/// Scan all symbols referenced by the constraints. If the symbol is not alive /// as marked in LSymbols, mark it as dead in DSymbols. const ProgramState* RangeConstraintManager::removeDeadBindings(const ProgramState *state, SymbolReaper& SymReaper) { ConstraintRangeTy CR = state->get<ConstraintRange>(); ConstraintRangeTy::Factory& CRFactory = state->get_context<ConstraintRange>(); for (ConstraintRangeTy::iterator I = CR.begin(), E = CR.end(); I != E; ++I) { SymbolRef sym = I.getKey(); if (SymReaper.maybeDead(sym)) CR = CRFactory.remove(CR, sym); } return state->set<ConstraintRange>(CR); }
/// Scan all symbols referenced by the constraints. If the symbol is not alive /// as marked in LSymbols, mark it as dead in DSymbols. ProgramStateRef RangeConstraintManager::removeDeadBindings(ProgramStateRef State, SymbolReaper &SymReaper) { bool Changed = false; ConstraintRangeTy CR = State->get<ConstraintRange>(); ConstraintRangeTy::Factory &CRFactory = State->get_context<ConstraintRange>(); for (ConstraintRangeTy::iterator I = CR.begin(), E = CR.end(); I != E; ++I) { SymbolRef Sym = I.getKey(); if (SymReaper.maybeDead(Sym)) { Changed = true; CR = CRFactory.remove(CR, Sym); } } return Changed ? State->set<ConstraintRange>(CR) : State; }
void RangeConstraintManager::print(ProgramStateRef St, raw_ostream &Out, const char *nl, const char *sep) { ConstraintRangeTy Ranges = St->get<ConstraintRange>(); if (Ranges.isEmpty()) { Out << nl << sep << "Ranges are empty." << nl; return; } Out << nl << sep << "Ranges of symbol values:"; for (ConstraintRangeTy::iterator I = Ranges.begin(), E = Ranges.end(); I != E; ++I) { Out << nl << ' ' << I.getKey() << " : "; I.getData().print(Out); } Out << nl; }