//===- llvm/Analysis/DependenceGraphBuilder.h -------------------*- C++ -*-===// // // 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 defines a builder interface that can be used to populate dependence // graphs such as DDG and PDG. // //===----------------------------------------------------------------------===// #ifndef LLVM_ANALYSIS_DEPENDENCE_GRAPH_BUILDER_H #define LLVM_ANALYSIS_DEPENDENCE_GRAPH_BUILDER_H #include "llvm/ADT/EquivalenceClasses.h" #include "llvm/Analysis/DependenceAnalysis.h" #include "llvm/IR/BasicBlock.h" #include "llvm/IR/Instructions.h" namespace llvm { /// This abstract builder class defines a set of high-level steps for creating /// DDG-like graphs. The client code is expected to inherit from this class and /// define concrete implementation for each of the pure virtual functions used /// in the high-level algorithm. template class AbstractDependenceGraphBuilder { protected: using BasicBlockListType = SmallVectorImpl; private: using NodeType = typename GraphType::NodeType; using EdgeType = typename GraphType::EdgeType; public: using ClassesType = EquivalenceClasses; using NodeListType = SmallVector; AbstractDependenceGraphBuilder(GraphType &G, DependenceInfo &D, const BasicBlockListType &BBs) : Graph(G), DI(D), BBList(BBs) {} virtual ~AbstractDependenceGraphBuilder() {} /// The main entry to the graph construction algorithm. It starts by /// creating nodes in increasing order of granularity and then /// adds def-use and memory edges. /// /// The algorithmic complexity of this implementation is O(V^2 * I^2), where V /// is the number of vertecies (nodes) and I is the number of instructions in /// each node. The total number of instructions, N, is equal to V * I, /// therefore the worst-case time complexity is O(N^2). The average time /// complexity is O((N^2)/2). void populate() { createFineGrainedNodes(); createDefUseEdges(); createMemoryDependencyEdges(); createAndConnectRootNode(); } /// Create fine grained nodes. These are typically atomic nodes that /// consist of a single instruction. void createFineGrainedNodes(); /// Analyze the def-use chains and create edges from the nodes containing /// definitions to the nodes containing the uses. void createDefUseEdges(); /// Analyze data dependencies that exist between memory loads or stores, /// in the graph nodes and create edges between them. void createMemoryDependencyEdges(); /// Create a root node and add edges such that each node in the graph is /// reachable from the root. void createAndConnectRootNode(); protected: /// Create the root node of the graph. virtual NodeType &createRootNode() = 0; /// Create an atomic node in the graph given a single instruction. virtual NodeType &createFineGrainedNode(Instruction &I) = 0; /// Create a def-use edge going from \p Src to \p Tgt. virtual EdgeType &createDefUseEdge(NodeType &Src, NodeType &Tgt) = 0; /// Create a memory dependence edge going from \p Src to \p Tgt. virtual EdgeType &createMemoryEdge(NodeType &Src, NodeType &Tgt) = 0; /// Create a rooted edge going from \p Src to \p Tgt . virtual EdgeType &createRootedEdge(NodeType &Src, NodeType &Tgt) = 0; /// Deallocate memory of edge \p E. virtual void destroyEdge(EdgeType &E) { delete &E; } /// Deallocate memory of node \p N. virtual void destroyNode(NodeType &N) { delete &N; } /// Map types to map instructions to nodes used when populating the graph. using InstToNodeMap = DenseMap; /// Reference to the graph that gets built by a concrete implementation of /// this builder. GraphType &Graph; /// Dependence information used to create memory dependence edges in the /// graph. DependenceInfo &DI; /// The list of basic blocks to consider when building the graph. const BasicBlockListType &BBList; /// A mapping from instructions to the corresponding nodes in the graph. InstToNodeMap IMap; }; } // namespace llvm #endif // LLVM_ANALYSIS_DEPENDENCE_GRAPH_BUILDER_H