//===- ReplaceConstant.cpp - Replace LLVM constant expression--------------===// // // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. // See https://llvm.org/LICENSE.txt for license information. // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception // //===----------------------------------------------------------------------===// // // This file implements a utility function for replacing LLVM constant // expressions by instructions. // //===----------------------------------------------------------------------===// #include "llvm/IR/ReplaceConstant.h" #include "llvm/ADT/SmallPtrSet.h" #include "llvm/IR/Constants.h" #include "llvm/IR/Instructions.h" #include "llvm/IR/ValueMap.h" namespace llvm { void convertConstantExprsToInstructions(Instruction *I, ConstantExpr *CE, SmallPtrSetImpl *Insts) { // Collect all reachable paths to CE from constant exprssion operands of I. std::map>> CEPaths; collectConstantExprPaths(I, CE, CEPaths); // Convert all constant expressions to instructions which are collected at // CEPaths. convertConstantExprsToInstructions(I, CEPaths, Insts); } void convertConstantExprsToInstructions( Instruction *I, std::map>> &CEPaths, SmallPtrSetImpl *Insts) { ValueMap Visited; for (Use &U : I->operands()) { // The operand U is either not a constant expression operand or the // constant expression paths do not belong to U, ignore U. if (!CEPaths.count(&U)) continue; // If the instruction I is a PHI instruction, then fix the instruction // insertion point to the entry of the incoming basic block for operand U. auto *BI = I; if (auto *Phi = dyn_cast(I)) { BasicBlock *BB = Phi->getIncomingBlock(U); BI = &(*(BB->getFirstInsertionPt())); } // Go through all the paths associated with operand U, and convert all the // constant expressions along all the paths to corresponding instructions. auto *II = I; auto &Paths = CEPaths[&U]; for (auto &Path : Paths) { for (auto *CE : Path) { // Instruction which is equivalent to CE. Instruction *NI = nullptr; if (!Visited.count(CE)) { // CE is encountered first time, convert it into a corresponding // instruction NI, and appropriately insert NI before the parent // instruction. NI = CE->getAsInstruction(BI); // Mark CE as visited by mapping CE to NI. Visited[CE] = NI; // If required collect NI. if (Insts) Insts->insert(NI); } else { // We had already encountered CE, the correponding instruction already // exist, use it to replace CE. NI = Visited[CE]; } assert(NI && "Expected an instruction corresponding to constant " "expression."); // Replace all uses of constant expression CE by the corresponding // instruction NI within the current parent instruction. II->replaceUsesOfWith(CE, NI); BI = II = NI; } } } // Remove all converted constant expressions which are dead by now. for (auto Item : Visited) Item.first->removeDeadConstantUsers(); } void collectConstantExprPaths( Instruction *I, ConstantExpr *CE, std::map>> &CEPaths) { for (Use &U : I->operands()) { // If the operand U is not a constant expression operand, then ignore it. auto *CE2 = dyn_cast(U.get()); if (!CE2) continue; // Holds all reachable paths from CE2 to CE. std::vector> Paths; // Collect all reachable paths from CE2 to CE. std::vector Path{CE2}; std::vector> Stack{Path}; while (!Stack.empty()) { std::vector TPath = Stack.back(); Stack.pop_back(); auto *CE3 = TPath.back(); if (CE3 == CE) { Paths.push_back(TPath); continue; } for (auto &UU : CE3->operands()) { if (auto *CE4 = dyn_cast(UU.get())) { std::vector NPath(TPath.begin(), TPath.end()); NPath.push_back(CE4); Stack.push_back(NPath); } } } // Associate all the collected paths with U, and save it. if (!Paths.empty()) CEPaths[&U] = Paths; } } } // namespace llvm