16bb1caddSDimitry Andric //===-- DifferenceEngine.cpp - Structural function/module comparison ------===//
26bb1caddSDimitry Andric //
36bb1caddSDimitry Andric // The LLVM Compiler Infrastructure
46bb1caddSDimitry Andric //
56bb1caddSDimitry Andric // This file is distributed under the University of Illinois Open Source
66bb1caddSDimitry Andric // License. See LICENSE.TXT for details.
76bb1caddSDimitry Andric //
86bb1caddSDimitry Andric //===----------------------------------------------------------------------===//
96bb1caddSDimitry Andric //
106bb1caddSDimitry Andric // This header defines the implementation of the LLVM difference
116bb1caddSDimitry Andric // engine, which structurally compares global values within a module.
126bb1caddSDimitry Andric //
136bb1caddSDimitry Andric //===----------------------------------------------------------------------===//
146bb1caddSDimitry Andric
156bb1caddSDimitry Andric #include "DifferenceEngine.h"
166bb1caddSDimitry Andric #include "llvm/ADT/DenseMap.h"
176bb1caddSDimitry Andric #include "llvm/ADT/DenseSet.h"
186bb1caddSDimitry Andric #include "llvm/ADT/SmallVector.h"
196bb1caddSDimitry Andric #include "llvm/ADT/StringSet.h"
2091bc56edSDimitry Andric #include "llvm/IR/CFG.h"
2191bc56edSDimitry Andric #include "llvm/IR/CallSite.h"
22139f7f9bSDimitry Andric #include "llvm/IR/Constants.h"
23139f7f9bSDimitry Andric #include "llvm/IR/Function.h"
24139f7f9bSDimitry Andric #include "llvm/IR/Instructions.h"
25139f7f9bSDimitry Andric #include "llvm/IR/Module.h"
266bb1caddSDimitry Andric #include "llvm/Support/ErrorHandling.h"
276bb1caddSDimitry Andric #include "llvm/Support/raw_ostream.h"
286bb1caddSDimitry Andric #include "llvm/Support/type_traits.h"
296bb1caddSDimitry Andric #include <utility>
306bb1caddSDimitry Andric
316bb1caddSDimitry Andric using namespace llvm;
326bb1caddSDimitry Andric
336bb1caddSDimitry Andric namespace {
346bb1caddSDimitry Andric
356bb1caddSDimitry Andric /// A priority queue, implemented as a heap.
366bb1caddSDimitry Andric template <class T, class Sorter, unsigned InlineCapacity>
376bb1caddSDimitry Andric class PriorityQueue {
386bb1caddSDimitry Andric Sorter Precedes;
396bb1caddSDimitry Andric llvm::SmallVector<T, InlineCapacity> Storage;
406bb1caddSDimitry Andric
416bb1caddSDimitry Andric public:
PriorityQueue(const Sorter & Precedes)426bb1caddSDimitry Andric PriorityQueue(const Sorter &Precedes) : Precedes(Precedes) {}
436bb1caddSDimitry Andric
446bb1caddSDimitry Andric /// Checks whether the heap is empty.
empty() const456bb1caddSDimitry Andric bool empty() const { return Storage.empty(); }
466bb1caddSDimitry Andric
476bb1caddSDimitry Andric /// Insert a new value on the heap.
insert(const T & V)486bb1caddSDimitry Andric void insert(const T &V) {
496bb1caddSDimitry Andric unsigned Index = Storage.size();
506bb1caddSDimitry Andric Storage.push_back(V);
516bb1caddSDimitry Andric if (Index == 0) return;
526bb1caddSDimitry Andric
536bb1caddSDimitry Andric T *data = Storage.data();
546bb1caddSDimitry Andric while (true) {
556bb1caddSDimitry Andric unsigned Target = (Index + 1) / 2 - 1;
566bb1caddSDimitry Andric if (!Precedes(data[Index], data[Target])) return;
576bb1caddSDimitry Andric std::swap(data[Index], data[Target]);
586bb1caddSDimitry Andric if (Target == 0) return;
596bb1caddSDimitry Andric Index = Target;
606bb1caddSDimitry Andric }
616bb1caddSDimitry Andric }
626bb1caddSDimitry Andric
636bb1caddSDimitry Andric /// Remove the minimum value in the heap. Only valid on a non-empty heap.
remove_min()646bb1caddSDimitry Andric T remove_min() {
656bb1caddSDimitry Andric assert(!empty());
666bb1caddSDimitry Andric T tmp = Storage[0];
676bb1caddSDimitry Andric
686bb1caddSDimitry Andric unsigned NewSize = Storage.size() - 1;
696bb1caddSDimitry Andric if (NewSize) {
706bb1caddSDimitry Andric // Move the slot at the end to the beginning.
716bb1caddSDimitry Andric if (isPodLike<T>::value)
726bb1caddSDimitry Andric Storage[0] = Storage[NewSize];
736bb1caddSDimitry Andric else
746bb1caddSDimitry Andric std::swap(Storage[0], Storage[NewSize]);
756bb1caddSDimitry Andric
766bb1caddSDimitry Andric // Bubble the root up as necessary.
776bb1caddSDimitry Andric unsigned Index = 0;
786bb1caddSDimitry Andric while (true) {
796bb1caddSDimitry Andric // With a 1-based index, the children would be Index*2 and Index*2+1.
806bb1caddSDimitry Andric unsigned R = (Index + 1) * 2;
816bb1caddSDimitry Andric unsigned L = R - 1;
826bb1caddSDimitry Andric
836bb1caddSDimitry Andric // If R is out of bounds, we're done after this in any case.
846bb1caddSDimitry Andric if (R >= NewSize) {
856bb1caddSDimitry Andric // If L is also out of bounds, we're done immediately.
866bb1caddSDimitry Andric if (L >= NewSize) break;
876bb1caddSDimitry Andric
886bb1caddSDimitry Andric // Otherwise, test whether we should swap L and Index.
896bb1caddSDimitry Andric if (Precedes(Storage[L], Storage[Index]))
906bb1caddSDimitry Andric std::swap(Storage[L], Storage[Index]);
916bb1caddSDimitry Andric break;
926bb1caddSDimitry Andric }
936bb1caddSDimitry Andric
946bb1caddSDimitry Andric // Otherwise, we need to compare with the smaller of L and R.
956bb1caddSDimitry Andric // Prefer R because it's closer to the end of the array.
966bb1caddSDimitry Andric unsigned IndexToTest = (Precedes(Storage[L], Storage[R]) ? L : R);
976bb1caddSDimitry Andric
986bb1caddSDimitry Andric // If Index is >= the min of L and R, then heap ordering is restored.
996bb1caddSDimitry Andric if (!Precedes(Storage[IndexToTest], Storage[Index]))
1006bb1caddSDimitry Andric break;
1016bb1caddSDimitry Andric
1026bb1caddSDimitry Andric // Otherwise, keep bubbling up.
1036bb1caddSDimitry Andric std::swap(Storage[IndexToTest], Storage[Index]);
1046bb1caddSDimitry Andric Index = IndexToTest;
1056bb1caddSDimitry Andric }
1066bb1caddSDimitry Andric }
1076bb1caddSDimitry Andric Storage.pop_back();
1086bb1caddSDimitry Andric
1096bb1caddSDimitry Andric return tmp;
1106bb1caddSDimitry Andric }
1116bb1caddSDimitry Andric };
1126bb1caddSDimitry Andric
1136bb1caddSDimitry Andric /// A function-scope difference engine.
1146bb1caddSDimitry Andric class FunctionDifferenceEngine {
1156bb1caddSDimitry Andric DifferenceEngine &Engine;
1166bb1caddSDimitry Andric
1176bb1caddSDimitry Andric /// The current mapping from old local values to new local values.
1186bb1caddSDimitry Andric DenseMap<Value*, Value*> Values;
1196bb1caddSDimitry Andric
1206bb1caddSDimitry Andric /// The current mapping from old blocks to new blocks.
1216bb1caddSDimitry Andric DenseMap<BasicBlock*, BasicBlock*> Blocks;
1226bb1caddSDimitry Andric
1236bb1caddSDimitry Andric DenseSet<std::pair<Value*, Value*> > TentativeValues;
1246bb1caddSDimitry Andric
getUnprocPredCount(BasicBlock * Block) const1256bb1caddSDimitry Andric unsigned getUnprocPredCount(BasicBlock *Block) const {
1266bb1caddSDimitry Andric unsigned Count = 0;
1276bb1caddSDimitry Andric for (pred_iterator I = pred_begin(Block), E = pred_end(Block); I != E; ++I)
1286bb1caddSDimitry Andric if (!Blocks.count(*I)) Count++;
1296bb1caddSDimitry Andric return Count;
1306bb1caddSDimitry Andric }
1316bb1caddSDimitry Andric
1326bb1caddSDimitry Andric typedef std::pair<BasicBlock*, BasicBlock*> BlockPair;
1336bb1caddSDimitry Andric
1346bb1caddSDimitry Andric /// A type which sorts a priority queue by the number of unprocessed
1356bb1caddSDimitry Andric /// predecessor blocks it has remaining.
1366bb1caddSDimitry Andric ///
1376bb1caddSDimitry Andric /// This is actually really expensive to calculate.
1386bb1caddSDimitry Andric struct QueueSorter {
1396bb1caddSDimitry Andric const FunctionDifferenceEngine &fde;
QueueSorter__anon565615e00111::FunctionDifferenceEngine::QueueSorter1406bb1caddSDimitry Andric explicit QueueSorter(const FunctionDifferenceEngine &fde) : fde(fde) {}
1416bb1caddSDimitry Andric
operator ()__anon565615e00111::FunctionDifferenceEngine::QueueSorter1426bb1caddSDimitry Andric bool operator()(const BlockPair &Old, const BlockPair &New) {
1436bb1caddSDimitry Andric return fde.getUnprocPredCount(Old.first)
1446bb1caddSDimitry Andric < fde.getUnprocPredCount(New.first);
1456bb1caddSDimitry Andric }
1466bb1caddSDimitry Andric };
1476bb1caddSDimitry Andric
1486bb1caddSDimitry Andric /// A queue of unified blocks to process.
1496bb1caddSDimitry Andric PriorityQueue<BlockPair, QueueSorter, 20> Queue;
1506bb1caddSDimitry Andric
1516bb1caddSDimitry Andric /// Try to unify the given two blocks. Enqueues them for processing
1526bb1caddSDimitry Andric /// if they haven't already been processed.
1536bb1caddSDimitry Andric ///
1546bb1caddSDimitry Andric /// Returns true if there was a problem unifying them.
tryUnify(BasicBlock * L,BasicBlock * R)1556bb1caddSDimitry Andric bool tryUnify(BasicBlock *L, BasicBlock *R) {
1566bb1caddSDimitry Andric BasicBlock *&Ref = Blocks[L];
1576bb1caddSDimitry Andric
1586bb1caddSDimitry Andric if (Ref) {
1596bb1caddSDimitry Andric if (Ref == R) return false;
1606bb1caddSDimitry Andric
1616bb1caddSDimitry Andric Engine.logf("successor %l cannot be equivalent to %r; "
1626bb1caddSDimitry Andric "it's already equivalent to %r")
1636bb1caddSDimitry Andric << L << R << Ref;
1646bb1caddSDimitry Andric return true;
1656bb1caddSDimitry Andric }
1666bb1caddSDimitry Andric
1676bb1caddSDimitry Andric Ref = R;
1686bb1caddSDimitry Andric Queue.insert(BlockPair(L, R));
1696bb1caddSDimitry Andric return false;
1706bb1caddSDimitry Andric }
1716bb1caddSDimitry Andric
1726bb1caddSDimitry Andric /// Unifies two instructions, given that they're known not to have
1736bb1caddSDimitry Andric /// structural differences.
unify(Instruction * L,Instruction * R)1746bb1caddSDimitry Andric void unify(Instruction *L, Instruction *R) {
1756bb1caddSDimitry Andric DifferenceEngine::Context C(Engine, L, R);
1766bb1caddSDimitry Andric
1776bb1caddSDimitry Andric bool Result = diff(L, R, true, true);
1786bb1caddSDimitry Andric assert(!Result && "structural differences second time around?");
1796bb1caddSDimitry Andric (void) Result;
1806bb1caddSDimitry Andric if (!L->use_empty())
1816bb1caddSDimitry Andric Values[L] = R;
1826bb1caddSDimitry Andric }
1836bb1caddSDimitry Andric
processQueue()1846bb1caddSDimitry Andric void processQueue() {
1856bb1caddSDimitry Andric while (!Queue.empty()) {
1866bb1caddSDimitry Andric BlockPair Pair = Queue.remove_min();
1876bb1caddSDimitry Andric diff(Pair.first, Pair.second);
1886bb1caddSDimitry Andric }
1896bb1caddSDimitry Andric }
1906bb1caddSDimitry Andric
diff(BasicBlock * L,BasicBlock * R)1916bb1caddSDimitry Andric void diff(BasicBlock *L, BasicBlock *R) {
1926bb1caddSDimitry Andric DifferenceEngine::Context C(Engine, L, R);
1936bb1caddSDimitry Andric
1946bb1caddSDimitry Andric BasicBlock::iterator LI = L->begin(), LE = L->end();
1956bb1caddSDimitry Andric BasicBlock::iterator RI = R->begin();
1966bb1caddSDimitry Andric
1976bb1caddSDimitry Andric do {
1986bb1caddSDimitry Andric assert(LI != LE && RI != R->end());
1996bb1caddSDimitry Andric Instruction *LeftI = &*LI, *RightI = &*RI;
2006bb1caddSDimitry Andric
2016bb1caddSDimitry Andric // If the instructions differ, start the more sophisticated diff
2026bb1caddSDimitry Andric // algorithm at the start of the block.
2036bb1caddSDimitry Andric if (diff(LeftI, RightI, false, false)) {
2046bb1caddSDimitry Andric TentativeValues.clear();
2056bb1caddSDimitry Andric return runBlockDiff(L->begin(), R->begin());
2066bb1caddSDimitry Andric }
2076bb1caddSDimitry Andric
2086bb1caddSDimitry Andric // Otherwise, tentatively unify them.
2096bb1caddSDimitry Andric if (!LeftI->use_empty())
2106bb1caddSDimitry Andric TentativeValues.insert(std::make_pair(LeftI, RightI));
2116bb1caddSDimitry Andric
2123ca95b02SDimitry Andric ++LI;
2133ca95b02SDimitry Andric ++RI;
2146bb1caddSDimitry Andric } while (LI != LE); // This is sufficient: we can't get equality of
2156bb1caddSDimitry Andric // terminators if there are residual instructions.
2166bb1caddSDimitry Andric
2176bb1caddSDimitry Andric // Unify everything in the block, non-tentatively this time.
2186bb1caddSDimitry Andric TentativeValues.clear();
2196bb1caddSDimitry Andric for (LI = L->begin(), RI = R->begin(); LI != LE; ++LI, ++RI)
2206bb1caddSDimitry Andric unify(&*LI, &*RI);
2216bb1caddSDimitry Andric }
2226bb1caddSDimitry Andric
2236bb1caddSDimitry Andric bool matchForBlockDiff(Instruction *L, Instruction *R);
2246bb1caddSDimitry Andric void runBlockDiff(BasicBlock::iterator LI, BasicBlock::iterator RI);
2256bb1caddSDimitry Andric
diffCallSites(CallSite L,CallSite R,bool Complain)2266bb1caddSDimitry Andric bool diffCallSites(CallSite L, CallSite R, bool Complain) {
2276bb1caddSDimitry Andric // FIXME: call attributes
2286bb1caddSDimitry Andric if (!equivalentAsOperands(L.getCalledValue(), R.getCalledValue())) {
2296bb1caddSDimitry Andric if (Complain) Engine.log("called functions differ");
2306bb1caddSDimitry Andric return true;
2316bb1caddSDimitry Andric }
2326bb1caddSDimitry Andric if (L.arg_size() != R.arg_size()) {
2336bb1caddSDimitry Andric if (Complain) Engine.log("argument counts differ");
2346bb1caddSDimitry Andric return true;
2356bb1caddSDimitry Andric }
2366bb1caddSDimitry Andric for (unsigned I = 0, E = L.arg_size(); I != E; ++I)
2376bb1caddSDimitry Andric if (!equivalentAsOperands(L.getArgument(I), R.getArgument(I))) {
2386bb1caddSDimitry Andric if (Complain)
2396bb1caddSDimitry Andric Engine.logf("arguments %l and %r differ")
2406bb1caddSDimitry Andric << L.getArgument(I) << R.getArgument(I);
2416bb1caddSDimitry Andric return true;
2426bb1caddSDimitry Andric }
2436bb1caddSDimitry Andric return false;
2446bb1caddSDimitry Andric }
2456bb1caddSDimitry Andric
diff(Instruction * L,Instruction * R,bool Complain,bool TryUnify)2466bb1caddSDimitry Andric bool diff(Instruction *L, Instruction *R, bool Complain, bool TryUnify) {
2476bb1caddSDimitry Andric // FIXME: metadata (if Complain is set)
2486bb1caddSDimitry Andric
2496bb1caddSDimitry Andric // Different opcodes always imply different operations.
2506bb1caddSDimitry Andric if (L->getOpcode() != R->getOpcode()) {
2516bb1caddSDimitry Andric if (Complain) Engine.log("different instruction types");
2526bb1caddSDimitry Andric return true;
2536bb1caddSDimitry Andric }
2546bb1caddSDimitry Andric
2556bb1caddSDimitry Andric if (isa<CmpInst>(L)) {
2566bb1caddSDimitry Andric if (cast<CmpInst>(L)->getPredicate()
2576bb1caddSDimitry Andric != cast<CmpInst>(R)->getPredicate()) {
2586bb1caddSDimitry Andric if (Complain) Engine.log("different predicates");
2596bb1caddSDimitry Andric return true;
2606bb1caddSDimitry Andric }
2616bb1caddSDimitry Andric } else if (isa<CallInst>(L)) {
2626bb1caddSDimitry Andric return diffCallSites(CallSite(L), CallSite(R), Complain);
2636bb1caddSDimitry Andric } else if (isa<PHINode>(L)) {
2646bb1caddSDimitry Andric // FIXME: implement.
2656bb1caddSDimitry Andric
2666bb1caddSDimitry Andric // This is really weird; type uniquing is broken?
2676bb1caddSDimitry Andric if (L->getType() != R->getType()) {
2686bb1caddSDimitry Andric if (!L->getType()->isPointerTy() || !R->getType()->isPointerTy()) {
2696bb1caddSDimitry Andric if (Complain) Engine.log("different phi types");
2706bb1caddSDimitry Andric return true;
2716bb1caddSDimitry Andric }
2726bb1caddSDimitry Andric }
2736bb1caddSDimitry Andric return false;
2746bb1caddSDimitry Andric
2756bb1caddSDimitry Andric // Terminators.
2766bb1caddSDimitry Andric } else if (isa<InvokeInst>(L)) {
2776bb1caddSDimitry Andric InvokeInst *LI = cast<InvokeInst>(L);
2786bb1caddSDimitry Andric InvokeInst *RI = cast<InvokeInst>(R);
2796bb1caddSDimitry Andric if (diffCallSites(CallSite(LI), CallSite(RI), Complain))
2806bb1caddSDimitry Andric return true;
2816bb1caddSDimitry Andric
2826bb1caddSDimitry Andric if (TryUnify) {
2836bb1caddSDimitry Andric tryUnify(LI->getNormalDest(), RI->getNormalDest());
2846bb1caddSDimitry Andric tryUnify(LI->getUnwindDest(), RI->getUnwindDest());
2856bb1caddSDimitry Andric }
2866bb1caddSDimitry Andric return false;
2876bb1caddSDimitry Andric
2886bb1caddSDimitry Andric } else if (isa<BranchInst>(L)) {
2896bb1caddSDimitry Andric BranchInst *LI = cast<BranchInst>(L);
2906bb1caddSDimitry Andric BranchInst *RI = cast<BranchInst>(R);
2916bb1caddSDimitry Andric if (LI->isConditional() != RI->isConditional()) {
2926bb1caddSDimitry Andric if (Complain) Engine.log("branch conditionality differs");
2936bb1caddSDimitry Andric return true;
2946bb1caddSDimitry Andric }
2956bb1caddSDimitry Andric
2966bb1caddSDimitry Andric if (LI->isConditional()) {
2976bb1caddSDimitry Andric if (!equivalentAsOperands(LI->getCondition(), RI->getCondition())) {
2986bb1caddSDimitry Andric if (Complain) Engine.log("branch conditions differ");
2996bb1caddSDimitry Andric return true;
3006bb1caddSDimitry Andric }
3016bb1caddSDimitry Andric if (TryUnify) tryUnify(LI->getSuccessor(1), RI->getSuccessor(1));
3026bb1caddSDimitry Andric }
3036bb1caddSDimitry Andric if (TryUnify) tryUnify(LI->getSuccessor(0), RI->getSuccessor(0));
3046bb1caddSDimitry Andric return false;
3056bb1caddSDimitry Andric
3064ba319b5SDimitry Andric } else if (isa<IndirectBrInst>(L)) {
3074ba319b5SDimitry Andric IndirectBrInst *LI = cast<IndirectBrInst>(L);
3084ba319b5SDimitry Andric IndirectBrInst *RI = cast<IndirectBrInst>(R);
3094ba319b5SDimitry Andric if (LI->getNumDestinations() != RI->getNumDestinations()) {
3104ba319b5SDimitry Andric if (Complain) Engine.log("indirectbr # of destinations differ");
3114ba319b5SDimitry Andric return true;
3124ba319b5SDimitry Andric }
3134ba319b5SDimitry Andric
3144ba319b5SDimitry Andric if (!equivalentAsOperands(LI->getAddress(), RI->getAddress())) {
3154ba319b5SDimitry Andric if (Complain) Engine.log("indirectbr addresses differ");
3164ba319b5SDimitry Andric return true;
3174ba319b5SDimitry Andric }
3184ba319b5SDimitry Andric
3194ba319b5SDimitry Andric if (TryUnify) {
3204ba319b5SDimitry Andric for (unsigned i = 0; i < LI->getNumDestinations(); i++) {
3214ba319b5SDimitry Andric tryUnify(LI->getDestination(i), RI->getDestination(i));
3224ba319b5SDimitry Andric }
3234ba319b5SDimitry Andric }
3244ba319b5SDimitry Andric return false;
3254ba319b5SDimitry Andric
3266bb1caddSDimitry Andric } else if (isa<SwitchInst>(L)) {
3276bb1caddSDimitry Andric SwitchInst *LI = cast<SwitchInst>(L);
3286bb1caddSDimitry Andric SwitchInst *RI = cast<SwitchInst>(R);
3296bb1caddSDimitry Andric if (!equivalentAsOperands(LI->getCondition(), RI->getCondition())) {
3306bb1caddSDimitry Andric if (Complain) Engine.log("switch conditions differ");
3316bb1caddSDimitry Andric return true;
3326bb1caddSDimitry Andric }
3336bb1caddSDimitry Andric if (TryUnify) tryUnify(LI->getDefaultDest(), RI->getDefaultDest());
3346bb1caddSDimitry Andric
3356bb1caddSDimitry Andric bool Difference = false;
3366bb1caddSDimitry Andric
337f785676fSDimitry Andric DenseMap<ConstantInt*,BasicBlock*> LCases;
3387a7e6055SDimitry Andric for (auto Case : LI->cases())
3397a7e6055SDimitry Andric LCases[Case.getCaseValue()] = Case.getCaseSuccessor();
340dff0c46cSDimitry Andric
3417a7e6055SDimitry Andric for (auto Case : RI->cases()) {
3427a7e6055SDimitry Andric ConstantInt *CaseValue = Case.getCaseValue();
3436bb1caddSDimitry Andric BasicBlock *LCase = LCases[CaseValue];
3446bb1caddSDimitry Andric if (LCase) {
3457a7e6055SDimitry Andric if (TryUnify)
3467a7e6055SDimitry Andric tryUnify(LCase, Case.getCaseSuccessor());
3476bb1caddSDimitry Andric LCases.erase(CaseValue);
348dff0c46cSDimitry Andric } else if (Complain || !Difference) {
3496bb1caddSDimitry Andric if (Complain)
3506bb1caddSDimitry Andric Engine.logf("right switch has extra case %r") << CaseValue;
3516bb1caddSDimitry Andric Difference = true;
3526bb1caddSDimitry Andric }
3536bb1caddSDimitry Andric }
3546bb1caddSDimitry Andric if (!Difference)
355f785676fSDimitry Andric for (DenseMap<ConstantInt*,BasicBlock*>::iterator
3566bb1caddSDimitry Andric I = LCases.begin(), E = LCases.end(); I != E; ++I) {
3576bb1caddSDimitry Andric if (Complain)
3586bb1caddSDimitry Andric Engine.logf("left switch has extra case %l") << I->first;
3596bb1caddSDimitry Andric Difference = true;
3606bb1caddSDimitry Andric }
3616bb1caddSDimitry Andric return Difference;
3626bb1caddSDimitry Andric } else if (isa<UnreachableInst>(L)) {
3636bb1caddSDimitry Andric return false;
3646bb1caddSDimitry Andric }
3656bb1caddSDimitry Andric
3666bb1caddSDimitry Andric if (L->getNumOperands() != R->getNumOperands()) {
3676bb1caddSDimitry Andric if (Complain) Engine.log("instructions have different operand counts");
3686bb1caddSDimitry Andric return true;
3696bb1caddSDimitry Andric }
3706bb1caddSDimitry Andric
3716bb1caddSDimitry Andric for (unsigned I = 0, E = L->getNumOperands(); I != E; ++I) {
3726bb1caddSDimitry Andric Value *LO = L->getOperand(I), *RO = R->getOperand(I);
3736bb1caddSDimitry Andric if (!equivalentAsOperands(LO, RO)) {
3746bb1caddSDimitry Andric if (Complain) Engine.logf("operands %l and %r differ") << LO << RO;
3756bb1caddSDimitry Andric return true;
3766bb1caddSDimitry Andric }
3776bb1caddSDimitry Andric }
3786bb1caddSDimitry Andric
3796bb1caddSDimitry Andric return false;
3806bb1caddSDimitry Andric }
3816bb1caddSDimitry Andric
equivalentAsOperands(Constant * L,Constant * R)3826bb1caddSDimitry Andric bool equivalentAsOperands(Constant *L, Constant *R) {
3836bb1caddSDimitry Andric // Use equality as a preliminary filter.
3846bb1caddSDimitry Andric if (L == R)
3856bb1caddSDimitry Andric return true;
3866bb1caddSDimitry Andric
3876bb1caddSDimitry Andric if (L->getValueID() != R->getValueID())
3886bb1caddSDimitry Andric return false;
3896bb1caddSDimitry Andric
3906bb1caddSDimitry Andric // Ask the engine about global values.
3916bb1caddSDimitry Andric if (isa<GlobalValue>(L))
3926bb1caddSDimitry Andric return Engine.equivalentAsOperands(cast<GlobalValue>(L),
3936bb1caddSDimitry Andric cast<GlobalValue>(R));
3946bb1caddSDimitry Andric
3956bb1caddSDimitry Andric // Compare constant expressions structurally.
3966bb1caddSDimitry Andric if (isa<ConstantExpr>(L))
3976bb1caddSDimitry Andric return equivalentAsOperands(cast<ConstantExpr>(L),
3986bb1caddSDimitry Andric cast<ConstantExpr>(R));
3996bb1caddSDimitry Andric
4004ba319b5SDimitry Andric // Constants of the "same type" don't always actually have the same
4016bb1caddSDimitry Andric // type; I don't know why. Just white-list them.
4024ba319b5SDimitry Andric if (isa<ConstantPointerNull>(L) || isa<UndefValue>(L) || isa<ConstantAggregateZero>(L))
4036bb1caddSDimitry Andric return true;
4046bb1caddSDimitry Andric
4056bb1caddSDimitry Andric // Block addresses only match if we've already encountered the
4066bb1caddSDimitry Andric // block. FIXME: tentative matches?
4076bb1caddSDimitry Andric if (isa<BlockAddress>(L))
4086bb1caddSDimitry Andric return Blocks[cast<BlockAddress>(L)->getBasicBlock()]
4096bb1caddSDimitry Andric == cast<BlockAddress>(R)->getBasicBlock();
4106bb1caddSDimitry Andric
4114ba319b5SDimitry Andric // If L and R are ConstantVectors, compare each element
4124ba319b5SDimitry Andric if (isa<ConstantVector>(L)) {
4134ba319b5SDimitry Andric ConstantVector *CVL = cast<ConstantVector>(L);
4144ba319b5SDimitry Andric ConstantVector *CVR = cast<ConstantVector>(R);
4154ba319b5SDimitry Andric if (CVL->getType()->getNumElements() != CVR->getType()->getNumElements())
4164ba319b5SDimitry Andric return false;
4174ba319b5SDimitry Andric for (unsigned i = 0; i < CVL->getType()->getNumElements(); i++) {
4184ba319b5SDimitry Andric if (!equivalentAsOperands(CVL->getOperand(i), CVR->getOperand(i)))
4194ba319b5SDimitry Andric return false;
4204ba319b5SDimitry Andric }
4214ba319b5SDimitry Andric return true;
4224ba319b5SDimitry Andric }
4234ba319b5SDimitry Andric
4246bb1caddSDimitry Andric return false;
4256bb1caddSDimitry Andric }
4266bb1caddSDimitry Andric
equivalentAsOperands(ConstantExpr * L,ConstantExpr * R)4276bb1caddSDimitry Andric bool equivalentAsOperands(ConstantExpr *L, ConstantExpr *R) {
4286bb1caddSDimitry Andric if (L == R)
4296bb1caddSDimitry Andric return true;
4306bb1caddSDimitry Andric if (L->getOpcode() != R->getOpcode())
4316bb1caddSDimitry Andric return false;
4326bb1caddSDimitry Andric
4336bb1caddSDimitry Andric switch (L->getOpcode()) {
4346bb1caddSDimitry Andric case Instruction::ICmp:
4356bb1caddSDimitry Andric case Instruction::FCmp:
4366bb1caddSDimitry Andric if (L->getPredicate() != R->getPredicate())
4376bb1caddSDimitry Andric return false;
4386bb1caddSDimitry Andric break;
4396bb1caddSDimitry Andric
4406bb1caddSDimitry Andric case Instruction::GetElementPtr:
4416bb1caddSDimitry Andric // FIXME: inbounds?
4426bb1caddSDimitry Andric break;
4436bb1caddSDimitry Andric
4446bb1caddSDimitry Andric default:
4456bb1caddSDimitry Andric break;
4466bb1caddSDimitry Andric }
4476bb1caddSDimitry Andric
4486bb1caddSDimitry Andric if (L->getNumOperands() != R->getNumOperands())
4496bb1caddSDimitry Andric return false;
4506bb1caddSDimitry Andric
4516bb1caddSDimitry Andric for (unsigned I = 0, E = L->getNumOperands(); I != E; ++I)
4526bb1caddSDimitry Andric if (!equivalentAsOperands(L->getOperand(I), R->getOperand(I)))
4536bb1caddSDimitry Andric return false;
4546bb1caddSDimitry Andric
4556bb1caddSDimitry Andric return true;
4566bb1caddSDimitry Andric }
4576bb1caddSDimitry Andric
equivalentAsOperands(Value * L,Value * R)4586bb1caddSDimitry Andric bool equivalentAsOperands(Value *L, Value *R) {
4596bb1caddSDimitry Andric // Fall out if the values have different kind.
4606bb1caddSDimitry Andric // This possibly shouldn't take priority over oracles.
4616bb1caddSDimitry Andric if (L->getValueID() != R->getValueID())
4626bb1caddSDimitry Andric return false;
4636bb1caddSDimitry Andric
4646bb1caddSDimitry Andric // Value subtypes: Argument, Constant, Instruction, BasicBlock,
4656bb1caddSDimitry Andric // InlineAsm, MDNode, MDString, PseudoSourceValue
4666bb1caddSDimitry Andric
4676bb1caddSDimitry Andric if (isa<Constant>(L))
4686bb1caddSDimitry Andric return equivalentAsOperands(cast<Constant>(L), cast<Constant>(R));
4696bb1caddSDimitry Andric
4706bb1caddSDimitry Andric if (isa<Instruction>(L))
4716bb1caddSDimitry Andric return Values[L] == R || TentativeValues.count(std::make_pair(L, R));
4726bb1caddSDimitry Andric
4736bb1caddSDimitry Andric if (isa<Argument>(L))
4746bb1caddSDimitry Andric return Values[L] == R;
4756bb1caddSDimitry Andric
4766bb1caddSDimitry Andric if (isa<BasicBlock>(L))
4776bb1caddSDimitry Andric return Blocks[cast<BasicBlock>(L)] != R;
4786bb1caddSDimitry Andric
4796bb1caddSDimitry Andric // Pretend everything else is identical.
4806bb1caddSDimitry Andric return true;
4816bb1caddSDimitry Andric }
4826bb1caddSDimitry Andric
4836bb1caddSDimitry Andric // Avoid a gcc warning about accessing 'this' in an initializer.
this_()4846bb1caddSDimitry Andric FunctionDifferenceEngine *this_() { return this; }
4856bb1caddSDimitry Andric
4866bb1caddSDimitry Andric public:
FunctionDifferenceEngine(DifferenceEngine & Engine)4876bb1caddSDimitry Andric FunctionDifferenceEngine(DifferenceEngine &Engine) :
4886bb1caddSDimitry Andric Engine(Engine), Queue(QueueSorter(*this_())) {}
4896bb1caddSDimitry Andric
diff(Function * L,Function * R)4906bb1caddSDimitry Andric void diff(Function *L, Function *R) {
4916bb1caddSDimitry Andric if (L->arg_size() != R->arg_size())
4926bb1caddSDimitry Andric Engine.log("different argument counts");
4936bb1caddSDimitry Andric
4946bb1caddSDimitry Andric // Map the arguments.
4956bb1caddSDimitry Andric for (Function::arg_iterator
4966bb1caddSDimitry Andric LI = L->arg_begin(), LE = L->arg_end(),
4976bb1caddSDimitry Andric RI = R->arg_begin(), RE = R->arg_end();
4986bb1caddSDimitry Andric LI != LE && RI != RE; ++LI, ++RI)
4996bb1caddSDimitry Andric Values[&*LI] = &*RI;
5006bb1caddSDimitry Andric
5016bb1caddSDimitry Andric tryUnify(&*L->begin(), &*R->begin());
5026bb1caddSDimitry Andric processQueue();
5036bb1caddSDimitry Andric }
5046bb1caddSDimitry Andric };
5056bb1caddSDimitry Andric
5066bb1caddSDimitry Andric struct DiffEntry {
DiffEntry__anon565615e00111::DiffEntry5076bb1caddSDimitry Andric DiffEntry() : Cost(0) {}
5086bb1caddSDimitry Andric
5096bb1caddSDimitry Andric unsigned Cost;
5106bb1caddSDimitry Andric llvm::SmallVector<char, 8> Path; // actually of DifferenceEngine::DiffChange
5116bb1caddSDimitry Andric };
5126bb1caddSDimitry Andric
matchForBlockDiff(Instruction * L,Instruction * R)5136bb1caddSDimitry Andric bool FunctionDifferenceEngine::matchForBlockDiff(Instruction *L,
5146bb1caddSDimitry Andric Instruction *R) {
5156bb1caddSDimitry Andric return !diff(L, R, false, false);
5166bb1caddSDimitry Andric }
5176bb1caddSDimitry Andric
runBlockDiff(BasicBlock::iterator LStart,BasicBlock::iterator RStart)5186bb1caddSDimitry Andric void FunctionDifferenceEngine::runBlockDiff(BasicBlock::iterator LStart,
5196bb1caddSDimitry Andric BasicBlock::iterator RStart) {
5206bb1caddSDimitry Andric BasicBlock::iterator LE = LStart->getParent()->end();
5216bb1caddSDimitry Andric BasicBlock::iterator RE = RStart->getParent()->end();
5226bb1caddSDimitry Andric
5236bb1caddSDimitry Andric unsigned NL = std::distance(LStart, LE);
5246bb1caddSDimitry Andric
5256bb1caddSDimitry Andric SmallVector<DiffEntry, 20> Paths1(NL+1);
5266bb1caddSDimitry Andric SmallVector<DiffEntry, 20> Paths2(NL+1);
5276bb1caddSDimitry Andric
5286bb1caddSDimitry Andric DiffEntry *Cur = Paths1.data();
5296bb1caddSDimitry Andric DiffEntry *Next = Paths2.data();
5306bb1caddSDimitry Andric
5316bb1caddSDimitry Andric const unsigned LeftCost = 2;
5326bb1caddSDimitry Andric const unsigned RightCost = 2;
5336bb1caddSDimitry Andric const unsigned MatchCost = 0;
5346bb1caddSDimitry Andric
5356bb1caddSDimitry Andric assert(TentativeValues.empty());
5366bb1caddSDimitry Andric
5376bb1caddSDimitry Andric // Initialize the first column.
5386bb1caddSDimitry Andric for (unsigned I = 0; I != NL+1; ++I) {
5396bb1caddSDimitry Andric Cur[I].Cost = I * LeftCost;
5406bb1caddSDimitry Andric for (unsigned J = 0; J != I; ++J)
5416bb1caddSDimitry Andric Cur[I].Path.push_back(DC_left);
5426bb1caddSDimitry Andric }
5436bb1caddSDimitry Andric
5446bb1caddSDimitry Andric for (BasicBlock::iterator RI = RStart; RI != RE; ++RI) {
5456bb1caddSDimitry Andric // Initialize the first row.
5466bb1caddSDimitry Andric Next[0] = Cur[0];
5476bb1caddSDimitry Andric Next[0].Cost += RightCost;
5486bb1caddSDimitry Andric Next[0].Path.push_back(DC_right);
5496bb1caddSDimitry Andric
5506bb1caddSDimitry Andric unsigned Index = 1;
5516bb1caddSDimitry Andric for (BasicBlock::iterator LI = LStart; LI != LE; ++LI, ++Index) {
5526bb1caddSDimitry Andric if (matchForBlockDiff(&*LI, &*RI)) {
5536bb1caddSDimitry Andric Next[Index] = Cur[Index-1];
5546bb1caddSDimitry Andric Next[Index].Cost += MatchCost;
5556bb1caddSDimitry Andric Next[Index].Path.push_back(DC_match);
5566bb1caddSDimitry Andric TentativeValues.insert(std::make_pair(&*LI, &*RI));
5576bb1caddSDimitry Andric } else if (Next[Index-1].Cost <= Cur[Index].Cost) {
5586bb1caddSDimitry Andric Next[Index] = Next[Index-1];
5596bb1caddSDimitry Andric Next[Index].Cost += LeftCost;
5606bb1caddSDimitry Andric Next[Index].Path.push_back(DC_left);
5616bb1caddSDimitry Andric } else {
5626bb1caddSDimitry Andric Next[Index] = Cur[Index];
5636bb1caddSDimitry Andric Next[Index].Cost += RightCost;
5646bb1caddSDimitry Andric Next[Index].Path.push_back(DC_right);
5656bb1caddSDimitry Andric }
5666bb1caddSDimitry Andric }
5676bb1caddSDimitry Andric
5686bb1caddSDimitry Andric std::swap(Cur, Next);
5696bb1caddSDimitry Andric }
5706bb1caddSDimitry Andric
5716bb1caddSDimitry Andric // We don't need the tentative values anymore; everything from here
5726bb1caddSDimitry Andric // on out should be non-tentative.
5736bb1caddSDimitry Andric TentativeValues.clear();
5746bb1caddSDimitry Andric
5756bb1caddSDimitry Andric SmallVectorImpl<char> &Path = Cur[NL].Path;
5766bb1caddSDimitry Andric BasicBlock::iterator LI = LStart, RI = RStart;
5776bb1caddSDimitry Andric
5786bb1caddSDimitry Andric DiffLogBuilder Diff(Engine.getConsumer());
5796bb1caddSDimitry Andric
5806bb1caddSDimitry Andric // Drop trailing matches.
5816bb1caddSDimitry Andric while (Path.back() == DC_match)
5826bb1caddSDimitry Andric Path.pop_back();
5836bb1caddSDimitry Andric
5846bb1caddSDimitry Andric // Skip leading matches.
5856bb1caddSDimitry Andric SmallVectorImpl<char>::iterator
5866bb1caddSDimitry Andric PI = Path.begin(), PE = Path.end();
5876bb1caddSDimitry Andric while (PI != PE && *PI == DC_match) {
5886bb1caddSDimitry Andric unify(&*LI, &*RI);
5893ca95b02SDimitry Andric ++PI;
5903ca95b02SDimitry Andric ++LI;
5913ca95b02SDimitry Andric ++RI;
5926bb1caddSDimitry Andric }
5936bb1caddSDimitry Andric
5946bb1caddSDimitry Andric for (; PI != PE; ++PI) {
5956bb1caddSDimitry Andric switch (static_cast<DiffChange>(*PI)) {
5966bb1caddSDimitry Andric case DC_match:
5976bb1caddSDimitry Andric assert(LI != LE && RI != RE);
5986bb1caddSDimitry Andric {
5996bb1caddSDimitry Andric Instruction *L = &*LI, *R = &*RI;
6006bb1caddSDimitry Andric unify(L, R);
6016bb1caddSDimitry Andric Diff.addMatch(L, R);
6026bb1caddSDimitry Andric }
6036bb1caddSDimitry Andric ++LI; ++RI;
6046bb1caddSDimitry Andric break;
6056bb1caddSDimitry Andric
6066bb1caddSDimitry Andric case DC_left:
6076bb1caddSDimitry Andric assert(LI != LE);
6086bb1caddSDimitry Andric Diff.addLeft(&*LI);
6096bb1caddSDimitry Andric ++LI;
6106bb1caddSDimitry Andric break;
6116bb1caddSDimitry Andric
6126bb1caddSDimitry Andric case DC_right:
6136bb1caddSDimitry Andric assert(RI != RE);
6146bb1caddSDimitry Andric Diff.addRight(&*RI);
6156bb1caddSDimitry Andric ++RI;
6166bb1caddSDimitry Andric break;
6176bb1caddSDimitry Andric }
6186bb1caddSDimitry Andric }
6196bb1caddSDimitry Andric
6206bb1caddSDimitry Andric // Finishing unifying and complaining about the tails of the block,
6216bb1caddSDimitry Andric // which should be matches all the way through.
6226bb1caddSDimitry Andric while (LI != LE) {
6236bb1caddSDimitry Andric assert(RI != RE);
6246bb1caddSDimitry Andric unify(&*LI, &*RI);
6253ca95b02SDimitry Andric ++LI;
6263ca95b02SDimitry Andric ++RI;
6276bb1caddSDimitry Andric }
6286bb1caddSDimitry Andric
6296bb1caddSDimitry Andric // If the terminators have different kinds, but one is an invoke and the
6306bb1caddSDimitry Andric // other is an unconditional branch immediately following a call, unify
6316bb1caddSDimitry Andric // the results and the destinations.
632*b5893f02SDimitry Andric Instruction *LTerm = LStart->getParent()->getTerminator();
633*b5893f02SDimitry Andric Instruction *RTerm = RStart->getParent()->getTerminator();
6346bb1caddSDimitry Andric if (isa<BranchInst>(LTerm) && isa<InvokeInst>(RTerm)) {
6356bb1caddSDimitry Andric if (cast<BranchInst>(LTerm)->isConditional()) return;
6367d523365SDimitry Andric BasicBlock::iterator I = LTerm->getIterator();
6376bb1caddSDimitry Andric if (I == LStart->getParent()->begin()) return;
6386bb1caddSDimitry Andric --I;
6396bb1caddSDimitry Andric if (!isa<CallInst>(*I)) return;
6406bb1caddSDimitry Andric CallInst *LCall = cast<CallInst>(&*I);
6416bb1caddSDimitry Andric InvokeInst *RInvoke = cast<InvokeInst>(RTerm);
6426bb1caddSDimitry Andric if (!equivalentAsOperands(LCall->getCalledValue(), RInvoke->getCalledValue()))
6436bb1caddSDimitry Andric return;
6446bb1caddSDimitry Andric if (!LCall->use_empty())
6456bb1caddSDimitry Andric Values[LCall] = RInvoke;
6466bb1caddSDimitry Andric tryUnify(LTerm->getSuccessor(0), RInvoke->getNormalDest());
6476bb1caddSDimitry Andric } else if (isa<InvokeInst>(LTerm) && isa<BranchInst>(RTerm)) {
6486bb1caddSDimitry Andric if (cast<BranchInst>(RTerm)->isConditional()) return;
6497d523365SDimitry Andric BasicBlock::iterator I = RTerm->getIterator();
6506bb1caddSDimitry Andric if (I == RStart->getParent()->begin()) return;
6516bb1caddSDimitry Andric --I;
6526bb1caddSDimitry Andric if (!isa<CallInst>(*I)) return;
6536bb1caddSDimitry Andric CallInst *RCall = cast<CallInst>(I);
6546bb1caddSDimitry Andric InvokeInst *LInvoke = cast<InvokeInst>(LTerm);
6556bb1caddSDimitry Andric if (!equivalentAsOperands(LInvoke->getCalledValue(), RCall->getCalledValue()))
6566bb1caddSDimitry Andric return;
6576bb1caddSDimitry Andric if (!LInvoke->use_empty())
6586bb1caddSDimitry Andric Values[LInvoke] = RCall;
6596bb1caddSDimitry Andric tryUnify(LInvoke->getNormalDest(), RTerm->getSuccessor(0));
6606bb1caddSDimitry Andric }
6616bb1caddSDimitry Andric }
6626bb1caddSDimitry Andric
6636bb1caddSDimitry Andric }
6646bb1caddSDimitry Andric
anchor()665dff0c46cSDimitry Andric void DifferenceEngine::Oracle::anchor() { }
666dff0c46cSDimitry Andric
diff(Function * L,Function * R)6676bb1caddSDimitry Andric void DifferenceEngine::diff(Function *L, Function *R) {
6686bb1caddSDimitry Andric Context C(*this, L, R);
6696bb1caddSDimitry Andric
6706bb1caddSDimitry Andric // FIXME: types
6716bb1caddSDimitry Andric // FIXME: attributes and CC
6726bb1caddSDimitry Andric // FIXME: parameter attributes
6736bb1caddSDimitry Andric
6746bb1caddSDimitry Andric // If both are declarations, we're done.
6756bb1caddSDimitry Andric if (L->empty() && R->empty())
6766bb1caddSDimitry Andric return;
6776bb1caddSDimitry Andric else if (L->empty())
6786bb1caddSDimitry Andric log("left function is declaration, right function is definition");
6796bb1caddSDimitry Andric else if (R->empty())
6806bb1caddSDimitry Andric log("right function is declaration, left function is definition");
6816bb1caddSDimitry Andric else
6826bb1caddSDimitry Andric FunctionDifferenceEngine(*this).diff(L, R);
6836bb1caddSDimitry Andric }
6846bb1caddSDimitry Andric
diff(Module * L,Module * R)6856bb1caddSDimitry Andric void DifferenceEngine::diff(Module *L, Module *R) {
6866bb1caddSDimitry Andric StringSet<> LNames;
6876bb1caddSDimitry Andric SmallVector<std::pair<Function*,Function*>, 20> Queue;
6886bb1caddSDimitry Andric
689*b5893f02SDimitry Andric unsigned LeftAnonCount = 0;
690*b5893f02SDimitry Andric unsigned RightAnonCount = 0;
691*b5893f02SDimitry Andric
6926bb1caddSDimitry Andric for (Module::iterator I = L->begin(), E = L->end(); I != E; ++I) {
6936bb1caddSDimitry Andric Function *LFn = &*I;
694*b5893f02SDimitry Andric StringRef Name = LFn->getName();
695*b5893f02SDimitry Andric if (Name.empty()) {
696*b5893f02SDimitry Andric ++LeftAnonCount;
697*b5893f02SDimitry Andric continue;
698*b5893f02SDimitry Andric }
699*b5893f02SDimitry Andric
700*b5893f02SDimitry Andric LNames.insert(Name);
7016bb1caddSDimitry Andric
7026bb1caddSDimitry Andric if (Function *RFn = R->getFunction(LFn->getName()))
7036bb1caddSDimitry Andric Queue.push_back(std::make_pair(LFn, RFn));
7046bb1caddSDimitry Andric else
7056bb1caddSDimitry Andric logf("function %l exists only in left module") << LFn;
7066bb1caddSDimitry Andric }
7076bb1caddSDimitry Andric
7086bb1caddSDimitry Andric for (Module::iterator I = R->begin(), E = R->end(); I != E; ++I) {
7096bb1caddSDimitry Andric Function *RFn = &*I;
710*b5893f02SDimitry Andric StringRef Name = RFn->getName();
711*b5893f02SDimitry Andric if (Name.empty()) {
712*b5893f02SDimitry Andric ++RightAnonCount;
713*b5893f02SDimitry Andric continue;
714*b5893f02SDimitry Andric }
715*b5893f02SDimitry Andric
716*b5893f02SDimitry Andric if (!LNames.count(Name))
7176bb1caddSDimitry Andric logf("function %r exists only in right module") << RFn;
7186bb1caddSDimitry Andric }
7196bb1caddSDimitry Andric
720*b5893f02SDimitry Andric
721*b5893f02SDimitry Andric if (LeftAnonCount != 0 || RightAnonCount != 0) {
722*b5893f02SDimitry Andric SmallString<32> Tmp;
723*b5893f02SDimitry Andric logf(("not comparing " + Twine(LeftAnonCount) +
724*b5893f02SDimitry Andric " anonymous functions in the left module and " +
725*b5893f02SDimitry Andric Twine(RightAnonCount) + " in the right module")
726*b5893f02SDimitry Andric .toStringRef(Tmp));
727*b5893f02SDimitry Andric }
728*b5893f02SDimitry Andric
7296bb1caddSDimitry Andric for (SmallVectorImpl<std::pair<Function*,Function*> >::iterator
7306bb1caddSDimitry Andric I = Queue.begin(), E = Queue.end(); I != E; ++I)
7316bb1caddSDimitry Andric diff(I->first, I->second);
7326bb1caddSDimitry Andric }
7336bb1caddSDimitry Andric
equivalentAsOperands(GlobalValue * L,GlobalValue * R)7346bb1caddSDimitry Andric bool DifferenceEngine::equivalentAsOperands(GlobalValue *L, GlobalValue *R) {
7356bb1caddSDimitry Andric if (globalValueOracle) return (*globalValueOracle)(L, R);
7366bb1caddSDimitry Andric return L->getName() == R->getName();
7376bb1caddSDimitry Andric }
738