forked from OSchip/llvm-project
151 lines
4.9 KiB
C++
151 lines
4.9 KiB
C++
//===- RDFLiveness.h --------------------------------------------*- C++ -*-===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file is distributed under the University of Illinois Open Source
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// License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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//
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// Recalculate the liveness information given a data flow graph.
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// This includes block live-ins and kill flags.
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#ifndef LLVM_LIB_TARGET_HEXAGON_RDFLIVENESS_H
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#define LLVM_LIB_TARGET_HEXAGON_RDFLIVENESS_H
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#include "RDFGraph.h"
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#include "RDFRegisters.h"
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#include "llvm/ADT/DenseMap.h"
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#include "llvm/MC/LaneBitmask.h"
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#include <map>
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#include <set>
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#include <utility>
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namespace llvm {
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class MachineBasicBlock;
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class MachineDominanceFrontier;
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class MachineDominatorTree;
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class MachineRegisterInfo;
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class TargetRegisterInfo;
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namespace rdf {
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struct Liveness {
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public:
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// This is really a std::map, except that it provides a non-trivial
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// default constructor to the element accessed via [].
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struct LiveMapType {
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LiveMapType(const PhysicalRegisterInfo &pri) : Empty(pri) {}
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RegisterAggr &operator[] (MachineBasicBlock *B) {
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return Map.emplace(B, Empty).first->second;
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}
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private:
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RegisterAggr Empty;
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std::map<MachineBasicBlock*,RegisterAggr> Map;
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};
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using NodeRef = std::pair<NodeId, LaneBitmask>;
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using NodeRefSet = std::set<NodeRef>;
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// RegisterId in RefMap must be normalized.
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using RefMap = std::map<RegisterId, NodeRefSet>;
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Liveness(MachineRegisterInfo &mri, const DataFlowGraph &g)
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: DFG(g), TRI(g.getTRI()), PRI(g.getPRI()), MDT(g.getDT()),
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MDF(g.getDF()), LiveMap(g.getPRI()), Empty(), NoRegs(g.getPRI()) {}
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NodeList getAllReachingDefs(RegisterRef RefRR, NodeAddr<RefNode*> RefA,
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bool TopShadows, bool FullChain, const RegisterAggr &DefRRs);
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NodeList getAllReachingDefs(NodeAddr<RefNode*> RefA) {
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return getAllReachingDefs(RefA.Addr->getRegRef(DFG), RefA, false,
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false, NoRegs);
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}
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NodeList getAllReachingDefs(RegisterRef RefRR, NodeAddr<RefNode*> RefA) {
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return getAllReachingDefs(RefRR, RefA, false, false, NoRegs);
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}
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NodeSet getAllReachedUses(RegisterRef RefRR, NodeAddr<DefNode*> DefA,
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const RegisterAggr &DefRRs);
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NodeSet getAllReachedUses(RegisterRef RefRR, NodeAddr<DefNode*> DefA) {
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return getAllReachedUses(RefRR, DefA, NoRegs);
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}
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std::pair<NodeSet,bool> getAllReachingDefsRec(RegisterRef RefRR,
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NodeAddr<RefNode*> RefA, NodeSet &Visited, const NodeSet &Defs);
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NodeAddr<RefNode*> getNearestAliasedRef(RegisterRef RefRR,
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NodeAddr<InstrNode*> IA);
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LiveMapType &getLiveMap() { return LiveMap; }
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const LiveMapType &getLiveMap() const { return LiveMap; }
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const RefMap &getRealUses(NodeId P) const {
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auto F = RealUseMap.find(P);
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return F == RealUseMap.end() ? Empty : F->second;
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}
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void computePhiInfo();
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void computeLiveIns();
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void resetLiveIns();
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void resetKills();
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void resetKills(MachineBasicBlock *B);
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void trace(bool T) { Trace = T; }
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private:
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const DataFlowGraph &DFG;
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const TargetRegisterInfo &TRI;
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const PhysicalRegisterInfo &PRI;
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const MachineDominatorTree &MDT;
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const MachineDominanceFrontier &MDF;
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LiveMapType LiveMap;
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const RefMap Empty;
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const RegisterAggr NoRegs;
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bool Trace = false;
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// Cache of mapping from node ids (for RefNodes) to the containing
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// basic blocks. Not computing it each time for each node reduces
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// the liveness calculation time by a large fraction.
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using NodeBlockMap = DenseMap<NodeId, MachineBasicBlock *>;
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NodeBlockMap NBMap;
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// Phi information:
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//
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// RealUseMap
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// map: NodeId -> (map: RegisterId -> NodeRefSet)
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// phi id -> (map: register -> set of reached non-phi uses)
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std::map<NodeId, RefMap> RealUseMap;
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// Inverse iterated dominance frontier.
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std::map<MachineBasicBlock*,std::set<MachineBasicBlock*>> IIDF;
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// Live on entry.
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std::map<MachineBasicBlock*,RefMap> PhiLON;
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// Phi uses are considered to be located at the end of the block that
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// they are associated with. The reaching def of a phi use dominates the
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// block that the use corresponds to, but not the block that contains
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// the phi itself. To include these uses in the liveness propagation (up
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// the dominator tree), create a map: block -> set of uses live on exit.
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std::map<MachineBasicBlock*,RefMap> PhiLOX;
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MachineBasicBlock *getBlockWithRef(NodeId RN) const;
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void traverse(MachineBasicBlock *B, RefMap &LiveIn);
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void emptify(RefMap &M);
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std::pair<NodeSet,bool> getAllReachingDefsRecImpl(RegisterRef RefRR,
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NodeAddr<RefNode*> RefA, NodeSet &Visited, const NodeSet &Defs,
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unsigned Nest, unsigned MaxNest);
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};
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} // end namespace rdf
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} // end namespace llvm
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#endif // LLVM_LIB_TARGET_HEXAGON_RDFLIVENESS_H
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