//===-- llvm/Support/GraphWriter.h - Write graph to a .dot file -*- C++ -*-===// // // 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 defines a simple interface that can be used to print out generic // LLVM graphs to ".dot" files. "dot" is a tool that is part of the AT&T // graphviz package (http://www.research.att.com/sw/tools/graphviz/) which can // be used to turn the files output by this interface into a variety of // different graphics formats. // // Graphs do not need to implement any interface past what is already required // by the GraphTraits template, but they can choose to implement specializations // of the DOTGraphTraits template if they want to customize the graphs output in // any way. // //===----------------------------------------------------------------------===// #ifndef LLVM_SUPPORT_GRAPHWRITER_H #define LLVM_SUPPORT_GRAPHWRITER_H #include "llvm/Support/Debug.h" #include "llvm/Support/DOTGraphTraits.h" #include "llvm/ADT/GraphTraits.h" #include "llvm/System/Path.h" #include #include namespace llvm { namespace DOT { // Private functions... inline std::string EscapeString(const std::string &Label) { std::string Str(Label); for (unsigned i = 0; i != Str.length(); ++i) switch (Str[i]) { case '\n': Str.insert(Str.begin()+i, '\\'); // Escape character... ++i; Str[i] = 'n'; break; case '\t': Str.insert(Str.begin()+i, ' '); // Convert to two spaces ++i; Str[i] = ' '; break; case '\\': if (i+1 != Str.length() && Str[i+1] == 'l') break; // don't disturb \l case '{': case '}': case '<': case '>': case '|': case '"': Str.insert(Str.begin()+i, '\\'); // Escape character... ++i; // don't infinite loop break; } return Str; } } void DisplayGraph(const sys::Path& Filename); template class GraphWriter { std::ostream &O; const GraphType &G; typedef DOTGraphTraits DOTTraits; typedef GraphTraits GTraits; typedef typename GTraits::NodeType NodeType; typedef typename GTraits::nodes_iterator node_iterator; typedef typename GTraits::ChildIteratorType child_iterator; public: GraphWriter(std::ostream &o, const GraphType &g) : O(o), G(g) {} void writeHeader(const std::string &Name) { if (Name.empty()) O << "digraph foo {\n"; // Graph name doesn't matter else O << "digraph " << Name << " {\n"; if (DOTTraits::renderGraphFromBottomUp()) O << "\trankdir=\"BT\";\n"; std::string GraphName = DOTTraits::getGraphName(G); if (!GraphName.empty()) O << "\tlabel=\"" << DOT::EscapeString(GraphName) << "\";\n"; O << DOTTraits::getGraphProperties(G); O << "\n"; } void writeFooter() { // Finish off the graph O << "}\n"; } void writeNodes() { // Loop over the graph, printing it out... for (node_iterator I = GTraits::nodes_begin(G), E = GTraits::nodes_end(G); I != E; ++I) writeNode(*I); } void writeNode(NodeType& Node) { writeNode(&Node); } void writeNode(NodeType *const *Node) { writeNode(*Node); } void writeNode(NodeType *Node) { std::string NodeAttributes = DOTTraits::getNodeAttributes(Node, G); O << "\tNode" << reinterpret_cast(Node) << " [shape=record,"; if (!NodeAttributes.empty()) O << NodeAttributes << ","; O << "label=\"{"; if (!DOTTraits::renderGraphFromBottomUp()) { O << DOT::EscapeString(DOTTraits::getNodeLabel(Node, G)); // If we should include the address of the node in the label, do so now. if (DOTTraits::hasNodeAddressLabel(Node, G)) O << "|" << (void*)Node; } // Print out the fields of the current node... child_iterator EI = GTraits::child_begin(Node); child_iterator EE = GTraits::child_end(Node); if (EI != EE) { if (!DOTTraits::renderGraphFromBottomUp()) O << "|"; O << "{"; for (unsigned i = 0; EI != EE && i != 64; ++EI, ++i) { if (i) O << "|"; O << "" << DOTTraits::getEdgeSourceLabel(Node, EI); } if (EI != EE) O << "|truncated..."; O << "}"; if (DOTTraits::renderGraphFromBottomUp()) O << "|"; } if (DOTTraits::renderGraphFromBottomUp()) { O << DOT::EscapeString(DOTTraits::getNodeLabel(Node, G)); // If we should include the address of the node in the label, do so now. if (DOTTraits::hasNodeAddressLabel(Node, G)) O << "|" << (void*)Node; } O << "}\"];\n"; // Finish printing the "node" line // Output all of the edges now EI = GTraits::child_begin(Node); for (unsigned i = 0; EI != EE && i != 64; ++EI, ++i) writeEdge(Node, i, EI); for (; EI != EE; ++EI) writeEdge(Node, 64, EI); } void writeEdge(NodeType *Node, unsigned edgeidx, child_iterator EI) { if (NodeType *TargetNode = *EI) { int DestPort = -1; if (DOTTraits::edgeTargetsEdgeSource(Node, EI)) { child_iterator TargetIt = DOTTraits::getEdgeTarget(Node, EI); // Figure out which edge this targets... unsigned Offset = std::distance(GTraits::child_begin(TargetNode), TargetIt); DestPort = static_cast(Offset); } emitEdge(reinterpret_cast(Node), edgeidx, reinterpret_cast(TargetNode), DestPort, DOTTraits::getEdgeAttributes(Node, EI)); } } /// emitSimpleNode - Outputs a simple (non-record) node void emitSimpleNode(const void *ID, const std::string &Attr, const std::string &Label, unsigned NumEdgeSources = 0, const std::vector *EdgeSourceLabels = 0) { O << "\tNode" << ID << "[ "; if (!Attr.empty()) O << Attr << ","; O << " label =\""; if (NumEdgeSources) O << "{"; O << DOT::EscapeString(Label); if (NumEdgeSources) { O << "|{"; for (unsigned i = 0; i != NumEdgeSources; ++i) { if (i) O << "|"; O << ""; if (EdgeSourceLabels) O << (*EdgeSourceLabels)[i]; } O << "}}"; } O << "\"];\n"; } /// emitEdge - Output an edge from a simple node into the graph... void emitEdge(const void *SrcNodeID, int SrcNodePort, const void *DestNodeID, int DestNodePort, const std::string &Attrs) { if (SrcNodePort > 64) return; // Eminating from truncated part? if (DestNodePort > 64) DestNodePort = 64; // Targetting the truncated part? O << "\tNode" << SrcNodeID; if (SrcNodePort >= 0) O << ":g" << SrcNodePort; O << " -> Node" << reinterpret_cast(DestNodeID); if (DestNodePort >= 0) O << ":g" << DestNodePort; if (!Attrs.empty()) O << "[" << Attrs << "]"; O << ";\n"; } }; template std::ostream &WriteGraph(std::ostream &O, const GraphType &G, const std::string &Name = "") { // Start the graph emission process... GraphWriter W(O, G); // Output the header for the graph... W.writeHeader(Name); // Emit all of the nodes in the graph... W.writeNodes(); // Output any customizations on the graph DOTGraphTraits::addCustomGraphFeatures(G, W); // Output the end of the graph W.writeFooter(); return O; } template sys::Path WriteGraph(const GraphType &G, const std::string& Name, const std::string& Title = "") { std::string ErrMsg; sys::Path Filename = sys::Path::GetTemporaryDirectory(&ErrMsg); if (Filename.isEmpty()) { cerr << "Error: " << ErrMsg << "\n"; return Filename; } Filename.appendComponent(Name + ".dot"); if (Filename.makeUnique(true,&ErrMsg)) { cerr << "Error: " << ErrMsg << "\n"; return sys::Path(); } cerr << "Writing '" << Filename << "'... "; std::ofstream O(Filename.c_str()); if (O.good()) { // Start the graph emission process... GraphWriter W(O, G); // Output the header for the graph... W.writeHeader(Title); // Emit all of the nodes in the graph... W.writeNodes(); // Output any customizations on the graph DOTGraphTraits::addCustomGraphFeatures(G, W); // Output the end of the graph W.writeFooter(); cerr << " done. \n"; O.close(); } else { cerr << "error opening file for writing!\n"; Filename.clear(); } return Filename; } /// ViewGraph - Emit a dot graph, run 'dot', run gv on the postscript file, /// then cleanup. For use from the debugger. /// template void ViewGraph(const GraphType& G, const std::string& Name, const std::string& Title = "") { sys::Path Filename = WriteGraph(G, Name, Title); if (Filename.isEmpty()) { return; } DisplayGraph(Filename); } } // End llvm namespace #endif