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Diffstat (limited to 'llvm/lib/Analysis/DataStructure/EquivClassGraphs.cpp')
| -rw-r--r-- | llvm/lib/Analysis/DataStructure/EquivClassGraphs.cpp | 442 |
1 files changed, 442 insertions, 0 deletions
diff --git a/llvm/lib/Analysis/DataStructure/EquivClassGraphs.cpp b/llvm/lib/Analysis/DataStructure/EquivClassGraphs.cpp new file mode 100644 index 00000000000..af0f434138b --- /dev/null +++ b/llvm/lib/Analysis/DataStructure/EquivClassGraphs.cpp @@ -0,0 +1,442 @@ +//===- EquivClassGraphs.cpp - Merge equiv-class graphs & inline bottom-up -===// +// +// 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 the same as the complete bottom-up graphs, but +// with functions partitioned into equivalence classes and a single merged +// DS graph for all functions in an equivalence class. After this merging, +// graphs are inlined bottom-up on the SCCs of the final (CBU) call graph. +// +//===----------------------------------------------------------------------===// + +#define DEBUG_TYPE "ECGraphs" +#include "llvm/Analysis/DataStructure/EquivClassGraphs.h" +#include "llvm/Module.h" +#include "llvm/Pass.h" +#include "llvm/Analysis/DataStructure/DSGraph.h" +#include "llvm/Analysis/DataStructure/DataStructure.h" +#include "llvm/Support/CallSite.h" +#include "llvm/Support/Debug.h" +#include "llvm/ADT/SCCIterator.h" +#include "llvm/ADT/Statistic.h" +#include "llvm/ADT/EquivalenceClasses.h" +#include "llvm/ADT/STLExtras.h" +using namespace llvm; + +namespace { + RegisterAnalysis<PA::EquivClassGraphs> X("equivdatastructure", + "Equivalence-class Bottom-up Data Structure Analysis"); + Statistic<> NumEquivBUInlines("equivdatastructures", + "Number of graphs inlined"); + Statistic<> NumFoldGraphInlines("Inline equiv-class graphs bottom up", + "Number of graphs inlined"); +} + +#ifndef NDEBUG +template<typename GT> +static void CheckAllGraphs(Module *M, GT &ECGraphs) { + DSGraph &GG = ECGraphs.getGlobalsGraph(); + + for (Module::iterator I = M->begin(), E = M->end(); I != E; ++I) + if (!I->isExternal()) { + DSGraph &G = ECGraphs.getDSGraph(*I); + + DSGraph::NodeMapTy GlobalsGraphNodeMapping; + for (DSScalarMap::global_iterator I = G.getScalarMap().global_begin(), + E = G.getScalarMap().global_end(); I != E; ++I) + DSGraph::computeNodeMapping(G.getNodeForValue(*I), + GG.getNodeForValue(*I), + GlobalsGraphNodeMapping); + } +} +#endif + +// getSomeCalleeForCallSite - Return any one callee function at a call site. +// +Function *PA::EquivClassGraphs:: +getSomeCalleeForCallSite(const CallSite &CS) const { + Function *thisFunc = CS.getCaller(); + assert(thisFunc && "getSomeCalleeForCallSite(): Not a valid call site?"); + DSGraph &DSG = getDSGraph(*thisFunc); + DSNode *calleeNode = DSG.getNodeForValue(CS.getCalledValue()).getNode(); + std::map<DSNode*, Function *>::const_iterator I = + OneCalledFunction.find(calleeNode); + return (I == OneCalledFunction.end())? NULL : I->second; +} + +// runOnModule - Calculate the bottom up data structure graphs for each function +// in the program. +// +bool PA::EquivClassGraphs::runOnModule(Module &M) { + CBU = &getAnalysis<CompleteBUDataStructures>(); + DEBUG(CheckAllGraphs(&M, *CBU)); + + GlobalsGraph = new DSGraph(CBU->getGlobalsGraph()); + GlobalsGraph->setPrintAuxCalls(); + + ActualCallees = CBU->getActualCallees(); + + // Find equivalence classes of functions called from common call sites. + // Fold the CBU graphs for all functions in an equivalence class. + buildIndirectFunctionSets(M); + + // Stack of functions used for Tarjan's SCC-finding algorithm. + std::vector<DSGraph*> Stack; + std::map<DSGraph*, unsigned> ValMap; + unsigned NextID = 1; + + if (Function *Main = M.getMainFunction()) { + if (!Main->isExternal()) + processSCC(getOrCreateGraph(*Main), Stack, NextID, ValMap); + } else { + std::cerr << "Fold Graphs: No 'main' function found!\n"; + } + + for (Module::iterator I = M.begin(), E = M.end(); I != E; ++I) + if (!I->isExternal()) + processSCC(getOrCreateGraph(*I), Stack, NextID, ValMap); + + DEBUG(CheckAllGraphs(&M, *this)); + + getGlobalsGraph().removeTriviallyDeadNodes(); + return false; +} + + +// buildIndirectFunctionSets - Iterate over the module looking for indirect +// calls to functions. If a call site can invoke any functions [F1, F2... FN], +// unify the N functions together in the FuncECs set. +// +void PA::EquivClassGraphs::buildIndirectFunctionSets(Module &M) { + const ActualCalleesTy& AC = CBU->getActualCallees(); + + // Loop over all of the indirect calls in the program. If a call site can + // call multiple different functions, we need to unify all of the callees into + // the same equivalence class. + Instruction *LastInst = 0; + Function *FirstFunc = 0; + for (ActualCalleesTy::const_iterator I=AC.begin(), E=AC.end(); I != E; ++I) { + if (I->second->isExternal()) + continue; // Ignore functions we cannot modify + + CallSite CS = CallSite::get(I->first); + + if (CS.getCalledFunction()) { // Direct call: + FuncECs.addElement(I->second); // -- Make sure function has equiv class + FirstFunc = I->second; // -- First callee at this site + } else { // Else indirect call + // DEBUG(std::cerr << "CALLEE: " << I->second->getName() + // << " from : " << I->first); + if (I->first != LastInst) { + // This is the first callee from this call site. + LastInst = I->first; + FirstFunc = I->second; + // Instead of storing the lastInst For Indirection call Sites we store + // the DSNode for the function ptr arguemnt + Function *thisFunc = LastInst->getParent()->getParent(); + DSGraph &TFG = CBU->getDSGraph(*thisFunc); + DSNode *calleeNode = TFG.getNodeForValue(CS.getCalledValue()).getNode(); + OneCalledFunction[calleeNode] = FirstFunc; + FuncECs.addElement(I->second); + } else { + // This is not the first possible callee from a particular call site. + // Union the callee in with the other functions. + FuncECs.unionSetsWith(FirstFunc, I->second); +#ifndef NDEBUG + Function *thisFunc = LastInst->getParent()->getParent(); + DSGraph &TFG = CBU->getDSGraph(*thisFunc); + DSNode *calleeNode = TFG.getNodeForValue(CS.getCalledValue()).getNode(); + assert(OneCalledFunction.count(calleeNode) > 0 && "Missed a call?"); +#endif + } + } + + // Now include all functions that share a graph with any function in the + // equivalence class. More precisely, if F is in the class, and G(F) is + // its graph, then we include all other functions that are also in G(F). + // Currently, that is just the functions in the same call-graph-SCC as F. + // + DSGraph& funcDSGraph = CBU->getDSGraph(*I->second); + const DSGraph::ReturnNodesTy &RetNodes = funcDSGraph.getReturnNodes(); + for (DSGraph::ReturnNodesTy::const_iterator RI=RetNodes.begin(), + RE=RetNodes.end(); RI != RE; ++RI) + FuncECs.unionSetsWith(FirstFunc, RI->first); + } + + // Now that all of the equivalences have been built, merge the graphs for + // each equivalence class. + // + std::set<Function*> &leaderSet = FuncECs.getLeaderSet(); + DEBUG(std::cerr << "\nIndirect Function Equivalence Sets:\n"); + for (std::set<Function*>::iterator LI = leaderSet.begin(), + LE = leaderSet.end(); LI != LE; ++LI) { + + Function* LF = *LI; + const std::set<Function*>& EqClass = FuncECs.getEqClass(LF); + + if (EqClass.size() > 1) { +#ifndef NDEBUG + DEBUG(std::cerr <<" Equivalence set for leader " <<LF->getName()<<" = "); + for (std::set<Function*>::const_iterator EqI = EqClass.begin(), + EqEnd = EqClass.end(); EqI != EqEnd; ++EqI) + DEBUG(std::cerr << " " << (*EqI)->getName() << ","); + DEBUG(std::cerr << "\n"); +#endif + + // This equiv class has multiple functions: merge their graphs. First, + // clone the CBU graph for the leader and make it the common graph for the + // equivalence graph. + DSGraph &MergedG = getOrCreateGraph(*LF); + + // Record the argument nodes for use in merging later below. + std::vector<DSNodeHandle> ArgNodes; + + for (Function::aiterator AI1 = LF->abegin(); AI1 != LF->aend(); ++AI1) + if (DS::isPointerType(AI1->getType())) + ArgNodes.push_back(MergedG.getNodeForValue(AI1)); + + // Merge in the graphs of all other functions in this equiv. class. Note + // that two or more functions may have the same graph, and it only needs + // to be merged in once. + std::set<DSGraph*> GraphsMerged; + GraphsMerged.insert(&CBU->getDSGraph(*LF)); + + for (std::set<Function*>::const_iterator EqI = EqClass.begin(), + E = EqClass.end(); EqI != E; ++EqI) { + Function *F = *EqI; + DSGraph *&FG = DSInfo[F]; + + DSGraph &CBUGraph = CBU->getDSGraph(*F); + if (!GraphsMerged.insert(&CBUGraph).second) + continue; + + // Record the "folded" graph for the function. + for (DSGraph::ReturnNodesTy::iterator + I = CBUGraph.getReturnNodes().begin(), + E = CBUGraph.getReturnNodes().end(); + I != E; ++I) { + assert(DSInfo[I->first] == 0 && "Graph already exists for Fn!"); + DSInfo[I->first] = &MergedG; + } + + // Clone this member of the equivalence class into MergedG. + DSGraph::NodeMapTy NodeMap; + + MergedG.cloneInto(CBUGraph, MergedG.getScalarMap(), + MergedG.getReturnNodes(), NodeMap, 0); + + // Merge the return nodes of all functions together. + MergedG.getReturnNodes()[LF].mergeWith(MergedG.getReturnNodes()[F]); + + // Merge the function arguments with all argument nodes found so far. + // If there are extra function args, add them to the vector of argNodes + Function::aiterator AI2 = F->abegin(), AI2end = F->aend(); + for (unsigned arg=0, numArgs = ArgNodes.size(); + arg != numArgs && AI2 != AI2end; ++AI2, ++arg) + if (DS::isPointerType(AI2->getType())) + ArgNodes[arg].mergeWith(MergedG.getNodeForValue(AI2)); + + for ( ; AI2 != AI2end; ++AI2) + if (DS::isPointerType(AI2->getType())) + ArgNodes.push_back(MergedG.getNodeForValue(AI2)); + DEBUG(MergedG.AssertGraphOK()); + } + } + } + DEBUG(std::cerr << "\n"); +} + + +DSGraph &PA::EquivClassGraphs::getOrCreateGraph(Function &F) { + // Has the graph already been created? + DSGraph *&Graph = DSInfo[&F]; + if (Graph) return *Graph; + + DSGraph &CBUGraph = CBU->getDSGraph(F); + + // Copy the CBU graph... + Graph = new DSGraph(CBUGraph); // updates the map via reference + Graph->setGlobalsGraph(&getGlobalsGraph()); + Graph->setPrintAuxCalls(); + + // Make sure to update the DSInfo map for all functions in the graph! + for (DSGraph::ReturnNodesTy::iterator I = Graph->getReturnNodes().begin(); + I != Graph->getReturnNodes().end(); ++I) + if (I->first != &F) { + DSGraph *&FG = DSInfo[I->first]; + assert(FG == 0 && "Merging function in SCC twice?"); + FG = Graph; + } + + return *Graph; +} + + +unsigned PA::EquivClassGraphs:: +processSCC(DSGraph &FG, std::vector<DSGraph*> &Stack, unsigned &NextID, + std::map<DSGraph*, unsigned> &ValMap) { + std::map<DSGraph*, unsigned>::iterator It = ValMap.lower_bound(&FG); + if (It != ValMap.end() && It->first == &FG) + return It->second; + + DEBUG(std::cerr << " ProcessSCC for function " << FG.getFunctionNames() + << "\n"); + + unsigned Min = NextID++, MyID = Min; + ValMap[&FG] = Min; + Stack.push_back(&FG); + + // The edges out of the current node are the call site targets... + for (DSGraph::fc_iterator CI = FG.fc_begin(), E = FG.fc_end(); CI != E; ++CI){ + Instruction *Call = CI->getCallSite().getInstruction(); + + // Loop over all of the actually called functions... + ActualCalleesTy::const_iterator I, E; + for (tie(I, E) = getActualCallees().equal_range(Call); I != E; ++I) + if (!I->second->isExternal()) { + // Process the callee as necessary. + unsigned M = processSCC(getOrCreateGraph(*I->second), + Stack, NextID, ValMap); + if (M < Min) Min = M; + } + } + + assert(ValMap[&FG] == MyID && "SCC construction assumption wrong!"); + if (Min != MyID) + return Min; // This is part of a larger SCC! + + // If this is a new SCC, process it now. + bool MergedGraphs = false; + while (Stack.back() != &FG) { + DSGraph *NG = Stack.back(); + ValMap[NG] = ~0U; + + // If the SCC found is not the same as those found in CBU, make sure to + // merge the graphs as appropriate. + DSGraph::NodeMapTy NodeMap; + FG.cloneInto(*NG, FG.getScalarMap(), FG.getReturnNodes(), NodeMap); + + // Update the DSInfo map and delete the old graph... + for (DSGraph::ReturnNodesTy::iterator I = NG->getReturnNodes().begin(); + I != NG->getReturnNodes().end(); ++I) + DSInfo[I->first] = &FG; + + // Remove NG from the ValMap since the pointer may get recycled. + ValMap.erase(NG); + delete NG; + MergedGraphs = true; + Stack.pop_back(); + } + + // Clean up the graph before we start inlining a bunch again. + if (MergedGraphs) + FG.removeTriviallyDeadNodes(); + + Stack.pop_back(); + + processGraph(FG); + ValMap[&FG] = ~0U; + return MyID; +} + + +/// processGraph - Process the CBU graphs for the program in bottom-up order on +/// the SCC of the __ACTUAL__ call graph. This builds final folded CBU graphs. +void PA::EquivClassGraphs::processGraph(DSGraph &G) { + DEBUG(std::cerr << " ProcessGraph for function " + << G.getFunctionNames() << "\n"); + + hash_set<Instruction*> calls; + + // Else we need to inline some callee graph. Visit all call sites. + // The edges out of the current node are the call site targets... + unsigned i = 0; + for (DSGraph::fc_iterator CI = G.fc_begin(), E = G.fc_end(); CI != E; + ++CI, ++i) { + const DSCallSite &CS = *CI; + Instruction *TheCall = CS.getCallSite().getInstruction(); + + assert(calls.insert(TheCall).second && + "Call instruction occurs multiple times in graph??"); + + // Inline the common callee graph into the current graph, if the callee + // graph has not changed. Note that all callees should have the same + // graph so we only need to do this once. + // + DSGraph* CalleeGraph = NULL; + ActualCalleesTy::const_iterator I, E; + tie(I, E) = getActualCallees().equal_range(TheCall); + unsigned TNum, Num; + + // Loop over all potential callees to find the first non-external callee. + for (TNum = 0, Num = std::distance(I, E); I != E; ++I, ++TNum) + if (!I->second->isExternal()) + break; + + // Now check if the graph has changed and if so, clone and inline it. + if (I != E) { + Function *CalleeFunc = I->second; + + // Merge the callee's graph into this graph, if not already the same. + // Callees in the same equivalence class (which subsumes those + // in the same SCCs) have the same graph. Note that all recursion + // including self-recursion have been folded in the equiv classes. + // + CalleeGraph = &getOrCreateGraph(*CalleeFunc); + if (CalleeGraph != &G) { + ++NumFoldGraphInlines; + G.mergeInGraph(CS, *CalleeFunc, *CalleeGraph, + DSGraph::KeepModRefBits | DSGraph::StripAllocaBit | + DSGraph::DontCloneCallNodes | + DSGraph::DontCloneAuxCallNodes); + DEBUG(std::cerr << " Inlining graph [" << i << "/" + << G.getFunctionCalls().size()-1 + << ":" << TNum << "/" << Num-1 << "] for " + << CalleeFunc->getName() << "[" + << CalleeGraph->getGraphSize() << "+" + << CalleeGraph->getAuxFunctionCalls().size() + << "] into '" /*<< G.getFunctionNames()*/ << "' [" + << G.getGraphSize() << "+" << G.getAuxFunctionCalls().size() + << "]\n"); + } + } + +#ifndef NDEBUG + // Now loop over the rest of the callees and make sure they have the + // same graph as the one inlined above. + if (CalleeGraph) + for (++I, ++TNum; I != E; ++I, ++TNum) + if (!I->second->isExternal()) + assert(CalleeGraph == &getOrCreateGraph(*I->second) && + "Callees at a call site have different graphs?"); +#endif + } + + // Recompute the Incomplete markers. + assert(G.getInlinedGlobals().empty()); + G.maskIncompleteMarkers(); + G.markIncompleteNodes(DSGraph::MarkFormalArgs); + + // Delete dead nodes. Treat globals that are unreachable but that can + // reach live nodes as live. + G.removeDeadNodes(DSGraph::KeepUnreachableGlobals); + + // When this graph is finalized, clone the globals in the graph into the + // globals graph to make sure it has everything, from all graphs. + ReachabilityCloner RC(*G.getGlobalsGraph(), G, DSGraph::StripAllocaBit); + + // Clone everything reachable from globals in the function graph into the + // globals graph. + DSScalarMap &MainSM = G.getScalarMap(); + for (DSScalarMap::global_iterator I = MainSM.global_begin(), + E = MainSM.global_end(); I != E; ++I) + RC.getClonedNH(MainSM[*I]); + + DEBUG(std::cerr << " -- DONE ProcessGraph for function " + << G.getFunctionNames() << "\n"); +} |
