void ExprEngine::performTrivialCopy(NodeBuilder &Bldr, ExplodedNode *Pred,
const CXXConstructorCall &Call) {
const CXXConstructExpr *CtorExpr = Call.getOriginExpr();
assert(CtorExpr->getConstructor()->isCopyOrMoveConstructor());
assert(CtorExpr->getConstructor()->isTrivial());
SVal ThisVal = Call.getCXXThisVal();
const LocationContext *LCtx = Pred->getLocationContext();
ExplodedNodeSet Dst;
Bldr.takeNodes(Pred);
SVal V = Call.getArgSVal(0);
// Make sure the value being copied is not unknown.
if (const Loc *L = dyn_cast<Loc>(&V))
V = Pred->getState()->getSVal(*L);
evalBind(Dst, CtorExpr, Pred, ThisVal, V, true);
PostStmt PS(CtorExpr, LCtx);
for (ExplodedNodeSet::iterator I = Dst.begin(), E = Dst.end();
I != E; ++I) {
ProgramStateRef State = (*I)->getState();
State = bindReturnValue(Call, LCtx, State);
Bldr.generateNode(PS, State, *I);
}
}
Node Clone(const Node& node)
{
NodeEvents events(node);
NodeBuilder builder;
events.Emit(builder);
return builder.Root();
}
void ExprEngine::defaultEvalCall(NodeBuilder &Bldr, ExplodedNode *Pred,
const CallEvent &Call) {
ProgramStateRef State = 0;
const Expr *E = Call.getOriginExpr();
// Try to inline the call.
// The origin expression here is just used as a kind of checksum;
// for CallEvents that do not have origin expressions, this should still be
// safe.
if (!isa<ObjCMethodCall>(Call)) {
State = getInlineFailedState(Pred->getState(), E);
if (State == 0 && inlineCall(Call, Pred)) {
// If we inlined the call, the successor has been manually added onto
// the work list and we should not consider it for subsequent call
// handling steps.
Bldr.takeNodes(Pred);
return;
}
}
// If we can't inline it, handle the return value and invalidate the regions.
if (State == 0)
State = Pred->getState();
// Invalidate any regions touched by the call.
unsigned Count = currentBuilderContext->getCurrentBlockCount();
State = Call.invalidateRegions(Count, State);
// Construct and bind the return value.
State = bindReturnValue(Call, Pred->getLocationContext(), State);
// And make the result node.
Bldr.generateNode(Call.getProgramPoint(), State, Pred);
}
Node Load(std::istream& input) {
Parser parser(input);
NodeBuilder builder;
if(!parser.HandleNextDocument(builder))
return Node();
return builder.Root();
}
// FIXME: This is the sort of code that should eventually live in a Core
// checker rather than as a special case in ExprEngine.
void ExprEngine::performTrivialCopy(NodeBuilder &Bldr, ExplodedNode *Pred,
const CallEvent &Call) {
SVal ThisVal;
bool AlwaysReturnsLValue;
const CXXRecordDecl *ThisRD = nullptr;
if (const CXXConstructorCall *Ctor = dyn_cast<CXXConstructorCall>(&Call)) {
assert(Ctor->getDecl()->isTrivial());
assert(Ctor->getDecl()->isCopyOrMoveConstructor());
ThisVal = Ctor->getCXXThisVal();
ThisRD = Ctor->getDecl()->getParent();
AlwaysReturnsLValue = false;
} else {
assert(cast<CXXMethodDecl>(Call.getDecl())->isTrivial());
assert(cast<CXXMethodDecl>(Call.getDecl())->getOverloadedOperator() ==
OO_Equal);
ThisVal = cast<CXXInstanceCall>(Call).getCXXThisVal();
ThisRD = cast<CXXMethodDecl>(Call.getDecl())->getParent();
AlwaysReturnsLValue = true;
}
assert(ThisRD);
if (ThisRD->isEmpty()) {
// Do nothing for empty classes. Otherwise it'd retrieve an UnknownVal
// and bind it and RegionStore would think that the actual value
// in this region at this offset is unknown.
return;
}
const LocationContext *LCtx = Pred->getLocationContext();
ExplodedNodeSet Dst;
Bldr.takeNodes(Pred);
SVal V = Call.getArgSVal(0);
// If the value being copied is not unknown, load from its location to get
// an aggregate rvalue.
if (Optional<Loc> L = V.getAs<Loc>())
V = Pred->getState()->getSVal(*L);
else
assert(V.isUnknownOrUndef());
const Expr *CallExpr = Call.getOriginExpr();
evalBind(Dst, CallExpr, Pred, ThisVal, V, true);
PostStmt PS(CallExpr, LCtx);
for (ExplodedNodeSet::iterator I = Dst.begin(), E = Dst.end();
I != E; ++I) {
ProgramStateRef State = (*I)->getState();
if (AlwaysReturnsLValue)
State = State->BindExpr(CallExpr, LCtx, ThisVal);
else
State = bindReturnValue(Call, LCtx, State);
Bldr.generateNode(PS, State, *I);
}
}
std::vector<Node> LoadAll(std::istream& input) {
std::vector<Node> docs;
Parser parser(input);
while(1) {
NodeBuilder builder;
if(!parser.HandleNextDocument(builder))
break;
docs.push_back(builder.Root());
}
return docs;
}
// Conservatively evaluate call by invalidating regions and binding
// a conjured return value.
void ExprEngine::conservativeEvalCall(const CallEvent &Call, NodeBuilder &Bldr,
ExplodedNode *Pred, ProgramStateRef State) {
State = Call.invalidateRegions(currBldrCtx->blockCount(), State);
State = bindReturnValue(Call, Pred->getLocationContext(), State);
// And make the result node.
Bldr.generateNode(Call.getProgramPoint(), State, Pred);
}
// FIXME: This is the sort of code that should eventually live in a Core
// checker rather than as a special case in ExprEngine.
void ExprEngine::performTrivialCopy(NodeBuilder &Bldr, ExplodedNode *Pred,
const CallEvent &Call) {
SVal ThisVal;
bool AlwaysReturnsLValue;
if (const CXXConstructorCall *Ctor = dyn_cast<CXXConstructorCall>(&Call)) {
assert(Ctor->getDecl()->isTrivial());
assert(Ctor->getDecl()->isCopyOrMoveConstructor());
ThisVal = Ctor->getCXXThisVal();
AlwaysReturnsLValue = false;
} else {
assert(cast<CXXMethodDecl>(Call.getDecl())->isTrivial());
assert(cast<CXXMethodDecl>(Call.getDecl())->getOverloadedOperator() ==
OO_Equal);
ThisVal = cast<CXXInstanceCall>(Call).getCXXThisVal();
AlwaysReturnsLValue = true;
}
const LocationContext *LCtx = Pred->getLocationContext();
ExplodedNodeSet Dst;
Bldr.takeNodes(Pred);
SVal V = Call.getArgSVal(0);
// If the value being copied is not unknown, load from its location to get
// an aggregate rvalue.
if (Optional<Loc> L = V.getAs<Loc>())
V = Pred->getState()->getSVal(*L);
else
assert(V.isUnknown());
const Expr *CallExpr = Call.getOriginExpr();
evalBind(Dst, CallExpr, Pred, ThisVal, V, true);
PostStmt PS(CallExpr, LCtx);
for (ExplodedNodeSet::iterator I = Dst.begin(), E = Dst.end();
I != E; ++I) {
ProgramStateRef State = (*I)->getState();
if (AlwaysReturnsLValue)
State = State->BindExpr(CallExpr, LCtx, ThisVal);
else
State = bindReturnValue(Call, LCtx, State);
Bldr.generateNode(PS, State, *I);
}
}
bool ExprEngine::inlineCall(const CallEvent &Call, const Decl *D,
NodeBuilder &Bldr, ExplodedNode *Pred,
ProgramStateRef State) {
assert(D);
const LocationContext *CurLC = Pred->getLocationContext();
const StackFrameContext *CallerSFC = CurLC->getCurrentStackFrame();
const LocationContext *ParentOfCallee = CallerSFC;
if (Call.getKind() == CE_Block &&
!cast<BlockCall>(Call).isConversionFromLambda()) {
const BlockDataRegion *BR = cast<BlockCall>(Call).getBlockRegion();
assert(BR && "If we have the block definition we should have its region");
AnalysisDeclContext *BlockCtx = AMgr.getAnalysisDeclContext(D);
ParentOfCallee = BlockCtx->getBlockInvocationContext(CallerSFC,
cast<BlockDecl>(D),
BR);
}
// This may be NULL, but that's fine.
const Expr *CallE = Call.getOriginExpr();
// Construct a new stack frame for the callee.
AnalysisDeclContext *CalleeADC = AMgr.getAnalysisDeclContext(D);
const StackFrameContext *CalleeSFC =
CalleeADC->getStackFrame(ParentOfCallee, CallE,
currBldrCtx->getBlock(),
currStmtIdx);
CallEnter Loc(CallE, CalleeSFC, CurLC);
// Construct a new state which contains the mapping from actual to
// formal arguments.
State = State->enterStackFrame(Call, CalleeSFC);
bool isNew;
if (ExplodedNode *N = G.getNode(Loc, State, false, &isNew)) {
N->addPredecessor(Pred, G);
if (isNew)
Engine.getWorkList()->enqueue(N);
}
// If we decided to inline the call, the successor has been manually
// added onto the work list so remove it from the node builder.
Bldr.takeNodes(Pred);
NumInlinedCalls++;
Engine.FunctionSummaries->bumpNumTimesInlined(D);
// Mark the decl as visited.
if (VisitedCallees)
VisitedCallees->insert(D);
return true;
}
bool ExprEngine::inlineCall(const CallEvent &Call, const Decl *D,
NodeBuilder &Bldr, ExplodedNode *Pred,
ProgramStateRef State) {
assert(D);
const LocationContext *CurLC = Pred->getLocationContext();
const StackFrameContext *CallerSFC = CurLC->getCurrentStackFrame();
const LocationContext *ParentOfCallee = 0;
const AnalyzerOptions &Opts = getAnalysisManager().options;
// FIXME: Refactor this check into a hypothetical CallEvent::canInline.
switch (Call.getKind()) {
case CE_Function:
break;
case CE_CXXMember:
case CE_CXXMemberOperator:
if (!Opts.mayInlineCXXMemberFunction(CIMK_MemberFunctions))
return false;
break;
case CE_CXXConstructor: {
if (!Opts.mayInlineCXXMemberFunction(CIMK_Constructors))
return false;
const CXXConstructorCall &Ctor = cast<CXXConstructorCall>(Call);
// FIXME: We don't handle constructors or destructors for arrays properly.
const MemRegion *Target = Ctor.getCXXThisVal().getAsRegion();
if (Target && isa<ElementRegion>(Target))
return false;
// FIXME: This is a hack. We don't use the correct region for a new
// expression, so if we inline the constructor its result will just be
// thrown away. This short-term hack is tracked in <rdar://problem/12180598>
// and the longer-term possible fix is discussed in PR12014.
const CXXConstructExpr *CtorExpr = Ctor.getOriginExpr();
if (const Stmt *Parent = CurLC->getParentMap().getParent(CtorExpr))
if (isa<CXXNewExpr>(Parent))
return false;
// Inlining constructors requires including initializers in the CFG.
const AnalysisDeclContext *ADC = CallerSFC->getAnalysisDeclContext();
assert(ADC->getCFGBuildOptions().AddInitializers && "No CFG initializers");
(void)ADC;
// If the destructor is trivial, it's always safe to inline the constructor.
if (Ctor.getDecl()->getParent()->hasTrivialDestructor())
break;
// For other types, only inline constructors if destructor inlining is
// also enabled.
if (!Opts.mayInlineCXXMemberFunction(CIMK_Destructors))
return false;
// FIXME: This is a hack. We don't handle temporary destructors
// right now, so we shouldn't inline their constructors.
if (CtorExpr->getConstructionKind() == CXXConstructExpr::CK_Complete)
if (!Target || !isa<DeclRegion>(Target))
return false;
break;
}
case CE_CXXDestructor: {
if (!Opts.mayInlineCXXMemberFunction(CIMK_Destructors))
return false;
// Inlining destructors requires building the CFG correctly.
const AnalysisDeclContext *ADC = CallerSFC->getAnalysisDeclContext();
assert(ADC->getCFGBuildOptions().AddImplicitDtors && "No CFG destructors");
(void)ADC;
const CXXDestructorCall &Dtor = cast<CXXDestructorCall>(Call);
// FIXME: We don't handle constructors or destructors for arrays properly.
const MemRegion *Target = Dtor.getCXXThisVal().getAsRegion();
if (Target && isa<ElementRegion>(Target))
return false;
break;
}
case CE_CXXAllocator:
// Do not inline allocators until we model deallocators.
// This is unfortunate, but basically necessary for smart pointers and such.
return false;
case CE_Block: {
const BlockDataRegion *BR = cast<BlockCall>(Call).getBlockRegion();
assert(BR && "If we have the block definition we should have its region");
AnalysisDeclContext *BlockCtx = AMgr.getAnalysisDeclContext(D);
ParentOfCallee = BlockCtx->getBlockInvocationContext(CallerSFC,
cast<BlockDecl>(D),
BR);
break;
}
case CE_ObjCMessage:
if (!(getAnalysisManager().options.IPAMode == DynamicDispatch ||
getAnalysisManager().options.IPAMode == DynamicDispatchBifurcate))
return false;
break;
}
if (!shouldInlineDecl(D, Pred))
return false;
if (!ParentOfCallee)
ParentOfCallee = CallerSFC;
// This may be NULL, but that's fine.
const Expr *CallE = Call.getOriginExpr();
// Construct a new stack frame for the callee.
AnalysisDeclContext *CalleeADC = AMgr.getAnalysisDeclContext(D);
const StackFrameContext *CalleeSFC =
CalleeADC->getStackFrame(ParentOfCallee, CallE,
currBldrCtx->getBlock(),
currStmtIdx);
CallEnter Loc(CallE, CalleeSFC, CurLC);
// Construct a new state which contains the mapping from actual to
// formal arguments.
State = State->enterStackFrame(Call, CalleeSFC);
bool isNew;
if (ExplodedNode *N = G.getNode(Loc, State, false, &isNew)) {
N->addPredecessor(Pred, G);
if (isNew)
Engine.getWorkList()->enqueue(N);
}
// If we decided to inline the call, the successor has been manually
// added onto the work list so remove it from the node builder.
Bldr.takeNodes(Pred);
NumInlinedCalls++;
// Mark the decl as visited.
if (VisitedCallees)
VisitedCallees->insert(D);
return true;
}
