//===- TestDominance.cpp - Test dominance construction and information //-------===// // // 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 contains test passes for constructing and resolving dominance // information. // //===----------------------------------------------------------------------===// #include "mlir/IR/Dominance.h" #include "mlir/Pass/Pass.h" using namespace mlir; /// Overloaded helper to call the right function based on whether we are testing /// dominance or post-dominance. static bool dominatesOrPostDominates(DominanceInfo &dominanceInfo, Block *a, Block *b) { return dominanceInfo.dominates(a, b); } static bool dominatesOrPostDominates(PostDominanceInfo &dominanceInfo, Block *a, Block *b) { return dominanceInfo.postDominates(a, b); } namespace { /// Helper class to print dominance information. class DominanceTest { public: /// Constructs a new test instance using the given operation. DominanceTest(Operation *operation) : operation(operation) { // Create unique ids for each block. operation->walk([&](Operation *nested) { if (blockIds.count(nested->getBlock()) > 0) return; blockIds.insert({nested->getBlock(), blockIds.size()}); }); } /// Prints dominance information of all blocks. template void printDominance(DominanceT &dominanceInfo, bool printCommonDominatorInfo) { DenseSet parentVisited; operation->walk([&](Operation *op) { Block *block = op->getBlock(); if (!parentVisited.insert(block).second) return; DenseSet visited; operation->walk([&](Operation *nested) { Block *nestedBlock = nested->getBlock(); if (!visited.insert(nestedBlock).second) return; if (printCommonDominatorInfo) { llvm::errs() << "Nearest(" << blockIds[block] << ", " << blockIds[nestedBlock] << ") = "; Block *dom = dominanceInfo.findNearestCommonDominator(block, nestedBlock); if (dom) llvm::errs() << blockIds[dom]; else llvm::errs() << ""; llvm::errs() << "\n"; } else { if (std::is_same::value) llvm::errs() << "dominates("; else llvm::errs() << "postdominates("; llvm::errs() << blockIds[block] << ", " << blockIds[nestedBlock] << ") = "; if (dominatesOrPostDominates(dominanceInfo, block, nestedBlock)) llvm::errs() << "true\n"; else llvm::errs() << "false\n"; } }); }); } private: Operation *operation; DenseMap blockIds; }; struct TestDominancePass : public PassWrapper { void runOnFunction() override { llvm::errs() << "Testing : " << getFunction().getName() << "\n"; DominanceTest dominanceTest(getFunction()); // Print dominance information. llvm::errs() << "--- DominanceInfo ---\n"; dominanceTest.printDominance(getAnalysis(), /*printCommonDominatorInfo=*/true); llvm::errs() << "--- PostDominanceInfo ---\n"; dominanceTest.printDominance(getAnalysis(), /*printCommonDominatorInfo=*/true); // Print dominance relationship between blocks. llvm::errs() << "--- Block Dominance relationship ---\n"; dominanceTest.printDominance(getAnalysis(), /*printCommonDominatorInfo=*/false); llvm::errs() << "--- Block PostDominance relationship ---\n"; dominanceTest.printDominance(getAnalysis(), /*printCommonDominatorInfo=*/false); } }; } // end anonymous namespace namespace mlir { namespace test { void registerTestDominancePass() { PassRegistration( "test-print-dominance", "Print the dominance information for multiple regions."); } } // namespace test } // namespace mlir