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//===--- PreprocessingRecord.h - Record of Preprocessing --------*- C++ -*-===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
//
// This file defines the PreprocessingRecord class, which maintains a record
// of what occurred during preprocessing.
//
//===----------------------------------------------------------------------===//
#ifndef LLVM_CLANG_LEX_PREPROCESSINGRECORD_H
#define LLVM_CLANG_LEX_PREPROCESSINGRECORD_H
#include "clang/Lex/PPCallbacks.h"
#include "clang/Basic/SourceLocation.h"
#include "clang/Basic/IdentifierTable.h"
#include "llvm/ADT/SmallVector.h"
#include "llvm/ADT/DenseMap.h"
#include "llvm/ADT/Optional.h"
#include "llvm/Support/Allocator.h"
#include "llvm/Support/Compiler.h"
#include <vector>
namespace clang {
class IdentifierInfo;
class PreprocessingRecord;
}
/// \brief Allocates memory within a Clang preprocessing record.
void* operator new(size_t bytes, clang::PreprocessingRecord& PR,
unsigned alignment = 8) throw();
/// \brief Frees memory allocated in a Clang preprocessing record.
void operator delete(void* ptr, clang::PreprocessingRecord& PR,
unsigned) throw();
namespace clang {
class MacroDefinition;
class FileEntry;
/// \brief Base class that describes a preprocessed entity, which may be a
/// preprocessor directive or macro expansion.
class PreprocessedEntity {
public:
/// \brief The kind of preprocessed entity an object describes.
enum EntityKind {
/// \brief Indicates a problem trying to load the preprocessed entity.
InvalidKind,
/// \brief A macro expansion.
MacroExpansionKind,
/// \defgroup Preprocessing directives
/// @{
/// \brief A macro definition.
MacroDefinitionKind,
/// \brief An inclusion directive, such as \c #include, \c
/// #import, or \c #include_next.
InclusionDirectiveKind,
/// @}
FirstPreprocessingDirective = MacroDefinitionKind,
LastPreprocessingDirective = InclusionDirectiveKind
};
private:
/// \brief The kind of preprocessed entity that this object describes.
EntityKind Kind;
/// \brief The source range that covers this preprocessed entity.
SourceRange Range;
protected:
PreprocessedEntity(EntityKind Kind, SourceRange Range)
: Kind(Kind), Range(Range) { }
friend class PreprocessingRecord;
public:
/// \brief Retrieve the kind of preprocessed entity stored in this object.
EntityKind getKind() const { return Kind; }
/// \brief Retrieve the source range that covers this entire preprocessed
/// entity.
SourceRange getSourceRange() const LLVM_READONLY { return Range; }
/// \brief Returns true if there was a problem loading the preprocessed
/// entity.
bool isInvalid() const { return Kind == InvalidKind; }
// Implement isa/cast/dyncast/etc.
static bool classof(const PreprocessedEntity *) { return true; }
// Only allow allocation of preprocessed entities using the allocator
// in PreprocessingRecord or by doing a placement new.
void* operator new(size_t bytes, PreprocessingRecord& PR,
unsigned alignment = 8) throw() {
return ::operator new(bytes, PR, alignment);
}
void* operator new(size_t bytes, void* mem) throw() {
return mem;
}
void operator delete(void* ptr, PreprocessingRecord& PR,
unsigned alignment) throw() {
return ::operator delete(ptr, PR, alignment);
}
void operator delete(void*, std::size_t) throw() { }
void operator delete(void*, void*) throw() { }
private:
// Make vanilla 'new' and 'delete' illegal for preprocessed entities.
void* operator new(size_t bytes) throw();
void operator delete(void* data) throw();
};
/// \brief Records the presence of a preprocessor directive.
class PreprocessingDirective : public PreprocessedEntity {
public:
PreprocessingDirective(EntityKind Kind, SourceRange Range)
: PreprocessedEntity(Kind, Range) { }
// Implement isa/cast/dyncast/etc.
static bool classof(const PreprocessedEntity *PD) {
return PD->getKind() >= FirstPreprocessingDirective &&
PD->getKind() <= LastPreprocessingDirective;
}
static bool classof(const PreprocessingDirective *) { return true; }
};
/// \brief Record the location of a macro definition.
class MacroDefinition : public PreprocessingDirective {
/// \brief The name of the macro being defined.
const IdentifierInfo *Name;
public:
explicit MacroDefinition(const IdentifierInfo *Name, SourceRange Range)
: PreprocessingDirective(MacroDefinitionKind, Range), Name(Name) { }
/// \brief Retrieve the name of the macro being defined.
const IdentifierInfo *getName() const { return Name; }
/// \brief Retrieve the location of the macro name in the definition.
SourceLocation getLocation() const { return getSourceRange().getBegin(); }
// Implement isa/cast/dyncast/etc.
static bool classof(const PreprocessedEntity *PE) {
return PE->getKind() == MacroDefinitionKind;
}
static bool classof(const MacroDefinition *) { return true; }
};
/// \brief Records the location of a macro expansion.
class MacroExpansion : public PreprocessedEntity {
/// \brief The definition of this macro or the name of the macro if it is
/// a builtin macro.
llvm::PointerUnion<IdentifierInfo *, MacroDefinition *> NameOrDef;
public:
MacroExpansion(IdentifierInfo *BuiltinName, SourceRange Range)
: PreprocessedEntity(MacroExpansionKind, Range),
NameOrDef(BuiltinName) { }
MacroExpansion(MacroDefinition *Definition, SourceRange Range)
: PreprocessedEntity(MacroExpansionKind, Range),
NameOrDef(Definition) { }
/// \brief True if it is a builtin macro.
bool isBuiltinMacro() const { return NameOrDef.is<IdentifierInfo *>(); }
/// \brief The name of the macro being expanded.
const IdentifierInfo *getName() const {
if (MacroDefinition *Def = getDefinition())
return Def->getName();
return NameOrDef.get<IdentifierInfo*>();
}
/// \brief The definition of the macro being expanded. May return null if
/// this is a builtin macro.
MacroDefinition *getDefinition() const {
return NameOrDef.dyn_cast<MacroDefinition *>();
}
// Implement isa/cast/dyncast/etc.
static bool classof(const PreprocessedEntity *PE) {
return PE->getKind() == MacroExpansionKind;
}
static bool classof(const MacroExpansion *) { return true; }
};
/// \brief Record the location of an inclusion directive, such as an
/// \c #include or \c #import statement.
class InclusionDirective : public PreprocessingDirective {
public:
/// \brief The kind of inclusion directives known to the
/// preprocessor.
enum InclusionKind {
/// \brief An \c #include directive.
Include,
/// \brief An Objective-C \c #import directive.
Import,
/// \brief A GNU \c #include_next directive.
IncludeNext,
/// \brief A Clang \c #__include_macros directive.
IncludeMacros
};
private:
/// \brief The name of the file that was included, as written in
/// the source.
StringRef FileName;
/// \brief Whether the file name was in quotation marks; otherwise, it was
/// in angle brackets.
unsigned InQuotes : 1;
/// \brief The kind of inclusion directive we have.
///
/// This is a value of type InclusionKind.
unsigned Kind : 2;
/// \brief The file that was included.
const FileEntry *File;
public:
InclusionDirective(PreprocessingRecord &PPRec,
InclusionKind Kind, StringRef FileName,
bool InQuotes, const FileEntry *File, SourceRange Range);
/// \brief Determine what kind of inclusion directive this is.
InclusionKind getKind() const { return static_cast<InclusionKind>(Kind); }
/// \brief Retrieve the included file name as it was written in the source.
StringRef getFileName() const { return FileName; }
/// \brief Determine whether the included file name was written in quotes;
/// otherwise, it was written in angle brackets.
bool wasInQuotes() const { return InQuotes; }
/// \brief Retrieve the file entry for the actual file that was included
/// by this directive.
const FileEntry *getFile() const { return File; }
// Implement isa/cast/dyncast/etc.
static bool classof(const PreprocessedEntity *PE) {
return PE->getKind() == InclusionDirectiveKind;
}
static bool classof(const InclusionDirective *) { return true; }
};
/// \brief An abstract class that should be subclassed by any external source
/// of preprocessing record entries.
class ExternalPreprocessingRecordSource {
public:
virtual ~ExternalPreprocessingRecordSource();
/// \brief Read a preallocated preprocessed entity from the external source.
///
/// \returns null if an error occurred that prevented the preprocessed
/// entity from being loaded.
virtual PreprocessedEntity *ReadPreprocessedEntity(unsigned Index) = 0;
/// \brief Returns a pair of [Begin, End) indices of preallocated
/// preprocessed entities that \arg Range encompasses.
virtual std::pair<unsigned, unsigned>
findPreprocessedEntitiesInRange(SourceRange Range) = 0;
/// \brief Optionally returns true or false if the preallocated preprocessed
/// entity with index \arg Index came from file \arg FID.
virtual llvm::Optional<bool> isPreprocessedEntityInFileID(unsigned Index,
FileID FID) {
return llvm::Optional<bool>();
}
};
/// \brief A record of the steps taken while preprocessing a source file,
/// including the various preprocessing directives processed, macros
/// expanded, etc.
class PreprocessingRecord : public PPCallbacks {
SourceManager &SourceMgr;
/// \brief Allocator used to store preprocessing objects.
llvm::BumpPtrAllocator BumpAlloc;
/// \brief The set of preprocessed entities in this record, in order they
/// were seen.
std::vector<PreprocessedEntity *> PreprocessedEntities;
/// \brief The set of preprocessed entities in this record that have been
/// loaded from external sources.
///
/// The entries in this vector are loaded lazily from the external source,
/// and are referenced by the iterator using negative indices.
std::vector<PreprocessedEntity *> LoadedPreprocessedEntities;
bool RecordCondDirectives;
unsigned CondDirectiveNextIdx;
SmallVector<unsigned, 6> CondDirectiveStack;
class CondDirectiveLoc {
SourceLocation Loc;
unsigned Idx;
public:
CondDirectiveLoc(SourceLocation Loc, unsigned Idx) : Loc(Loc), Idx(Idx) {}
SourceLocation getLoc() const { return Loc; }
unsigned getIdx() const { return Idx; }
class Comp {
SourceManager &SM;
public:
explicit Comp(SourceManager &SM) : SM(SM) {}
bool operator()(const CondDirectiveLoc &LHS,
const CondDirectiveLoc &RHS) {
return SM.isBeforeInTranslationUnit(LHS.getLoc(), RHS.getLoc());
}
bool operator()(const CondDirectiveLoc &LHS, SourceLocation RHS) {
return SM.isBeforeInTranslationUnit(LHS.getLoc(), RHS);
}
bool operator()(SourceLocation LHS, const CondDirectiveLoc &RHS) {
return SM.isBeforeInTranslationUnit(LHS, RHS.getLoc());
}
};
};
typedef std::vector<CondDirectiveLoc> CondDirectiveLocsTy;
/// \brief The locations of conditional directives in source order.
CondDirectiveLocsTy CondDirectiveLocs;
void addCondDirectiveLoc(CondDirectiveLoc DirLoc);
unsigned findCondDirectiveIdx(SourceLocation Loc) const;
/// \brief Global (loaded or local) ID for a preprocessed entity.
/// Negative values are used to indicate preprocessed entities
/// loaded from the external source while non-negative values are used to
/// indicate preprocessed entities introduced by the current preprocessor.
/// If M is the number of loaded preprocessed entities, value -M
/// corresponds to element 0 in the loaded entities vector, position -M+1
/// corresponds to element 1 in the loaded entities vector, etc.
typedef int PPEntityID;
PPEntityID getPPEntityID(unsigned Index, bool isLoaded) const {
return isLoaded ? PPEntityID(Index) - LoadedPreprocessedEntities.size()
: Index;
}
/// \brief Mapping from MacroInfo structures to their definitions.
llvm::DenseMap<const MacroInfo *, PPEntityID> MacroDefinitions;
/// \brief External source of preprocessed entities.
ExternalPreprocessingRecordSource *ExternalSource;
/// \brief Retrieve the preprocessed entity at the given ID.
PreprocessedEntity *getPreprocessedEntity(PPEntityID PPID);
/// \brief Retrieve the loaded preprocessed entity at the given index.
PreprocessedEntity *getLoadedPreprocessedEntity(unsigned Index);
/// \brief Determine the number of preprocessed entities that were
/// loaded (or can be loaded) from an external source.
unsigned getNumLoadedPreprocessedEntities() const {
return LoadedPreprocessedEntities.size();
}
/// \brief Returns a pair of [Begin, End) indices of local preprocessed
/// entities that \arg Range encompasses.
std::pair<unsigned, unsigned>
findLocalPreprocessedEntitiesInRange(SourceRange Range) const;
unsigned findBeginLocalPreprocessedEntity(SourceLocation Loc) const;
unsigned findEndLocalPreprocessedEntity(SourceLocation Loc) const;
/// \brief Allocate space for a new set of loaded preprocessed entities.
///
/// \returns The index into the set of loaded preprocessed entities, which
/// corresponds to the first newly-allocated entity.
unsigned allocateLoadedEntities(unsigned NumEntities);
/// \brief Register a new macro definition.
void RegisterMacroDefinition(MacroInfo *Macro, PPEntityID PPID);
public:
/// \brief Construct a new preprocessing record.
PreprocessingRecord(SourceManager &SM, bool RecordConditionalDirectives);
/// \brief Allocate memory in the preprocessing record.
void *Allocate(unsigned Size, unsigned Align = 8) {
return BumpAlloc.Allocate(Size, Align);
}
/// \brief Deallocate memory in the preprocessing record.
void Deallocate(void *Ptr) { }
size_t getTotalMemory() const;
SourceManager &getSourceManager() const { return SourceMgr; }
// Iteration over the preprocessed entities.
class iterator {
PreprocessingRecord *Self;
/// \brief Position within the preprocessed entity sequence.
///
/// In a complete iteration, the Position field walks the range [-M, N),
/// where negative values are used to indicate preprocessed entities
/// loaded from the external source while non-negative values are used to
/// indicate preprocessed entities introduced by the current preprocessor.
/// However, to provide iteration in source order (for, e.g., chained
/// precompiled headers), dereferencing the iterator flips the negative
/// values (corresponding to loaded entities), so that position -M
/// corresponds to element 0 in the loaded entities vector, position -M+1
/// corresponds to element 1 in the loaded entities vector, etc. This
/// gives us a reasonably efficient, source-order walk.
PPEntityID Position;
public:
typedef PreprocessedEntity *value_type;
typedef value_type& reference;
typedef value_type* pointer;
typedef std::random_access_iterator_tag iterator_category;
typedef int difference_type;
iterator() : Self(0), Position(0) { }
iterator(PreprocessingRecord *Self, PPEntityID Position)
: Self(Self), Position(Position) { }
value_type operator*() const {
return Self->getPreprocessedEntity(Position);
}
value_type operator[](difference_type D) {
return *(*this + D);
}
iterator &operator++() {
++Position;
return *this;
}
iterator operator++(int) {
iterator Prev(*this);
++Position;
return Prev;
}
iterator &operator--() {
--Position;
return *this;
}
iterator operator--(int) {
iterator Prev(*this);
--Position;
return Prev;
}
friend bool operator==(const iterator &X, const iterator &Y) {
return X.Position == Y.Position;
}
friend bool operator!=(const iterator &X, const iterator &Y) {
return X.Position != Y.Position;
}
friend bool operator<(const iterator &X, const iterator &Y) {
return X.Position < Y.Position;
}
friend bool operator>(const iterator &X, const iterator &Y) {
return X.Position > Y.Position;
}
friend bool operator<=(const iterator &X, const iterator &Y) {
return X.Position < Y.Position;
}
friend bool operator>=(const iterator &X, const iterator &Y) {
return X.Position > Y.Position;
}
friend iterator& operator+=(iterator &X, difference_type D) {
X.Position += D;
return X;
}
friend iterator& operator-=(iterator &X, difference_type D) {
X.Position -= D;
return X;
}
friend iterator operator+(iterator X, difference_type D) {
X.Position += D;
return X;
}
friend iterator operator+(difference_type D, iterator X) {
X.Position += D;
return X;
}
friend difference_type operator-(const iterator &X, const iterator &Y) {
return X.Position - Y.Position;
}
friend iterator operator-(iterator X, difference_type D) {
X.Position -= D;
return X;
}
friend class PreprocessingRecord;
};
friend class iterator;
/// \brief Begin iterator for all preprocessed entities.
iterator begin() {
return iterator(this, -(int)LoadedPreprocessedEntities.size());
}
/// \brief End iterator for all preprocessed entities.
iterator end() {
return iterator(this, PreprocessedEntities.size());
}
/// \brief Begin iterator for local, non-loaded, preprocessed entities.
iterator local_begin() {
return iterator(this, 0);
}
/// \brief End iterator for local, non-loaded, preprocessed entities.
iterator local_end() {
return iterator(this, PreprocessedEntities.size());
}
/// \brief Returns a pair of [Begin, End) iterators of preprocessed entities
/// that source range \arg R encompasses.
///
/// \param R the range to look for preprocessed entities.
///
std::pair<iterator, iterator> getPreprocessedEntitiesInRange(SourceRange R);
/// \brief Returns true if the preprocessed entity that \arg PPEI iterator
/// points to is coming from the file \arg FID.
///
/// Can be used to avoid implicit deserializations of preallocated
/// preprocessed entities if we only care about entities of a specific file
/// and not from files #included in the range given at
/// \see getPreprocessedEntitiesInRange.
bool isEntityInFileID(iterator PPEI, FileID FID);
/// \brief Add a new preprocessed entity to this record.
PPEntityID addPreprocessedEntity(PreprocessedEntity *Entity);
/// \brief Returns true if this PreprocessingRecord is keeping track of
/// conditional directives locations.
bool isRecordingConditionalDirectives() const {
return RecordCondDirectives;
}
/// \brief Returns true if the given range intersects with a conditional
/// directive. if a #if/#endif block is fully contained within the range,
/// this function will return false.
bool rangeIntersectsConditionalDirective(SourceRange Range) const;
/// \brief Returns true if the given locations are in different regions,
/// separated by conditional directive blocks.
bool areInDifferentConditionalDirectiveRegion(SourceLocation LHS,
SourceLocation RHS) const {
return findCondDirectiveIdx(LHS) != findCondDirectiveIdx(RHS);
}
/// \brief Set the external source for preprocessed entities.
void SetExternalSource(ExternalPreprocessingRecordSource &Source);
/// \brief Retrieve the external source for preprocessed entities.
ExternalPreprocessingRecordSource *getExternalSource() const {
return ExternalSource;
}
/// \brief Retrieve the macro definition that corresponds to the given
/// \c MacroInfo.
MacroDefinition *findMacroDefinition(const MacroInfo *MI);
private:
virtual void MacroExpands(const Token &Id, const MacroInfo* MI,
SourceRange Range);
virtual void MacroDefined(const Token &Id, const MacroInfo *MI);
virtual void MacroUndefined(const Token &Id, const MacroInfo *MI);
virtual void InclusionDirective(SourceLocation HashLoc,
const Token &IncludeTok,
StringRef FileName,
bool IsAngled,
const FileEntry *File,
SourceLocation EndLoc,
StringRef SearchPath,
StringRef RelativePath);
virtual void If(SourceLocation Loc, SourceRange ConditionRange);
virtual void Elif(SourceLocation Loc, SourceRange ConditionRange,
SourceLocation IfLoc);
virtual void Ifdef(SourceLocation Loc, const Token &MacroNameTok);
virtual void Ifndef(SourceLocation Loc, const Token &MacroNameTok);
virtual void Else(SourceLocation Loc, SourceLocation IfLoc);
virtual void Endif(SourceLocation Loc, SourceLocation IfLoc);
/// \brief Cached result of the last \see getPreprocessedEntitiesInRange
/// query.
struct {
SourceRange Range;
std::pair<PPEntityID, PPEntityID> Result;
} CachedRangeQuery;
std::pair<PPEntityID, PPEntityID>
getPreprocessedEntitiesInRangeSlow(SourceRange R);
friend class ASTReader;
friend class ASTWriter;
};
} // end namespace clang
inline void* operator new(size_t bytes, clang::PreprocessingRecord& PR,
unsigned alignment) throw() {
return PR.Allocate(bytes, alignment);
}
inline void operator delete(void* ptr, clang::PreprocessingRecord& PR,
unsigned) throw() {
PR.Deallocate(ptr);
}
#endif // LLVM_CLANG_LEX_PREPROCESSINGRECORD_H