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1ab961f6d3
We always supported a mixture of the old itinerary model and new per-operand model, but it required a level of indirection to map itinerary classes to SchedRW lists. This was done for ARM A9. Now we want to define x86 SchedRW lists, with the goal of removing its itinerary classes, but still support the itineraries in the mean time. When I original developed the model, Atom did not have itineraries, so there was no reason to expect this requirement. git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@177226 91177308-0d34-0410-b5e6-96231b3b80d8
403 lines
14 KiB
C++
403 lines
14 KiB
C++
//===- CodeGenSchedule.h - Scheduling Machine Models ------------*- 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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// This file defines structures to encapsulate the machine model as decribed in
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// the target description.
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//
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//===----------------------------------------------------------------------===//
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#ifndef CODEGEN_SCHEDULE_H
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#define CODEGEN_SCHEDULE_H
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#include "SetTheory.h"
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#include "llvm/ADT/DenseMap.h"
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#include "llvm/ADT/StringMap.h"
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#include "llvm/Support/ErrorHandling.h"
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#include "llvm/TableGen/Record.h"
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namespace llvm {
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class CodeGenTarget;
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class CodeGenSchedModels;
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class CodeGenInstruction;
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typedef std::vector<Record*> RecVec;
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typedef std::vector<Record*>::const_iterator RecIter;
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typedef std::vector<unsigned> IdxVec;
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typedef std::vector<unsigned>::const_iterator IdxIter;
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void splitSchedReadWrites(const RecVec &RWDefs,
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RecVec &WriteDefs, RecVec &ReadDefs);
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/// We have two kinds of SchedReadWrites. Explicitly defined and inferred
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/// sequences. TheDef is nonnull for explicit SchedWrites, but Sequence may or
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/// may not be empty. TheDef is null for inferred sequences, and Sequence must
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/// be nonempty.
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///
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/// IsVariadic controls whether the variants are expanded into multiple operands
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/// or a sequence of writes on one operand.
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struct CodeGenSchedRW {
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unsigned Index;
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std::string Name;
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Record *TheDef;
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bool IsRead;
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bool IsAlias;
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bool HasVariants;
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bool IsVariadic;
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bool IsSequence;
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IdxVec Sequence;
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RecVec Aliases;
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CodeGenSchedRW()
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: Index(0), TheDef(0), IsRead(false), IsAlias(false),
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HasVariants(false), IsVariadic(false), IsSequence(false) {}
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CodeGenSchedRW(unsigned Idx, Record *Def)
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: Index(Idx), TheDef(Def), IsAlias(false), IsVariadic(false) {
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Name = Def->getName();
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IsRead = Def->isSubClassOf("SchedRead");
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HasVariants = Def->isSubClassOf("SchedVariant");
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if (HasVariants)
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IsVariadic = Def->getValueAsBit("Variadic");
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// Read records don't currently have sequences, but it can be easily
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// added. Note that implicit Reads (from ReadVariant) may have a Sequence
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// (but no record).
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IsSequence = Def->isSubClassOf("WriteSequence");
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}
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CodeGenSchedRW(unsigned Idx, bool Read, const IdxVec &Seq,
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const std::string &Name)
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: Index(Idx), Name(Name), TheDef(0), IsRead(Read), IsAlias(false),
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HasVariants(false), IsVariadic(false), IsSequence(true), Sequence(Seq) {
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assert(Sequence.size() > 1 && "implied sequence needs >1 RWs");
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}
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bool isValid() const {
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assert((!HasVariants || TheDef) && "Variant write needs record def");
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assert((!IsVariadic || HasVariants) && "Variadic write needs variants");
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assert((!IsSequence || !HasVariants) && "Sequence can't have variant");
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assert((!IsSequence || !Sequence.empty()) && "Sequence should be nonempty");
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assert((!IsAlias || Aliases.empty()) && "Alias cannot have aliases");
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return TheDef || !Sequence.empty();
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}
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#ifndef NDEBUG
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void dump() const;
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#endif
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};
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/// Represent a transition between SchedClasses induced by SchedVariant.
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struct CodeGenSchedTransition {
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unsigned ToClassIdx;
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IdxVec ProcIndices;
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RecVec PredTerm;
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};
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/// Scheduling class.
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///
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/// Each instruction description will be mapped to a scheduling class. There are
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/// four types of classes:
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///
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/// 1) An explicitly defined itinerary class with ItinClassDef set.
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/// Writes and ReadDefs are empty. ProcIndices contains 0 for any processor.
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///
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/// 2) An implied class with a list of SchedWrites and SchedReads that are
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/// defined in an instruction definition and which are common across all
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/// subtargets. ProcIndices contains 0 for any processor.
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///
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/// 3) An implied class with a list of InstRW records that map instructions to
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/// SchedWrites and SchedReads per-processor. InstrClassMap should map the same
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/// instructions to this class. ProcIndices contains all the processors that
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/// provided InstrRW records for this class. ItinClassDef or Writes/Reads may
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/// still be defined for processors with no InstRW entry.
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///
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/// 4) An inferred class represents a variant of another class that may be
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/// resolved at runtime. ProcIndices contains the set of processors that may
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/// require the class. ProcIndices are propagated through SchedClasses as
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/// variants are expanded. Multiple SchedClasses may be inferred from an
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/// itinerary class. Each inherits the processor index from the ItinRW record
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/// that mapped the itinerary class to the variant Writes or Reads.
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struct CodeGenSchedClass {
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unsigned Index;
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std::string Name;
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Record *ItinClassDef;
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IdxVec Writes;
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IdxVec Reads;
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// Sorted list of ProcIdx, where ProcIdx==0 implies any processor.
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IdxVec ProcIndices;
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std::vector<CodeGenSchedTransition> Transitions;
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// InstRW records associated with this class. These records may refer to an
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// Instruction no longer mapped to this class by InstrClassMap. These
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// Instructions should be ignored by this class because they have been split
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// off to join another inferred class.
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RecVec InstRWs;
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CodeGenSchedClass(): Index(0), ItinClassDef(0) {}
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bool isKeyEqual(Record *IC, const IdxVec &W, const IdxVec &R) {
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return ItinClassDef == IC && Writes == W && Reads == R;
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}
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// Is this class generated from a variants if existing classes? Instructions
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// are never mapped directly to inferred scheduling classes.
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bool isInferred() const { return !ItinClassDef; }
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#ifndef NDEBUG
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void dump(const CodeGenSchedModels *SchedModels) const;
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#endif
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};
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// Processor model.
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//
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// ModelName is a unique name used to name an instantiation of MCSchedModel.
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//
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// ModelDef is NULL for inferred Models. This happens when a processor defines
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// an itinerary but no machine model. If the processer defines neither a machine
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// model nor itinerary, then ModelDef remains pointing to NoModel. NoModel has
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// the special "NoModel" field set to true.
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//
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// ItinsDef always points to a valid record definition, but may point to the
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// default NoItineraries. NoItineraries has an empty list of InstrItinData
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// records.
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//
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// ItinDefList orders this processor's InstrItinData records by SchedClass idx.
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struct CodeGenProcModel {
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unsigned Index;
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std::string ModelName;
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Record *ModelDef;
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Record *ItinsDef;
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// Derived members...
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// Array of InstrItinData records indexed by a CodeGenSchedClass index.
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// This list is empty if the Processor has no value for Itineraries.
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// Initialized by collectProcItins().
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RecVec ItinDefList;
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// Map itinerary classes to per-operand resources.
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// This list is empty if no ItinRW refers to this Processor.
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RecVec ItinRWDefs;
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// All read/write resources associated with this processor.
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RecVec WriteResDefs;
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RecVec ReadAdvanceDefs;
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// Per-operand machine model resources associated with this processor.
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RecVec ProcResourceDefs;
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RecVec ProcResGroupDefs;
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CodeGenProcModel(unsigned Idx, const std::string &Name, Record *MDef,
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Record *IDef) :
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Index(Idx), ModelName(Name), ModelDef(MDef), ItinsDef(IDef) {}
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bool hasItineraries() const {
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return !ItinsDef->getValueAsListOfDefs("IID").empty();
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}
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bool hasInstrSchedModel() const {
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return !WriteResDefs.empty() || !ItinRWDefs.empty();
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}
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unsigned getProcResourceIdx(Record *PRDef) const;
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#ifndef NDEBUG
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void dump() const;
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#endif
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};
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/// Top level container for machine model data.
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class CodeGenSchedModels {
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RecordKeeper &Records;
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const CodeGenTarget &Target;
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// Map dag expressions to Instruction lists.
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SetTheory Sets;
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// List of unique processor models.
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std::vector<CodeGenProcModel> ProcModels;
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// Map Processor's MachineModel or ProcItin to a CodeGenProcModel index.
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typedef DenseMap<Record*, unsigned> ProcModelMapTy;
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ProcModelMapTy ProcModelMap;
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// Per-operand SchedReadWrite types.
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std::vector<CodeGenSchedRW> SchedWrites;
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std::vector<CodeGenSchedRW> SchedReads;
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// List of unique SchedClasses.
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std::vector<CodeGenSchedClass> SchedClasses;
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// Any inferred SchedClass has an index greater than NumInstrSchedClassses.
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unsigned NumInstrSchedClasses;
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// Map each instruction to its unique SchedClass index considering the
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// combination of it's itinerary class, SchedRW list, and InstRW records.
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typedef DenseMap<Record*, unsigned> InstClassMapTy;
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InstClassMapTy InstrClassMap;
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public:
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CodeGenSchedModels(RecordKeeper& RK, const CodeGenTarget &TGT);
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Record *getModelOrItinDef(Record *ProcDef) const {
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Record *ModelDef = ProcDef->getValueAsDef("SchedModel");
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Record *ItinsDef = ProcDef->getValueAsDef("ProcItin");
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if (!ItinsDef->getValueAsListOfDefs("IID").empty()) {
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assert(ModelDef->getValueAsBit("NoModel")
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&& "Itineraries must be defined within SchedMachineModel");
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return ItinsDef;
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}
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return ModelDef;
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}
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const CodeGenProcModel &getModelForProc(Record *ProcDef) const {
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Record *ModelDef = getModelOrItinDef(ProcDef);
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ProcModelMapTy::const_iterator I = ProcModelMap.find(ModelDef);
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assert(I != ProcModelMap.end() && "missing machine model");
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return ProcModels[I->second];
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}
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const CodeGenProcModel &getProcModel(Record *ModelDef) const {
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ProcModelMapTy::const_iterator I = ProcModelMap.find(ModelDef);
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assert(I != ProcModelMap.end() && "missing machine model");
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return ProcModels[I->second];
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}
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// Iterate over the unique processor models.
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typedef std::vector<CodeGenProcModel>::const_iterator ProcIter;
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ProcIter procModelBegin() const { return ProcModels.begin(); }
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ProcIter procModelEnd() const { return ProcModels.end(); }
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// Return true if any processors have itineraries.
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bool hasItineraries() const;
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// Get a SchedWrite from its index.
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const CodeGenSchedRW &getSchedWrite(unsigned Idx) const {
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assert(Idx < SchedWrites.size() && "bad SchedWrite index");
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assert(SchedWrites[Idx].isValid() && "invalid SchedWrite");
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return SchedWrites[Idx];
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}
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// Get a SchedWrite from its index.
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const CodeGenSchedRW &getSchedRead(unsigned Idx) const {
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assert(Idx < SchedReads.size() && "bad SchedRead index");
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assert(SchedReads[Idx].isValid() && "invalid SchedRead");
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return SchedReads[Idx];
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}
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const CodeGenSchedRW &getSchedRW(unsigned Idx, bool IsRead) const {
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return IsRead ? getSchedRead(Idx) : getSchedWrite(Idx);
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}
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CodeGenSchedRW &getSchedRW(Record *Def) {
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bool IsRead = Def->isSubClassOf("SchedRead");
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unsigned Idx = getSchedRWIdx(Def, IsRead);
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return const_cast<CodeGenSchedRW&>(
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IsRead ? getSchedRead(Idx) : getSchedWrite(Idx));
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}
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const CodeGenSchedRW &getSchedRW(Record*Def) const {
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return const_cast<CodeGenSchedModels&>(*this).getSchedRW(Def);
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}
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unsigned getSchedRWIdx(Record *Def, bool IsRead, unsigned After = 0) const;
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// Return true if the given write record is referenced by a ReadAdvance.
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bool hasReadOfWrite(Record *WriteDef) const;
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// Get a SchedClass from its index.
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CodeGenSchedClass &getSchedClass(unsigned Idx) {
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assert(Idx < SchedClasses.size() && "bad SchedClass index");
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return SchedClasses[Idx];
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}
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const CodeGenSchedClass &getSchedClass(unsigned Idx) const {
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assert(Idx < SchedClasses.size() && "bad SchedClass index");
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return SchedClasses[Idx];
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}
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// Get the SchedClass index for an instruction. Instructions with no
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// itinerary, no SchedReadWrites, and no InstrReadWrites references return 0
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// for NoItinerary.
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unsigned getSchedClassIdx(const CodeGenInstruction &Inst) const;
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typedef std::vector<CodeGenSchedClass>::const_iterator SchedClassIter;
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SchedClassIter schedClassBegin() const { return SchedClasses.begin(); }
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SchedClassIter schedClassEnd() const { return SchedClasses.end(); }
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unsigned numInstrSchedClasses() const { return NumInstrSchedClasses; }
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void findRWs(const RecVec &RWDefs, IdxVec &Writes, IdxVec &Reads) const;
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void findRWs(const RecVec &RWDefs, IdxVec &RWs, bool IsRead) const;
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void expandRWSequence(unsigned RWIdx, IdxVec &RWSeq, bool IsRead) const;
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void expandRWSeqForProc(unsigned RWIdx, IdxVec &RWSeq, bool IsRead,
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const CodeGenProcModel &ProcModel) const;
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unsigned addSchedClass(Record *ItinDef, const IdxVec &OperWrites,
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const IdxVec &OperReads, const IdxVec &ProcIndices);
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unsigned findOrInsertRW(ArrayRef<unsigned> Seq, bool IsRead);
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unsigned findSchedClassIdx(Record *ItinClassDef,
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const IdxVec &Writes,
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const IdxVec &Reads) const;
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Record *findProcResUnits(Record *ProcResKind,
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const CodeGenProcModel &PM) const;
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private:
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void collectProcModels();
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// Initialize a new processor model if it is unique.
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void addProcModel(Record *ProcDef);
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void collectSchedRW();
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std::string genRWName(const IdxVec& Seq, bool IsRead);
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unsigned findRWForSequence(const IdxVec &Seq, bool IsRead);
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void collectSchedClasses();
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std::string createSchedClassName(Record *ItinClassDef,
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const IdxVec &OperWrites,
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const IdxVec &OperReads);
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std::string createSchedClassName(const RecVec &InstDefs);
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void createInstRWClass(Record *InstRWDef);
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void collectProcItins();
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void collectProcItinRW();
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void inferSchedClasses();
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void inferFromRW(const IdxVec &OperWrites, const IdxVec &OperReads,
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unsigned FromClassIdx, const IdxVec &ProcIndices);
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void inferFromItinClass(Record *ItinClassDef, unsigned FromClassIdx);
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void inferFromInstRWs(unsigned SCIdx);
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void collectProcResources();
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void collectItinProcResources(Record *ItinClassDef);
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void collectRWResources(unsigned RWIdx, bool IsRead,
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const IdxVec &ProcIndices);
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void collectRWResources(const IdxVec &Writes, const IdxVec &Reads,
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const IdxVec &ProcIndices);
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void addProcResource(Record *ProcResourceKind, CodeGenProcModel &PM);
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void addWriteRes(Record *ProcWriteResDef, unsigned PIdx);
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void addReadAdvance(Record *ProcReadAdvanceDef, unsigned PIdx);
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};
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} // namespace llvm
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#endif
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