third_party/LLVM/include/llvm/ADT/IntEqClasses.h - SwiftShader - Git at Google

 //===-- llvm/ADT/IntEqClasses.h - Equiv. Classes of Integers ----*- C++ -*-===//
 //
 //                     The LLVM Compiler Infrastructure
 //
 // This file is distributed under the University of Illinois Open Source
 // License. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//
 //
 // Equivalence classes for small integers. This is a mapping of the integers
 // 0 .. N-1 into M equivalence classes numbered 0 .. M-1.
 //
 // Initially each integer has its own equivalence class. Classes are joined by
 // passing a representative member of each class to join().
 //
 // Once the classes are built, compress() will number them 0 .. M-1 and prevent
 // further changes.
 //
 //===----------------------------------------------------------------------===//

 #ifndef LLVM_ADT_INTEQCLASSES_H
 #define LLVM_ADT_INTEQCLASSES_H

 #include "llvm/ADT/SmallVector.h"

 namespace llvm {

 class IntEqClasses {
   /// EC - When uncompressed, map each integer to a smaller member of its
   /// equivalence class. The class leader is the smallest member and maps to
   /// itself.
   ///
   /// When compressed, EC[i] is the equivalence class of i.
   SmallVector<unsigned, 8> EC;

   /// NumClasses - The number of equivalence classes when compressed, or 0 when
   /// uncompressed.
   unsigned NumClasses;

 public:
   /// IntEqClasses - Create an equivalence class mapping for 0 .. N-1.
   IntEqClasses(unsigned N = 0) : NumClasses(0) { grow(N); }

   /// grow - Increase capacity to hold 0 .. N-1, putting new integers in unique
   /// equivalence classes.
   /// This requires an uncompressed map.
   void grow(unsigned N);

   /// clear - Clear all classes so that grow() will assign a unique class to
   /// every integer.
   void clear() {
     EC.clear();
     NumClasses = 0;
   }

   /// join - Join the equivalence classes of a and b. After joining classes,
   /// findLeader(a) == findLeader(b).
   /// This requires an uncompressed map.
   void join(unsigned a, unsigned b);

   /// findLeader - Compute the leader of a's equivalence class. This is the
   /// smallest member of the class.
   /// This requires an uncompressed map.
   unsigned findLeader(unsigned a) const;

   /// compress - Compress equivalence classes by numbering them 0 .. M.
   /// This makes the equivalence class map immutable.
   void compress();

   /// getNumClasses - Return the number of equivalence classes after compress()
   /// was called.
   unsigned getNumClasses() const { return NumClasses; }

   /// operator[] - Return a's equivalence class number, 0 .. getNumClasses()-1.
   /// This requires a compressed map.
   unsigned operator[](unsigned a) const {
     assert(NumClasses && "operator[] called before compress()");
     return EC[a];
   }

   /// uncompress - Change back to the uncompressed representation that allows
   /// editing.
   void uncompress();
 };

 } // End llvm namespace

 #endif
	//===-- llvm/ADT/IntEqClasses.h - Equiv. Classes of Integers ----- C++ --===//
	//
	// The LLVM Compiler Infrastructure
	//
	// This file is distributed under the University of Illinois Open Source
	// License. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//
	//
	// Equivalence classes for small integers. This is a mapping of the integers
	// 0 .. N-1 into M equivalence classes numbered 0 .. M-1.
	//
	// Initially each integer has its own equivalence class. Classes are joined by
	// passing a representative member of each class to join().
	//
	// Once the classes are built, compress() will number them 0 .. M-1 and prevent
	// further changes.
	//
	//===----------------------------------------------------------------------===//

	#ifndef LLVM_ADT_INTEQCLASSES_H
	#define LLVM_ADT_INTEQCLASSES_H

	#include "llvm/ADT/SmallVector.h"

	namespace llvm {

	class IntEqClasses {
	/// EC - When uncompressed, map each integer to a smaller member of its
	/// equivalence class. The class leader is the smallest member and maps to
	/// itself.
	///
	/// When compressed, EC[i] is the equivalence class of i.
	SmallVector<unsigned, 8> EC;

	/// NumClasses - The number of equivalence classes when compressed, or 0 when
	/// uncompressed.
	unsigned NumClasses;

	public:
	/// IntEqClasses - Create an equivalence class mapping for 0 .. N-1.
	IntEqClasses(unsigned N = 0) : NumClasses(0) { grow(N); }

	/// grow - Increase capacity to hold 0 .. N-1, putting new integers in unique
	/// equivalence classes.
	/// This requires an uncompressed map.
	void grow(unsigned N);

	/// clear - Clear all classes so that grow() will assign a unique class to
	/// every integer.
	void clear() {
	EC.clear();
	NumClasses = 0;
	}

	/// join - Join the equivalence classes of a and b. After joining classes,
	/// findLeader(a) == findLeader(b).
	/// This requires an uncompressed map.
	void join(unsigned a, unsigned b);

	/// findLeader - Compute the leader of a's equivalence class. This is the
	/// smallest member of the class.
	/// This requires an uncompressed map.
	unsigned findLeader(unsigned a) const;

	/// compress - Compress equivalence classes by numbering them 0 .. M.
	/// This makes the equivalence class map immutable.
	void compress();

	/// getNumClasses - Return the number of equivalence classes after compress()
	/// was called.
	unsigned getNumClasses() const { return NumClasses; }

	/// operator[] - Return a's equivalence class number, 0 .. getNumClasses()-1.
	/// This requires a compressed map.
	unsigned operator[](unsigned a) const {
	assert(NumClasses && "operator[] called before compress()");
	return EC[a];
	}

	/// uncompress - Change back to the uncompressed representation that allows
	/// editing.
	void uncompress();
	};

	} // End llvm namespace

	#endif