//===- GraphChecker.cpp - Assert that various graph properties hold -------===// // // The LLVM Compiler Infrastructure // // This file was developed by the LLVM research group and is distributed under // the University of Illinois Open Source License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// // // This pass is used to test DSA with regression tests. It can be used to check // that certain graph properties hold, such as two nodes being disjoint, whether // or not a node is collapsed, etc. These are the command line arguments that // it supports: // // --dsgc-dsapass={local,bu,td} - Specify what flavor of graph to check // --dsgc-abort-if-any-collapsed - Abort if any collapsed nodes are found // --dsgc-abort-if-collapsed= - Abort if a node pointed to by an SSA // value with name in is collapsed // --dsgc-check-flags= - Abort if the specified nodes have flags // that are not specified. // --dsgc-abort-if-merged= - Abort if any of the named SSA values // point to the same node. // //===----------------------------------------------------------------------===// #include "llvm/Analysis/DataStructure.h" #include "llvm/Analysis/DSGraph.h" #include "Support/CommandLine.h" #include "llvm/Value.h" #include using namespace llvm; namespace { enum DSPass { local, bu, td }; cl::opt DSPass("dsgc-dspass", cl::Hidden, cl::desc("Specify which DSA pass the -datastructure-gc pass should use"), cl::values(clEnumVal(local, "Local pass"), clEnumVal(bu, "Bottom-up pass"), clEnumVal(td, "Top-down pass"), 0), cl::init(local)); cl::opt AbortIfAnyCollapsed("dsgc-abort-if-any-collapsed", cl::Hidden, cl::desc("Abort if any collapsed nodes are found")); cl::list AbortIfCollapsed("dsgc-abort-if-collapsed", cl::Hidden, cl::CommaSeparated, cl::desc("Abort if any of the named symbols is collapsed")); cl::list CheckFlags("dsgc-check-flags", cl::Hidden, cl::CommaSeparated, cl::desc("Check that flags are specified for nodes")); cl::list AbortIfMerged("dsgc-abort-if-merged", cl::Hidden, cl::CommaSeparated, cl::desc("Abort if any of the named symbols are merged together")); struct DSGC : public FunctionPass { DSGC(); bool doFinalization(Module &M); bool runOnFunction(Function &F); virtual void getAnalysisUsage(AnalysisUsage &AU) const { switch (DSPass) { case local: AU.addRequired(); break; case bu: AU.addRequired(); break; case td: AU.addRequired(); break; } AU.setPreservesAll(); } void print(std::ostream &O, const Module *M) const {} private: void verify(const DSGraph &G); }; RegisterAnalysis X("datastructure-gc", "DSA Graph Checking Pass"); } DSGC::DSGC() { if (!AbortIfAnyCollapsed && AbortIfCollapsed.empty() && CheckFlags.empty() && AbortIfMerged.empty()) { std::cerr << "The -datastructure-gc is useless if you don't specify any" " -dsgc-* options. See the -help-hidden output for a list.\n"; abort(); } } /// doFinalization - Verify that the globals graph is in good shape... /// bool DSGC::doFinalization(Module &M) { switch (DSPass) { case local:verify(getAnalysis().getGlobalsGraph());break; case bu: verify(getAnalysis().getGlobalsGraph()); break; case td: verify(getAnalysis().getGlobalsGraph()); break; } return false; } /// runOnFunction - Get the DSGraph for this function and verify that it is ok. /// bool DSGC::runOnFunction(Function &F) { switch (DSPass) { case local: verify(getAnalysis().getDSGraph(F)); break; case bu: verify(getAnalysis().getDSGraph(F)); break; case td: verify(getAnalysis().getDSGraph(F)); break; } return false; } /// verify - This is the function which checks to make sure that all of the /// invariants established on the command line are true. /// void DSGC::verify(const DSGraph &G) { // Loop over all of the nodes, checking to see if any are collapsed... if (AbortIfAnyCollapsed) { const std::vector &Nodes = G.getNodes(); for (unsigned i = 0, e = Nodes.size(); i != e; ++i) if (Nodes[i]->isNodeCompletelyFolded()) { std::cerr << "Node is collapsed: "; Nodes[i]->print(std::cerr, &G); abort(); } } if (!AbortIfCollapsed.empty() || !CheckFlags.empty() || !AbortIfMerged.empty()) { // Convert from a list to a set, because we don't have cl::set's yet. FIXME std::set AbortIfCollapsedS(AbortIfCollapsed.begin(), AbortIfCollapsed.end()); std::set AbortIfMergedS(AbortIfMerged.begin(), AbortIfMerged.end()); std::map CheckFlagsM; for (cl::list::iterator I = CheckFlags.begin(), E = CheckFlags.end(); I != E; ++I) { std::string::size_type ColonPos = I->rfind(':'); if (ColonPos == std::string::npos) { std::cerr << "Error: '" << *I << "' is an invalid value for the --dsgc-check-flags option!\n"; abort(); } unsigned Flags = 0; for (unsigned C = ColonPos+1; C != I->size(); ++C) switch ((*I)[C]) { case 'S': Flags |= DSNode::AllocaNode; break; case 'H': Flags |= DSNode::HeapNode; break; case 'G': Flags |= DSNode::GlobalNode; break; case 'U': Flags |= DSNode::UnknownNode; break; case 'I': Flags |= DSNode::Incomplete; break; case 'M': Flags |= DSNode::Modified; break; case 'R': Flags |= DSNode::Read; break; case 'A': Flags |= DSNode::Array; break; default: std::cerr << "Invalid DSNode flag!\n"; abort(); } CheckFlagsM[std::string(I->begin(), I->begin()+ColonPos)] = Flags; } // Now we loop over all of the scalars, checking to see if any are collapsed // that are not supposed to be, or if any are merged together. const DSGraph::ScalarMapTy &SM = G.getScalarMap(); std::map AbortIfMergedNodes; for (DSGraph::ScalarMapTy::const_iterator I = SM.begin(), E = SM.end(); I != E; ++I) if (I->first->hasName() && I->second.getNode()) { const std::string &Name = I->first->getName(); DSNode *N = I->second.getNode(); // Verify it is not collapsed if it is not supposed to be... if (N->isNodeCompletelyFolded() && AbortIfCollapsedS.count(Name)) { std::cerr << "Node for value '%" << Name << "' is collapsed: "; N->print(std::cerr, &G); abort(); } if (CheckFlagsM.count(Name) && CheckFlagsM[Name] != N->getNodeFlags()) { std::cerr << "Node flags are not as expected for node: " << Name << "\n"; N->print(std::cerr, &G); abort(); } // Verify that it is not merged if it is not supposed to be... if (AbortIfMergedS.count(Name)) { if (AbortIfMergedNodes.count(N)) { std::cerr << "Nodes for values '%" << Name << "' and '%" << AbortIfMergedNodes[N] << "' is merged: "; N->print(std::cerr, &G); abort(); } AbortIfMergedNodes[N] = Name; } } } }