third_party/LLVM/utils/TableGen/SetTheory.h - SwiftShader - Git at Google

 //===- SetTheory.h - Generate ordered sets from DAG expressions -*- C++ -*-===//
 //
 //                     The LLVM Compiler Infrastructure
 //
 // This file is distributed under the University of Illinois Open Source
 // License. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//
 //
 // This file implements the SetTheory class that computes ordered sets of
 // Records from DAG expressions.  Operators for standard set operations are
 // predefined, and it is possible to add special purpose set operators as well.
 //
 // The user may define named sets as Records of predefined classes. Set
 // expanders can be added to a SetTheory instance to teach it how to find the
 // elements of such a named set.
 //
 // These are the predefined operators. The argument lists can be individual
 // elements (defs), other sets (defs of expandable classes), lists, or DAG
 // expressions that are evaluated recursively.
 //
 // - (add S1, S2 ...) Union sets. This is also how sets are created from element
 //   lists.
 //
 // - (sub S1, S2, ...) Set difference. Every element in S1 except for the
 //   elements in S2, ...
 //
 // - (and S1, S2) Set intersection. Every element in S1 that is also in S2.
 //
 // - (shl S, N) Shift left. Remove the first N elements from S.
 //
 // - (trunc S, N) Truncate. The first N elements of S.
 //
 // - (rotl S, N) Rotate left. Same as (add (shl S, N), (trunc S, N)).
 //
 // - (rotr S, N) Rotate right.
 //
 // - (decimate S, N) Decimate S by picking every N'th element, starting with
 //   the first one. For instance, (decimate S, 2) returns the even elements of
 //   S.
 //
 // - (sequence "Format", From, To) Generate a sequence of defs with printf.
 //   For instance, (sequence "R%u", 0, 3) -> [ R0, R1, R2, R3 ]
 //
 //===----------------------------------------------------------------------===//

 #ifndef SETTHEORY_H
 #define SETTHEORY_H

 #include "llvm/ADT/StringMap.h"
 #include "llvm/ADT/SetVector.h"
 #include <map>
 #include <vector>

 namespace llvm {

 class DagInit;
 class Init;
 class Record;
 class RecordKeeper;

 class SetTheory {
 public:
   typedef std::vector<Record*> RecVec;
   typedef SmallSetVector<Record*, 16> RecSet;

   /// Operator - A callback representing a DAG operator.
   struct Operator {
     virtual ~Operator() {}

     /// apply - Apply this operator to Expr's arguments and insert the result
     /// in Elts.
     virtual void apply(SetTheory&, DagInit *Expr, RecSet &Elts) =0;
   };

   /// Expander - A callback function that can transform a Record representing a
   /// set into a fully expanded list of elements. Expanders provide a way for
   /// users to define named sets that can be used in DAG expressions.
   struct Expander {
     virtual ~Expander() {}

     virtual void expand(SetTheory&, Record*, RecSet &Elts) =0;
   };

 private:
   // Map set defs to their fully expanded contents. This serves as a memoization
   // cache and it makes it possible to return const references on queries.
   typedef std::map<Record*, RecVec> ExpandMap;
   ExpandMap Expansions;

   // Known DAG operators by name.
   StringMap<Operator*> Operators;

   // Typed expanders by class name.
   StringMap<Expander*> Expanders;

 public:
   /// Create a SetTheory instance with only the standard operators.
   SetTheory();

   /// addExpander - Add an expander for Records with the named super class.
   void addExpander(StringRef ClassName, Expander*);

   /// addFieldExpander - Add an expander for ClassName that simply evaluates
   /// FieldName in the Record to get the set elements.  That is all that is
   /// needed for a class like:
   ///
   ///   class Set<dag d> {
   ///     dag Elts = d;
   ///   }
   ///
   void addFieldExpander(StringRef ClassName, StringRef FieldName);

   /// addOperator - Add a DAG operator.
   void addOperator(StringRef Name, Operator*);

   /// evaluate - Evaluate Expr and append the resulting set to Elts.
   void evaluate(Init *Expr, RecSet &Elts);

   /// evaluate - Evaluate a sequence of Inits and append to Elts.
   template<typename Iter>
   void evaluate(Iter begin, Iter end, RecSet &Elts) {
     while (begin != end)
       evaluate(*begin++, Elts);
   }

   /// expand - Expand a record into a set of elements if possible.  Return a
   /// pointer to the expanded elements, or NULL if Set cannot be expanded
   /// further.
   const RecVec *expand(Record *Set);
 };

 } // end namespace llvm

 #endif
	//===- SetTheory.h - Generate ordered sets from DAG expressions -- C++ --===//
	//
	// The LLVM Compiler Infrastructure
	//
	// This file is distributed under the University of Illinois Open Source
	// License. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//
	//
	// This file implements the SetTheory class that computes ordered sets of
	// Records from DAG expressions. Operators for standard set operations are
	// predefined, and it is possible to add special purpose set operators as well.
	//
	// The user may define named sets as Records of predefined classes. Set
	// expanders can be added to a SetTheory instance to teach it how to find the
	// elements of such a named set.
	//
	// These are the predefined operators. The argument lists can be individual
	// elements (defs), other sets (defs of expandable classes), lists, or DAG
	// expressions that are evaluated recursively.
	//
	// - (add S1, S2 ...) Union sets. This is also how sets are created from element
	// lists.
	//
	// - (sub S1, S2, ...) Set difference. Every element in S1 except for the
	// elements in S2, ...
	//
	// - (and S1, S2) Set intersection. Every element in S1 that is also in S2.
	//
	// - (shl S, N) Shift left. Remove the first N elements from S.
	//
	// - (trunc S, N) Truncate. The first N elements of S.
	//
	// - (rotl S, N) Rotate left. Same as (add (shl S, N), (trunc S, N)).
	//
	// - (rotr S, N) Rotate right.
	//
	// - (decimate S, N) Decimate S by picking every N'th element, starting with
	// the first one. For instance, (decimate S, 2) returns the even elements of
	// S.
	//
	// - (sequence "Format", From, To) Generate a sequence of defs with printf.
	// For instance, (sequence "R%u", 0, 3) -> [ R0, R1, R2, R3 ]
	//
	//===----------------------------------------------------------------------===//

	#ifndef SETTHEORY_H
	#define SETTHEORY_H

	#include "llvm/ADT/StringMap.h"
	#include "llvm/ADT/SetVector.h"
	#include <map>
	#include <vector>

	namespace llvm {

	class DagInit;
	class Init;
	class Record;
	class RecordKeeper;

	class SetTheory {
	public:
	typedef std::vector<Record*> RecVec;
	typedef SmallSetVector<Record*, 16> RecSet;

	/// Operator - A callback representing a DAG operator.
	struct Operator {
	virtual ~Operator() {}

	/// apply - Apply this operator to Expr's arguments and insert the result
	/// in Elts.
	virtual void apply(SetTheory&, DagInit *Expr, RecSet &Elts) =0;
	};

	/// Expander - A callback function that can transform a Record representing a
	/// set into a fully expanded list of elements. Expanders provide a way for
	/// users to define named sets that can be used in DAG expressions.
	struct Expander {
	virtual ~Expander() {}

	virtual void expand(SetTheory&, Record*, RecSet &Elts) =0;
	};

	private:
	// Map set defs to their fully expanded contents. This serves as a memoization
	// cache and it makes it possible to return const references on queries.
	typedef std::map<Record*, RecVec> ExpandMap;
	ExpandMap Expansions;

	// Known DAG operators by name.
	StringMap<Operator*> Operators;

	// Typed expanders by class name.
	StringMap<Expander*> Expanders;

	public:
	/// Create a SetTheory instance with only the standard operators.
	SetTheory();

	/// addExpander - Add an expander for Records with the named super class.
	void addExpander(StringRef ClassName, Expander*);

	/// addFieldExpander - Add an expander for ClassName that simply evaluates
	/// FieldName in the Record to get the set elements. That is all that is
	/// needed for a class like:
	///
	/// class Set<dag d> {
	/// dag Elts = d;
	/// }
	///
	void addFieldExpander(StringRef ClassName, StringRef FieldName);

	/// addOperator - Add a DAG operator.
	void addOperator(StringRef Name, Operator*);

	/// evaluate - Evaluate Expr and append the resulting set to Elts.
	void evaluate(Init *Expr, RecSet &Elts);

	/// evaluate - Evaluate a sequence of Inits and append to Elts.
	template<typename Iter>
	void evaluate(Iter begin, Iter end, RecSet &Elts) {
	while (begin != end)
	evaluate(*begin++, Elts);
	}

	/// expand - Expand a record into a set of elements if possible. Return a
	/// pointer to the expanded elements, or NULL if Set cannot be expanded
	/// further.
	const RecVec expand(Record Set);
	};

	} // end namespace llvm

	#endif