llvm-6502/include/llvm/ADT/EquivalenceClasses.h
Vikram S. Adve 6ffd14dd54 Remember the set of leaders. Also compute on demand and cache the equiv
class for each leader.   Finally, rename Elem2ECLeaderMap to Elem2LeaderMap
(most of the changed lines are only due to the latter).


git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@13651 91177308-0d34-0410-b5e6-96231b3b80d8
2004-05-23 08:05:14 +00:00

117 lines
4.1 KiB
C++

//===-- Support/EquivalenceClasses.h ----------------------------*- C++ -*-===//
//
// The LLVM Compiler Infrastructure
//
// This file was developed by the LLVM research group and is distributed under
// the University of Illinois Open Source License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
//
// Generic implementation of equivalence classes and implementation of
// union-find algorithms A not-so-fancy implementation: 2 level tree i.e root
// and one more level Overhead of a union = size of the equivalence class being
// attached Overhead of a find = 1.
//
//===----------------------------------------------------------------------===//
#ifndef SUPPORT_EQUIVALENCECLASSES_H
#define SUPPORT_EQUIVALENCECLASSES_H
#include <map>
#include <set>
#include <vector>
namespace llvm {
template <class ElemTy>
class EquivalenceClasses {
// Maps each element to the element that is the leader of its
// equivalence class.
std::map<ElemTy, ElemTy> Elem2LeaderMap;
// Maintains the set of leaders
std::set<ElemTy> LeaderSet;
// Caches the equivalence class for each leader
std::map<ElemTy, std::set<ElemTy> > LeaderToEqClassMap;
// Make Element2 the leader of the union of classes Element1 and Element2
// Element1 and Element2 are presumed to be leaders of their respective
// equivalence classes.
void attach(ElemTy Element1, ElemTy Element2) {
for (typename std::map<ElemTy, ElemTy>::iterator ElemI =
Elem2LeaderMap.begin(), ElemE = Elem2LeaderMap.end();
ElemI != ElemE; ++ElemI) {
if (ElemI->second == Element1)
Elem2LeaderMap[ElemI->first] = Element2;
}
}
public:
// If an element has not yet in any class, make it a separate new class.
// Return the leader of the class containing the element.
ElemTy addElement (ElemTy NewElement) {
typename std::map<ElemTy, ElemTy>::iterator ElemI =
Elem2LeaderMap.find(NewElement);
if (ElemI == Elem2LeaderMap.end()) {
Elem2LeaderMap[NewElement] = NewElement;
LeaderSet.insert(NewElement);
return NewElement;
}
else
return ElemI->second;
}
ElemTy findClass(ElemTy Element) const {
typename std::map<ElemTy, ElemTy>::const_iterator I =
Elem2LeaderMap.find(Element);
return (I == Elem2LeaderMap.end())? (ElemTy) 0 : I->second;
}
/// Attach the set with Element1 to the set with Element2 adding Element1 and
/// Element2 to the set of equivalence classes if they are not there already.
/// Implication: Make Element1 the element in the smaller set.
/// Take Leader[Element1] out of the set of leaders.
void unionSetsWith(ElemTy Element1, ElemTy Element2) {
// If either Element1 or Element2 does not already exist, include it
const ElemTy& leader1 = addElement(Element1);
const ElemTy& leader2 = addElement(Element2);
assert(leader1 != (ElemTy) 0 && leader2 != (ElemTy) 0);
if (leader1 != leader2) {
attach(leader1, leader2);
LeaderSet.erase(leader1);
}
}
// Returns a vector containing all the elements in the equivalence class
// including Element1
const std::set<ElemTy> & getEqClass(ElemTy Element1) {
assert(Elem2LeaderMap.find(Element1) != Elem2LeaderMap.end());
const ElemTy classLeader = Elem2LeaderMap[Element1];
std::set<ElemTy> & EqClass = LeaderToEqClassMap[classLeader];
// If the EqClass vector is empty, it has not been computed yet: do it now
if (EqClass.empty()) {
for (typename std::map<ElemTy, ElemTy>::iterator
ElemI = Elem2LeaderMap.begin(), ElemE = Elem2LeaderMap.end();
ElemI != ElemE; ++ElemI)
if (ElemI->second == classLeader)
EqClass.insert(ElemI->first);
assert(! EqClass.empty()); // must at least include the leader
}
return EqClass;
}
std::set<ElemTy>& getLeaderSet() { return LeaderSet; }
const std::set<ElemTy>& getLeaderSet() const { return LeaderSet; }
std::map<ElemTy, ElemTy>& getLeaderMap() { return Elem2LeaderMap;}
const std::map<ElemTy, ElemTy>& getLeaderMap() const { return Elem2LeaderMap;}
};
} // End llvm namespace
#endif