//===-- DiffConsumer.cpp - Difference Consumer ------------------*- C++ -*-===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// // // This files implements the the LLVM difference Consumer // //===----------------------------------------------------------------------===// #include "DiffConsumer.h" #include "llvm/Module.h" #include "llvm/Instructions.h" #include "llvm/Support/ErrorHandling.h" using namespace llvm; static void ComputeNumbering(Function *F, DenseMap<Value*,unsigned> &Numbering){ unsigned IN = 0; // Arguments get the first numbers. for (Function::arg_iterator AI = F->arg_begin(), AE = F->arg_end(); AI != AE; ++AI) if (!AI->hasName()) Numbering[&*AI] = IN++; // Walk the basic blocks in order. for (Function::iterator FI = F->begin(), FE = F->end(); FI != FE; ++FI) { if (!FI->hasName()) Numbering[&*FI] = IN++; // Walk the instructions in order. for (BasicBlock::iterator BI = FI->begin(), BE = FI->end(); BI != BE; ++BI) // void instructions don't get numbers. if (!BI->hasName() && !BI->getType()->isVoidTy()) Numbering[&*BI] = IN++; } assert(!Numbering.empty() && "asked for numbering but numbering was no-op"); } void DiffConsumer::printValue(Value *V, bool isL) { if (V->hasName()) { out << (isa<GlobalValue>(V) ? '@' : '%') << V->getName(); return; } if (V->getType()->isVoidTy()) { if (isa<StoreInst>(V)) { out << "store to "; printValue(cast<StoreInst>(V)->getPointerOperand(), isL); } else if (isa<CallInst>(V)) { out << "call to "; printValue(cast<CallInst>(V)->getCalledValue(), isL); } else if (isa<InvokeInst>(V)) { out << "invoke to "; printValue(cast<InvokeInst>(V)->getCalledValue(), isL); } else { out << *V; } return; } unsigned N = contexts.size(); while (N > 0) { --N; DiffContext &ctxt = contexts[N]; if (!ctxt.IsFunction) continue; if (isL) { if (ctxt.LNumbering.empty()) ComputeNumbering(cast<Function>(ctxt.L), ctxt.LNumbering); out << '%' << ctxt.LNumbering[V]; return; } else { if (ctxt.RNumbering.empty()) ComputeNumbering(cast<Function>(ctxt.R), ctxt.RNumbering); out << '%' << ctxt.RNumbering[V]; return; } } out << "<anonymous>"; } void DiffConsumer::header() { if (contexts.empty()) return; for (SmallVectorImpl<DiffContext>::iterator I = contexts.begin(), E = contexts.end(); I != E; ++I) { if (I->Differences) continue; if (isa<Function>(I->L)) { // Extra newline between functions. if (Differences) out << "\n"; Function *L = cast<Function>(I->L); Function *R = cast<Function>(I->R); if (L->getName() != R->getName()) out << "in function " << L->getName() << " / " << R->getName() << ":\n"; else out << "in function " << L->getName() << ":\n"; } else if (isa<BasicBlock>(I->L)) { BasicBlock *L = cast<BasicBlock>(I->L); BasicBlock *R = cast<BasicBlock>(I->R); if (L->hasName() && R->hasName() && L->getName() == R->getName()) out << " in block %" << L->getName() << ":\n"; else { out << " in block "; printValue(L, true); out << " / "; printValue(R, false); out << ":\n"; } } else if (isa<Instruction>(I->L)) { out << " in instruction "; printValue(I->L, true); out << " / "; printValue(I->R, false); out << ":\n"; } I->Differences = true; } } void DiffConsumer::indent() { unsigned N = Indent; while (N--) out << ' '; } bool DiffConsumer::hadDifferences() const { return Differences; } void DiffConsumer::enterContext(Value *L, Value *R) { contexts.push_back(DiffContext(L, R)); Indent += 2; } void DiffConsumer::exitContext() { Differences |= contexts.back().Differences; contexts.pop_back(); Indent -= 2; } void DiffConsumer::log(StringRef text) { header(); indent(); out << text << '\n'; } void DiffConsumer::logf(const LogBuilder &Log) { header(); indent(); unsigned arg = 0; StringRef format = Log.getFormat(); while (true) { size_t percent = format.find('%'); if (percent == StringRef::npos) { out << format; break; } assert(format[percent] == '%'); if (percent > 0) out << format.substr(0, percent); switch (format[percent+1]) { case '%': out << '%'; break; case 'l': printValue(Log.getArgument(arg++), true); break; case 'r': printValue(Log.getArgument(arg++), false); break; default: llvm_unreachable("unknown format character"); } format = format.substr(percent+2); } out << '\n'; } void DiffConsumer::logd(const DiffLogBuilder &Log) { header(); for (unsigned I = 0, E = Log.getNumLines(); I != E; ++I) { indent(); switch (Log.getLineKind(I)) { case DC_match: out << " "; Log.getLeft(I)->dump(); //printValue(Log.getLeft(I), true); break; case DC_left: out << "< "; Log.getLeft(I)->dump(); //printValue(Log.getLeft(I), true); break; case DC_right: out << "> "; Log.getRight(I)->dump(); //printValue(Log.getRight(I), false); break; } //out << "\n"; } }