';
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}
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return;
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}
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}
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llvm_unreachable("Invalid expression kind!");
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}
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#if !defined(NDEBUG) || defined(LLVM_ENABLE_DUMP)
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LLVM_DUMP_METHOD void MCExpr::dump() const {
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dbgs() << *this;
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dbgs() << '\n';
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}
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#endif
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/* *** */
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const MCBinaryExpr *MCBinaryExpr::create(Opcode Opc, const MCExpr *LHS,
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const MCExpr *RHS, MCContext &Ctx,
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SMLoc Loc) {
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return new (Ctx) MCBinaryExpr(Opc, LHS, RHS, Loc);
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}
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const MCUnaryExpr *MCUnaryExpr::create(Opcode Opc, const MCExpr *Expr,
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MCContext &Ctx, SMLoc Loc) {
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return new (Ctx) MCUnaryExpr(Opc, Expr, Loc);
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}
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const MCConstantExpr *MCConstantExpr::create(int64_t Value, MCContext &Ctx,
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bool PrintInHex,
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unsigned SizeInBytes) {
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return new (Ctx) MCConstantExpr(Value, PrintInHex, SizeInBytes);
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}
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/* *** */
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MCSymbolRefExpr::MCSymbolRefExpr(const MCSymbol *Symbol, VariantKind Kind,
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const MCAsmInfo *MAI, SMLoc Loc)
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: MCExpr(MCExpr::SymbolRef, Loc,
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encodeSubclassData(Kind, MAI->useParensForSymbolVariant(),
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MAI->hasSubsectionsViaSymbols())),
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Symbol(Symbol) {
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assert(Symbol);
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}
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const MCSymbolRefExpr *MCSymbolRefExpr::create(const MCSymbol *Sym,
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VariantKind Kind,
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MCContext &Ctx, SMLoc Loc) {
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return new (Ctx) MCSymbolRefExpr(Sym, Kind, Ctx.getAsmInfo(), Loc);
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}
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const MCSymbolRefExpr *MCSymbolRefExpr::create(StringRef Name, VariantKind Kind,
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MCContext &Ctx) {
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return create(Ctx.getOrCreateSymbol(Name), Kind, Ctx);
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}
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StringRef MCSymbolRefExpr::getVariantKindName(VariantKind Kind) {
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switch (Kind) {
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case VK_Invalid: return "<<invalid>>";
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case VK_None: return "<<none>>";
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case VK_DTPOFF: return "DTPOFF";
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case VK_DTPREL: return "DTPREL";
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case VK_GOT: return "GOT";
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case VK_GOTOFF: return "GOTOFF";
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case VK_GOTREL: return "GOTREL";
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case VK_PCREL: return "PCREL";
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case VK_GOTPCREL: return "GOTPCREL";
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case VK_GOTTPOFF: return "GOTTPOFF";
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case VK_INDNTPOFF: return "INDNTPOFF";
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case VK_NTPOFF: return "NTPOFF";
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case VK_GOTNTPOFF: return "GOTNTPOFF";
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case VK_PLT: return "PLT";
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case VK_TLSGD: return "TLSGD";
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case VK_TLSLD: return "TLSLD";
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case VK_TLSLDM: return "TLSLDM";
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case VK_TPOFF: return "TPOFF";
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case VK_TPREL: return "TPREL";
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case VK_TLSCALL: return "tlscall";
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case VK_TLSDESC: return "tlsdesc";
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case VK_TLVP: return "TLVP";
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case VK_TLVPPAGE: return "TLVPPAGE";
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case VK_TLVPPAGEOFF: return "TLVPPAGEOFF";
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case VK_PAGE: return "PAGE";
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case VK_PAGEOFF: return "PAGEOFF";
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case VK_GOTPAGE: return "GOTPAGE";
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case VK_GOTPAGEOFF: return "GOTPAGEOFF";
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case VK_SECREL: return "SECREL32";
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case VK_SIZE: return "SIZE";
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case VK_WEAKREF: return "WEAKREF";
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case VK_X86_ABS8: return "ABS8";
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case VK_ARM_NONE: return "none";
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case VK_ARM_GOT_PREL: return "GOT_PREL";
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case VK_ARM_TARGET1: return "target1";
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case VK_ARM_TARGET2: return "target2";
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case VK_ARM_PREL31: return "prel31";
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case VK_ARM_SBREL: return "sbrel";
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case VK_ARM_TLSLDO: return "tlsldo";
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case VK_ARM_TLSDESCSEQ: return "tlsdescseq";
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case VK_AVR_NONE: return "none";
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case VK_AVR_LO8: return "lo8";
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case VK_AVR_HI8: return "hi8";
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case VK_AVR_HLO8: return "hlo8";
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case VK_AVR_DIFF8: return "diff8";
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case VK_AVR_DIFF16: return "diff16";
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case VK_AVR_DIFF32: return "diff32";
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case VK_PPC_LO: return "l";
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case VK_PPC_HI: return "h";
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case VK_PPC_HA: return "ha";
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case VK_PPC_HIGH: return "high";
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case VK_PPC_HIGHA: return "higha";
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case VK_PPC_HIGHER: return "higher";
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case VK_PPC_HIGHERA: return "highera";
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case VK_PPC_HIGHEST: return "highest";
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case VK_PPC_HIGHESTA: return "highesta";
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case VK_PPC_GOT_LO: return "got@l";
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case VK_PPC_GOT_HI: return "got@h";
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case VK_PPC_GOT_HA: return "got@ha";
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case VK_PPC_TOCBASE: return "tocbase";
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case VK_PPC_TOC: return "toc";
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case VK_PPC_TOC_LO: return "toc@l";
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case VK_PPC_TOC_HI: return "toc@h";
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case VK_PPC_TOC_HA: return "toc@ha";
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case VK_PPC_U: return "u";
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case VK_PPC_L: return "l";
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case VK_PPC_DTPMOD: return "dtpmod";
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case VK_PPC_TPREL_LO: return "tprel@l";
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case VK_PPC_TPREL_HI: return "tprel@h";
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case VK_PPC_TPREL_HA: return "tprel@ha";
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case VK_PPC_TPREL_HIGH: return "tprel@high";
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case VK_PPC_TPREL_HIGHA: return "tprel@higha";
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case VK_PPC_TPREL_HIGHER: return "tprel@higher";
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case VK_PPC_TPREL_HIGHERA: return "tprel@highera";
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case VK_PPC_TPREL_HIGHEST: return "tprel@highest";
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case VK_PPC_TPREL_HIGHESTA: return "tprel@highesta";
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case VK_PPC_DTPREL_LO: return "dtprel@l";
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case VK_PPC_DTPREL_HI: return "dtprel@h";
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case VK_PPC_DTPREL_HA: return "dtprel@ha";
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case VK_PPC_DTPREL_HIGH: return "dtprel@high";
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case VK_PPC_DTPREL_HIGHA: return "dtprel@higha";
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case VK_PPC_DTPREL_HIGHER: return "dtprel@higher";
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case VK_PPC_DTPREL_HIGHERA: return "dtprel@highera";
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case VK_PPC_DTPREL_HIGHEST: return "dtprel@highest";
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case VK_PPC_DTPREL_HIGHESTA: return "dtprel@highesta";
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case VK_PPC_GOT_TPREL: return "got@tprel";
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case VK_PPC_GOT_TPREL_LO: return "got@tprel@l";
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case VK_PPC_GOT_TPREL_HI: return "got@tprel@h";
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case VK_PPC_GOT_TPREL_HA: return "got@tprel@ha";
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case VK_PPC_GOT_DTPREL: return "got@dtprel";
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case VK_PPC_GOT_DTPREL_LO: return "got@dtprel@l";
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case VK_PPC_GOT_DTPREL_HI: return "got@dtprel@h";
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case VK_PPC_GOT_DTPREL_HA: return "got@dtprel@ha";
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case VK_PPC_TLS: return "tls";
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case VK_PPC_GOT_TLSGD: return "got@tlsgd";
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case VK_PPC_GOT_TLSGD_LO: return "got@tlsgd@l";
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case VK_PPC_GOT_TLSGD_HI: return "got@tlsgd@h";
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case VK_PPC_GOT_TLSGD_HA: return "got@tlsgd@ha";
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case VK_PPC_TLSGD: return "tlsgd";
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case VK_PPC_GOT_TLSLD: return "got@tlsld";
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case VK_PPC_GOT_TLSLD_LO: return "got@tlsld@l";
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case VK_PPC_GOT_TLSLD_HI: return "got@tlsld@h";
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case VK_PPC_GOT_TLSLD_HA: return "got@tlsld@ha";
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case VK_PPC_GOT_PCREL:
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return "got@pcrel";
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case VK_PPC_TLSLD: return "tlsld";
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case VK_PPC_LOCAL: return "local";
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case VK_PPC_NOTOC: return "notoc";
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case VK_COFF_IMGREL32: return "IMGREL";
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case VK_Hexagon_LO16: return "LO16";
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case VK_Hexagon_HI16: return "HI16";
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case VK_Hexagon_GPREL: return "GPREL";
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case VK_Hexagon_GD_GOT: return "GDGOT";
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case VK_Hexagon_LD_GOT: return "LDGOT";
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case VK_Hexagon_GD_PLT: return "GDPLT";
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case VK_Hexagon_LD_PLT: return "LDPLT";
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case VK_Hexagon_IE: return "IE";
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case VK_Hexagon_IE_GOT: return "IEGOT";
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case VK_WASM_TYPEINDEX: return "TYPEINDEX";
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case VK_WASM_MBREL: return "MBREL";
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case VK_WASM_TBREL: return "TBREL";
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case VK_AMDGPU_GOTPCREL32_LO: return "gotpcrel32@lo";
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case VK_AMDGPU_GOTPCREL32_HI: return "gotpcrel32@hi";
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case VK_AMDGPU_REL32_LO: return "rel32@lo";
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case VK_AMDGPU_REL32_HI: return "rel32@hi";
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case VK_AMDGPU_REL64: return "rel64";
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case VK_AMDGPU_ABS32_LO: return "abs32@lo";
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case VK_AMDGPU_ABS32_HI: return "abs32@hi";
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case VK_VE_HI32: return "hi";
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case VK_VE_LO32: return "lo";
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case VK_VE_PC_HI32: return "pc_hi";
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case VK_VE_PC_LO32: return "pc_lo";
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case VK_VE_GOT_HI32: return "got_hi";
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case VK_VE_GOT_LO32: return "got_lo";
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case VK_VE_GOTOFF_HI32: return "gotoff_hi";
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case VK_VE_GOTOFF_LO32: return "gotoff_lo";
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case VK_VE_PLT_HI32: return "plt_hi";
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case VK_VE_PLT_LO32: return "plt_lo";
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case VK_VE_TLS_GD_HI32: return "tls_gd_hi";
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case VK_VE_TLS_GD_LO32: return "tls_gd_lo";
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case VK_VE_TPOFF_HI32: return "tpoff_hi";
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case VK_VE_TPOFF_LO32: return "tpoff_lo";
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}
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llvm_unreachable("Invalid variant kind");
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}
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MCSymbolRefExpr::VariantKind
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MCSymbolRefExpr::getVariantKindForName(StringRef Name) {
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return StringSwitch<VariantKind>(Name.lower())
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.Case("dtprel", VK_DTPREL)
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.Case("dtpoff", VK_DTPOFF)
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.Case("got", VK_GOT)
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.Case("gotoff", VK_GOTOFF)
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.Case("gotrel", VK_GOTREL)
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.Case("pcrel", VK_PCREL)
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.Case("gotpcrel", VK_GOTPCREL)
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.Case("gottpoff", VK_GOTTPOFF)
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.Case("indntpoff", VK_INDNTPOFF)
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.Case("ntpoff", VK_NTPOFF)
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.Case("gotntpoff", VK_GOTNTPOFF)
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.Case("plt", VK_PLT)
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.Case("tlscall", VK_TLSCALL)
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.Case("tlsdesc", VK_TLSDESC)
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.Case("tlsgd", VK_TLSGD)
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.Case("tlsld", VK_TLSLD)
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.Case("tlsldm", VK_TLSLDM)
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.Case("tpoff", VK_TPOFF)
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.Case("tprel", VK_TPREL)
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.Case("tlvp", VK_TLVP)
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.Case("tlvppage", VK_TLVPPAGE)
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.Case("tlvppageoff", VK_TLVPPAGEOFF)
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.Case("page", VK_PAGE)
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.Case("pageoff", VK_PAGEOFF)
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.Case("gotpage", VK_GOTPAGE)
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.Case("gotpageoff", VK_GOTPAGEOFF)
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.Case("imgrel", VK_COFF_IMGREL32)
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.Case("secrel32", VK_SECREL)
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.Case("size", VK_SIZE)
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.Case("abs8", VK_X86_ABS8)
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.Case("l", VK_PPC_LO)
|
|
.Case("h", VK_PPC_HI)
|
|
.Case("ha", VK_PPC_HA)
|
|
.Case("high", VK_PPC_HIGH)
|
|
.Case("higha", VK_PPC_HIGHA)
|
|
.Case("higher", VK_PPC_HIGHER)
|
|
.Case("highera", VK_PPC_HIGHERA)
|
|
.Case("highest", VK_PPC_HIGHEST)
|
|
.Case("highesta", VK_PPC_HIGHESTA)
|
|
.Case("got@l", VK_PPC_GOT_LO)
|
|
.Case("got@h", VK_PPC_GOT_HI)
|
|
.Case("got@ha", VK_PPC_GOT_HA)
|
|
.Case("local", VK_PPC_LOCAL)
|
|
.Case("tocbase", VK_PPC_TOCBASE)
|
|
.Case("toc", VK_PPC_TOC)
|
|
.Case("toc@l", VK_PPC_TOC_LO)
|
|
.Case("toc@h", VK_PPC_TOC_HI)
|
|
.Case("toc@ha", VK_PPC_TOC_HA)
|
|
.Case("u", VK_PPC_U)
|
|
.Case("l", VK_PPC_L)
|
|
.Case("tls", VK_PPC_TLS)
|
|
.Case("dtpmod", VK_PPC_DTPMOD)
|
|
.Case("tprel@l", VK_PPC_TPREL_LO)
|
|
.Case("tprel@h", VK_PPC_TPREL_HI)
|
|
.Case("tprel@ha", VK_PPC_TPREL_HA)
|
|
.Case("tprel@high", VK_PPC_TPREL_HIGH)
|
|
.Case("tprel@higha", VK_PPC_TPREL_HIGHA)
|
|
.Case("tprel@higher", VK_PPC_TPREL_HIGHER)
|
|
.Case("tprel@highera", VK_PPC_TPREL_HIGHERA)
|
|
.Case("tprel@highest", VK_PPC_TPREL_HIGHEST)
|
|
.Case("tprel@highesta", VK_PPC_TPREL_HIGHESTA)
|
|
.Case("dtprel@l", VK_PPC_DTPREL_LO)
|
|
.Case("dtprel@h", VK_PPC_DTPREL_HI)
|
|
.Case("dtprel@ha", VK_PPC_DTPREL_HA)
|
|
.Case("dtprel@high", VK_PPC_DTPREL_HIGH)
|
|
.Case("dtprel@higha", VK_PPC_DTPREL_HIGHA)
|
|
.Case("dtprel@higher", VK_PPC_DTPREL_HIGHER)
|
|
.Case("dtprel@highera", VK_PPC_DTPREL_HIGHERA)
|
|
.Case("dtprel@highest", VK_PPC_DTPREL_HIGHEST)
|
|
.Case("dtprel@highesta", VK_PPC_DTPREL_HIGHESTA)
|
|
.Case("got@tprel", VK_PPC_GOT_TPREL)
|
|
.Case("got@tprel@l", VK_PPC_GOT_TPREL_LO)
|
|
.Case("got@tprel@h", VK_PPC_GOT_TPREL_HI)
|
|
.Case("got@tprel@ha", VK_PPC_GOT_TPREL_HA)
|
|
.Case("got@dtprel", VK_PPC_GOT_DTPREL)
|
|
.Case("got@dtprel@l", VK_PPC_GOT_DTPREL_LO)
|
|
.Case("got@dtprel@h", VK_PPC_GOT_DTPREL_HI)
|
|
.Case("got@dtprel@ha", VK_PPC_GOT_DTPREL_HA)
|
|
.Case("got@tlsgd", VK_PPC_GOT_TLSGD)
|
|
.Case("got@tlsgd@l", VK_PPC_GOT_TLSGD_LO)
|
|
.Case("got@tlsgd@h", VK_PPC_GOT_TLSGD_HI)
|
|
.Case("got@tlsgd@ha", VK_PPC_GOT_TLSGD_HA)
|
|
.Case("got@tlsld", VK_PPC_GOT_TLSLD)
|
|
.Case("got@tlsld@l", VK_PPC_GOT_TLSLD_LO)
|
|
.Case("got@tlsld@h", VK_PPC_GOT_TLSLD_HI)
|
|
.Case("got@tlsld@ha", VK_PPC_GOT_TLSLD_HA)
|
|
.Case("got@pcrel", VK_PPC_GOT_PCREL)
|
|
.Case("notoc", VK_PPC_NOTOC)
|
|
.Case("gdgot", VK_Hexagon_GD_GOT)
|
|
.Case("gdplt", VK_Hexagon_GD_PLT)
|
|
.Case("iegot", VK_Hexagon_IE_GOT)
|
|
.Case("ie", VK_Hexagon_IE)
|
|
.Case("ldgot", VK_Hexagon_LD_GOT)
|
|
.Case("ldplt", VK_Hexagon_LD_PLT)
|
|
.Case("none", VK_ARM_NONE)
|
|
.Case("got_prel", VK_ARM_GOT_PREL)
|
|
.Case("target1", VK_ARM_TARGET1)
|
|
.Case("target2", VK_ARM_TARGET2)
|
|
.Case("prel31", VK_ARM_PREL31)
|
|
.Case("sbrel", VK_ARM_SBREL)
|
|
.Case("tlsldo", VK_ARM_TLSLDO)
|
|
.Case("lo8", VK_AVR_LO8)
|
|
.Case("hi8", VK_AVR_HI8)
|
|
.Case("hlo8", VK_AVR_HLO8)
|
|
.Case("typeindex", VK_WASM_TYPEINDEX)
|
|
.Case("tbrel", VK_WASM_TBREL)
|
|
.Case("mbrel", VK_WASM_MBREL)
|
|
.Case("gotpcrel32@lo", VK_AMDGPU_GOTPCREL32_LO)
|
|
.Case("gotpcrel32@hi", VK_AMDGPU_GOTPCREL32_HI)
|
|
.Case("rel32@lo", VK_AMDGPU_REL32_LO)
|
|
.Case("rel32@hi", VK_AMDGPU_REL32_HI)
|
|
.Case("rel64", VK_AMDGPU_REL64)
|
|
.Case("abs32@lo", VK_AMDGPU_ABS32_LO)
|
|
.Case("abs32@hi", VK_AMDGPU_ABS32_HI)
|
|
.Case("hi", VK_VE_HI32)
|
|
.Case("lo", VK_VE_LO32)
|
|
.Case("pc_hi", VK_VE_PC_HI32)
|
|
.Case("pc_lo", VK_VE_PC_LO32)
|
|
.Case("got_hi", VK_VE_GOT_HI32)
|
|
.Case("got_lo", VK_VE_GOT_LO32)
|
|
.Case("gotoff_hi", VK_VE_GOTOFF_HI32)
|
|
.Case("gotoff_lo", VK_VE_GOTOFF_LO32)
|
|
.Case("plt_hi", VK_VE_PLT_HI32)
|
|
.Case("plt_lo", VK_VE_PLT_LO32)
|
|
.Case("tls_gd_hi", VK_VE_TLS_GD_HI32)
|
|
.Case("tls_gd_lo", VK_VE_TLS_GD_LO32)
|
|
.Case("tpoff_hi", VK_VE_TPOFF_HI32)
|
|
.Case("tpoff_lo", VK_VE_TPOFF_LO32)
|
|
.Default(VK_Invalid);
|
|
}
|
|
|
|
void MCSymbolRefExpr::printVariantKind(raw_ostream &OS) const {
|
|
if (useParensForSymbolVariant())
|
|
OS << '(' << MCSymbolRefExpr::getVariantKindName(getKind()) << ')';
|
|
else
|
|
OS << '@' << MCSymbolRefExpr::getVariantKindName(getKind());
|
|
}
|
|
|
|
/* *** */
|
|
|
|
void MCTargetExpr::anchor() {}
|
|
|
|
/* *** */
|
|
|
|
bool MCExpr::evaluateAsAbsolute(int64_t &Res) const {
|
|
return evaluateAsAbsolute(Res, nullptr, nullptr, nullptr, false);
|
|
}
|
|
|
|
bool MCExpr::evaluateAsAbsolute(int64_t &Res,
|
|
const MCAsmLayout &Layout) const {
|
|
return evaluateAsAbsolute(Res, &Layout.getAssembler(), &Layout, nullptr, false);
|
|
}
|
|
|
|
bool MCExpr::evaluateAsAbsolute(int64_t &Res,
|
|
const MCAsmLayout &Layout,
|
|
const SectionAddrMap &Addrs) const {
|
|
// Setting InSet causes us to absolutize differences across sections and that
|
|
// is what the MachO writer uses Addrs for.
|
|
return evaluateAsAbsolute(Res, &Layout.getAssembler(), &Layout, &Addrs, true);
|
|
}
|
|
|
|
bool MCExpr::evaluateAsAbsolute(int64_t &Res, const MCAssembler &Asm) const {
|
|
return evaluateAsAbsolute(Res, &Asm, nullptr, nullptr, false);
|
|
}
|
|
|
|
bool MCExpr::evaluateAsAbsolute(int64_t &Res, const MCAssembler *Asm) const {
|
|
return evaluateAsAbsolute(Res, Asm, nullptr, nullptr, false);
|
|
}
|
|
|
|
bool MCExpr::evaluateKnownAbsolute(int64_t &Res,
|
|
const MCAsmLayout &Layout) const {
|
|
return evaluateAsAbsolute(Res, &Layout.getAssembler(), &Layout, nullptr,
|
|
true);
|
|
}
|
|
|
|
bool MCExpr::evaluateAsAbsolute(int64_t &Res, const MCAssembler *Asm,
|
|
const MCAsmLayout *Layout,
|
|
const SectionAddrMap *Addrs, bool InSet) const {
|
|
MCValue Value;
|
|
|
|
// Fast path constants.
|
|
if (const MCConstantExpr *CE = dyn_cast<MCConstantExpr>(this)) {
|
|
Res = CE->getValue();
|
|
return true;
|
|
}
|
|
|
|
bool IsRelocatable =
|
|
evaluateAsRelocatableImpl(Value, Asm, Layout, nullptr, Addrs, InSet);
|
|
|
|
// Record the current value.
|
|
Res = Value.getConstant();
|
|
|
|
return IsRelocatable && Value.isAbsolute();
|
|
}
|
|
|
|
/// Helper method for \see EvaluateSymbolAdd().
|
|
static void AttemptToFoldSymbolOffsetDifference(
|
|
const MCAssembler *Asm, const MCAsmLayout *Layout,
|
|
const SectionAddrMap *Addrs, bool InSet, const MCSymbolRefExpr *&A,
|
|
const MCSymbolRefExpr *&B, int64_t &Addend) {
|
|
if (!A || !B)
|
|
return;
|
|
|
|
const MCSymbol &SA = A->getSymbol();
|
|
const MCSymbol &SB = B->getSymbol();
|
|
|
|
if (SA.isUndefined() || SB.isUndefined())
|
|
return;
|
|
|
|
if (!Asm->getWriter().isSymbolRefDifferenceFullyResolved(*Asm, A, B, InSet))
|
|
return;
|
|
|
|
MCFragment *FA = SA.getFragment();
|
|
MCFragment *FB = SB.getFragment();
|
|
if (FA == FB && !SA.isVariable() && !SA.isUnset() && !SB.isVariable() &&
|
|
!SB.isUnset()) {
|
|
Addend += (SA.getOffset() - SB.getOffset());
|
|
|
|
// Pointers to Thumb symbols need to have their low-bit set to allow
|
|
// for interworking.
|
|
if (Asm->isThumbFunc(&SA))
|
|
Addend |= 1;
|
|
|
|
// If symbol is labeled as micromips, we set low-bit to ensure
|
|
// correct offset in .gcc_except_table
|
|
if (Asm->getBackend().isMicroMips(&SA))
|
|
Addend |= 1;
|
|
|
|
// Clear the symbol expr pointers to indicate we have folded these
|
|
// operands.
|
|
A = B = nullptr;
|
|
return;
|
|
}
|
|
|
|
if (!Layout)
|
|
return;
|
|
|
|
const MCSection &SecA = *FA->getParent();
|
|
const MCSection &SecB = *FB->getParent();
|
|
|
|
if ((&SecA != &SecB) && !Addrs)
|
|
return;
|
|
|
|
// One of the symbol involved is part of a fragment being laid out. Quit now
|
|
// to avoid a self loop.
|
|
if (!Layout->canGetFragmentOffset(FA) || !Layout->canGetFragmentOffset(FB))
|
|
return;
|
|
|
|
// Eagerly evaluate.
|
|
Addend += Layout->getSymbolOffset(A->getSymbol()) -
|
|
Layout->getSymbolOffset(B->getSymbol());
|
|
if (Addrs && (&SecA != &SecB))
|
|
Addend += (Addrs->lookup(&SecA) - Addrs->lookup(&SecB));
|
|
|
|
// Pointers to Thumb symbols need to have their low-bit set to allow
|
|
// for interworking.
|
|
if (Asm->isThumbFunc(&SA))
|
|
Addend |= 1;
|
|
|
|
// If symbol is labeled as micromips, we set low-bit to ensure
|
|
// correct offset in .gcc_except_table
|
|
if (Asm->getBackend().isMicroMips(&SA))
|
|
Addend |= 1;
|
|
|
|
// Clear the symbol expr pointers to indicate we have folded these
|
|
// operands.
|
|
A = B = nullptr;
|
|
}
|
|
|
|
static bool canFold(const MCAssembler *Asm, const MCSymbolRefExpr *A,
|
|
const MCSymbolRefExpr *B, bool InSet) {
|
|
if (InSet)
|
|
return true;
|
|
|
|
if (!Asm->getBackend().requiresDiffExpressionRelocations())
|
|
return true;
|
|
|
|
const MCSymbol &CheckSym = A ? A->getSymbol() : B->getSymbol();
|
|
if (!CheckSym.isInSection())
|
|
return true;
|
|
|
|
if (!CheckSym.getSection().hasInstructions())
|
|
return true;
|
|
|
|
return false;
|
|
}
|
|
|
|
/// Evaluate the result of an add between (conceptually) two MCValues.
|
|
///
|
|
/// This routine conceptually attempts to construct an MCValue:
|
|
/// Result = (Result_A - Result_B + Result_Cst)
|
|
/// from two MCValue's LHS and RHS where
|
|
/// Result = LHS + RHS
|
|
/// and
|
|
/// Result = (LHS_A - LHS_B + LHS_Cst) + (RHS_A - RHS_B + RHS_Cst).
|
|
///
|
|
/// This routine attempts to aggressively fold the operands such that the result
|
|
/// is representable in an MCValue, but may not always succeed.
|
|
///
|
|
/// \returns True on success, false if the result is not representable in an
|
|
/// MCValue.
|
|
|
|
/// NOTE: It is really important to have both the Asm and Layout arguments.
|
|
/// They might look redundant, but this function can be used before layout
|
|
/// is done (see the object streamer for example) and having the Asm argument
|
|
/// lets us avoid relaxations early.
|
|
static bool
|
|
EvaluateSymbolicAdd(const MCAssembler *Asm, const MCAsmLayout *Layout,
|
|
const SectionAddrMap *Addrs, bool InSet, const MCValue &LHS,
|
|
const MCSymbolRefExpr *RHS_A, const MCSymbolRefExpr *RHS_B,
|
|
int64_t RHS_Cst, MCValue &Res) {
|
|
// FIXME: This routine (and other evaluation parts) are *incredibly* sloppy
|
|
// about dealing with modifiers. This will ultimately bite us, one day.
|
|
const MCSymbolRefExpr *LHS_A = LHS.getSymA();
|
|
const MCSymbolRefExpr *LHS_B = LHS.getSymB();
|
|
int64_t LHS_Cst = LHS.getConstant();
|
|
|
|
// Fold the result constant immediately.
|
|
int64_t Result_Cst = LHS_Cst + RHS_Cst;
|
|
|
|
assert((!Layout || Asm) &&
|
|
"Must have an assembler object if layout is given!");
|
|
|
|
// If we have a layout, we can fold resolved differences. Do not do this if
|
|
// the backend requires this to be emitted as individual relocations, unless
|
|
// the InSet flag is set to get the current difference anyway (used for
|
|
// example to calculate symbol sizes).
|
|
if (Asm && canFold(Asm, LHS_A, LHS_B, InSet)) {
|
|
// First, fold out any differences which are fully resolved. By
|
|
// reassociating terms in
|
|
// Result = (LHS_A - LHS_B + LHS_Cst) + (RHS_A - RHS_B + RHS_Cst).
|
|
// we have the four possible differences:
|
|
// (LHS_A - LHS_B),
|
|
// (LHS_A - RHS_B),
|
|
// (RHS_A - LHS_B),
|
|
// (RHS_A - RHS_B).
|
|
// Since we are attempting to be as aggressive as possible about folding, we
|
|
// attempt to evaluate each possible alternative.
|
|
AttemptToFoldSymbolOffsetDifference(Asm, Layout, Addrs, InSet, LHS_A, LHS_B,
|
|
Result_Cst);
|
|
AttemptToFoldSymbolOffsetDifference(Asm, Layout, Addrs, InSet, LHS_A, RHS_B,
|
|
Result_Cst);
|
|
AttemptToFoldSymbolOffsetDifference(Asm, Layout, Addrs, InSet, RHS_A, LHS_B,
|
|
Result_Cst);
|
|
AttemptToFoldSymbolOffsetDifference(Asm, Layout, Addrs, InSet, RHS_A, RHS_B,
|
|
Result_Cst);
|
|
}
|
|
|
|
// We can't represent the addition or subtraction of two symbols.
|
|
if ((LHS_A && RHS_A) || (LHS_B && RHS_B))
|
|
return false;
|
|
|
|
// At this point, we have at most one additive symbol and one subtractive
|
|
// symbol -- find them.
|
|
const MCSymbolRefExpr *A = LHS_A ? LHS_A : RHS_A;
|
|
const MCSymbolRefExpr *B = LHS_B ? LHS_B : RHS_B;
|
|
|
|
Res = MCValue::get(A, B, Result_Cst);
|
|
return true;
|
|
}
|
|
|
|
bool MCExpr::evaluateAsRelocatable(MCValue &Res,
|
|
const MCAsmLayout *Layout,
|
|
const MCFixup *Fixup) const {
|
|
MCAssembler *Assembler = Layout ? &Layout->getAssembler() : nullptr;
|
|
return evaluateAsRelocatableImpl(Res, Assembler, Layout, Fixup, nullptr,
|
|
false);
|
|
}
|
|
|
|
bool MCExpr::evaluateAsValue(MCValue &Res, const MCAsmLayout &Layout) const {
|
|
MCAssembler *Assembler = &Layout.getAssembler();
|
|
return evaluateAsRelocatableImpl(Res, Assembler, &Layout, nullptr, nullptr,
|
|
true);
|
|
}
|
|
|
|
static bool canExpand(const MCSymbol &Sym, bool InSet) {
|
|
const MCExpr *Expr = Sym.getVariableValue();
|
|
const auto *Inner = dyn_cast<MCSymbolRefExpr>(Expr);
|
|
if (Inner) {
|
|
if (Inner->getKind() == MCSymbolRefExpr::VK_WEAKREF)
|
|
return false;
|
|
}
|
|
|
|
if (InSet)
|
|
return true;
|
|
return !Sym.isInSection();
|
|
}
|
|
|
|
bool MCExpr::evaluateAsRelocatableImpl(MCValue &Res, const MCAssembler *Asm,
|
|
const MCAsmLayout *Layout,
|
|
const MCFixup *Fixup,
|
|
const SectionAddrMap *Addrs,
|
|
bool InSet) const {
|
|
++stats::MCExprEvaluate;
|
|
|
|
switch (getKind()) {
|
|
case Target:
|
|
return cast<MCTargetExpr>(this)->evaluateAsRelocatableImpl(Res, Layout,
|
|
Fixup);
|
|
|
|
case Constant:
|
|
Res = MCValue::get(cast<MCConstantExpr>(this)->getValue());
|
|
return true;
|
|
|
|
case SymbolRef: {
|
|
const MCSymbolRefExpr *SRE = cast<MCSymbolRefExpr>(this);
|
|
const MCSymbol &Sym = SRE->getSymbol();
|
|
|
|
// Evaluate recursively if this is a variable.
|
|
if (Sym.isVariable() && SRE->getKind() == MCSymbolRefExpr::VK_None &&
|
|
canExpand(Sym, InSet)) {
|
|
bool IsMachO = SRE->hasSubsectionsViaSymbols();
|
|
if (Sym.getVariableValue()->evaluateAsRelocatableImpl(
|
|
Res, Asm, Layout, Fixup, Addrs, InSet || IsMachO)) {
|
|
if (!IsMachO)
|
|
return true;
|
|
|
|
const MCSymbolRefExpr *A = Res.getSymA();
|
|
const MCSymbolRefExpr *B = Res.getSymB();
|
|
// FIXME: This is small hack. Given
|
|
// a = b + 4
|
|
// .long a
|
|
// the OS X assembler will completely drop the 4. We should probably
|
|
// include it in the relocation or produce an error if that is not
|
|
// possible.
|
|
// Allow constant expressions.
|
|
if (!A && !B)
|
|
return true;
|
|
// Allows aliases with zero offset.
|
|
if (Res.getConstant() == 0 && (!A || !B))
|
|
return true;
|
|
}
|
|
}
|
|
|
|
Res = MCValue::get(SRE, nullptr, 0);
|
|
return true;
|
|
}
|
|
|
|
case Unary: {
|
|
const MCUnaryExpr *AUE = cast<MCUnaryExpr>(this);
|
|
MCValue Value;
|
|
|
|
if (!AUE->getSubExpr()->evaluateAsRelocatableImpl(Value, Asm, Layout, Fixup,
|
|
Addrs, InSet))
|
|
return false;
|
|
|
|
switch (AUE->getOpcode()) {
|
|
case MCUnaryExpr::LNot:
|
|
if (!Value.isAbsolute())
|
|
return false;
|
|
Res = MCValue::get(!Value.getConstant());
|
|
break;
|
|
case MCUnaryExpr::Minus:
|
|
/// -(a - b + const) ==> (b - a - const)
|
|
if (Value.getSymA() && !Value.getSymB())
|
|
return false;
|
|
|
|
// The cast avoids undefined behavior if the constant is INT64_MIN.
|
|
Res = MCValue::get(Value.getSymB(), Value.getSymA(),
|
|
-(uint64_t)Value.getConstant());
|
|
break;
|
|
case MCUnaryExpr::Not:
|
|
if (!Value.isAbsolute())
|
|
return false;
|
|
Res = MCValue::get(~Value.getConstant());
|
|
break;
|
|
case MCUnaryExpr::Plus:
|
|
Res = Value;
|
|
break;
|
|
}
|
|
|
|
return true;
|
|
}
|
|
|
|
case Binary: {
|
|
const MCBinaryExpr *ABE = cast<MCBinaryExpr>(this);
|
|
MCValue LHSValue, RHSValue;
|
|
|
|
if (!ABE->getLHS()->evaluateAsRelocatableImpl(LHSValue, Asm, Layout, Fixup,
|
|
Addrs, InSet) ||
|
|
!ABE->getRHS()->evaluateAsRelocatableImpl(RHSValue, Asm, Layout, Fixup,
|
|
Addrs, InSet)) {
|
|
// Check if both are Target Expressions, see if we can compare them.
|
|
if (const MCTargetExpr *L = dyn_cast<MCTargetExpr>(ABE->getLHS()))
|
|
if (const MCTargetExpr *R = cast<MCTargetExpr>(ABE->getRHS())) {
|
|
switch (ABE->getOpcode()) {
|
|
case MCBinaryExpr::EQ:
|
|
Res = MCValue::get((L->isEqualTo(R)) ? -1 : 0);
|
|
return true;
|
|
case MCBinaryExpr::NE:
|
|
Res = MCValue::get((R->isEqualTo(R)) ? 0 : -1);
|
|
return true;
|
|
default: break;
|
|
}
|
|
}
|
|
return false;
|
|
}
|
|
|
|
// We only support a few operations on non-constant expressions, handle
|
|
// those first.
|
|
if (!LHSValue.isAbsolute() || !RHSValue.isAbsolute()) {
|
|
switch (ABE->getOpcode()) {
|
|
default:
|
|
return false;
|
|
case MCBinaryExpr::Sub:
|
|
// Negate RHS and add.
|
|
// The cast avoids undefined behavior if the constant is INT64_MIN.
|
|
return EvaluateSymbolicAdd(Asm, Layout, Addrs, InSet, LHSValue,
|
|
RHSValue.getSymB(), RHSValue.getSymA(),
|
|
-(uint64_t)RHSValue.getConstant(), Res);
|
|
|
|
case MCBinaryExpr::Add:
|
|
return EvaluateSymbolicAdd(Asm, Layout, Addrs, InSet, LHSValue,
|
|
RHSValue.getSymA(), RHSValue.getSymB(),
|
|
RHSValue.getConstant(), Res);
|
|
}
|
|
}
|
|
|
|
// FIXME: We need target hooks for the evaluation. It may be limited in
|
|
// width, and gas defines the result of comparisons differently from
|
|
// Apple as.
|
|
int64_t LHS = LHSValue.getConstant(), RHS = RHSValue.getConstant();
|
|
int64_t Result = 0;
|
|
auto Op = ABE->getOpcode();
|
|
switch (Op) {
|
|
case MCBinaryExpr::AShr: Result = LHS >> RHS; break;
|
|
case MCBinaryExpr::Add: Result = LHS + RHS; break;
|
|
case MCBinaryExpr::And: Result = LHS & RHS; break;
|
|
case MCBinaryExpr::Div:
|
|
case MCBinaryExpr::Mod:
|
|
// Handle division by zero. gas just emits a warning and keeps going,
|
|
// we try to be stricter.
|
|
// FIXME: Currently the caller of this function has no way to understand
|
|
// we're bailing out because of 'division by zero'. Therefore, it will
|
|
// emit a 'expected relocatable expression' error. It would be nice to
|
|
// change this code to emit a better diagnostic.
|
|
if (RHS == 0)
|
|
return false;
|
|
if (ABE->getOpcode() == MCBinaryExpr::Div)
|
|
Result = LHS / RHS;
|
|
else
|
|
Result = LHS % RHS;
|
|
break;
|
|
case MCBinaryExpr::EQ: Result = LHS == RHS; break;
|
|
case MCBinaryExpr::GT: Result = LHS > RHS; break;
|
|
case MCBinaryExpr::GTE: Result = LHS >= RHS; break;
|
|
case MCBinaryExpr::LAnd: Result = LHS && RHS; break;
|
|
case MCBinaryExpr::LOr: Result = LHS || RHS; break;
|
|
case MCBinaryExpr::LShr: Result = uint64_t(LHS) >> uint64_t(RHS); break;
|
|
case MCBinaryExpr::LT: Result = LHS < RHS; break;
|
|
case MCBinaryExpr::LTE: Result = LHS <= RHS; break;
|
|
case MCBinaryExpr::Mul: Result = LHS * RHS; break;
|
|
case MCBinaryExpr::NE: Result = LHS != RHS; break;
|
|
case MCBinaryExpr::Or: Result = LHS | RHS; break;
|
|
case MCBinaryExpr::Shl: Result = uint64_t(LHS) << uint64_t(RHS); break;
|
|
case MCBinaryExpr::Sub: Result = LHS - RHS; break;
|
|
case MCBinaryExpr::Xor: Result = LHS ^ RHS; break;
|
|
}
|
|
|
|
switch (Op) {
|
|
default:
|
|
Res = MCValue::get(Result);
|
|
break;
|
|
case MCBinaryExpr::EQ:
|
|
case MCBinaryExpr::GT:
|
|
case MCBinaryExpr::GTE:
|
|
case MCBinaryExpr::LT:
|
|
case MCBinaryExpr::LTE:
|
|
case MCBinaryExpr::NE:
|
|
// A comparison operator returns a -1 if true and 0 if false.
|
|
Res = MCValue::get(Result ? -1 : 0);
|
|
break;
|
|
}
|
|
|
|
return true;
|
|
}
|
|
}
|
|
|
|
llvm_unreachable("Invalid assembly expression kind!");
|
|
}
|
|
|
|
MCFragment *MCExpr::findAssociatedFragment() const {
|
|
switch (getKind()) {
|
|
case Target:
|
|
// We never look through target specific expressions.
|
|
return cast<MCTargetExpr>(this)->findAssociatedFragment();
|
|
|
|
case Constant:
|
|
return MCSymbol::AbsolutePseudoFragment;
|
|
|
|
case SymbolRef: {
|
|
const MCSymbolRefExpr *SRE = cast<MCSymbolRefExpr>(this);
|
|
const MCSymbol &Sym = SRE->getSymbol();
|
|
return Sym.getFragment();
|
|
}
|
|
|
|
case Unary:
|
|
return cast<MCUnaryExpr>(this)->getSubExpr()->findAssociatedFragment();
|
|
|
|
case Binary: {
|
|
const MCBinaryExpr *BE = cast<MCBinaryExpr>(this);
|
|
MCFragment *LHS_F = BE->getLHS()->findAssociatedFragment();
|
|
MCFragment *RHS_F = BE->getRHS()->findAssociatedFragment();
|
|
|
|
// If either is absolute, return the other.
|
|
if (LHS_F == MCSymbol::AbsolutePseudoFragment)
|
|
return RHS_F;
|
|
if (RHS_F == MCSymbol::AbsolutePseudoFragment)
|
|
return LHS_F;
|
|
|
|
// Not always correct, but probably the best we can do without more context.
|
|
if (BE->getOpcode() == MCBinaryExpr::Sub)
|
|
return MCSymbol::AbsolutePseudoFragment;
|
|
|
|
// Otherwise, return the first non-null fragment.
|
|
return LHS_F ? LHS_F : RHS_F;
|
|
}
|
|
}
|
|
|
|
llvm_unreachable("Invalid assembly expression kind!");
|
|
}
|