//===- Delta.h - Delta Debugging Algorithm Implementation -----------------===// // // 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 the implementation for the Delta Debugging Algorithm: // it splits a given set of Targets (i.e. Functions, Instructions, BBs, etc.) // into chunks and tries to reduce the number chunks that are interesting. // //===----------------------------------------------------------------------===// #ifndef LLVM_TOOLS_LLVM_REDUCE_DELTAS_DELTA_H #define LLVM_TOOLS_LLVM_REDUCE_DELTAS_DELTA_H #include "TestRunner.h" #include "llvm/ADT/ScopeExit.h" #include #include #include namespace llvm { struct Chunk { int Begin; int End; /// Helper function to verify if a given Target-index is inside the Chunk bool contains(int Index) const { return Index >= Begin && Index <= End; } void print() const { errs() << "[" << Begin; if (End - Begin != 0) errs() << "," << End; errs() << "]"; } /// Operator when populating CurrentChunks in Generic Delta Pass friend bool operator!=(const Chunk &C1, const Chunk &C2) { return C1.Begin != C2.Begin || C1.End != C2.End; } /// Operator used for sets friend bool operator<(const Chunk &C1, const Chunk &C2) { return std::tie(C1.Begin, C1.End) < std::tie(C2.Begin, C2.End); } }; /// Provides opaque interface for querying into ChunksToKeep without having to /// actually understand what is going on. class Oracle { /// Out of all the features that we promised to be, /// how many have we already processed? int Index = 0; /// The actual workhorse, contains the knowledge whether or not /// some particular feature should be preserved this time. ArrayRef ChunksToKeep; public: explicit Oracle(ArrayRef ChunksToKeep) : ChunksToKeep(ChunksToKeep) {} /// Should be called for each feature on which we are operating. /// Name is self-explanatory - if returns true, then it should be preserved. bool shouldKeep() { if (ChunksToKeep.empty()) { ++Index; return false; // All further features are to be discarded. } // Does the current (front) chunk contain such a feature? bool ShouldKeep = ChunksToKeep.front().contains(Index); // Is this the last feature in the chunk? if (ChunksToKeep.front().End == Index) ChunksToKeep = ChunksToKeep.drop_front(); // Onto next chunk. ++Index; return ShouldKeep; } int count() { return Index; } }; /// This function implements the Delta Debugging algorithm, it receives a /// number of Targets (e.g. Functions, Instructions, Basic Blocks, etc.) and /// splits them in half; these chunks of targets are then tested while ignoring /// one chunk, if a chunk is proven to be uninteresting (i.e. fails the test) /// it is removed from consideration. The algorithm will attempt to split the /// Chunks in half and start the process again until it can't split chunks /// anymore. /// /// This function is intended to be called by each specialized delta pass (e.g. /// RemoveFunctions) and receives three key parameters: /// * Test: The main TestRunner instance which is used to run the provided /// interesting-ness test, as well as to store and access the reduced Program. /// * ExtractChunksFromModule: A function used to tailor the main program so it /// only contains Targets that are inside Chunks of the given iteration. /// Note: This function is implemented by each specialized Delta pass /// /// Other implementations of the Delta Debugging algorithm can also be found in /// the CReduce, Delta, and Lithium projects. void runDeltaPass( TestRunner &Test, function_ref ExtractChunksFromModule); void runDeltaPass( TestRunner &Test, function_ref ExtractChunksFromModule); } // namespace llvm #endif