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//===--- PathDiagnostic.h - Path-Specific Diagnostic Handling ---*- 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 PathDiagnostic-related interfaces.
//
//===----------------------------------------------------------------------===//
#ifndef LLVM_CLANG_PATH_DIAGNOSTIC_H
#define LLVM_CLANG_PATH_DIAGNOSTIC_H
#include "clang/Basic/Diagnostic.h"
#include "llvm/ADT/FoldingSet.h"
#include "llvm/ADT/PointerUnion.h"
#include <deque>
#include <iterator>
#include <string>
#include <vector>
namespace clang {
class AnalysisContext;
class BinaryOperator;
class CompoundStmt;
class Decl;
class LocationContext;
class MemberExpr;
class ParentMap;
class ProgramPoint;
class SourceManager;
class Stmt;
namespace ento {
class ExplodedNode;
//===----------------------------------------------------------------------===//
// High-level interface for handlers of path-sensitive diagnostics.
//===----------------------------------------------------------------------===//
class PathDiagnostic;
class PathDiagnosticConsumer {
public:
PathDiagnosticConsumer() {}
virtual ~PathDiagnosticConsumer() {}
virtual void
FlushDiagnostics(SmallVectorImpl<std::string> *FilesMade = 0) = 0;
void FlushDiagnostics(SmallVectorImpl<std::string> &FilesMade) {
FlushDiagnostics(&FilesMade);
}
virtual StringRef getName() const = 0;
void HandlePathDiagnostic(const PathDiagnostic* D);
enum PathGenerationScheme { Minimal, Extensive };
virtual PathGenerationScheme getGenerationScheme() const { return Minimal; }
virtual bool supportsLogicalOpControlFlow() const { return false; }
virtual bool supportsAllBlockEdges() const { return false; }
virtual bool useVerboseDescription() const { return true; }
protected:
/// The actual logic for handling path diagnostics, as implemented
/// by subclasses of PathDiagnosticConsumer.
virtual void HandlePathDiagnosticImpl(const PathDiagnostic* D) = 0;
};
//===----------------------------------------------------------------------===//
// Path-sensitive diagnostics.
//===----------------------------------------------------------------------===//
class PathDiagnosticRange : public SourceRange {
public:
bool isPoint;
PathDiagnosticRange(const SourceRange &R, bool isP = false)
: SourceRange(R), isPoint(isP) {}
PathDiagnosticRange() : isPoint(false) {}
};
typedef llvm::PointerUnion<const LocationContext*, AnalysisContext*>
LocationOrAnalysisContext;
class PathDiagnosticLocation {
private:
enum Kind { RangeK, SingleLocK, StmtK, DeclK } K;
const Stmt *S;
const Decl *D;
const SourceManager *SM;
FullSourceLoc Loc;
PathDiagnosticRange Range;
PathDiagnosticLocation(SourceLocation L, const SourceManager &sm,
Kind kind)
: K(kind), S(0), D(0), SM(&sm),
Loc(genLocation(L)), Range(genRange()) {
assert(Loc.isValid());
assert(Range.isValid());
}
FullSourceLoc
genLocation(SourceLocation L = SourceLocation(),
LocationOrAnalysisContext LAC = (AnalysisContext*)0) const;
PathDiagnosticRange
genRange(LocationOrAnalysisContext LAC = (AnalysisContext*)0) const;
public:
/// Create an invalid location.
PathDiagnosticLocation()
: K(SingleLocK), S(0), D(0), SM(0) {}
/// Create a location corresponding to the given statement.
PathDiagnosticLocation(const Stmt *s,
const SourceManager &sm,
LocationOrAnalysisContext lac)
: K(StmtK), S(s), D(0), SM(&sm),
Loc(genLocation(SourceLocation(), lac)),
Range(genRange(lac)) {
assert(Loc.isValid());
assert(Range.isValid());
}
/// Create a location corresponding to the given declaration.
PathDiagnosticLocation(const Decl *d, const SourceManager &sm)
: K(DeclK), S(0), D(d), SM(&sm),
Loc(genLocation()), Range(genRange()) {
assert(Loc.isValid());
assert(Range.isValid());
}
/// Create a location corresponding to the given declaration.
static PathDiagnosticLocation create(const Decl *D,
const SourceManager &SM) {
return PathDiagnosticLocation(D, SM);
}
/// Create a location for the beginning of the declaration.
static PathDiagnosticLocation createBegin(const Decl *D,
const SourceManager &SM);
/// Create a location for the beginning of the statement.
static PathDiagnosticLocation createBegin(const Stmt *S,
const SourceManager &SM,
const LocationOrAnalysisContext LAC);
/// Create the location for the operator of the binary expression.
/// Assumes the statement has a valid location.
static PathDiagnosticLocation createOperatorLoc(const BinaryOperator *BO,
const SourceManager &SM);
/// For member expressions, return the location of the '.' or '->'.
/// Assumes the statement has a valid location.
static PathDiagnosticLocation createMemberLoc(const MemberExpr *ME,
const SourceManager &SM);
/// Create a location for the beginning of the compound statement.
/// Assumes the statement has a valid location.
static PathDiagnosticLocation createBeginBrace(const CompoundStmt *CS,
const SourceManager &SM);
/// Create a location for the end of the compound statement.
/// Assumes the statement has a valid location.
static PathDiagnosticLocation createEndBrace(const CompoundStmt *CS,
const SourceManager &SM);
/// Create a location for the beginning of the enclosing declaration body.
/// Defaults to the beginning of the first statement in the declaration body.
static PathDiagnosticLocation createDeclBegin(const LocationContext *LC,
const SourceManager &SM);
/// Constructs a location for the end of the enclosing declaration body.
/// Defaults to the end of brace.
static PathDiagnosticLocation createDeclEnd(const LocationContext *LC,
const SourceManager &SM);
/// Create a location corresponding to the given valid ExplodedNode.
static PathDiagnosticLocation create(const ProgramPoint& P,
const SourceManager &SMng);
/// Create a location corresponding to the next valid ExplodedNode as end
/// of path location.
static PathDiagnosticLocation createEndOfPath(const ExplodedNode* N,
const SourceManager &SM);
/// Convert the given location into a single kind location.
static PathDiagnosticLocation createSingleLocation(
const PathDiagnosticLocation &PDL);
bool operator==(const PathDiagnosticLocation &X) const {
return K == X.K && Loc == X.Loc && Range == X.Range;
}
bool operator!=(const PathDiagnosticLocation &X) const {
return !(*this == X);
}
bool isValid() const {
return SM != 0;
}
FullSourceLoc asLocation() const {
return Loc;
}
PathDiagnosticRange asRange() const {
return Range;
}
const Stmt *asStmt() const { assert(isValid()); return S; }
const Decl *asDecl() const { assert(isValid()); return D; }
bool hasRange() const { return K == StmtK || K == RangeK || K == DeclK; }
void invalidate() {
*this = PathDiagnosticLocation();
}
void flatten();
const SourceManager& getManager() const { assert(isValid()); return *SM; }
void Profile(llvm::FoldingSetNodeID &ID) const;
};
class PathDiagnosticLocationPair {
private:
PathDiagnosticLocation Start, End;
public:
PathDiagnosticLocationPair(const PathDiagnosticLocation &start,
const PathDiagnosticLocation &end)
: Start(start), End(end) {}
const PathDiagnosticLocation &getStart() const { return Start; }
const PathDiagnosticLocation &getEnd() const { return End; }
void flatten() {
Start.flatten();
End.flatten();
}
void Profile(llvm::FoldingSetNodeID &ID) const {
Start.Profile(ID);
End.Profile(ID);
}
};
//===----------------------------------------------------------------------===//
// Path "pieces" for path-sensitive diagnostics.
//===----------------------------------------------------------------------===//
class PathDiagnosticPiece {
public:
enum Kind { ControlFlow, Event, Macro };
enum DisplayHint { Above, Below };
private:
const std::string str;
std::vector<FixItHint> FixItHints;
const Kind kind;
const DisplayHint Hint;
std::vector<SourceRange> ranges;
// Do not implement:
PathDiagnosticPiece();
PathDiagnosticPiece(const PathDiagnosticPiece &P);
PathDiagnosticPiece& operator=(const PathDiagnosticPiece &P);
protected:
PathDiagnosticPiece(StringRef s, Kind k, DisplayHint hint = Below);
PathDiagnosticPiece(Kind k, DisplayHint hint = Below);
public:
virtual ~PathDiagnosticPiece();
const std::string& getString() const { return str; }
/// getDisplayHint - Return a hint indicating where the diagnostic should
/// be displayed by the PathDiagnosticConsumer.
DisplayHint getDisplayHint() const { return Hint; }
virtual PathDiagnosticLocation getLocation() const = 0;
virtual void flattenLocations() = 0;
Kind getKind() const { return kind; }
void addRange(SourceRange R) {
if (!R.isValid())
return;
ranges.push_back(R);
}
void addRange(SourceLocation B, SourceLocation E) {
if (!B.isValid() || !E.isValid())
return;
ranges.push_back(SourceRange(B,E));
}
void addFixItHint(const FixItHint& Hint) {
FixItHints.push_back(Hint);
}
typedef const SourceRange* range_iterator;
range_iterator ranges_begin() const {
return ranges.empty() ? NULL : &ranges[0];
}
range_iterator ranges_end() const {
return ranges_begin() + ranges.size();
}
typedef const FixItHint *fixit_iterator;
fixit_iterator fixit_begin() const {
return FixItHints.empty()? 0 : &FixItHints[0];
}
fixit_iterator fixit_end() const {
return FixItHints.empty()? 0
: &FixItHints[0] + FixItHints.size();
}
static inline bool classof(const PathDiagnosticPiece *P) {
return true;
}
virtual void Profile(llvm::FoldingSetNodeID &ID) const;
};
class PathDiagnosticSpotPiece : public PathDiagnosticPiece {
private:
PathDiagnosticLocation Pos;
public:
PathDiagnosticSpotPiece(const PathDiagnosticLocation &pos,
StringRef s,
PathDiagnosticPiece::Kind k,
bool addPosRange = true)
: PathDiagnosticPiece(s, k), Pos(pos) {
assert(Pos.isValid() && Pos.asLocation().isValid() &&
"PathDiagnosticSpotPiece's must have a valid location.");
if (addPosRange && Pos.hasRange()) addRange(Pos.asRange());
}
PathDiagnosticLocation getLocation() const { return Pos; }
virtual void flattenLocations() { Pos.flatten(); }
virtual void Profile(llvm::FoldingSetNodeID &ID) const;
};
class PathDiagnosticEventPiece : public PathDiagnosticSpotPiece {
public:
PathDiagnosticEventPiece(const PathDiagnosticLocation &pos,
StringRef s, bool addPosRange = true)
: PathDiagnosticSpotPiece(pos, s, Event, addPosRange) {}
~PathDiagnosticEventPiece();
static inline bool classof(const PathDiagnosticPiece *P) {
return P->getKind() == Event;
}
};
class PathDiagnosticControlFlowPiece : public PathDiagnosticPiece {
std::vector<PathDiagnosticLocationPair> LPairs;
public:
PathDiagnosticControlFlowPiece(const PathDiagnosticLocation &startPos,
const PathDiagnosticLocation &endPos,
StringRef s)
: PathDiagnosticPiece(s, ControlFlow) {
LPairs.push_back(PathDiagnosticLocationPair(startPos, endPos));
}
PathDiagnosticControlFlowPiece(const PathDiagnosticLocation &startPos,
const PathDiagnosticLocation &endPos)
: PathDiagnosticPiece(ControlFlow) {
LPairs.push_back(PathDiagnosticLocationPair(startPos, endPos));
}
~PathDiagnosticControlFlowPiece();
PathDiagnosticLocation getStartLocation() const {
assert(!LPairs.empty() &&
"PathDiagnosticControlFlowPiece needs at least one location.");
return LPairs[0].getStart();
}
PathDiagnosticLocation getEndLocation() const {
assert(!LPairs.empty() &&
"PathDiagnosticControlFlowPiece needs at least one location.");
return LPairs[0].getEnd();
}
void push_back(const PathDiagnosticLocationPair &X) { LPairs.push_back(X); }
virtual PathDiagnosticLocation getLocation() const {
return getStartLocation();
}
typedef std::vector<PathDiagnosticLocationPair>::iterator iterator;
iterator begin() { return LPairs.begin(); }
iterator end() { return LPairs.end(); }
virtual void flattenLocations() {
for (iterator I=begin(), E=end(); I!=E; ++I) I->flatten();
}
typedef std::vector<PathDiagnosticLocationPair>::const_iterator
const_iterator;
const_iterator begin() const { return LPairs.begin(); }
const_iterator end() const { return LPairs.end(); }
static inline bool classof(const PathDiagnosticPiece *P) {
return P->getKind() == ControlFlow;
}
virtual void Profile(llvm::FoldingSetNodeID &ID) const;
};
class PathDiagnosticMacroPiece : public PathDiagnosticSpotPiece {
std::vector<PathDiagnosticPiece*> SubPieces;
public:
PathDiagnosticMacroPiece(const PathDiagnosticLocation &pos)
: PathDiagnosticSpotPiece(pos, "", Macro) {}
~PathDiagnosticMacroPiece();
bool containsEvent() const;
void push_back(PathDiagnosticPiece *P) { SubPieces.push_back(P); }
typedef std::vector<PathDiagnosticPiece*>::iterator iterator;
iterator begin() { return SubPieces.begin(); }
iterator end() { return SubPieces.end(); }
virtual void flattenLocations() {
PathDiagnosticSpotPiece::flattenLocations();
for (iterator I=begin(), E=end(); I!=E; ++I) (*I)->flattenLocations();
}
typedef std::vector<PathDiagnosticPiece*>::const_iterator const_iterator;
const_iterator begin() const { return SubPieces.begin(); }
const_iterator end() const { return SubPieces.end(); }
static inline bool classof(const PathDiagnosticPiece *P) {
return P->getKind() == Macro;
}
virtual void Profile(llvm::FoldingSetNodeID &ID) const;
};
/// PathDiagnostic - PathDiagnostic objects represent a single path-sensitive
/// diagnostic. It represents an ordered-collection of PathDiagnosticPieces,
/// each which represent the pieces of the path.
class PathDiagnostic : public llvm::FoldingSetNode {
std::deque<PathDiagnosticPiece*> path;
unsigned Size;
std::string BugType;
std::string Desc;
std::string Category;
std::deque<std::string> OtherDesc;
public:
PathDiagnostic();
PathDiagnostic(StringRef bugtype, StringRef desc,
StringRef category);
~PathDiagnostic();
StringRef getDescription() const { return Desc; }
StringRef getBugType() const { return BugType; }
StringRef getCategory() const { return Category; }
typedef std::deque<std::string>::const_iterator meta_iterator;
meta_iterator meta_begin() const { return OtherDesc.begin(); }
meta_iterator meta_end() const { return OtherDesc.end(); }
void addMeta(StringRef s) { OtherDesc.push_back(s); }
PathDiagnosticLocation getLocation() const {
assert(Size > 0 && "getLocation() requires a non-empty PathDiagnostic.");
return rbegin()->getLocation();
}
void push_front(PathDiagnosticPiece *piece) {
assert(piece);
path.push_front(piece);
++Size;
}
void push_back(PathDiagnosticPiece *piece) {
assert(piece);
path.push_back(piece);
++Size;
}
PathDiagnosticPiece *back() {
return path.back();
}
const PathDiagnosticPiece *back() const {
return path.back();
}
unsigned size() const { return Size; }
bool empty() const { return Size == 0; }
void resetPath(bool deletePieces = true);
class iterator {
public:
typedef std::deque<PathDiagnosticPiece*>::iterator ImplTy;
typedef PathDiagnosticPiece value_type;
typedef value_type& reference;
typedef value_type* pointer;
typedef ptrdiff_t difference_type;
typedef std::bidirectional_iterator_tag iterator_category;
private:
ImplTy I;
public:
iterator(const ImplTy& i) : I(i) {}
bool operator==(const iterator &X) const { return I == X.I; }
bool operator!=(const iterator &X) const { return I != X.I; }
PathDiagnosticPiece& operator*() const { return **I; }
PathDiagnosticPiece *operator->() const { return *I; }
iterator &operator++() { ++I; return *this; }
iterator &operator--() { --I; return *this; }
};
class const_iterator {
public:
typedef std::deque<PathDiagnosticPiece*>::const_iterator ImplTy;
typedef const PathDiagnosticPiece value_type;
typedef value_type& reference;
typedef value_type* pointer;
typedef ptrdiff_t difference_type;
typedef std::bidirectional_iterator_tag iterator_category;
private:
ImplTy I;
public:
const_iterator(const ImplTy& i) : I(i) {}
bool operator==(const const_iterator &X) const { return I == X.I; }
bool operator!=(const const_iterator &X) const { return I != X.I; }
reference operator*() const { return **I; }
pointer operator->() const { return *I; }
const_iterator &operator++() { ++I; return *this; }
const_iterator &operator--() { --I; return *this; }
};
typedef std::reverse_iterator<iterator> reverse_iterator;
typedef std::reverse_iterator<const_iterator> const_reverse_iterator;
// forward iterator creation methods.
iterator begin() { return path.begin(); }
iterator end() { return path.end(); }
const_iterator begin() const { return path.begin(); }
const_iterator end() const { return path.end(); }
// reverse iterator creation methods.
reverse_iterator rbegin() { return reverse_iterator(end()); }
const_reverse_iterator rbegin() const{ return const_reverse_iterator(end()); }
reverse_iterator rend() { return reverse_iterator(begin()); }
const_reverse_iterator rend() const { return const_reverse_iterator(begin());}
void flattenLocations() {
for (iterator I = begin(), E = end(); I != E; ++I) I->flattenLocations();
}
void Profile(llvm::FoldingSetNodeID &ID) const;
};
} // end GR namespace
} //end clang namespace
#endif
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