//
//===----------------------------------------------------------------------===//
-#ifndef LLVM_CLANG_CFG_H
-#define LLVM_CLANG_CFG_H
+#ifndef LLVM_CLANG_ANALYSIS_CFG_H
+#define LLVM_CLANG_ANALYSIS_CFG_H
-#include "llvm/ADT/PointerIntPair.h"
-#include "llvm/ADT/GraphTraits.h"
-#include "llvm/Support/Allocator.h"
-#include "llvm/Support/Casting.h"
-#include "llvm/ADT/OwningPtr.h"
-#include "llvm/ADT/DenseMap.h"
-#include "llvm/ADT/BitVector.h"
#include "clang/AST/Stmt.h"
#include "clang/Analysis/Support/BumpVector.h"
#include "clang/Basic/SourceLocation.h"
+#include "llvm/ADT/DenseMap.h"
+#include "llvm/ADT/GraphTraits.h"
+#include "llvm/ADT/Optional.h"
+#include "llvm/ADT/PointerIntPair.h"
+#include "llvm/Support/Allocator.h"
+#include "llvm/Support/Casting.h"
+#include "llvm/Support/raw_ostream.h"
+#include <bitset>
#include <cassert>
#include <iterator>
+#include <memory>
namespace clang {
class CXXDestructorDecl;
class PrinterHelper;
class LangOptions;
class ASTContext;
+ class CXXRecordDecl;
+ class CXXDeleteExpr;
+ class CXXNewExpr;
+ class BinaryOperator;
/// CFGElement - Represents a top-level expression in a basic block.
class CFGElement {
public:
enum Kind {
// main kind
- Invalid,
Statement,
Initializer,
+ NewAllocator,
// dtor kind
AutomaticObjectDtor,
+ DeleteDtor,
BaseDtor,
MemberDtor,
TemporaryDtor,
llvm::PointerIntPair<void *, 2> Data1;
llvm::PointerIntPair<void *, 2> Data2;
- CFGElement(Kind kind, const void *Ptr1, const void *Ptr2 = 0)
+ CFGElement(Kind kind, const void *Ptr1, const void *Ptr2 = nullptr)
: Data1(const_cast<void*>(Ptr1), ((unsigned) kind) & 0x3),
- Data2(const_cast<void*>(Ptr2), (((unsigned) kind) >> 2) & 0x3) {}
+ Data2(const_cast<void*>(Ptr2), (((unsigned) kind) >> 2) & 0x3) {
+ assert(getKind() == kind);
+ }
-public:
CFGElement() {}
+public:
+
+ /// \brief Convert to the specified CFGElement type, asserting that this
+ /// CFGElement is of the desired type.
+ template<typename T>
+ T castAs() const {
+ assert(T::isKind(*this));
+ T t;
+ CFGElement& e = t;
+ e = *this;
+ return t;
+ }
+
+ /// \brief Convert to the specified CFGElement type, returning None if this
+ /// CFGElement is not of the desired type.
+ template<typename T>
+ Optional<T> getAs() const {
+ if (!T::isKind(*this))
+ return None;
+ T t;
+ CFGElement& e = t;
+ e = *this;
+ return t;
+ }
- Kind getKind() const {
+ Kind getKind() const {
unsigned x = Data2.getInt();
x <<= 2;
x |= Data1.getInt();
return (Kind) x;
}
-
- bool isValid() const { return getKind() != Invalid; }
-
- operator bool() const { return isValid(); }
-
- template<class ElemTy> const ElemTy *getAs() const {
- if (llvm::isa<ElemTy>(this))
- return static_cast<const ElemTy*>(this);
- return 0;
- }
-
- static bool classof(const CFGElement *E) { return true; }
};
class CFGStmt : public CFGElement {
public:
CFGStmt(Stmt *S) : CFGElement(Statement, S) {}
- Stmt *getStmt() const { return static_cast<Stmt *>(Data1.getPointer()); }
+ const Stmt *getStmt() const {
+ return static_cast<const Stmt *>(Data1.getPointer());
+ }
- static bool classof(const CFGElement *E) {
- return E->getKind() == Statement;
+private:
+ friend class CFGElement;
+ CFGStmt() {}
+ static bool isKind(const CFGElement &E) {
+ return E.getKind() == Statement;
}
};
return static_cast<CXXCtorInitializer*>(Data1.getPointer());
}
- static bool classof(const CFGElement *E) {
- return E->getKind() == Initializer;
+private:
+ friend class CFGElement;
+ CFGInitializer() {}
+ static bool isKind(const CFGElement &E) {
+ return E.getKind() == Initializer;
+ }
+};
+
+/// CFGNewAllocator - Represents C++ allocator call.
+class CFGNewAllocator : public CFGElement {
+public:
+ explicit CFGNewAllocator(const CXXNewExpr *S)
+ : CFGElement(NewAllocator, S) {}
+
+ // Get the new expression.
+ const CXXNewExpr *getAllocatorExpr() const {
+ return static_cast<CXXNewExpr *>(Data1.getPointer());
+ }
+
+private:
+ friend class CFGElement;
+ CFGNewAllocator() {}
+ static bool isKind(const CFGElement &elem) {
+ return elem.getKind() == NewAllocator;
}
};
/// by compiler on various occasions.
class CFGImplicitDtor : public CFGElement {
protected:
- CFGImplicitDtor(Kind kind, const void *data1, const void *data2 = 0)
+ CFGImplicitDtor() {}
+ CFGImplicitDtor(Kind kind, const void *data1, const void *data2 = nullptr)
: CFGElement(kind, data1, data2) {
- assert(kind >= DTOR_BEGIN && kind <= DTOR_END);
+ assert(kind >= DTOR_BEGIN && kind <= DTOR_END);
}
public:
const CXXDestructorDecl *getDestructorDecl(ASTContext &astContext) const;
bool isNoReturn(ASTContext &astContext) const;
- static bool classof(const CFGElement *E) {
- Kind kind = E->getKind();
+private:
+ friend class CFGElement;
+ static bool isKind(const CFGElement &E) {
+ Kind kind = E.getKind();
return kind >= DTOR_BEGIN && kind <= DTOR_END;
}
};
return static_cast<Stmt*>(Data2.getPointer());
}
- static bool classof(const CFGElement *elem) {
- return elem->getKind() == AutomaticObjectDtor;
+private:
+ friend class CFGElement;
+ CFGAutomaticObjDtor() {}
+ static bool isKind(const CFGElement &elem) {
+ return elem.getKind() == AutomaticObjectDtor;
+ }
+};
+
+/// CFGDeleteDtor - Represents C++ object destructor generated
+/// from a call to delete.
+class CFGDeleteDtor : public CFGImplicitDtor {
+public:
+ CFGDeleteDtor(const CXXRecordDecl *RD, const CXXDeleteExpr *DE)
+ : CFGImplicitDtor(DeleteDtor, RD, DE) {}
+
+ const CXXRecordDecl *getCXXRecordDecl() const {
+ return static_cast<CXXRecordDecl*>(Data1.getPointer());
+ }
+
+ // Get Delete expression which triggered the destructor call.
+ const CXXDeleteExpr *getDeleteExpr() const {
+ return static_cast<CXXDeleteExpr *>(Data2.getPointer());
+ }
+
+
+private:
+ friend class CFGElement;
+ CFGDeleteDtor() {}
+ static bool isKind(const CFGElement &elem) {
+ return elem.getKind() == DeleteDtor;
}
};
return static_cast<const CXXBaseSpecifier*>(Data1.getPointer());
}
- static bool classof(const CFGElement *E) {
- return E->getKind() == BaseDtor;
+private:
+ friend class CFGElement;
+ CFGBaseDtor() {}
+ static bool isKind(const CFGElement &E) {
+ return E.getKind() == BaseDtor;
}
};
class CFGMemberDtor : public CFGImplicitDtor {
public:
CFGMemberDtor(const FieldDecl *field)
- : CFGImplicitDtor(MemberDtor, field, 0) {}
+ : CFGImplicitDtor(MemberDtor, field, nullptr) {}
const FieldDecl *getFieldDecl() const {
return static_cast<const FieldDecl*>(Data1.getPointer());
}
- static bool classof(const CFGElement *E) {
- return E->getKind() == MemberDtor;
+private:
+ friend class CFGElement;
+ CFGMemberDtor() {}
+ static bool isKind(const CFGElement &E) {
+ return E.getKind() == MemberDtor;
}
};
class CFGTemporaryDtor : public CFGImplicitDtor {
public:
CFGTemporaryDtor(CXXBindTemporaryExpr *expr)
- : CFGImplicitDtor(TemporaryDtor, expr, 0) {}
+ : CFGImplicitDtor(TemporaryDtor, expr, nullptr) {}
const CXXBindTemporaryExpr *getBindTemporaryExpr() const {
return static_cast<const CXXBindTemporaryExpr *>(Data1.getPointer());
}
- static bool classof(const CFGElement *E) {
- return E->getKind() == TemporaryDtor;
+private:
+ friend class CFGElement;
+ CFGTemporaryDtor() {}
+ static bool isKind(const CFGElement &E) {
+ return E.getKind() == TemporaryDtor;
}
};
Stmt &operator*() { return *getStmt(); }
const Stmt &operator*() const { return *getStmt(); }
- operator bool() const { return getStmt(); }
+ LLVM_EXPLICIT operator bool() const { return getStmt(); }
};
/// CFGBlock - Represents a single basic block in a source-level CFG.
ImplTy Impl;
public:
ElementList(BumpVectorContext &C) : Impl(C, 4) {}
-
+
typedef std::reverse_iterator<ImplTy::iterator> iterator;
typedef std::reverse_iterator<ImplTy::const_iterator> const_iterator;
typedef ImplTy::iterator reverse_iterator;
- typedef ImplTy::const_iterator const_reverse_iterator;
-
+ typedef ImplTy::const_iterator const_reverse_iterator;
+ typedef ImplTy::const_reference const_reference;
+
void push_back(CFGElement e, BumpVectorContext &C) { Impl.push_back(e, C); }
reverse_iterator insert(reverse_iterator I, size_t Cnt, CFGElement E,
BumpVectorContext &C) {
return Impl.insert(I, Cnt, E, C);
}
- CFGElement front() const { return Impl.back(); }
- CFGElement back() const { return Impl.front(); }
-
+ const_reference front() const { return Impl.back(); }
+ const_reference back() const { return Impl.front(); }
+
iterator begin() { return Impl.rbegin(); }
iterator end() { return Impl.rend(); }
const_iterator begin() const { return Impl.rbegin(); }
assert(i < Impl.size());
return Impl[Impl.size() - 1 - i];
}
-
+
size_t size() const { return Impl.size(); }
bool empty() const { return Impl.empty(); }
};
/// of the CFG.
unsigned BlockID;
+public:
+ /// This class represents a potential adjacent block in the CFG. It encodes
+ /// whether or not the block is actually reachable, or can be proved to be
+ /// trivially unreachable. For some cases it allows one to encode scenarios
+ /// where a block was substituted because the original (now alternate) block
+ /// is unreachable.
+ class AdjacentBlock {
+ enum Kind {
+ AB_Normal,
+ AB_Unreachable,
+ AB_Alternate
+ };
+
+ CFGBlock *ReachableBlock;
+ llvm::PointerIntPair<CFGBlock*, 2> UnreachableBlock;
+
+ public:
+ /// Construct an AdjacentBlock with a possibly unreachable block.
+ AdjacentBlock(CFGBlock *B, bool IsReachable);
+
+ /// Construct an AdjacentBlock with a reachable block and an alternate
+ /// unreachable block.
+ AdjacentBlock(CFGBlock *B, CFGBlock *AlternateBlock);
+
+ /// Get the reachable block, if one exists.
+ CFGBlock *getReachableBlock() const {
+ return ReachableBlock;
+ }
+
+ /// Get the potentially unreachable block.
+ CFGBlock *getPossiblyUnreachableBlock() const {
+ return UnreachableBlock.getPointer();
+ }
+
+ /// Provide an implicit conversion to CFGBlock* so that
+ /// AdjacentBlock can be substituted for CFGBlock*.
+ operator CFGBlock*() const {
+ return getReachableBlock();
+ }
+
+ CFGBlock& operator *() const {
+ return *getReachableBlock();
+ }
+
+ CFGBlock* operator ->() const {
+ return getReachableBlock();
+ }
+
+ bool isReachable() const {
+ Kind K = (Kind) UnreachableBlock.getInt();
+ return K == AB_Normal || K == AB_Alternate;
+ }
+ };
+
+private:
/// Predecessors/Successors - Keep track of the predecessor / successor
/// CFG blocks.
- typedef BumpVector<CFGBlock*> AdjacentBlocks;
+ typedef BumpVector<AdjacentBlock> AdjacentBlocks;
AdjacentBlocks Preds;
AdjacentBlocks Succs;
+ /// NoReturn - This bit is set when the basic block contains a function call
+ /// or implicit destructor that is attributed as 'noreturn'. In that case,
+ /// control cannot technically ever proceed past this block. All such blocks
+ /// will have a single immediate successor: the exit block. This allows them
+ /// to be easily reached from the exit block and using this bit quickly
+ /// recognized without scanning the contents of the block.
+ ///
+ /// Optimization Note: This bit could be profitably folded with Terminator's
+ /// storage if the memory usage of CFGBlock becomes an issue.
+ unsigned HasNoReturnElement : 1;
+
+ /// Parent - The parent CFG that owns this CFGBlock.
+ CFG *Parent;
+
public:
- explicit CFGBlock(unsigned blockid, BumpVectorContext &C)
- : Elements(C), Label(NULL), Terminator(NULL), LoopTarget(NULL),
- BlockID(blockid), Preds(C, 1), Succs(C, 1) {}
+ explicit CFGBlock(unsigned blockid, BumpVectorContext &C, CFG *parent)
+ : Elements(C), Label(nullptr), Terminator(nullptr), LoopTarget(nullptr),
+ BlockID(blockid), Preds(C, 1), Succs(C, 1), HasNoReturnElement(false),
+ Parent(parent) {}
~CFGBlock() {}
// Statement iterators
class FilterOptions {
public:
FilterOptions() {
+ IgnoreNullPredecessors = 1;
IgnoreDefaultsWithCoveredEnums = 0;
}
+ unsigned IgnoreNullPredecessors : 1;
unsigned IgnoreDefaultsWithCoveredEnums : 1;
};
IMPL I, E;
const FilterOptions F;
const CFGBlock *From;
- public:
+ public:
explicit FilteredCFGBlockIterator(const IMPL &i, const IMPL &e,
- const CFGBlock *from,
- const FilterOptions &f)
- : I(i), E(e), F(f), From(from) {}
+ const CFGBlock *from,
+ const FilterOptions &f)
+ : I(i), E(e), F(f), From(from) {
+ while (hasMore() && Filter(*I))
+ ++I;
+ }
bool hasMore() const { return I != E; }
// Manipulation of block contents
- void setTerminator(Stmt *Statement) { Terminator = Statement; }
+ void setTerminator(CFGTerminator Term) { Terminator = Term; }
void setLabel(Stmt *Statement) { Label = Statement; }
void setLoopTarget(const Stmt *loopTarget) { LoopTarget = loopTarget; }
+ void setHasNoReturnElement() { HasNoReturnElement = true; }
CFGTerminator getTerminator() { return Terminator; }
const CFGTerminator getTerminator() const { return Terminator; }
- Stmt *getTerminatorCondition();
+ Stmt *getTerminatorCondition(bool StripParens = true);
- const Stmt *getTerminatorCondition() const {
- return const_cast<CFGBlock*>(this)->getTerminatorCondition();
+ const Stmt *getTerminatorCondition(bool StripParens = true) const {
+ return const_cast<CFGBlock*>(this)->getTerminatorCondition(StripParens);
}
const Stmt *getLoopTarget() const { return LoopTarget; }
Stmt *getLabel() { return Label; }
const Stmt *getLabel() const { return Label; }
+ bool hasNoReturnElement() const { return HasNoReturnElement; }
+
unsigned getBlockID() const { return BlockID; }
- void dump(const CFG *cfg, const LangOptions &LO) const;
- void print(raw_ostream &OS, const CFG* cfg, const LangOptions &LO) const;
+ CFG *getParent() const { return Parent; }
+
+ void dump() const;
+
+ void dump(const CFG *cfg, const LangOptions &LO, bool ShowColors = false) const;
+ void print(raw_ostream &OS, const CFG* cfg, const LangOptions &LO,
+ bool ShowColors) const;
void printTerminator(raw_ostream &OS, const LangOptions &LO) const;
-
- void addSuccessor(CFGBlock *Block, BumpVectorContext &C) {
- if (Block)
- Block->Preds.push_back(this, C);
- Succs.push_back(Block, C);
+ void printAsOperand(raw_ostream &OS, bool /*PrintType*/) {
+ OS << "BB#" << getBlockID();
}
-
+
+ /// Adds a (potentially unreachable) successor block to the current block.
+ void addSuccessor(AdjacentBlock Succ, BumpVectorContext &C);
+
void appendStmt(Stmt *statement, BumpVectorContext &C) {
Elements.push_back(CFGStmt(statement), C);
}
Elements.push_back(CFGInitializer(initializer), C);
}
+ void appendNewAllocator(CXXNewExpr *NE,
+ BumpVectorContext &C) {
+ Elements.push_back(CFGNewAllocator(NE), C);
+ }
+
void appendBaseDtor(const CXXBaseSpecifier *BS, BumpVectorContext &C) {
Elements.push_back(CFGBaseDtor(BS), C);
}
void appendMemberDtor(FieldDecl *FD, BumpVectorContext &C) {
Elements.push_back(CFGMemberDtor(FD), C);
}
-
+
void appendTemporaryDtor(CXXBindTemporaryExpr *E, BumpVectorContext &C) {
Elements.push_back(CFGTemporaryDtor(E), C);
}
+ void appendAutomaticObjDtor(VarDecl *VD, Stmt *S, BumpVectorContext &C) {
+ Elements.push_back(CFGAutomaticObjDtor(VD, S), C);
+ }
+
+ void appendDeleteDtor(CXXRecordDecl *RD, CXXDeleteExpr *DE, BumpVectorContext &C) {
+ Elements.push_back(CFGDeleteDtor(RD, DE), C);
+ }
+
// Destructors must be inserted in reversed order. So insertion is in two
// steps. First we prepare space for some number of elements, then we insert
// the elements beginning at the last position in prepared space.
iterator beginAutomaticObjDtorsInsert(iterator I, size_t Cnt,
BumpVectorContext &C) {
- return iterator(Elements.insert(I.base(), Cnt, CFGElement(), C));
+ return iterator(Elements.insert(I.base(), Cnt,
+ CFGAutomaticObjDtor(nullptr, 0), C));
}
iterator insertAutomaticObjDtor(iterator I, VarDecl *VD, Stmt *S) {
*I = CFGAutomaticObjDtor(VD, S);
}
};
+/// \brief CFGCallback defines methods that should be called when a logical
+/// operator error is found when building the CFG.
+class CFGCallback {
+public:
+ CFGCallback() {}
+ virtual void compareAlwaysTrue(const BinaryOperator *B, bool isAlwaysTrue) {}
+ virtual void compareBitwiseEquality(const BinaryOperator *B,
+ bool isAlwaysTrue) {}
+ virtual ~CFGCallback() {}
+};
+
/// CFG - Represents a source-level, intra-procedural CFG that represents the
/// control-flow of a Stmt. The Stmt can represent an entire function body,
/// or a single expression. A CFG will always contain one empty block that
//===--------------------------------------------------------------------===//
class BuildOptions {
- llvm::BitVector alwaysAddMask;
+ std::bitset<Stmt::lastStmtConstant> alwaysAddMask;
public:
typedef llvm::DenseMap<const Stmt *, const CFGBlock*> ForcedBlkExprs;
- ForcedBlkExprs **forcedBlkExprs;
-
+ ForcedBlkExprs **forcedBlkExprs;
+ CFGCallback *Observer;
bool PruneTriviallyFalseEdges;
bool AddEHEdges;
bool AddInitializers;
bool AddImplicitDtors;
-
+ bool AddTemporaryDtors;
+ bool AddStaticInitBranches;
+ bool AddCXXNewAllocator;
+
bool alwaysAdd(const Stmt *stmt) const {
return alwaysAddMask[stmt->getStmtClass()];
}
-
+
BuildOptions &setAlwaysAdd(Stmt::StmtClass stmtClass, bool val = true) {
alwaysAddMask[stmtClass] = val;
return *this;
}
-
+
BuildOptions &setAllAlwaysAdd() {
alwaysAddMask.set();
return *this;
}
BuildOptions()
- : alwaysAddMask(Stmt::lastStmtConstant, false)
- ,forcedBlkExprs(0), PruneTriviallyFalseEdges(true)
- ,AddEHEdges(false)
- ,AddInitializers(false)
- ,AddImplicitDtors(false) {}
+ : forcedBlkExprs(nullptr), Observer(nullptr),
+ PruneTriviallyFalseEdges(true), AddEHEdges(false),
+ AddInitializers(false), AddImplicitDtors(false),
+ AddTemporaryDtors(false), AddStaticInitBranches(false),
+ AddCXXNewAllocator(false) {}
+ };
+
+ /// \brief Provides a custom implementation of the iterator class to have the
+ /// same interface as Function::iterator - iterator returns CFGBlock
+ /// (not a pointer to CFGBlock).
+ class graph_iterator {
+ public:
+ typedef const CFGBlock value_type;
+ typedef value_type& reference;
+ typedef value_type* pointer;
+ typedef BumpVector<CFGBlock*>::iterator ImplTy;
+
+ graph_iterator(const ImplTy &i) : I(i) {}
+
+ bool operator==(const graph_iterator &X) const { return I == X.I; }
+ bool operator!=(const graph_iterator &X) const { return I != X.I; }
+
+ reference operator*() const { return **I; }
+ pointer operator->() const { return *I; }
+ operator CFGBlock* () { return *I; }
+
+ graph_iterator &operator++() { ++I; return *this; }
+ graph_iterator &operator--() { --I; return *this; }
+
+ private:
+ ImplTy I;
+ };
+
+ class const_graph_iterator {
+ public:
+ typedef const CFGBlock value_type;
+ typedef value_type& reference;
+ typedef value_type* pointer;
+ typedef BumpVector<CFGBlock*>::const_iterator ImplTy;
+
+ const_graph_iterator(const ImplTy &i) : I(i) {}
+
+ bool operator==(const const_graph_iterator &X) const { return I == X.I; }
+ bool operator!=(const const_graph_iterator &X) const { return I != X.I; }
+
+ reference operator*() const { return **I; }
+ pointer operator->() const { return *I; }
+ operator CFGBlock* () const { return *I; }
+
+ const_graph_iterator &operator++() { ++I; return *this; }
+ const_graph_iterator &operator--() { --I; return *this; }
+
+ private:
+ ImplTy I;
};
/// buildCFG - Builds a CFG from an AST. The responsibility to free the
// Block Iterators
//===--------------------------------------------------------------------===//
- typedef BumpVector<CFGBlock*> CFGBlockListTy;
+ typedef BumpVector<CFGBlock*> CFGBlockListTy;
typedef CFGBlockListTy::iterator iterator;
typedef CFGBlockListTy::const_iterator const_iterator;
typedef std::reverse_iterator<iterator> reverse_iterator;
const_iterator begin() const { return Blocks.begin(); }
const_iterator end() const { return Blocks.end(); }
+ graph_iterator nodes_begin() { return graph_iterator(Blocks.begin()); }
+ graph_iterator nodes_end() { return graph_iterator(Blocks.end()); }
+ const_graph_iterator nodes_begin() const {
+ return const_graph_iterator(Blocks.begin());
+ }
+ const_graph_iterator nodes_end() const {
+ return const_graph_iterator(Blocks.end());
+ }
+
reverse_iterator rbegin() { return Blocks.rbegin(); }
reverse_iterator rend() { return Blocks.rend(); }
const_reverse_iterator rbegin() const { return Blocks.rbegin(); }
CFGBlock * getIndirectGotoBlock() { return IndirectGotoBlock; }
const CFGBlock * getIndirectGotoBlock() const { return IndirectGotoBlock; }
+ typedef std::vector<const CFGBlock*>::const_iterator try_block_iterator;
+ try_block_iterator try_blocks_begin() const {
+ return TryDispatchBlocks.begin();
+ }
+ try_block_iterator try_blocks_end() const {
+ return TryDispatchBlocks.end();
+ }
+
+ void addTryDispatchBlock(const CFGBlock *block) {
+ TryDispatchBlocks.push_back(block);
+ }
+
+ /// Records a synthetic DeclStmt and the DeclStmt it was constructed from.
+ ///
+ /// The CFG uses synthetic DeclStmts when a single AST DeclStmt contains
+ /// multiple decls.
+ void addSyntheticDeclStmt(const DeclStmt *Synthetic,
+ const DeclStmt *Source) {
+ assert(Synthetic->isSingleDecl() && "Can handle single declarations only");
+ assert(Synthetic != Source && "Don't include original DeclStmts in map");
+ assert(!SyntheticDeclStmts.count(Synthetic) && "Already in map");
+ SyntheticDeclStmts[Synthetic] = Source;
+ }
+
+ typedef llvm::DenseMap<const DeclStmt *, const DeclStmt *>::const_iterator
+ synthetic_stmt_iterator;
+
+ /// Iterates over synthetic DeclStmts in the CFG.
+ ///
+ /// Each element is a (synthetic statement, source statement) pair.
+ ///
+ /// \sa addSyntheticDeclStmt
+ synthetic_stmt_iterator synthetic_stmt_begin() const {
+ return SyntheticDeclStmts.begin();
+ }
+
+ /// \sa synthetic_stmt_begin
+ synthetic_stmt_iterator synthetic_stmt_end() const {
+ return SyntheticDeclStmts.end();
+ }
+
//===--------------------------------------------------------------------===//
// Member templates useful for various batch operations over CFGs.
//===--------------------------------------------------------------------===//
for (const_iterator I=begin(), E=end(); I != E; ++I)
for (CFGBlock::const_iterator BI=(*I)->begin(), BE=(*I)->end();
BI != BE; ++BI) {
- if (const CFGStmt *stmt = BI->getAs<CFGStmt>())
- O(stmt->getStmt());
+ if (Optional<CFGStmt> stmt = BI->getAs<CFGStmt>())
+ O(const_cast<Stmt*>(stmt->getStmt()));
}
}
// CFG Introspection.
//===--------------------------------------------------------------------===//
- struct BlkExprNumTy {
- const signed Idx;
- explicit BlkExprNumTy(signed idx) : Idx(idx) {}
- explicit BlkExprNumTy() : Idx(-1) {}
- operator bool() const { return Idx >= 0; }
- operator unsigned() const { assert(Idx >=0); return (unsigned) Idx; }
- };
-
- bool isBlkExpr(const Stmt *S) { return getBlkExprNum(S); }
- bool isBlkExpr(const Stmt *S) const {
- return const_cast<CFG*>(this)->isBlkExpr(S);
- }
- BlkExprNumTy getBlkExprNum(const Stmt *S);
- unsigned getNumBlkExprs();
-
/// getNumBlockIDs - Returns the total number of BlockIDs allocated (which
/// start at 0).
unsigned getNumBlockIDs() const { return NumBlockIDs; }
+ /// size - Return the total number of CFGBlocks within the CFG
+ /// This is simply a renaming of the getNumBlockIDs(). This is necessary
+ /// because the dominator implementation needs such an interface.
+ unsigned size() const { return NumBlockIDs; }
+
//===--------------------------------------------------------------------===//
// CFG Debugging: Pretty-Printing and Visualization.
//===--------------------------------------------------------------------===//
void viewCFG(const LangOptions &LO) const;
- void print(raw_ostream &OS, const LangOptions &LO) const;
- void dump(const LangOptions &LO) const;
+ void print(raw_ostream &OS, const LangOptions &LO, bool ShowColors) const;
+ void dump(const LangOptions &LO, bool ShowColors) const;
//===--------------------------------------------------------------------===//
// Internal: constructors and data.
//===--------------------------------------------------------------------===//
- CFG() : Entry(NULL), Exit(NULL), IndirectGotoBlock(NULL), NumBlockIDs(0),
- BlkExprMap(NULL), Blocks(BlkBVC, 10) {}
-
- ~CFG();
+ CFG()
+ : Entry(nullptr), Exit(nullptr), IndirectGotoBlock(nullptr), NumBlockIDs(0),
+ Blocks(BlkBVC, 10) {}
llvm::BumpPtrAllocator& getAllocator() {
return BlkBVC.getAllocator();
}
-
+
BumpVectorContext &getBumpVectorContext() {
return BlkBVC;
}
// for indirect gotos
unsigned NumBlockIDs;
- // BlkExprMap - An opaque pointer to prevent inclusion of DenseMap.h.
- // It represents a map from Expr* to integers to record the set of
- // block-level expressions and their "statement number" in the CFG.
- void * BlkExprMap;
-
BumpVectorContext BlkBVC;
-
+
CFGBlockListTy Blocks;
+ /// C++ 'try' statements are modeled with an indirect dispatch block.
+ /// This is the collection of such blocks present in the CFG.
+ std::vector<const CFGBlock *> TryDispatchBlocks;
+
+ /// Collects DeclStmts synthesized for this CFG and maps each one back to its
+ /// source DeclStmt.
+ llvm::DenseMap<const DeclStmt *, const DeclStmt *> SyntheticDeclStmts;
};
} // end namespace clang
/// Implement simplify_type for CFGTerminator, so that we can dyn_cast from
/// CFGTerminator to a specific Stmt class.
-template <> struct simplify_type<const ::clang::CFGTerminator> {
- typedef const ::clang::Stmt *SimpleType;
- static SimpleType getSimplifiedValue(const ::clang::CFGTerminator &Val) {
- return Val.getStmt();
- }
-};
-
template <> struct simplify_type< ::clang::CFGTerminator> {
typedef ::clang::Stmt *SimpleType;
- static SimpleType getSimplifiedValue(const ::clang::CFGTerminator &Val) {
- return const_cast<SimpleType>(Val.getStmt());
+ static SimpleType getSimplifiedValue(::clang::CFGTerminator Val) {
+ return Val.getStmt();
}
};
{ return N->succ_end(); }
};
+template <> struct GraphTraits<Inverse< ::clang::CFGBlock*> > {
+ typedef ::clang::CFGBlock NodeType;
+ typedef ::clang::CFGBlock::const_pred_iterator ChildIteratorType;
+
+ static NodeType *getEntryNode(Inverse< ::clang::CFGBlock*> G)
+ { return G.Graph; }
+
+ static inline ChildIteratorType child_begin(NodeType* N)
+ { return N->pred_begin(); }
+
+ static inline ChildIteratorType child_end(NodeType* N)
+ { return N->pred_end(); }
+};
+
template <> struct GraphTraits<Inverse<const ::clang::CFGBlock*> > {
typedef const ::clang::CFGBlock NodeType;
typedef ::clang::CFGBlock::const_pred_iterator ChildIteratorType;
template <> struct GraphTraits< ::clang::CFG* >
: public GraphTraits< ::clang::CFGBlock *> {
- typedef ::clang::CFG::iterator nodes_iterator;
+ typedef ::clang::CFG::graph_iterator nodes_iterator;
- static NodeType *getEntryNode(::clang::CFG* F) { return &F->getEntry(); }
- static nodes_iterator nodes_begin(::clang::CFG* F) { return F->begin(); }
- static nodes_iterator nodes_end(::clang::CFG* F) { return F->end(); }
+ static NodeType *getEntryNode(::clang::CFG* F) { return &F->getEntry(); }
+ static nodes_iterator nodes_begin(::clang::CFG* F) { return F->nodes_begin();}
+ static nodes_iterator nodes_end(::clang::CFG* F) { return F->nodes_end(); }
+ static unsigned size(::clang::CFG* F) { return F->size(); }
};
template <> struct GraphTraits<const ::clang::CFG* >
: public GraphTraits<const ::clang::CFGBlock *> {
- typedef ::clang::CFG::const_iterator nodes_iterator;
+ typedef ::clang::CFG::const_graph_iterator nodes_iterator;
static NodeType *getEntryNode( const ::clang::CFG* F) {
return &F->getEntry();
}
static nodes_iterator nodes_begin( const ::clang::CFG* F) {
- return F->begin();
+ return F->nodes_begin();
}
static nodes_iterator nodes_end( const ::clang::CFG* F) {
- return F->end();
+ return F->nodes_end();
}
+ static unsigned size(const ::clang::CFG* F) {
+ return F->size();
+ }
+};
+
+template <> struct GraphTraits<Inverse< ::clang::CFG*> >
+ : public GraphTraits<Inverse< ::clang::CFGBlock*> > {
+
+ typedef ::clang::CFG::graph_iterator nodes_iterator;
+
+ static NodeType *getEntryNode( ::clang::CFG* F) { return &F->getExit(); }
+ static nodes_iterator nodes_begin( ::clang::CFG* F) {return F->nodes_begin();}
+ static nodes_iterator nodes_end( ::clang::CFG* F) { return F->nodes_end(); }
};
template <> struct GraphTraits<Inverse<const ::clang::CFG*> >
: public GraphTraits<Inverse<const ::clang::CFGBlock*> > {
- typedef ::clang::CFG::const_iterator nodes_iterator;
+ typedef ::clang::CFG::const_graph_iterator nodes_iterator;
static NodeType *getEntryNode(const ::clang::CFG* F) { return &F->getExit(); }
- static nodes_iterator nodes_begin(const ::clang::CFG* F) { return F->begin();}
- static nodes_iterator nodes_end(const ::clang::CFG* F) { return F->end(); }
+ static nodes_iterator nodes_begin(const ::clang::CFG* F) {
+ return F->nodes_begin();
+ }
+ static nodes_iterator nodes_end(const ::clang::CFG* F) {
+ return F->nodes_end();
+ }
};
} // end llvm namespace
#endif