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d2570e78cd
Summary: This is the last functional patch affecting the representation of DDG. Here we try to simplify the DDG to reduce the number of nodes and edges by iteratively merging pairs of nodes that satisfy the following conditions, until no such pair can be identified. A pair of nodes consisting of a and b can be merged if: 1. the only edge from a is a def-use edge to b and 2. the only edge to b is a def-use edge from a and 3. there is no cyclic edge from b to a and 4. all instructions in a and b belong to the same basic block and 5. both a and b are simple (single or multi instruction) nodes. These criteria allow us to fold many uninteresting def-use edges that commonly exist in the graph while avoiding the risk of introducing dependencies that didn't exist before. Authored By: bmahjour Reviewer: Meinersbur, fhahn, myhsu, xtian, dmgreen, kbarton, jdoerfert Reviewed By: Meinersbur Subscribers: ychen, arphaman, simoll, a.elovikov, mgorny, hiraditya, jfb, wuzish, llvm-commits, jsji, Whitney, etiotto, ppc-slack Tags: #llvm Differential Revision: https://reviews.llvm.org/D72350
326 lines
11 KiB
C++
326 lines
11 KiB
C++
//===- DDG.cpp - Data Dependence Graph -------------------------------------==//
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//
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// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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//
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//===----------------------------------------------------------------------===//
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//
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// The implementation for the data dependence graph.
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//===----------------------------------------------------------------------===//
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#include "llvm/Analysis/DDG.h"
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#include "llvm/ADT/SCCIterator.h"
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#include "llvm/Analysis/LoopInfo.h"
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#include "llvm/Analysis/LoopIterator.h"
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#include "llvm/Support/CommandLine.h"
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using namespace llvm;
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static cl::opt<bool> SimplifyDDG(
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"ddg-simplify", cl::init(true), cl::Hidden, cl::ZeroOrMore,
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cl::desc(
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"Simplify DDG by merging nodes that have less interesting edges."));
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static cl::opt<bool>
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CreatePiBlocks("ddg-pi-blocks", cl::init(true), cl::Hidden, cl::ZeroOrMore,
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cl::desc("Create pi-block nodes."));
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#define DEBUG_TYPE "ddg"
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template class llvm::DGEdge<DDGNode, DDGEdge>;
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template class llvm::DGNode<DDGNode, DDGEdge>;
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template class llvm::DirectedGraph<DDGNode, DDGEdge>;
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//===--------------------------------------------------------------------===//
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// DDGNode implementation
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//===--------------------------------------------------------------------===//
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DDGNode::~DDGNode() {}
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bool DDGNode::collectInstructions(
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llvm::function_ref<bool(Instruction *)> const &Pred,
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InstructionListType &IList) const {
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assert(IList.empty() && "Expected the IList to be empty on entry.");
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if (isa<SimpleDDGNode>(this)) {
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for (Instruction *I : cast<const SimpleDDGNode>(this)->getInstructions())
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if (Pred(I))
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IList.push_back(I);
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} else if (isa<PiBlockDDGNode>(this)) {
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for (const DDGNode *PN : cast<const PiBlockDDGNode>(this)->getNodes()) {
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assert(!isa<PiBlockDDGNode>(PN) && "Nested PiBlocks are not supported.");
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SmallVector<Instruction *, 8> TmpIList;
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PN->collectInstructions(Pred, TmpIList);
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IList.insert(IList.end(), TmpIList.begin(), TmpIList.end());
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}
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} else
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llvm_unreachable("unimplemented type of node");
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return !IList.empty();
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}
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raw_ostream &llvm::operator<<(raw_ostream &OS, const DDGNode::NodeKind K) {
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const char *Out;
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switch (K) {
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case DDGNode::NodeKind::SingleInstruction:
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Out = "single-instruction";
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break;
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case DDGNode::NodeKind::MultiInstruction:
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Out = "multi-instruction";
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break;
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case DDGNode::NodeKind::PiBlock:
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Out = "pi-block";
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break;
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case DDGNode::NodeKind::Root:
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Out = "root";
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break;
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case DDGNode::NodeKind::Unknown:
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Out = "?? (error)";
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break;
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}
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OS << Out;
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return OS;
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}
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raw_ostream &llvm::operator<<(raw_ostream &OS, const DDGNode &N) {
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OS << "Node Address:" << &N << ":" << N.getKind() << "\n";
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if (isa<SimpleDDGNode>(N)) {
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OS << " Instructions:\n";
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for (const Instruction *I : cast<const SimpleDDGNode>(N).getInstructions())
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OS.indent(2) << *I << "\n";
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} else if (isa<PiBlockDDGNode>(&N)) {
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OS << "--- start of nodes in pi-block ---\n";
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auto &Nodes = cast<const PiBlockDDGNode>(&N)->getNodes();
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unsigned Count = 0;
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for (const DDGNode *N : Nodes)
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OS << *N << (++Count == Nodes.size() ? "" : "\n");
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OS << "--- end of nodes in pi-block ---\n";
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} else if (!isa<RootDDGNode>(N))
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llvm_unreachable("unimplemented type of node");
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OS << (N.getEdges().empty() ? " Edges:none!\n" : " Edges:\n");
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for (auto &E : N.getEdges())
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OS.indent(2) << *E;
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return OS;
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}
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//===--------------------------------------------------------------------===//
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// SimpleDDGNode implementation
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//===--------------------------------------------------------------------===//
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SimpleDDGNode::SimpleDDGNode(Instruction &I)
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: DDGNode(NodeKind::SingleInstruction), InstList() {
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assert(InstList.empty() && "Expected empty list.");
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InstList.push_back(&I);
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}
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SimpleDDGNode::SimpleDDGNode(const SimpleDDGNode &N)
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: DDGNode(N), InstList(N.InstList) {
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assert(((getKind() == NodeKind::SingleInstruction && InstList.size() == 1) ||
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(getKind() == NodeKind::MultiInstruction && InstList.size() > 1)) &&
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"constructing from invalid simple node.");
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}
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SimpleDDGNode::SimpleDDGNode(SimpleDDGNode &&N)
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: DDGNode(std::move(N)), InstList(std::move(N.InstList)) {
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assert(((getKind() == NodeKind::SingleInstruction && InstList.size() == 1) ||
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(getKind() == NodeKind::MultiInstruction && InstList.size() > 1)) &&
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"constructing from invalid simple node.");
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}
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SimpleDDGNode::~SimpleDDGNode() { InstList.clear(); }
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//===--------------------------------------------------------------------===//
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// PiBlockDDGNode implementation
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//===--------------------------------------------------------------------===//
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PiBlockDDGNode::PiBlockDDGNode(const PiNodeList &List)
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: DDGNode(NodeKind::PiBlock), NodeList(List) {
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assert(!NodeList.empty() && "pi-block node constructed with an empty list.");
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}
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PiBlockDDGNode::PiBlockDDGNode(const PiBlockDDGNode &N)
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: DDGNode(N), NodeList(N.NodeList) {
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assert(getKind() == NodeKind::PiBlock && !NodeList.empty() &&
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"constructing from invalid pi-block node.");
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}
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PiBlockDDGNode::PiBlockDDGNode(PiBlockDDGNode &&N)
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: DDGNode(std::move(N)), NodeList(std::move(N.NodeList)) {
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assert(getKind() == NodeKind::PiBlock && !NodeList.empty() &&
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"constructing from invalid pi-block node.");
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}
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PiBlockDDGNode::~PiBlockDDGNode() { NodeList.clear(); }
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//===--------------------------------------------------------------------===//
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// DDGEdge implementation
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//===--------------------------------------------------------------------===//
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raw_ostream &llvm::operator<<(raw_ostream &OS, const DDGEdge::EdgeKind K) {
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const char *Out;
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switch (K) {
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case DDGEdge::EdgeKind::RegisterDefUse:
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Out = "def-use";
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break;
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case DDGEdge::EdgeKind::MemoryDependence:
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Out = "memory";
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break;
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case DDGEdge::EdgeKind::Rooted:
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Out = "rooted";
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break;
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case DDGEdge::EdgeKind::Unknown:
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Out = "?? (error)";
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break;
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}
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OS << Out;
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return OS;
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}
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raw_ostream &llvm::operator<<(raw_ostream &OS, const DDGEdge &E) {
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OS << "[" << E.getKind() << "] to " << &E.getTargetNode() << "\n";
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return OS;
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}
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//===--------------------------------------------------------------------===//
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// DataDependenceGraph implementation
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//===--------------------------------------------------------------------===//
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using BasicBlockListType = SmallVector<BasicBlock *, 8>;
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DataDependenceGraph::DataDependenceGraph(Function &F, DependenceInfo &D)
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: DependenceGraphInfo(F.getName().str(), D) {
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// Put the basic blocks in program order for correct dependence
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// directions.
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BasicBlockListType BBList;
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for (auto &SCC : make_range(scc_begin(&F), scc_end(&F)))
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for (BasicBlock * BB : SCC)
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BBList.push_back(BB);
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std::reverse(BBList.begin(), BBList.end());
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DDGBuilder(*this, D, BBList).populate();
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}
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DataDependenceGraph::DataDependenceGraph(Loop &L, LoopInfo &LI,
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DependenceInfo &D)
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: DependenceGraphInfo(Twine(L.getHeader()->getParent()->getName() + "." +
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L.getHeader()->getName())
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.str(),
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D) {
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// Put the basic blocks in program order for correct dependence
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// directions.
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LoopBlocksDFS DFS(&L);
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DFS.perform(&LI);
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BasicBlockListType BBList;
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for (BasicBlock *BB : make_range(DFS.beginRPO(), DFS.endRPO()))
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BBList.push_back(BB);
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DDGBuilder(*this, D, BBList).populate();
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}
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DataDependenceGraph::~DataDependenceGraph() {
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for (auto *N : Nodes) {
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for (auto *E : *N)
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delete E;
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delete N;
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}
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}
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bool DataDependenceGraph::addNode(DDGNode &N) {
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if (!DDGBase::addNode(N))
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return false;
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// In general, if the root node is already created and linked, it is not safe
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// to add new nodes since they may be unreachable by the root. However,
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// pi-block nodes need to be added after the root node is linked, and they are
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// always reachable by the root, because they represent components that are
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// already reachable by root.
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auto *Pi = dyn_cast<PiBlockDDGNode>(&N);
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assert((!Root || Pi) &&
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"Root node is already added. No more nodes can be added.");
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if (isa<RootDDGNode>(N))
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Root = &N;
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if (Pi)
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for (DDGNode *NI : Pi->getNodes())
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PiBlockMap.insert(std::make_pair(NI, Pi));
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return true;
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}
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const PiBlockDDGNode *DataDependenceGraph::getPiBlock(const NodeType &N) const {
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if (PiBlockMap.find(&N) == PiBlockMap.end())
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return nullptr;
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auto *Pi = PiBlockMap.find(&N)->second;
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assert(PiBlockMap.find(Pi) == PiBlockMap.end() &&
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"Nested pi-blocks detected.");
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return Pi;
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}
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raw_ostream &llvm::operator<<(raw_ostream &OS, const DataDependenceGraph &G) {
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for (DDGNode *Node : G)
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// Avoid printing nodes that are part of a pi-block twice. They will get
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// printed when the pi-block is printed.
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if (!G.getPiBlock(*Node))
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OS << *Node << "\n";
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OS << "\n";
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return OS;
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}
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//===--------------------------------------------------------------------===//
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// DDGBuilder implementation
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//===--------------------------------------------------------------------===//
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bool DDGBuilder::areNodesMergeable(const DDGNode &Src,
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const DDGNode &Tgt) const {
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// Only merge two nodes if they are both simple nodes and the consecutive
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// instructions after merging belong to the same BB.
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const auto *SimpleSrc = dyn_cast<const SimpleDDGNode>(&Src);
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const auto *SimpleTgt = dyn_cast<const SimpleDDGNode>(&Tgt);
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if (!SimpleSrc || !SimpleTgt)
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return false;
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return SimpleSrc->getLastInstruction()->getParent() ==
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SimpleTgt->getFirstInstruction()->getParent();
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}
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void DDGBuilder::mergeNodes(DDGNode &A, DDGNode &B) {
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DDGEdge &EdgeToFold = A.back();
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assert(A.getEdges().size() == 1 && EdgeToFold.getTargetNode() == B &&
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"Expected A to have a single edge to B.");
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assert(isa<SimpleDDGNode>(&A) && isa<SimpleDDGNode>(&B) &&
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"Expected simple nodes");
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// Copy instructions from B to the end of A.
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cast<SimpleDDGNode>(&A)->appendInstructions(*cast<SimpleDDGNode>(&B));
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// Move to A any outgoing edges from B.
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for (DDGEdge *BE : B)
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Graph.connect(A, BE->getTargetNode(), *BE);
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A.removeEdge(EdgeToFold);
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destroyEdge(EdgeToFold);
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Graph.removeNode(B);
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destroyNode(B);
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}
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bool DDGBuilder::shouldSimplify() const { return SimplifyDDG; }
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bool DDGBuilder::shouldCreatePiBlocks() const { return CreatePiBlocks; }
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//===--------------------------------------------------------------------===//
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// DDG Analysis Passes
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//===--------------------------------------------------------------------===//
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/// DDG as a loop pass.
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DDGAnalysis::Result DDGAnalysis::run(Loop &L, LoopAnalysisManager &AM,
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LoopStandardAnalysisResults &AR) {
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Function *F = L.getHeader()->getParent();
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DependenceInfo DI(F, &AR.AA, &AR.SE, &AR.LI);
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return std::make_unique<DataDependenceGraph>(L, AR.LI, DI);
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}
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AnalysisKey DDGAnalysis::Key;
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PreservedAnalyses DDGAnalysisPrinterPass::run(Loop &L, LoopAnalysisManager &AM,
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LoopStandardAnalysisResults &AR,
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LPMUpdater &U) {
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OS << "'DDG' for loop '" << L.getHeader()->getName() << "':\n";
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OS << *AM.getResult<DDGAnalysis>(L, AR);
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return PreservedAnalyses::all();
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}
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