1 //===- DDG.cpp - Data Dependence Graph -------------------------------------==// 2 // 3 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. 4 // See https://llvm.org/LICENSE.txt for license information. 5 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception 6 // 7 //===----------------------------------------------------------------------===// 8 // 9 // The implementation for the data dependence graph. 10 //===----------------------------------------------------------------------===// 11 #include "llvm/Analysis/DDG.h" 12 #include "llvm/ADT/SCCIterator.h" 13 #include "llvm/Analysis/LoopInfo.h" 14 #include "llvm/Analysis/LoopIterator.h" 15 #include "llvm/Support/CommandLine.h" 16 17 using namespace llvm; 18 19 static cl::opt<bool> SimplifyDDG( 20 "ddg-simplify", cl::init(true), cl::Hidden, 21 cl::desc( 22 "Simplify DDG by merging nodes that have less interesting edges.")); 23 24 static cl::opt<bool> CreatePiBlocks("ddg-pi-blocks", cl::init(true), cl::Hidden, 25 cl::desc("Create pi-block nodes.")); 26 27 #define DEBUG_TYPE "ddg" 28 29 template class llvm::DGEdge<DDGNode, DDGEdge>; 30 template class llvm::DGNode<DDGNode, DDGEdge>; 31 template class llvm::DirectedGraph<DDGNode, DDGEdge>; 32 33 //===--------------------------------------------------------------------===// 34 // DDGNode implementation 35 //===--------------------------------------------------------------------===// 36 DDGNode::~DDGNode() = default; 37 38 bool DDGNode::collectInstructions( 39 llvm::function_ref<bool(Instruction *)> const &Pred, 40 InstructionListType &IList) const { 41 assert(IList.empty() && "Expected the IList to be empty on entry."); 42 if (isa<SimpleDDGNode>(this)) { 43 for (Instruction *I : cast<const SimpleDDGNode>(this)->getInstructions()) 44 if (Pred(I)) 45 IList.push_back(I); 46 } else if (isa<PiBlockDDGNode>(this)) { 47 for (const DDGNode *PN : cast<const PiBlockDDGNode>(this)->getNodes()) { 48 assert(!isa<PiBlockDDGNode>(PN) && "Nested PiBlocks are not supported."); 49 SmallVector<Instruction *, 8> TmpIList; 50 PN->collectInstructions(Pred, TmpIList); 51 llvm::append_range(IList, TmpIList); 52 } 53 } else 54 llvm_unreachable("unimplemented type of node"); 55 return !IList.empty(); 56 } 57 58 raw_ostream &llvm::operator<<(raw_ostream &OS, const DDGNode::NodeKind K) { 59 const char *Out; 60 switch (K) { 61 case DDGNode::NodeKind::SingleInstruction: 62 Out = "single-instruction"; 63 break; 64 case DDGNode::NodeKind::MultiInstruction: 65 Out = "multi-instruction"; 66 break; 67 case DDGNode::NodeKind::PiBlock: 68 Out = "pi-block"; 69 break; 70 case DDGNode::NodeKind::Root: 71 Out = "root"; 72 break; 73 case DDGNode::NodeKind::Unknown: 74 Out = "?? (error)"; 75 break; 76 } 77 OS << Out; 78 return OS; 79 } 80 81 raw_ostream &llvm::operator<<(raw_ostream &OS, const DDGNode &N) { 82 OS << "Node Address:" << &N << ":" << N.getKind() << "\n"; 83 if (isa<SimpleDDGNode>(N)) { 84 OS << " Instructions:\n"; 85 for (const Instruction *I : cast<const SimpleDDGNode>(N).getInstructions()) 86 OS.indent(2) << *I << "\n"; 87 } else if (isa<PiBlockDDGNode>(&N)) { 88 OS << "--- start of nodes in pi-block ---\n"; 89 auto &Nodes = cast<const PiBlockDDGNode>(&N)->getNodes(); 90 unsigned Count = 0; 91 for (const DDGNode *N : Nodes) 92 OS << *N << (++Count == Nodes.size() ? "" : "\n"); 93 OS << "--- end of nodes in pi-block ---\n"; 94 } else if (!isa<RootDDGNode>(N)) 95 llvm_unreachable("unimplemented type of node"); 96 97 OS << (N.getEdges().empty() ? " Edges:none!\n" : " Edges:\n"); 98 for (const auto &E : N.getEdges()) 99 OS.indent(2) << *E; 100 return OS; 101 } 102 103 //===--------------------------------------------------------------------===// 104 // SimpleDDGNode implementation 105 //===--------------------------------------------------------------------===// 106 107 SimpleDDGNode::SimpleDDGNode(Instruction &I) 108 : DDGNode(NodeKind::SingleInstruction) { 109 assert(InstList.empty() && "Expected empty list."); 110 InstList.push_back(&I); 111 } 112 113 SimpleDDGNode::SimpleDDGNode(const SimpleDDGNode &N) 114 : DDGNode(N), InstList(N.InstList) { 115 assert(((getKind() == NodeKind::SingleInstruction && InstList.size() == 1) || 116 (getKind() == NodeKind::MultiInstruction && InstList.size() > 1)) && 117 "constructing from invalid simple node."); 118 } 119 120 SimpleDDGNode::SimpleDDGNode(SimpleDDGNode &&N) 121 : DDGNode(std::move(N)), InstList(std::move(N.InstList)) { 122 assert(((getKind() == NodeKind::SingleInstruction && InstList.size() == 1) || 123 (getKind() == NodeKind::MultiInstruction && InstList.size() > 1)) && 124 "constructing from invalid simple node."); 125 } 126 127 SimpleDDGNode::~SimpleDDGNode() { InstList.clear(); } 128 129 //===--------------------------------------------------------------------===// 130 // PiBlockDDGNode implementation 131 //===--------------------------------------------------------------------===// 132 133 PiBlockDDGNode::PiBlockDDGNode(const PiNodeList &List) 134 : DDGNode(NodeKind::PiBlock), NodeList(List) { 135 assert(!NodeList.empty() && "pi-block node constructed with an empty list."); 136 } 137 138 PiBlockDDGNode::PiBlockDDGNode(const PiBlockDDGNode &N) 139 : DDGNode(N), NodeList(N.NodeList) { 140 assert(getKind() == NodeKind::PiBlock && !NodeList.empty() && 141 "constructing from invalid pi-block node."); 142 } 143 144 PiBlockDDGNode::PiBlockDDGNode(PiBlockDDGNode &&N) 145 : DDGNode(std::move(N)), NodeList(std::move(N.NodeList)) { 146 assert(getKind() == NodeKind::PiBlock && !NodeList.empty() && 147 "constructing from invalid pi-block node."); 148 } 149 150 PiBlockDDGNode::~PiBlockDDGNode() { NodeList.clear(); } 151 152 //===--------------------------------------------------------------------===// 153 // DDGEdge implementation 154 //===--------------------------------------------------------------------===// 155 156 raw_ostream &llvm::operator<<(raw_ostream &OS, const DDGEdge::EdgeKind K) { 157 const char *Out; 158 switch (K) { 159 case DDGEdge::EdgeKind::RegisterDefUse: 160 Out = "def-use"; 161 break; 162 case DDGEdge::EdgeKind::MemoryDependence: 163 Out = "memory"; 164 break; 165 case DDGEdge::EdgeKind::Rooted: 166 Out = "rooted"; 167 break; 168 case DDGEdge::EdgeKind::Unknown: 169 Out = "?? (error)"; 170 break; 171 } 172 OS << Out; 173 return OS; 174 } 175 176 raw_ostream &llvm::operator<<(raw_ostream &OS, const DDGEdge &E) { 177 OS << "[" << E.getKind() << "] to " << &E.getTargetNode() << "\n"; 178 return OS; 179 } 180 181 //===--------------------------------------------------------------------===// 182 // DataDependenceGraph implementation 183 //===--------------------------------------------------------------------===// 184 using BasicBlockListType = SmallVector<BasicBlock *, 8>; 185 186 DataDependenceGraph::DataDependenceGraph(Function &F, DependenceInfo &D) 187 : DependenceGraphInfo(F.getName().str(), D) { 188 // Put the basic blocks in program order for correct dependence 189 // directions. 190 BasicBlockListType BBList; 191 for (const auto &SCC : make_range(scc_begin(&F), scc_end(&F))) 192 append_range(BBList, SCC); 193 std::reverse(BBList.begin(), BBList.end()); 194 DDGBuilder(*this, D, BBList).populate(); 195 } 196 197 DataDependenceGraph::DataDependenceGraph(Loop &L, LoopInfo &LI, 198 DependenceInfo &D) 199 : DependenceGraphInfo(Twine(L.getHeader()->getParent()->getName() + "." + 200 L.getHeader()->getName()) 201 .str(), 202 D) { 203 // Put the basic blocks in program order for correct dependence 204 // directions. 205 LoopBlocksDFS DFS(&L); 206 DFS.perform(&LI); 207 BasicBlockListType BBList; 208 append_range(BBList, make_range(DFS.beginRPO(), DFS.endRPO())); 209 DDGBuilder(*this, D, BBList).populate(); 210 } 211 212 DataDependenceGraph::~DataDependenceGraph() { 213 for (auto *N : Nodes) { 214 for (auto *E : *N) 215 delete E; 216 delete N; 217 } 218 } 219 220 bool DataDependenceGraph::addNode(DDGNode &N) { 221 if (!DDGBase::addNode(N)) 222 return false; 223 224 // In general, if the root node is already created and linked, it is not safe 225 // to add new nodes since they may be unreachable by the root. However, 226 // pi-block nodes need to be added after the root node is linked, and they are 227 // always reachable by the root, because they represent components that are 228 // already reachable by root. 229 auto *Pi = dyn_cast<PiBlockDDGNode>(&N); 230 assert((!Root || Pi) && 231 "Root node is already added. No more nodes can be added."); 232 233 if (isa<RootDDGNode>(N)) 234 Root = &N; 235 236 if (Pi) 237 for (DDGNode *NI : Pi->getNodes()) 238 PiBlockMap.insert(std::make_pair(NI, Pi)); 239 240 return true; 241 } 242 243 const PiBlockDDGNode *DataDependenceGraph::getPiBlock(const NodeType &N) const { 244 if (PiBlockMap.find(&N) == PiBlockMap.end()) 245 return nullptr; 246 auto *Pi = PiBlockMap.find(&N)->second; 247 assert(PiBlockMap.find(Pi) == PiBlockMap.end() && 248 "Nested pi-blocks detected."); 249 return Pi; 250 } 251 252 raw_ostream &llvm::operator<<(raw_ostream &OS, const DataDependenceGraph &G) { 253 for (DDGNode *Node : G) 254 // Avoid printing nodes that are part of a pi-block twice. They will get 255 // printed when the pi-block is printed. 256 if (!G.getPiBlock(*Node)) 257 OS << *Node << "\n"; 258 OS << "\n"; 259 return OS; 260 } 261 262 //===--------------------------------------------------------------------===// 263 // DDGBuilder implementation 264 //===--------------------------------------------------------------------===// 265 266 bool DDGBuilder::areNodesMergeable(const DDGNode &Src, 267 const DDGNode &Tgt) const { 268 // Only merge two nodes if they are both simple nodes and the consecutive 269 // instructions after merging belong to the same BB. 270 const auto *SimpleSrc = dyn_cast<const SimpleDDGNode>(&Src); 271 const auto *SimpleTgt = dyn_cast<const SimpleDDGNode>(&Tgt); 272 if (!SimpleSrc || !SimpleTgt) 273 return false; 274 275 return SimpleSrc->getLastInstruction()->getParent() == 276 SimpleTgt->getFirstInstruction()->getParent(); 277 } 278 279 void DDGBuilder::mergeNodes(DDGNode &A, DDGNode &B) { 280 DDGEdge &EdgeToFold = A.back(); 281 assert(A.getEdges().size() == 1 && EdgeToFold.getTargetNode() == B && 282 "Expected A to have a single edge to B."); 283 assert(isa<SimpleDDGNode>(&A) && isa<SimpleDDGNode>(&B) && 284 "Expected simple nodes"); 285 286 // Copy instructions from B to the end of A. 287 cast<SimpleDDGNode>(&A)->appendInstructions(*cast<SimpleDDGNode>(&B)); 288 289 // Move to A any outgoing edges from B. 290 for (DDGEdge *BE : B) 291 Graph.connect(A, BE->getTargetNode(), *BE); 292 293 A.removeEdge(EdgeToFold); 294 destroyEdge(EdgeToFold); 295 Graph.removeNode(B); 296 destroyNode(B); 297 } 298 299 bool DDGBuilder::shouldSimplify() const { return SimplifyDDG; } 300 301 bool DDGBuilder::shouldCreatePiBlocks() const { return CreatePiBlocks; } 302 303 //===--------------------------------------------------------------------===// 304 // DDG Analysis Passes 305 //===--------------------------------------------------------------------===// 306 307 /// DDG as a loop pass. 308 DDGAnalysis::Result DDGAnalysis::run(Loop &L, LoopAnalysisManager &AM, 309 LoopStandardAnalysisResults &AR) { 310 Function *F = L.getHeader()->getParent(); 311 DependenceInfo DI(F, &AR.AA, &AR.SE, &AR.LI); 312 return std::make_unique<DataDependenceGraph>(L, AR.LI, DI); 313 } 314 AnalysisKey DDGAnalysis::Key; 315 316 PreservedAnalyses DDGAnalysisPrinterPass::run(Loop &L, LoopAnalysisManager &AM, 317 LoopStandardAnalysisResults &AR, 318 LPMUpdater &U) { 319 OS << "'DDG' for loop '" << L.getHeader()->getName() << "':\n"; 320 OS << *AM.getResult<DDGAnalysis>(L, AR); 321 return PreservedAnalyses::all(); 322 } 323