//===- Printer.cpp - Code for printing data structure graphs nicely -------===// // // 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 file implements the 'dot' graph printer. // //===----------------------------------------------------------------------===// #include "llvm/Analysis/DataStructure.h" #include "llvm/Analysis/DSGraph.h" #include "llvm/Analysis/DSGraphTraits.h" #include "llvm/Module.h" #include "llvm/Constants.h" #include "llvm/Assembly/Writer.h" #include "Support/CommandLine.h" #include "Support/GraphWriter.h" #include "Support/Statistic.h" #include #include using namespace llvm; // OnlyPrintMain - The DataStructure printer exposes this option to allow // printing of only the graph for "main". // namespace { cl::opt OnlyPrintMain("only-print-main-ds", cl::ReallyHidden); cl::opt DontPrintAnything("dont-print-ds", cl::ReallyHidden); Statistic<> MaxGraphSize ("dsa", "Maximum graph size"); Statistic<> NumFoldedNodes ("dsa", "Number of folded nodes (in final graph)"); } void DSNode::dump() const { print(std::cerr, 0); } static std::string getCaption(const DSNode *N, const DSGraph *G) { std::stringstream OS; Module *M = 0; if (!G) G = N->getParentGraph(); // Get the module from ONE of the functions in the graph it is available. if (G && !G->getReturnNodes().empty()) M = G->getReturnNodes().begin()->first->getParent(); if (M == 0 && G) { // If there is a global in the graph, we can use it to find the module. const DSScalarMap &SM = G->getScalarMap(); if (SM.global_begin() != SM.global_end()) M = (*SM.global_begin())->getParent(); } if (N->isNodeCompletelyFolded()) OS << "COLLAPSED"; else { WriteTypeSymbolic(OS, N->getType(), M); if (N->isArray()) OS << " array"; } if (unsigned NodeType = N->getNodeFlags()) { OS << ": "; if (NodeType & DSNode::AllocaNode ) OS << "S"; if (NodeType & DSNode::HeapNode ) OS << "H"; if (NodeType & DSNode::GlobalNode ) OS << "G"; if (NodeType & DSNode::UnknownNode) OS << "U"; if (NodeType & DSNode::Incomplete ) OS << "I"; if (NodeType & DSNode::Modified ) OS << "M"; if (NodeType & DSNode::Read ) OS << "R"; #ifndef NDEBUG if (NodeType & DSNode::DEAD ) OS << ""; #endif OS << "\n"; } for (unsigned i = 0, e = N->getGlobals().size(); i != e; ++i) { WriteAsOperand(OS, N->getGlobals()[i], false, true, M); OS << "\n"; } return OS.str(); } namespace llvm { template<> struct DOTGraphTraits : public DefaultDOTGraphTraits { static std::string getGraphName(const DSGraph *G) { switch (G->getReturnNodes().size()) { case 0: return G->getFunctionNames(); case 1: return "Function " + G->getFunctionNames(); default: return "Functions: " + G->getFunctionNames(); } } static std::string getNodeLabel(const DSNode *Node, const DSGraph *Graph) { return getCaption(Node, Graph); } static std::string getNodeAttributes(const DSNode *N) { return "shape=Mrecord"; } /// addCustomGraphFeatures - Use this graph writing hook to emit call nodes /// and the return node. /// static void addCustomGraphFeatures(const DSGraph *G, GraphWriter &GW) { Module *CurMod = 0; if (!G->getReturnNodes().empty()) CurMod = G->getReturnNodes().begin()->first->getParent(); else { // If there is a global in the graph, we can use it to find the module. const DSScalarMap &SM = G->getScalarMap(); if (SM.global_begin() != SM.global_end()) CurMod = (*SM.global_begin())->getParent(); } // Add scalar nodes to the graph... const DSGraph::ScalarMapTy &VM = G->getScalarMap(); for (DSGraph::ScalarMapTy::const_iterator I = VM.begin(); I != VM.end();++I) if (!isa(I->first) && !isa(I->first)) { std::stringstream OS; WriteAsOperand(OS, I->first, false, true, CurMod); GW.emitSimpleNode(I->first, "", OS.str()); // Add edge from return node to real destination int EdgeDest = I->second.getOffset() >> DS::PointerShift; if (EdgeDest == 0) EdgeDest = -1; GW.emitEdge(I->first, -1, I->second.getNode(), EdgeDest, "arrowtail=tee,color=gray63"); } // Output the returned value pointer... const DSGraph::ReturnNodesTy &RetNodes = G->getReturnNodes(); for (DSGraph::ReturnNodesTy::const_iterator I = RetNodes.begin(), E = RetNodes.end(); I != E; ++I) if (I->second.getNode()) { std::string Label; if (RetNodes.size() == 1) Label = "returning"; else Label = I->first->getName() + " ret node"; // Output the return node... GW.emitSimpleNode((void*)I->first, "plaintext=circle", Label); // Add edge from return node to real destination int RetEdgeDest = I->second.getOffset() >> DS::PointerShift;; if (RetEdgeDest == 0) RetEdgeDest = -1; GW.emitEdge((void*)I->first, -1, I->second.getNode(), RetEdgeDest, "arrowtail=tee,color=gray63"); } // Output all of the call nodes... const std::vector &FCs = G->shouldPrintAuxCalls() ? G->getAuxFunctionCalls() : G->getFunctionCalls(); for (unsigned i = 0, e = FCs.size(); i != e; ++i) { const DSCallSite &Call = FCs[i]; std::vector EdgeSourceCaptions(Call.getNumPtrArgs()+2); EdgeSourceCaptions[0] = "r"; if (Call.isDirectCall()) EdgeSourceCaptions[1] = Call.getCalleeFunc()->getName(); else EdgeSourceCaptions[1] = "f"; GW.emitSimpleNode(&Call, "shape=record", "call", Call.getNumPtrArgs()+2, &EdgeSourceCaptions); if (DSNode *N = Call.getRetVal().getNode()) { int EdgeDest = Call.getRetVal().getOffset() >> DS::PointerShift; if (EdgeDest == 0) EdgeDest = -1; GW.emitEdge(&Call, 0, N, EdgeDest, "color=gray63,tailclip=false"); } // Print out the callee... if (Call.isIndirectCall()) { DSNode *N = Call.getCalleeNode(); assert(N && "Null call site callee node!"); GW.emitEdge(&Call, 1, N, -1, "color=gray63,tailclip=false"); } for (unsigned j = 0, e = Call.getNumPtrArgs(); j != e; ++j) if (DSNode *N = Call.getPtrArg(j).getNode()) { int EdgeDest = Call.getPtrArg(j).getOffset() >> DS::PointerShift; if (EdgeDest == 0) EdgeDest = -1; GW.emitEdge(&Call, j+2, N, EdgeDest, "color=gray63,tailclip=false"); } } } }; } // end namespace llvm void DSNode::print(std::ostream &O, const DSGraph *G) const { GraphWriter W(O, G); W.writeNode(this); } void DSGraph::print(std::ostream &O) const { WriteGraph(O, this, "DataStructures"); } void DSGraph::writeGraphToFile(std::ostream &O, const std::string &GraphName) const { std::string Filename = GraphName + ".dot"; O << "Writing '" << Filename << "'..."; std::ofstream F(Filename.c_str()); if (F.good()) { print(F); unsigned NumCalls = shouldPrintAuxCalls() ? getAuxFunctionCalls().size() : getFunctionCalls().size(); O << " [" << getGraphSize() << "+" << NumCalls << "]\n"; } else { O << " error opening file for writing!\n"; } } /// viewGraph - Emit a dot graph, run 'dot', run gv on the postscript file, /// then cleanup. For use from the debugger. /// void DSGraph::viewGraph() const { std::ofstream F("/tmp/tempgraph.dot"); if (!F.good()) { std::cerr << "Error opening '/tmp/tempgraph.dot' for temporary graph!\n"; return; } print(F); F.close(); if (system("dot -Tps -Gsize=10,7.5 -Grotate=90 /tmp/tempgraph.dot > /tmp/tempgraph.ps")) std::cerr << "Error running dot: 'dot' not in path?\n"; system("gv /tmp/tempgraph.ps"); system("rm /tmp/tempgraph.dot /tmp/tempgraph.ps"); } template static void printCollection(const Collection &C, std::ostream &O, const Module *M, const std::string &Prefix) { if (M == 0) { O << "Null Module pointer, cannot continue!\n"; return; } unsigned TotalNumNodes = 0, TotalCallNodes = 0; for (Module::const_iterator I = M->begin(), E = M->end(); I != E; ++I) if (C.hasGraph(*I)) { DSGraph &Gr = C.getDSGraph((Function&)*I); TotalNumNodes += Gr.getGraphSize(); unsigned NumCalls = Gr.shouldPrintAuxCalls() ? Gr.getAuxFunctionCalls().size() : Gr.getFunctionCalls().size(); TotalCallNodes += NumCalls; if (I->getName() == "main" || !OnlyPrintMain) Gr.writeGraphToFile(O, Prefix+I->getName()); else { O << "Skipped Writing '" << Prefix+I->getName() << ".dot'... [" << Gr.getGraphSize() << "+" << NumCalls << "]\n"; } unsigned GraphSize = Gr.getGraphSize(); if (MaxGraphSize < GraphSize) MaxGraphSize = GraphSize; for (DSGraph::node_iterator NI = Gr.node_begin(), E = Gr.node_end(); NI != E; ++NI) if ((*NI)->isNodeCompletelyFolded()) ++NumFoldedNodes; } DSGraph &GG = C.getGlobalsGraph(); TotalNumNodes += GG.getGraphSize(); TotalCallNodes += GG.getFunctionCalls().size(); if (!OnlyPrintMain) { GG.writeGraphToFile(O, Prefix+"GlobalsGraph"); } else { O << "Skipped Writing '" << Prefix << "GlobalsGraph.dot'... [" << GG.getGraphSize() << "+" << GG.getFunctionCalls().size() << "]\n"; } O << "\nGraphs contain [" << TotalNumNodes << "+" << TotalCallNodes << "] nodes total" << std::endl; } // print - Print out the analysis results... void LocalDataStructures::print(std::ostream &O, const Module *M) const { if (DontPrintAnything) return; printCollection(*this, O, M, "ds."); } void BUDataStructures::print(std::ostream &O, const Module *M) const { if (DontPrintAnything) return; printCollection(*this, O, M, "bu."); } void TDDataStructures::print(std::ostream &O, const Module *M) const { if (DontPrintAnything) return; printCollection(*this, O, M, "td."); } void CompleteBUDataStructures::print(std::ostream &O, const Module *M) const { if (DontPrintAnything) return; printCollection(*this, O, M, "cbu."); }