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