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llvm-project/clang/lib/Lex/MacroInfo.cpp

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//===- MacroInfo.cpp - Information about #defined identifiers -------------===//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
//
// This file implements the MacroInfo interface.
//
//===----------------------------------------------------------------------===//
#include "clang/Lex/MacroInfo.h"
#include "clang/Basic/IdentifierTable.h"
#include "clang/Basic/LLVM.h"
#include "clang/Basic/SourceLocation.h"
#include "clang/Basic/SourceManager.h"
#include "clang/Basic/TokenKinds.h"
#include "clang/Lex/Preprocessor.h"
#include "clang/Lex/Token.h"
#include "llvm/ADT/Optional.h"
#include "llvm/ADT/StringRef.h"
#include "llvm/Support/Casting.h"
#include "llvm/Support/Compiler.h"
#include "llvm/Support/raw_ostream.h"
#include <cassert>
#include <utility>
using namespace clang;
MacroInfo::MacroInfo(SourceLocation DefLoc)
: Location(DefLoc), IsDefinitionLengthCached(false), IsFunctionLike(false),
IsC99Varargs(false), IsGNUVarargs(false), IsBuiltinMacro(false),
HasCommaPasting(false), IsDisabled(false), IsUsed(false),
IsAllowRedefinitionsWithoutWarning(false), IsWarnIfUnused(false),
UsedForHeaderGuard(false) {}
unsigned MacroInfo::getDefinitionLengthSlow(const SourceManager &SM) const {
assert(!IsDefinitionLengthCached);
IsDefinitionLengthCached = true;
if (ReplacementTokens.empty())
return (DefinitionLength = 0);
const Token &firstToken = ReplacementTokens.front();
const Token &lastToken = ReplacementTokens.back();
SourceLocation macroStart = firstToken.getLocation();
SourceLocation macroEnd = lastToken.getLocation();
assert(macroStart.isValid() && macroEnd.isValid());
assert((macroStart.isFileID() || firstToken.is(tok::comment)) &&
"Macro defined in macro?");
assert((macroEnd.isFileID() || lastToken.is(tok::comment)) &&
"Macro defined in macro?");
std::pair<FileID, unsigned>
startInfo = SM.getDecomposedExpansionLoc(macroStart);
std::pair<FileID, unsigned>
endInfo = SM.getDecomposedExpansionLoc(macroEnd);
assert(startInfo.first == endInfo.first &&
"Macro definition spanning multiple FileIDs ?");
assert(startInfo.second <= endInfo.second);
DefinitionLength = endInfo.second - startInfo.second;
DefinitionLength += lastToken.getLength();
return DefinitionLength;
}
/// Return true if the specified macro definition is equal to
/// this macro in spelling, arguments, and whitespace.
///
/// \param Syntactically if true, the macro definitions can be identical even
/// if they use different identifiers for the function macro parameters.
/// Otherwise the comparison is lexical and this implements the rules in
/// C99 6.10.3.
bool MacroInfo::isIdenticalTo(const MacroInfo &Other, Preprocessor &PP,
bool Syntactically) const {
bool Lexically = !Syntactically;
// Check # tokens in replacement, number of args, and various flags all match.
if (ReplacementTokens.size() != Other.ReplacementTokens.size() ||
getNumParams() != Other.getNumParams() ||
isFunctionLike() != Other.isFunctionLike() ||
isC99Varargs() != Other.isC99Varargs() ||
isGNUVarargs() != Other.isGNUVarargs())
return false;
if (Lexically) {
// Check arguments.
for (param_iterator I = param_begin(), OI = Other.param_begin(),
E = param_end();
I != E; ++I, ++OI)
if (*I != *OI) return false;
}
// Check all the tokens.
for (unsigned i = 0, e = ReplacementTokens.size(); i != e; ++i) {
const Token &A = ReplacementTokens[i];
const Token &B = Other.ReplacementTokens[i];
if (A.getKind() != B.getKind())
return false;
// If this isn't the first first token, check that the whitespace and
// start-of-line characteristics match.
if (i != 0 &&
(A.isAtStartOfLine() != B.isAtStartOfLine() ||
A.hasLeadingSpace() != B.hasLeadingSpace()))
return false;
// If this is an identifier, it is easy.
if (A.getIdentifierInfo() || B.getIdentifierInfo()) {
if (A.getIdentifierInfo() == B.getIdentifierInfo())
continue;
if (Lexically)
return false;
// With syntactic equivalence the parameter names can be different as long
// as they are used in the same place.
int AArgNum = getParameterNum(A.getIdentifierInfo());
if (AArgNum == -1)
return false;
if (AArgNum != Other.getParameterNum(B.getIdentifierInfo()))
return false;
continue;
}
// Otherwise, check the spelling.
if (PP.getSpelling(A) != PP.getSpelling(B))
return false;
}
return true;
}
LLVM_DUMP_METHOD void MacroInfo::dump() const {
llvm::raw_ostream &Out = llvm::errs();
// FIXME: Dump locations.
Out << "MacroInfo " << this;
if (IsBuiltinMacro) Out << " builtin";
if (IsDisabled) Out << " disabled";
if (IsUsed) Out << " used";
if (IsAllowRedefinitionsWithoutWarning)
Out << " allow_redefinitions_without_warning";
if (IsWarnIfUnused) Out << " warn_if_unused";
if (UsedForHeaderGuard) Out << " header_guard";
Out << "\n #define <macro>";
if (IsFunctionLike) {
Out << "(";
for (unsigned I = 0; I != NumParameters; ++I) {
if (I) Out << ", ";
Out << ParameterList[I]->getName();
}
if (IsC99Varargs || IsGNUVarargs) {
if (NumParameters && IsC99Varargs) Out << ", ";
Out << "...";
}
Out << ")";
}
bool First = true;
for (const Token &Tok : ReplacementTokens) {
// Leading space is semantically meaningful in a macro definition,
// so preserve it in the dump output.
if (First || Tok.hasLeadingSpace())
Out << " ";
First = false;
if (const char *Punc = tok::getPunctuatorSpelling(Tok.getKind()))
Out << Punc;
else if (Tok.isLiteral() && Tok.getLiteralData())
Out << StringRef(Tok.getLiteralData(), Tok.getLength());
else if (auto *II = Tok.getIdentifierInfo())
Out << II->getName();
else
Out << Tok.getName();
}
}
MacroDirective::DefInfo MacroDirective::getDefinition() {
MacroDirective *MD = this;
SourceLocation UndefLoc;
Optional<bool> isPublic;
for (; MD; MD = MD->getPrevious()) {
if (DefMacroDirective *DefMD = dyn_cast<DefMacroDirective>(MD))
return DefInfo(DefMD, UndefLoc,
!isPublic.hasValue() || isPublic.getValue());
if (UndefMacroDirective *UndefMD = dyn_cast<UndefMacroDirective>(MD)) {
UndefLoc = UndefMD->getLocation();
continue;
}
VisibilityMacroDirective *VisMD = cast<VisibilityMacroDirective>(MD);
if (!isPublic.hasValue())
isPublic = VisMD->isPublic();
}
return DefInfo(nullptr, UndefLoc,
!isPublic.hasValue() || isPublic.getValue());
}
const MacroDirective::DefInfo
MacroDirective::findDirectiveAtLoc(SourceLocation L,
const SourceManager &SM) const {
assert(L.isValid() && "SourceLocation is invalid.");
for (DefInfo Def = getDefinition(); Def; Def = Def.getPreviousDefinition()) {
if (Def.getLocation().isInvalid() || // For macros defined on the command line.
SM.isBeforeInTranslationUnit(Def.getLocation(), L))
return (!Def.isUndefined() ||
SM.isBeforeInTranslationUnit(L, Def.getUndefLocation()))
? Def : DefInfo();
}
return DefInfo();
}
LLVM_DUMP_METHOD void MacroDirective::dump() const {
llvm::raw_ostream &Out = llvm::errs();
switch (getKind()) {
case MD_Define: Out << "DefMacroDirective"; break;
case MD_Undefine: Out << "UndefMacroDirective"; break;
case MD_Visibility: Out << "VisibilityMacroDirective"; break;
}
Out << " " << this;
// FIXME: Dump SourceLocation.
if (auto *Prev = getPrevious())
Out << " prev " << Prev;
if (IsFromPCH) Out << " from_pch";
if (isa<VisibilityMacroDirective>(this))
Out << (IsPublic ? " public" : " private");
if (auto *DMD = dyn_cast<DefMacroDirective>(this)) {
if (auto *Info = DMD->getInfo()) {
Out << "\n ";
Info->dump();
}
}
Out << "\n";
}
ModuleMacro *ModuleMacro::create(Preprocessor &PP, Module *OwningModule,
IdentifierInfo *II, MacroInfo *Macro,
ArrayRef<ModuleMacro *> Overrides) {
void *Mem = PP.getPreprocessorAllocator().Allocate(
sizeof(ModuleMacro) + sizeof(ModuleMacro *) * Overrides.size(),
alignof(ModuleMacro));
return new (Mem) ModuleMacro(OwningModule, II, Macro, Overrides);
}
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