mirror of
https://github.com/c64scene-ar/llvm-6502.git
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9cdd4f57c8
git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@74507 91177308-0d34-0410-b5e6-96231b3b80d8
534 lines
16 KiB
C++
534 lines
16 KiB
C++
//===--- CompilationGraph.cpp - The LLVM Compiler Driver --------*- C++ -*-===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file is distributed under the University of Illinois Open
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// Source License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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//
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// Compilation graph - implementation.
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//
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//===----------------------------------------------------------------------===//
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#include "llvm/CompilerDriver/BuiltinOptions.h"
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#include "llvm/CompilerDriver/CompilationGraph.h"
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#include "llvm/CompilerDriver/Error.h"
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#include "llvm/ADT/STLExtras.h"
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#include "llvm/Support/DOTGraphTraits.h"
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#include "llvm/Support/GraphWriter.h"
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#include "llvm/Support/raw_ostream.h"
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#include <algorithm>
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#include <cstring>
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#include <iterator>
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#include <limits>
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#include <queue>
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#include <stdexcept>
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using namespace llvm;
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using namespace llvmc;
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namespace llvmc {
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const std::string& LanguageMap::GetLanguage(const sys::Path& File) const {
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LanguageMap::const_iterator Lang = this->find(File.getSuffix());
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if (Lang == this->end())
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throw std::runtime_error("Unknown suffix: " + File.getSuffix());
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return Lang->second;
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}
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}
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namespace {
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/// ChooseEdge - Return the edge with the maximum weight.
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template <class C>
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const Edge* ChooseEdge(const C& EdgesContainer,
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const InputLanguagesSet& InLangs,
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const std::string& NodeName = "root") {
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const Edge* MaxEdge = 0;
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unsigned MaxWeight = 0;
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bool SingleMax = true;
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for (typename C::const_iterator B = EdgesContainer.begin(),
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E = EdgesContainer.end(); B != E; ++B) {
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const Edge* e = B->getPtr();
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unsigned EW = e->Weight(InLangs);
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if (EW > MaxWeight) {
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MaxEdge = e;
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MaxWeight = EW;
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SingleMax = true;
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} else if (EW == MaxWeight) {
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SingleMax = false;
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}
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}
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if (!SingleMax)
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throw std::runtime_error("Node " + NodeName +
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": multiple maximal outward edges found!"
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" Most probably a specification error.");
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if (!MaxEdge)
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throw std::runtime_error("Node " + NodeName +
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": no maximal outward edge found!"
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" Most probably a specification error.");
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return MaxEdge;
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}
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}
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void Node::AddEdge(Edge* Edg) {
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// If there already was an edge between two nodes, modify it instead
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// of adding a new edge.
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const std::string& ToolName = Edg->ToolName();
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for (container_type::iterator B = OutEdges.begin(), E = OutEdges.end();
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B != E; ++B) {
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if ((*B)->ToolName() == ToolName) {
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llvm::IntrusiveRefCntPtr<Edge>(Edg).swap(*B);
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return;
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}
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}
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OutEdges.push_back(llvm::IntrusiveRefCntPtr<Edge>(Edg));
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}
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CompilationGraph::CompilationGraph() {
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NodesMap["root"] = Node(this);
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}
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Node& CompilationGraph::getNode(const std::string& ToolName) {
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nodes_map_type::iterator I = NodesMap.find(ToolName);
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if (I == NodesMap.end())
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throw std::runtime_error("Node " + ToolName + " is not in the graph");
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return I->second;
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}
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const Node& CompilationGraph::getNode(const std::string& ToolName) const {
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nodes_map_type::const_iterator I = NodesMap.find(ToolName);
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if (I == NodesMap.end())
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throw std::runtime_error("Node " + ToolName + " is not in the graph!");
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return I->second;
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}
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// Find the tools list corresponding to the given language name.
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const CompilationGraph::tools_vector_type&
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CompilationGraph::getToolsVector(const std::string& LangName) const
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{
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tools_map_type::const_iterator I = ToolsMap.find(LangName);
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if (I == ToolsMap.end())
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throw std::runtime_error("No tool corresponding to the language "
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+ LangName + " found");
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return I->second;
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}
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void CompilationGraph::insertNode(Tool* V) {
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if (NodesMap.count(V->Name()) == 0)
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NodesMap[V->Name()] = Node(this, V);
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}
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void CompilationGraph::insertEdge(const std::string& A, Edge* Edg) {
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Node& B = getNode(Edg->ToolName());
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if (A == "root") {
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const char** InLangs = B.ToolPtr->InputLanguages();
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for (;*InLangs; ++InLangs)
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ToolsMap[*InLangs].push_back(IntrusiveRefCntPtr<Edge>(Edg));
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NodesMap["root"].AddEdge(Edg);
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}
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else {
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Node& N = getNode(A);
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N.AddEdge(Edg);
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}
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// Increase the inward edge counter.
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B.IncrInEdges();
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}
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// Pass input file through the chain until we bump into a Join node or
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// a node that says that it is the last.
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void CompilationGraph::PassThroughGraph (const sys::Path& InFile,
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const Node* StartNode,
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const InputLanguagesSet& InLangs,
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const sys::Path& TempDir,
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const LanguageMap& LangMap) const {
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sys::Path In = InFile;
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const Node* CurNode = StartNode;
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while(true) {
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Tool* CurTool = CurNode->ToolPtr.getPtr();
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if (CurTool->IsJoin()) {
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JoinTool& JT = dynamic_cast<JoinTool&>(*CurTool);
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JT.AddToJoinList(In);
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break;
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}
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Action CurAction = CurTool->GenerateAction(In, CurNode->HasChildren(),
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TempDir, InLangs, LangMap);
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if (int ret = CurAction.Execute())
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throw error_code(ret);
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if (CurAction.StopCompilation())
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return;
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CurNode = &getNode(ChooseEdge(CurNode->OutEdges,
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InLangs,
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CurNode->Name())->ToolName());
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In = CurAction.OutFile();
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}
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}
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// Find the head of the toolchain corresponding to the given file.
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// Also, insert an input language into InLangs.
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const Node* CompilationGraph::
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FindToolChain(const sys::Path& In, const std::string* ForceLanguage,
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InputLanguagesSet& InLangs, const LanguageMap& LangMap) const {
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// Determine the input language.
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const std::string& InLanguage =
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ForceLanguage ? *ForceLanguage : LangMap.GetLanguage(In);
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// Add the current input language to the input language set.
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InLangs.insert(InLanguage);
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// Find the toolchain for the input language.
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const tools_vector_type& TV = getToolsVector(InLanguage);
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if (TV.empty())
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throw std::runtime_error("No toolchain corresponding to language "
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+ InLanguage + " found");
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return &getNode(ChooseEdge(TV, InLangs)->ToolName());
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}
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// Helper function used by Build().
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// Traverses initial portions of the toolchains (up to the first Join node).
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// This function is also responsible for handling the -x option.
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void CompilationGraph::BuildInitial (InputLanguagesSet& InLangs,
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const sys::Path& TempDir,
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const LanguageMap& LangMap) {
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// This is related to -x option handling.
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cl::list<std::string>::const_iterator xIter = Languages.begin(),
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xBegin = xIter, xEnd = Languages.end();
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bool xEmpty = true;
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const std::string* xLanguage = 0;
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unsigned xPos = 0, xPosNext = 0, filePos = 0;
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if (xIter != xEnd) {
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xEmpty = false;
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xPos = Languages.getPosition(xIter - xBegin);
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cl::list<std::string>::const_iterator xNext = llvm::next(xIter);
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xPosNext = (xNext == xEnd) ? std::numeric_limits<unsigned>::max()
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: Languages.getPosition(xNext - xBegin);
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xLanguage = (*xIter == "none") ? 0 : &(*xIter);
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}
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// For each input file:
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for (cl::list<std::string>::const_iterator B = InputFilenames.begin(),
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CB = B, E = InputFilenames.end(); B != E; ++B) {
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sys::Path In = sys::Path(*B);
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// Code for handling the -x option.
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// Output: std::string* xLanguage (can be NULL).
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if (!xEmpty) {
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filePos = InputFilenames.getPosition(B - CB);
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if (xPos < filePos) {
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if (filePos < xPosNext) {
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xLanguage = (*xIter == "none") ? 0 : &(*xIter);
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}
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else { // filePos >= xPosNext
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// Skip xIters while filePos > xPosNext
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while (filePos > xPosNext) {
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++xIter;
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xPos = xPosNext;
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cl::list<std::string>::const_iterator xNext = llvm::next(xIter);
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if (xNext == xEnd)
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xPosNext = std::numeric_limits<unsigned>::max();
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else
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xPosNext = Languages.getPosition(xNext - xBegin);
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xLanguage = (*xIter == "none") ? 0 : &(*xIter);
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}
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}
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}
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}
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// Find the toolchain corresponding to this file.
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const Node* N = FindToolChain(In, xLanguage, InLangs, LangMap);
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// Pass file through the chain starting at head.
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PassThroughGraph(In, N, InLangs, TempDir, LangMap);
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}
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}
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// Sort the nodes in topological order.
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void CompilationGraph::TopologicalSort(std::vector<const Node*>& Out) {
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std::queue<const Node*> Q;
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Q.push(&getNode("root"));
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while (!Q.empty()) {
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const Node* A = Q.front();
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Q.pop();
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Out.push_back(A);
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for (Node::const_iterator EB = A->EdgesBegin(), EE = A->EdgesEnd();
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EB != EE; ++EB) {
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Node* B = &getNode((*EB)->ToolName());
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B->DecrInEdges();
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if (B->HasNoInEdges())
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Q.push(B);
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}
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}
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}
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namespace {
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bool NotJoinNode(const Node* N) {
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return N->ToolPtr ? !N->ToolPtr->IsJoin() : true;
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}
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}
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// Call TopologicalSort and filter the resulting list to include
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// only Join nodes.
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void CompilationGraph::
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TopologicalSortFilterJoinNodes(std::vector<const Node*>& Out) {
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std::vector<const Node*> TopSorted;
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TopologicalSort(TopSorted);
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std::remove_copy_if(TopSorted.begin(), TopSorted.end(),
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std::back_inserter(Out), NotJoinNode);
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}
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int CompilationGraph::Build (const sys::Path& TempDir,
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const LanguageMap& LangMap) {
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InputLanguagesSet InLangs;
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// Traverse initial parts of the toolchains and fill in InLangs.
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BuildInitial(InLangs, TempDir, LangMap);
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std::vector<const Node*> JTV;
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TopologicalSortFilterJoinNodes(JTV);
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// For all join nodes in topological order:
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for (std::vector<const Node*>::iterator B = JTV.begin(), E = JTV.end();
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B != E; ++B) {
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const Node* CurNode = *B;
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JoinTool* JT = &dynamic_cast<JoinTool&>(*CurNode->ToolPtr.getPtr());
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// Are there any files in the join list?
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if (JT->JoinListEmpty())
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continue;
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Action CurAction = JT->GenerateAction(CurNode->HasChildren(),
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TempDir, InLangs, LangMap);
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if (int ret = CurAction.Execute())
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throw error_code(ret);
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if (CurAction.StopCompilation())
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return 0;
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const Node* NextNode = &getNode(ChooseEdge(CurNode->OutEdges, InLangs,
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CurNode->Name())->ToolName());
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PassThroughGraph(sys::Path(CurAction.OutFile()), NextNode,
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InLangs, TempDir, LangMap);
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}
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return 0;
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}
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int CompilationGraph::CheckLanguageNames() const {
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int ret = 0;
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// Check that names for output and input languages on all edges do match.
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for (const_nodes_iterator B = this->NodesMap.begin(),
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E = this->NodesMap.end(); B != E; ++B) {
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const Node & N1 = B->second;
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if (N1.ToolPtr) {
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for (Node::const_iterator EB = N1.EdgesBegin(), EE = N1.EdgesEnd();
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EB != EE; ++EB) {
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const Node& N2 = this->getNode((*EB)->ToolName());
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if (!N2.ToolPtr) {
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++ret;
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errs() << "Error: there is an edge from '" << N1.ToolPtr->Name()
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<< "' back to the root!\n\n";
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continue;
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}
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const char* OutLang = N1.ToolPtr->OutputLanguage();
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const char** InLangs = N2.ToolPtr->InputLanguages();
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bool eq = false;
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for (;*InLangs; ++InLangs) {
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if (std::strcmp(OutLang, *InLangs) == 0) {
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eq = true;
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break;
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}
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}
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if (!eq) {
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++ret;
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errs() << "Error: Output->input language mismatch in the edge '"
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<< N1.ToolPtr->Name() << "' -> '" << N2.ToolPtr->Name()
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<< "'!\n"
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<< "Expected one of { ";
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InLangs = N2.ToolPtr->InputLanguages();
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for (;*InLangs; ++InLangs) {
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errs() << '\'' << *InLangs << (*(InLangs+1) ? "', " : "'");
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}
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errs() << " }, but got '" << OutLang << "'!\n\n";
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}
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}
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}
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}
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return ret;
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}
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int CompilationGraph::CheckMultipleDefaultEdges() const {
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int ret = 0;
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InputLanguagesSet Dummy;
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// For all nodes, just iterate over the outgoing edges and check if there is
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// more than one edge with maximum weight.
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for (const_nodes_iterator B = this->NodesMap.begin(),
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E = this->NodesMap.end(); B != E; ++B) {
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const Node& N = B->second;
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unsigned MaxWeight = 0;
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// Ignore the root node.
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if (!N.ToolPtr)
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continue;
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for (Node::const_iterator EB = N.EdgesBegin(), EE = N.EdgesEnd();
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EB != EE; ++EB) {
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unsigned EdgeWeight = (*EB)->Weight(Dummy);
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if (EdgeWeight > MaxWeight) {
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MaxWeight = EdgeWeight;
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}
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else if (EdgeWeight == MaxWeight) {
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++ret;
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errs() << "Error: there are multiple maximal edges stemming from the '"
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<< N.ToolPtr->Name() << "' node!\n\n";
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break;
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}
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}
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}
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return ret;
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}
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int CompilationGraph::CheckCycles() {
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unsigned deleted = 0;
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std::queue<Node*> Q;
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Q.push(&getNode("root"));
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// Try to delete all nodes that have no ingoing edges, starting from the
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// root. If there are any nodes left after this operation, then we have a
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// cycle. This relies on '--check-graph' not performing the topological sort.
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while (!Q.empty()) {
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Node* A = Q.front();
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Q.pop();
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++deleted;
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for (Node::iterator EB = A->EdgesBegin(), EE = A->EdgesEnd();
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EB != EE; ++EB) {
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Node* B = &getNode((*EB)->ToolName());
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B->DecrInEdges();
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if (B->HasNoInEdges())
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Q.push(B);
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}
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}
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if (deleted != NodesMap.size()) {
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errs() << "Error: there are cycles in the compilation graph!\n"
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<< "Try inspecting the diagram produced by "
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<< "'llvmc --view-graph'.\n\n";
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return 1;
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}
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return 0;
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}
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int CompilationGraph::Check () {
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// We try to catch as many errors as we can in one go.
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int ret = 0;
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// Check that output/input language names match.
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ret += this->CheckLanguageNames();
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// Check for multiple default edges.
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ret += this->CheckMultipleDefaultEdges();
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// Check for cycles.
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ret += this->CheckCycles();
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return ret;
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}
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// Code related to graph visualization.
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namespace llvm {
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template <>
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struct DOTGraphTraits<llvmc::CompilationGraph*>
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: public DefaultDOTGraphTraits
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{
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template<typename GraphType>
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static std::string getNodeLabel(const Node* N, const GraphType&,
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bool ShortNames)
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{
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if (N->ToolPtr)
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if (N->ToolPtr->IsJoin())
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return N->Name() + "\n (join" +
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(N->HasChildren() ? ")"
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: std::string(": ") + N->ToolPtr->OutputLanguage() + ')');
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else
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return N->Name();
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else
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return "root";
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}
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template<typename EdgeIter>
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static std::string getEdgeSourceLabel(const Node* N, EdgeIter I) {
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if (N->ToolPtr) {
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return N->ToolPtr->OutputLanguage();
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}
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else {
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const char** InLangs = I->ToolPtr->InputLanguages();
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std::string ret;
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for (; *InLangs; ++InLangs) {
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if (*(InLangs + 1)) {
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ret += *InLangs;
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ret += ", ";
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}
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else {
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ret += *InLangs;
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}
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}
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return ret;
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}
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}
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};
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}
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void CompilationGraph::writeGraph(const std::string& OutputFilename) {
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std::ofstream O(OutputFilename.c_str());
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if (O.good()) {
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errs() << "Writing '"<< OutputFilename << "' file...";
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llvm::WriteGraph(O, this);
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errs() << "done.\n";
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O.close();
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}
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else {
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throw std::runtime_error("Error opening file '" + OutputFilename
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+ "' for writing!");
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}
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}
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void CompilationGraph::viewGraph() {
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llvm::ViewGraph(this, "compilation-graph");
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}
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