//===- TypeMetadataUtils.cpp - Utilities related to type metadata ---------===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// // // This file contains functions that make it easier to manipulate type metadata // for devirtualization. // //===----------------------------------------------------------------------===// #include "llvm/Analysis/TypeMetadataUtils.h" #include "llvm/IR/Constants.h" #include "llvm/IR/Intrinsics.h" #include "llvm/IR/Module.h" using namespace llvm; // Search for virtual calls that call FPtr and add them to DevirtCalls. static void findCallsAtConstantOffset(SmallVectorImpl &DevirtCalls, bool *HasNonCallUses, Value *FPtr, uint64_t Offset) { for (const Use &U : FPtr->uses()) { Value *User = U.getUser(); if (isa(User)) { findCallsAtConstantOffset(DevirtCalls, HasNonCallUses, User, Offset); } else if (auto CI = dyn_cast(User)) { DevirtCalls.push_back({Offset, CI}); } else if (auto II = dyn_cast(User)) { DevirtCalls.push_back({Offset, II}); } else if (HasNonCallUses) { *HasNonCallUses = true; } } } // Search for virtual calls that load from VPtr and add them to DevirtCalls. static void findLoadCallsAtConstantOffset(const Module *M, SmallVectorImpl &DevirtCalls, Value *VPtr, int64_t Offset) { for (const Use &U : VPtr->uses()) { Value *User = U.getUser(); if (isa(User)) { findLoadCallsAtConstantOffset(M, DevirtCalls, User, Offset); } else if (isa(User)) { findCallsAtConstantOffset(DevirtCalls, nullptr, User, Offset); } else if (auto GEP = dyn_cast(User)) { // Take into account the GEP offset. if (VPtr == GEP->getPointerOperand() && GEP->hasAllConstantIndices()) { SmallVector Indices(GEP->op_begin() + 1, GEP->op_end()); int64_t GEPOffset = M->getDataLayout().getIndexedOffsetInType( GEP->getSourceElementType(), Indices); findLoadCallsAtConstantOffset(M, DevirtCalls, User, Offset + GEPOffset); } } } } void llvm::findDevirtualizableCallsForTypeTest( SmallVectorImpl &DevirtCalls, SmallVectorImpl &Assumes, const CallInst *CI) { assert(CI->getCalledFunction()->getIntrinsicID() == Intrinsic::type_test); const Module *M = CI->getParent()->getParent()->getParent(); // Find llvm.assume intrinsics for this llvm.type.test call. for (const Use &CIU : CI->uses()) { if (auto *AssumeCI = dyn_cast(CIU.getUser())) { Function *F = AssumeCI->getCalledFunction(); if (F && F->getIntrinsicID() == Intrinsic::assume) Assumes.push_back(AssumeCI); } } // If we found any, search for virtual calls based on %p and add them to // DevirtCalls. if (!Assumes.empty()) findLoadCallsAtConstantOffset(M, DevirtCalls, CI->getArgOperand(0)->stripPointerCasts(), 0); } void llvm::findDevirtualizableCallsForTypeCheckedLoad( SmallVectorImpl &DevirtCalls, SmallVectorImpl &LoadedPtrs, SmallVectorImpl &Preds, bool &HasNonCallUses, const CallInst *CI) { assert(CI->getCalledFunction()->getIntrinsicID() == Intrinsic::type_checked_load); auto *Offset = dyn_cast(CI->getArgOperand(1)); if (!Offset) { HasNonCallUses = true; return; } for (const Use &U : CI->uses()) { auto CIU = U.getUser(); if (auto EVI = dyn_cast(CIU)) { if (EVI->getNumIndices() == 1 && EVI->getIndices()[0] == 0) { LoadedPtrs.push_back(EVI); continue; } if (EVI->getNumIndices() == 1 && EVI->getIndices()[0] == 1) { Preds.push_back(EVI); continue; } } HasNonCallUses = true; } for (Value *LoadedPtr : LoadedPtrs) findCallsAtConstantOffset(DevirtCalls, &HasNonCallUses, LoadedPtr, Offset->getZExtValue()); }