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//===- Record.h - Classes to represent Table Records ------------*- C++ -*-===//
//
// This file defines the main TableGen data structures, including the TableGen
// types, values, and high-level data structures.
//
//===----------------------------------------------------------------------===//
#ifndef RECORD_H
#define RECORD_H
#include <string>
#include <vector>
#include <map>
#include <iostream>
#include <cassert>
// RecTy subclasses...
class BitRecTy;
class BitsRecTy;
class IntRecTy;
class StringRecTy;
class ListRecTy;
class CodeRecTy;
class DagRecTy;
class RecordRecTy;
// Init subclasses...
class Init;
class UnsetInit;
class BitInit;
class BitsInit;
class IntInit;
class StringInit;
class CodeInit;
class ListInit;
class DefInit;
class DagInit;
class TypedInit;
class VarInit;
class FieldInit;
class VarBitInit;
// Other classes...
class Record;
//===----------------------------------------------------------------------===//
// Type Classes
//===----------------------------------------------------------------------===//
struct RecTy {
virtual ~RecTy() {}
virtual void print(std::ostream &OS) const = 0;
void dump() const;
/// typeIsConvertibleTo - Return true if all values of 'this' type can be
/// converted to the specified type.
virtual bool typeIsConvertibleTo(const RecTy *RHS) const = 0;
public: // These methods should only be called from subclasses of Init
virtual Init *convertValue( UnsetInit *UI) { return 0; }
virtual Init *convertValue( BitInit *BI) { return 0; }
virtual Init *convertValue( BitsInit *BI) { return 0; }
virtual Init *convertValue( IntInit *II) { return 0; }
virtual Init *convertValue(StringInit *SI) { return 0; }
virtual Init *convertValue( ListInit *LI) { return 0; }
virtual Init *convertValue( CodeInit *CI) { return 0; }
virtual Init *convertValue(VarBitInit *VB) { return 0; }
virtual Init *convertValue( DefInit *DI) { return 0; }
virtual Init *convertValue( DagInit *DI) { return 0; }
virtual Init *convertValue( TypedInit *TI) { return 0; }
virtual Init *convertValue( VarInit *VI) {
return convertValue((TypedInit*)VI);
}
virtual Init *convertValue( FieldInit *FI) {
return convertValue((TypedInit*)FI);
}
public: // These methods should only be called by subclasses of RecTy.
// baseClassOf - These virtual methods should be overloaded to return true iff
// all values of type 'RHS' can be converted to the 'this' type.
virtual bool baseClassOf(const BitRecTy *RHS) const { return false; }
virtual bool baseClassOf(const BitsRecTy *RHS) const { return false; }
virtual bool baseClassOf(const IntRecTy *RHS) const { return false; }
virtual bool baseClassOf(const StringRecTy *RHS) const { return false; }
virtual bool baseClassOf(const ListRecTy *RHS) const { return false; }
virtual bool baseClassOf(const CodeRecTy *RHS) const { return false; }
virtual bool baseClassOf(const DagRecTy *RHS) const { return false; }
virtual bool baseClassOf(const RecordRecTy *RHS) const { return false; }
};
inline std::ostream &operator<<(std::ostream &OS, const RecTy &Ty) {
Ty.print(OS);
return OS;
}
/// BitRecTy - 'bit' - Represent a single bit
///
struct BitRecTy : public RecTy {
Init *convertValue(UnsetInit *UI) { return (Init*)UI; }
Init *convertValue(BitInit *BI) { return (Init*)BI; }
Init *convertValue(BitsInit *BI);
Init *convertValue(IntInit *II);
Init *convertValue(TypedInit *VI);
Init *convertValue(VarBitInit *VB) { return (Init*)VB; }
void print(std::ostream &OS) const { OS << "bit"; }
bool typeIsConvertibleTo(const RecTy *RHS) const {
return RHS->baseClassOf(this);
}
virtual bool baseClassOf(const BitRecTy *RHS) const { return true; }
virtual bool baseClassOf(const BitsRecTy *RHS) const;
virtual bool baseClassOf(const IntRecTy *RHS) const { return true; }
};
/// BitsRecTy - 'bits<n>' - Represent a fixed number of bits
///
class BitsRecTy : public RecTy {
unsigned Size;
public:
BitsRecTy(unsigned Sz) : Size(Sz) {}
unsigned getNumBits() const { return Size; }
Init *convertValue(UnsetInit *UI);
Init *convertValue(BitInit *UI);
Init *convertValue(BitsInit *BI);
Init *convertValue(IntInit *II);
Init *convertValue(TypedInit *VI);
void print(std::ostream &OS) const { OS << "bits<" << Size << ">"; }
bool typeIsConvertibleTo(const RecTy *RHS) const {
return RHS->baseClassOf(this);
}
virtual bool baseClassOf(const BitRecTy *RHS) const { return Size == 1; }
virtual bool baseClassOf(const IntRecTy *RHS) const { return true; }
virtual bool baseClassOf(const BitsRecTy *RHS) const {
return RHS->Size == Size;
}
};
/// IntRecTy - 'int' - Represent an integer value of no particular size
///
struct IntRecTy : public RecTy {
Init *convertValue(UnsetInit *UI) { return (Init*)UI; }
Init *convertValue(IntInit *II) { return (Init*)II; }
Init *convertValue(BitInit *BI);
Init *convertValue(BitsInit *BI);
Init *convertValue(TypedInit *TI);
void print(std::ostream &OS) const { OS << "int"; }
bool typeIsConvertibleTo(const RecTy *RHS) const {
return RHS->baseClassOf(this);
}
virtual bool baseClassOf(const BitRecTy *RHS) const { return true; }
virtual bool baseClassOf(const IntRecTy *RHS) const { return true; }
virtual bool baseClassOf(const BitsRecTy *RHS) const { return true; }
};
/// StringRecTy - 'string' - Represent an string value
///
struct StringRecTy : public RecTy {
Init *convertValue(UnsetInit *UI) { return (Init*)UI; }
Init *convertValue(StringInit *SI) { return (Init*)SI; }
Init *convertValue(TypedInit *TI);
void print(std::ostream &OS) const { OS << "string"; }
bool typeIsConvertibleTo(const RecTy *RHS) const {
return RHS->baseClassOf(this);
}
virtual bool baseClassOf(const StringRecTy *RHS) const { return true; }
};
/// ListRecTy - 'list<Ty>' - Represent a list of values, all of which must be of
/// the specified type.
///
class ListRecTy : public RecTy {
RecTy *Ty;
public:
ListRecTy(RecTy *T) : Ty(T) {}
RecTy *getElementType() const { return Ty; }
Init *convertValue(UnsetInit *UI) { return (Init*)UI; }
Init *convertValue(ListInit *LI);
Init *convertValue(TypedInit *TI);
void print(std::ostream &OS) const;
bool typeIsConvertibleTo(const RecTy *RHS) const {
return RHS->baseClassOf(this);
}
virtual bool baseClassOf(const ListRecTy *RHS) const {
return RHS->getElementType()->typeIsConvertibleTo(Ty);
}
};
/// CodeRecTy - 'code' - Represent an code fragment, function or method.
///
struct CodeRecTy : public RecTy {
Init *convertValue(UnsetInit *UI) { return (Init*)UI; }
Init *convertValue( CodeInit *CI) { return (Init*)CI; }
Init *convertValue(TypedInit *TI);
void print(std::ostream &OS) const { OS << "code"; }
bool typeIsConvertibleTo(const RecTy *RHS) const {
return RHS->baseClassOf(this);
}
virtual bool baseClassOf(const CodeRecTy *RHS) const { return true; }
};
/// DagRecTy - 'dag' - Represent a dag fragment
///
struct DagRecTy : public RecTy {
Init *convertValue(UnsetInit *UI) { return (Init*)UI; }
Init *convertValue( DagInit *CI) { return (Init*)CI; }
Init *convertValue(TypedInit *TI);
void print(std::ostream &OS) const { OS << "dag"; }
bool typeIsConvertibleTo(const RecTy *RHS) const {
return RHS->baseClassOf(this);
}
virtual bool baseClassOf(const DagRecTy *RHS) const { return true; }
};
/// RecordRecTy - '<classname>' - Represent an instance of a class, such as:
/// (R32 X = EAX).
///
class RecordRecTy : public RecTy {
Record *Rec;
public:
RecordRecTy(Record *R) : Rec(R) {}
Record *getRecord() const { return Rec; }
Init *convertValue(UnsetInit *UI) { return (Init*)UI; }
Init *convertValue( DefInit *DI);
Init *convertValue(TypedInit *VI);
void print(std::ostream &OS) const;
bool typeIsConvertibleTo(const RecTy *RHS) const {
return RHS->baseClassOf(this);
}
virtual bool baseClassOf(const RecordRecTy *RHS) const;
};
//===----------------------------------------------------------------------===//
// Initializer Classes
//===----------------------------------------------------------------------===//
struct Init {
virtual ~Init() {}
/// isComplete - This virtual method should be overridden by values that may
/// not be completely specified yet.
virtual bool isComplete() const { return true; }
/// print - Print out this value.
virtual void print(std::ostream &OS) const = 0;
/// dump - Debugging method that may be called through a debugger, just
/// invokes print on cerr.
void dump() const;
/// convertInitializerTo - This virtual function is a simple call-back
/// function that should be overridden to call the appropriate
/// RecTy::convertValue method.
///
virtual Init *convertInitializerTo(RecTy *Ty) = 0;
/// convertInitializerBitRange - This method is used to implement the bitrange
/// selection operator. Given an initializer, it selects the specified bits
/// out, returning them as a new init of bits type. If it is not legal to use
/// the bit subscript operator on this initializer, return null.
///
virtual Init *convertInitializerBitRange(const std::vector<unsigned> &Bits) {
return 0;
}
/// getFieldType - This method is used to implement the FieldInit class.
/// Implementors of this method should return the type of the named field if
/// they are of record type.
///
virtual RecTy *getFieldType(const std::string &FieldName) const { return 0; }
/// getFieldInit - This method complements getFieldType to return the
/// initializer for the specified field. If getFieldType returns non-null
/// this method should return non-null, otherwise it returns null.
///
virtual Init *getFieldInit(Record &R, const std::string &FieldName) const {
return 0;
}
/// resolveReferences - This method is used by classes that refer to other
/// variables which may not be defined at the time they expression is formed.
/// If a value is set for the variable later, this method will be called on
/// users of the value to allow the value to propagate out.
///
virtual Init *resolveReferences(Record &R) { return this; }
};
inline std::ostream &operator<<(std::ostream &OS, const Init &I) {
I.print(OS); return OS;
}
/// UnsetInit - ? - Represents an uninitialized value
///
struct UnsetInit : public Init {
virtual Init *convertInitializerTo(RecTy *Ty) {
return Ty->convertValue(this);
}
virtual bool isComplete() const { return false; }
virtual void print(std::ostream &OS) const { OS << "?"; }
};
/// BitInit - true/false - Represent a concrete initializer for a bit.
///
class BitInit : public Init {
bool Value;
public:
BitInit(bool V) : Value(V) {}
bool getValue() const { return Value; }
virtual Init *convertInitializerTo(RecTy *Ty) {
return Ty->convertValue(this);
}
virtual void print(std::ostream &OS) const { OS << (Value ? "1" : "0"); }
};
/// BitsInit - { a, b, c } - Represents an initializer for a BitsRecTy value.
/// It contains a vector of bits, whose size is determined by the type.
///
class BitsInit : public Init {
std::vector<Init*> Bits;
public:
BitsInit(unsigned Size) : Bits(Size) {}
unsigned getNumBits() const { return Bits.size(); }
Init *getBit(unsigned Bit) const {
assert(Bit < Bits.size() && "Bit index out of range!");
return Bits[Bit];
}
void setBit(unsigned Bit, Init *V) {
assert(Bit < Bits.size() && "Bit index out of range!");
assert(Bits[Bit] == 0 && "Bit already set!");
Bits[Bit] = V;
}
virtual Init *convertInitializerTo(RecTy *Ty) {
return Ty->convertValue(this);
}
virtual Init *convertInitializerBitRange(const std::vector<unsigned> &Bits);
virtual bool isComplete() const {
for (unsigned i = 0; i != getNumBits(); ++i)
if (!getBit(i)->isComplete()) return false;
return true;
}
virtual void print(std::ostream &OS) const;
virtual Init *resolveReferences(Record &R);
// printXX - Print this bitstream with the specified format, returning true if
// it is not possible.
bool printInHex(std::ostream &OS) const;
bool printAsVariable(std::ostream &OS) const;
bool printAsUnset(std::ostream &OS) const;
};
/// IntInit - 7 - Represent an initalization by a literal integer value.
///
class IntInit : public Init {
int Value;
public:
IntInit(int V) : Value(V) {}
int getValue() const { return Value; }
virtual Init *convertInitializerTo(RecTy *Ty) {
return Ty->convertValue(this);
}
virtual Init *convertInitializerBitRange(const std::vector<unsigned> &Bits);
virtual void print(std::ostream &OS) const { OS << Value; }
};
/// StringInit - "foo" - Represent an initialization by a string value.
///
class StringInit : public Init {
std::string Value;
public:
StringInit(const std::string &V) : Value(V) {}
const std::string &getValue() const { return Value; }
virtual Init *convertInitializerTo(RecTy *Ty) {
return Ty->convertValue(this);
}
virtual void print(std::ostream &OS) const { OS << "\"" << Value << "\""; }
};
/// CodeInit - "[{...}]" - Represent a code fragment.
///
class CodeInit : public Init {
std::string Value;
public:
CodeInit(const std::string &V) : Value(V) {}
const std::string getValue() const { return Value; }
virtual Init *convertInitializerTo(RecTy *Ty) {
return Ty->convertValue(this);
}
virtual void print(std::ostream &OS) const { OS << "[{" << Value << "}]"; }
};
/// ListInit - [AL, AH, CL] - Represent a list of defs
///
class ListInit : public Init {
std::vector<Init*> Values;
public:
ListInit(std::vector<Init*> &Vs) {
Values.swap(Vs);
}
unsigned getSize() const { return Values.size(); }
Init *getElement(unsigned i) const {
assert(i < Values.size() && "List element index out of range!");
return Values[i];
}
virtual Init *convertInitializerTo(RecTy *Ty) {
return Ty->convertValue(this);
}
virtual void print(std::ostream &OS) const;
};
/// TypedInit - This is the common super-class of types that have a specific,
/// explicit, type.
///
class TypedInit : public Init {
RecTy *Ty;
public:
TypedInit(RecTy *T) : Ty(T) {}
RecTy *getType() const { return Ty; }
/// resolveBitReference - This method is used to implement
/// VarBitInit::resolveReferences. If the bit is able to be resolved, we
/// simply return the resolved value, otherwise we return this.
///
virtual Init *resolveBitReference(Record &R, unsigned Bit) = 0;
};
/// VarInit - 'Opcode' - Represent a reference to an entire variable object.
///
class VarInit : public TypedInit {
std::string VarName;
public:
VarInit(const std::string &VN, RecTy *T) : TypedInit(T), VarName(VN) {}
virtual Init *convertInitializerTo(RecTy *Ty) {
return Ty->convertValue(this);
}
const std::string &getName() const { return VarName; }
virtual Init *convertInitializerBitRange(const std::vector<unsigned> &Bits);
virtual Init *resolveBitReference(Record &R, unsigned Bit);
virtual RecTy *getFieldType(const std::string &FieldName) const;
virtual Init *getFieldInit(Record &R, const std::string &FieldName) const;
/// resolveReferences - This method is used by classes that refer to other
/// variables which may not be defined at the time they expression is formed.
/// If a value is set for the variable later, this method will be called on
/// users of the value to allow the value to propagate out.
///
virtual Init *resolveReferences(Record &R);
virtual void print(std::ostream &OS) const { OS << VarName; }
};
/// VarBitInit - Opcode{0} - Represent access to one bit of a variable or field.
///
class VarBitInit : public Init {
TypedInit *TI;
unsigned Bit;
public:
VarBitInit(TypedInit *T, unsigned B) : TI(T), Bit(B) {
assert(T->getType() && dynamic_cast<BitsRecTy*>(T->getType()) &&
((BitsRecTy*)T->getType())->getNumBits() > B &&
"Illegal VarBitInit expression!");
}
virtual Init *convertInitializerTo(RecTy *Ty) {
return Ty->convertValue(this);
}
TypedInit *getVariable() const { return TI; }
unsigned getBitNum() const { return Bit; }
virtual void print(std::ostream &OS) const {
TI->print(OS); OS << "{" << Bit << "}";
}
virtual Init *resolveReferences(Record &R);
};
/// DefInit - AL - Represent a reference to a 'def' in the description
///
class DefInit : public Init {
Record *Def;
public:
DefInit(Record *D) : Def(D) {}
virtual Init *convertInitializerTo(RecTy *Ty) {
return Ty->convertValue(this);
}
Record *getDef() const { return Def; }
//virtual Init *convertInitializerBitRange(const std::vector<unsigned> &Bits);
virtual RecTy *getFieldType(const std::string &FieldName) const;
virtual Init *getFieldInit(Record &R, const std::string &FieldName) const;
virtual void print(std::ostream &OS) const;
};
/// FieldInit - X.Y - Represent a reference to a subfield of a variable
///
class FieldInit : public TypedInit {
Init *Rec; // Record we are referring to
std::string FieldName; // Field we are accessing
public:
FieldInit(Init *R, const std::string &FN)
: TypedInit(R->getFieldType(FN)), Rec(R), FieldName(FN) {
assert(getType() && "FieldInit with non-record type!");
}
virtual Init *convertInitializerTo(RecTy *Ty) {
return Ty->convertValue(this);
}
virtual Init *convertInitializerBitRange(const std::vector<unsigned> &Bits);
virtual Init *resolveBitReference(Record &R, unsigned Bit);
virtual Init *resolveReferences(Record &R);
virtual void print(std::ostream &OS) const {
Rec->print(OS); OS << "." << FieldName;
}
};
/// DagInit - (def a, b) - Represent a DAG tree value. DAG inits are required
/// to have Records for their first value, after that, any legal Init is
/// possible.
///
class DagInit : public Init {
Record *NodeTypeDef;
std::vector<Init*> Args;
public:
DagInit(Record *D, std::vector<Init*> &a) : NodeTypeDef(D) {
Args.swap(a); // DESTRUCTIVELY take the arguments
}
virtual Init *convertInitializerTo(RecTy *Ty) {
return Ty->convertValue(this);
}
Record *getNodeType() const { return NodeTypeDef; }
virtual void print(std::ostream &OS) const;
};
//===----------------------------------------------------------------------===//
// High-Level Classes
//===----------------------------------------------------------------------===//
class RecordVal {
std::string Name;
RecTy *Ty;
unsigned Prefix;
Init *Value;
public:
RecordVal(const std::string &N, RecTy *T, unsigned P);
const std::string &getName() const { return Name; }
unsigned getPrefix() const { return Prefix; }
RecTy *getType() const { return Ty; }
Init *getValue() const { return Value; }
bool setValue(Init *V) {
if (V) {
Value = V->convertInitializerTo(Ty);
return Value == 0;
}
Value = 0;
return false;
}
void dump() const;
void print(std::ostream &OS, bool PrintSem = true) const;
};
inline std::ostream &operator<<(std::ostream &OS, const RecordVal &RV) {
RV.print(OS << " ");
return OS;
}
struct Record {
const std::string Name;
std::vector<std::string> TemplateArgs;
std::vector<RecordVal> Values;
std::vector<Record*> SuperClasses;
public:
Record(const std::string &N) : Name(N) {}
~Record() {}
const std::string &getName() const { return Name; }
const std::vector<std::string> &getTemplateArgs() const {
return TemplateArgs;
}
const std::vector<RecordVal> &getValues() const { return Values; }
const std::vector<Record*> &getSuperClasses() const { return SuperClasses; }
bool isTemplateArg(const std::string &Name) const {
for (unsigned i = 0, e = TemplateArgs.size(); i != e; ++i)
if (TemplateArgs[i] == Name) return true;
return false;
}
const RecordVal *getValue(const std::string &Name) const {
for (unsigned i = 0, e = Values.size(); i != e; ++i)
if (Values[i].getName() == Name) return &Values[i];
return 0;
}
RecordVal *getValue(const std::string &Name) {
for (unsigned i = 0, e = Values.size(); i != e; ++i)
if (Values[i].getName() == Name) return &Values[i];
return 0;
}
void addTemplateArg(const std::string &Name) {
assert(!isTemplateArg(Name) && "Template arg already defined!");
TemplateArgs.push_back(Name);
}
void addValue(const RecordVal &RV) {
assert(getValue(RV.getName()) == 0 && "Value already added!");
Values.push_back(RV);
}
void removeValue(const std::string &Name) {
assert(getValue(Name) && "Cannot remove an entry that does not exist!");
for (unsigned i = 0, e = Values.size(); i != e; ++i)
if (Values[i].getName() == Name) {
Values.erase(Values.begin()+i);
return;
}
assert(0 && "Name does not exist in record!");
}
bool isSubClassOf(Record *R) const {
for (unsigned i = 0, e = SuperClasses.size(); i != e; ++i)
if (SuperClasses[i] == R)
return true;
return false;
}
void addSuperClass(Record *R) {
assert(!isSubClassOf(R) && "Already subclassing record!");
SuperClasses.push_back(R);
}
// resolveReferences - If there are any field references that refer to fields
// that have been filled in, we can propagate the values now.
//
void resolveReferences();
void dump() const;
//===--------------------------------------------------------------------===//
// High-level methods useful to tablegen back-ends
//
/// getValueInit - Return the initializer for a value with the specified name,
/// or throw an exception if the field does not exist.
///
Init *getValueInit(const std::string &FieldName) const;
/// getValueAsString - This method looks up the specified field and returns
/// its value as a string, throwing an exception if the field does not exist
/// or if the value is not a string.
///
std::string getValueAsString(const std::string &FieldName) const;
/// getValueAsBitsInit - This method looks up the specified field and returns
/// its value as a BitsInit, throwing an exception if the field does not exist
/// or if the value is not the right type.
///
BitsInit *getValueAsBitsInit(const std::string &FieldName) const;
/// getValueAsListInit - This method looks up the specified field and returns
/// its value as a ListInit, throwing an exception if the field does not exist
/// or if the value is not the right type.
///
ListInit *getValueAsListInit(const std::string &FieldName) const;
/// getValueAsDef - This method looks up the specified field and returns its
/// value as a Record, throwing an exception if the field does not exist or if
/// the value is not the right type.
///
Record *getValueAsDef(const std::string &FieldName) const;
/// getValueAsBit - This method looks up the specified field and returns its
/// value as a bit, throwing an exception if the field does not exist or if
/// the value is not the right type.
///
bool getValueAsBit(const std::string &FieldName) const;
/// getValueAsInt - This method looks up the specified field and returns its
/// value as an int, throwing an exception if the field does not exist or if
/// the value is not the right type.
///
int getValueAsInt(const std::string &FieldName) const;
};
std::ostream &operator<<(std::ostream &OS, const Record &R);
class RecordKeeper {
std::map<std::string, Record*> Classes, Defs;
public:
~RecordKeeper() {
for (std::map<std::string, Record*>::iterator I = Classes.begin(),
E = Classes.end(); I != E; ++I)
delete I->second;
for (std::map<std::string, Record*>::iterator I = Defs.begin(),
E = Defs.end(); I != E; ++I)
delete I->second;
}
const std::map<std::string, Record*> &getClasses() const { return Classes; }
const std::map<std::string, Record*> &getDefs() const { return Defs; }
Record *getClass(const std::string &Name) const {
std::map<std::string, Record*>::const_iterator I = Classes.find(Name);
return I == Classes.end() ? 0 : I->second;
}
Record *getDef(const std::string &Name) const {
std::map<std::string, Record*>::const_iterator I = Defs.find(Name);
return I == Defs.end() ? 0 : I->second;
}
void addClass(Record *R) {
assert(getClass(R->getName()) == 0 && "Class already exists!");
Classes.insert(std::make_pair(R->getName(), R));
}
void addDef(Record *R) {
assert(getDef(R->getName()) == 0 && "Def already exists!");
Defs.insert(std::make_pair(R->getName(), R));
}
//===--------------------------------------------------------------------===//
// High-level helper methods, useful for tablegen backends...
/// getAllDerivedDefinitions - This method returns all concrete definitions
/// that derive from the specified class name. If a class with the specified
/// name does not exist, an exception is thrown.
std::vector<Record*>
getAllDerivedDefinitions(const std::string &ClassName) const;
void dump() const;
};
std::ostream &operator<<(std::ostream &OS, const RecordKeeper &RK);
extern RecordKeeper Records;
#endif
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