Merge branch 'unify' of ssh://gohorb.ba-horb.de/bahome/projekt/git/JavaCompilerCore into refactoring

This commit is contained in:
JanUlrich 2016-04-20 14:48:03 +02:00
commit e08485740f
6 changed files with 118 additions and 63 deletions

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@ -50,12 +50,6 @@ public class MartelliMontanariUnify implements IUnify {
TypeParams rhsTypeParams = rhsType.getTypeParams();
TypeParams lhsTypeParams = lhsType.getTypeParams();
// DELETE - Rule
if(pair.getRhsType().equals(pair.getLhsType())) {
termsList.remove(idx);
continue;
}
// REDUCE - Rule
if(!(rhsType instanceof PlaceholderType) && !(lhsType instanceof PlaceholderType)) {
Set<UnifyPair> result = new HashSet<>();
@ -79,6 +73,12 @@ public class MartelliMontanariUnify implements IUnify {
continue;
}
// DELETE - Rule
if(pair.getRhsType().equals(pair.getLhsType())) {
termsList.remove(idx);
continue;
}
// SWAP - Rule
if(!(lhsType instanceof PlaceholderType) && (rhsType instanceof PlaceholderType)) {
termsList.remove(idx);

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@ -3,6 +3,7 @@ package de.dhbwstuttgart.typeinference.unify;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.Collection;
import java.util.Collections;
import java.util.HashSet;
import java.util.LinkedHashSet;
import java.util.LinkedList;
@ -10,6 +11,7 @@ import java.util.List;
import java.util.Map.Entry;
import java.util.Optional;
import java.util.Set;
import java.util.function.Function;
import java.util.stream.Collectors;
import de.dhbwstuttgart.typeinference.unify.interfaces.IFiniteClosure;
@ -47,6 +49,8 @@ public class TypeUnify {
*/
protected IRuleSet rules = new RuleSet();
protected boolean parallel = true;
/**
* Computes all principal type unifiers for a set of constraints.
* @param eq The set of constraints
@ -110,7 +114,7 @@ public class TypeUnify {
// Sub cartesian products of the second level (pattern matched) sets
// "the big (x)"
// TODO Optimierungsmöglichkeit: Parallelisierung der Schleife möglich
// TODO Optimierungsmöglichkeit: Parallelisierung der Schleife möglich (scheint sich nicht zu lohnen)
for(Set<Set<Set<UnifyPair>>> secondLevelSet : secondLevelSets) {
List<Set<Set<UnifyPair>>> secondLevelSetList = new ArrayList<>(secondLevelSet);
Set<List<Set<UnifyPair>>> cartResult = setOps.cartesianProduct(secondLevelSetList);
@ -133,7 +137,7 @@ public class TypeUnify {
//System.out.println(result);
// Flatten the cartesian product
// TODO parallelisierung möglich
// TODO parallelisierung möglich (scheint sich nicht zu lohnen)
Set<Set<UnifyPair>> eqPrimeSetFlat = new HashSet<>();
for(Set<Set<UnifyPair>> setToFlatten : eqPrimeSet) {
Set<UnifyPair> buffer = new HashSet<>();
@ -148,6 +152,23 @@ public class TypeUnify {
Set<Set<UnifyPair>> restartSet = new HashSet<>();
Set<Set<UnifyPair>> eqPrimePrimeSet = new HashSet<>();
if(parallel) {
Set<Set<UnifyPair>> restartSetSync = Collections.synchronizedSet(restartSet);
Set<Set<UnifyPair>> eqPrimePrimeSetSync = Collections.synchronizedSet(eqPrimePrimeSet);
eqPrimeSetFlat.parallelStream().forEach(eqPrime -> {
Optional<Set<UnifyPair>> eqPrimePrime = rules.subst(eqPrime);
if (eqPrime.equals(eq))
eqPrimePrimeSetSync.add(eqPrime);
else if(eqPrimePrime.isPresent())
restartSetSync.add(eqPrimePrime.get());
else
restartSetSync.add(eqPrime);
});
}
else {
for(Set<UnifyPair> eqPrime : eqPrimeSetFlat) {
Optional<Set<UnifyPair>> eqPrimePrime = rules.subst(eqPrime);
@ -158,16 +179,23 @@ public class TypeUnify {
else
restartSet.add(eqPrime);
}
}
/*
* Step 6 a) Restart for pairs where subst was applied
* b) Build the union over everything
*/
// TODO parallelisierung möglich (lohnt sich vermutlich)
if(parallel) {
Set<Set<UnifyPair>> eqPrimePrimeSetSync = Collections.synchronizedSet(eqPrimePrimeSet);
restartSet.parallelStream().forEach( x -> eqPrimePrimeSetSync.addAll(unify(x, fc)));
}
else {
for(Set<UnifyPair> eqss : restartSet)
eqPrimePrimeSet.addAll(this.unify(eqss, fc));
/*restartSet.parallelStream().forEach(
x -> eqPrimePrimeSet.addAll(unify(x, fc)));*/
}
/*
* Step 7: Filter empty sets;
*/

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@ -106,10 +106,10 @@ public class FiniteClosure implements IFiniteClosure {
// Permute all params with values that are in smArg() of that type.
// This corresponds to Case 3 in the definition of the subtyping relation.
{ArrayList<Set<UnifyType>> paramCandidates = new ArrayList<>();
/*{ArrayList<Set<UnifyType>> paramCandidates = new ArrayList<>();
for (UnifyType param : type.getTypeParams())
paramCandidates.add(smArg(param));
permuteParams(paramCandidates).forEach(x -> result1.add(type.setTypeParams(x)));}
permuteParams(paramCandidates).forEach(x -> result1.add(type.setTypeParams(x)));}*/
// This is case 2 of the definition of the subtyping relation.
Set<UnifyType> result2 = new HashSet<>();
@ -117,16 +117,18 @@ public class FiniteClosure implements IFiniteClosure {
HashSet<UnifyType> candidates = new HashSet<>();
// All types with the same name
strInheritanceGraph.get(type.getName()).forEach(x -> candidates.add(x.getContent()));
for(UnifyType typePrime : result1) {
//for(UnifyType typePrime : result1) {
for (UnifyType theta2 : candidates) {
// Find the substitution
Optional<Unifier> sigma2Opt = unify.unify(typePrime, theta2);
Optional<Unifier> sigma2Opt = unify.unify(type, theta2);
if (!sigma2Opt.isPresent())
continue;
Unifier sigma2 = sigma2Opt.get();
sigma2.swapPlaceholderSubstitutions(typePrime.getTypeParams());
if(type.equals(theta2))
if(sigma2.size() == 0)
continue;
sigma2.swapPlaceholderSubstitutions(type.getTypeParams());
//if(type.equals(theta2))
// continue;
Set<UnifyType> theta1s = smaller(theta2);
for (UnifyType theta1 : theta1s) {
// Because only the most general type is calculated, sigma1 = sigma2
@ -135,7 +137,6 @@ public class FiniteClosure implements IFiniteClosure {
}
}
}
}
else
result2 = result1;
@ -210,10 +211,10 @@ public class FiniteClosure implements IFiniteClosure {
// Permute all params with values that are in smArg() of that type.
// This corresponds to Case 3 in the definition of the subtyping relation.
{ArrayList<Set<UnifyType>> paramCandidates = new ArrayList<>();
/*{ArrayList<Set<UnifyType>> paramCandidates = new ArrayList<>();
for (UnifyType param : type.getTypeParams())
paramCandidates.add(grArg(param));
permuteParams(paramCandidates).forEach(x -> result1.add(type.setTypeParams(x)));}
permuteParams(paramCandidates).forEach(x -> result1.add(type.setTypeParams(x)));}*/
// This is case 2 of the definition of the subtyping relation.
Set<UnifyType> result2 = new HashSet<>();
@ -222,23 +223,26 @@ public class FiniteClosure implements IFiniteClosure {
// All types with the same name
strInheritanceGraph.get(type.getName()).forEach(x -> candidates.add(x.getContent()));
for(UnifyType typePrime : result1) {
// for(UnifyType typePrime : result1)
for (UnifyType theta2 : candidates) {
// Find the substitution
Optional<Unifier> sigma2Opt = unify.unify(typePrime, theta2);
Optional<Unifier> sigma2Opt = unify.unify(type, theta2);
if (!sigma2Opt.isPresent())
continue;
if(type.equals(theta2))
continue;
//if (type.equals(theta2))
// continue;
Unifier sigma2 = sigma2Opt.get();
sigma2.swapPlaceholderSubstitutions(typePrime.getTypeParams());
if(sigma2.size() == 0) // type.equals(theta2)
continue;
sigma2.swapPlaceholderSubstitutions(type.getTypeParams());
Set<UnifyType> theta1s = greater(theta2);
for (UnifyType theta1 : theta1s) {
// Because only the most general type is calculated, sigma1 = sigma2
// Because only the most general type is calculated, sigma1
// = sigma2
UnifyType sigma1Theta1 = sigma2.apply(theta1);
result2.add(sigma1Theta1);
}
}
// }
}
}

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@ -15,6 +15,11 @@ public final class TypeParams implements Iterable<UnifyType>{
*/
private final UnifyType[] typeParams;
/**
* Hashcode calculation is expensive and must be cached.
*/
private final int hashCode;
/**
* Creates a new set of type parameters.
* @param types The type parameters.
@ -23,6 +28,9 @@ public final class TypeParams implements Iterable<UnifyType>{
typeParams = new UnifyType[types.size()];
for(int i=0;i<types.size();i++)
typeParams[i] = types.get(i);
// Hashcode calculation is expensive and must be cached.
hashCode = Arrays.hashCode(typeParams);
}
/**
@ -31,6 +39,9 @@ public final class TypeParams implements Iterable<UnifyType>{
*/
public TypeParams(UnifyType... types) {
typeParams = types;
// Hashcode calculation is expensive and must be cached.
hashCode = Arrays.hashCode(typeParams);
}
/**
@ -108,7 +119,7 @@ public final class TypeParams implements Iterable<UnifyType>{
@Override
public int hashCode() {
return Arrays.hashCode(typeParams);
return hashCode;
}
@Override

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@ -81,6 +81,13 @@ public class Unifier implements Function<UnifyType, UnifyType>, Iterable<Entry<P
return substitutions.get(t);
}
/**
* The number of substitutions in the unifier. If zero, this is the identity function.
*/
public int size() {
return substitutions.size();
}
/**
* Garantuees that if there is a substitutions (a -> b) in this unifier,
* a is not an element of the targetParams. Substitutions that do not

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@ -9,18 +9,20 @@ public class UnifyPair {
/**
* The type on the left hand side of the pair.
*/
private UnifyType lhs;
private final UnifyType lhs;
/**
* The type on the right hand side of the pair.
*/
private UnifyType rhs;
private final UnifyType rhs;
/**
* The operator that determines the relation between the left and right hand side type.
*/
private PairOperator pairOp;
private final int hashCode;
/**
* Creates a new instance of the pair.
* @param lhs The type on the left hand side of the pair.
@ -31,6 +33,9 @@ public class UnifyPair {
this.lhs = lhs;
this.rhs = rhs;
pairOp = op;
// Caching hashcode
hashCode = 17 + 31 * lhs.hashCode() + 31 * rhs.hashCode() + 31 * pairOp.hashCode();
}
/**
@ -68,7 +73,7 @@ public class UnifyPair {
@Override
public int hashCode() {
return 17 + 31 * lhs.hashCode() + 31 * rhs.hashCode() + 31 * pairOp.hashCode();
return hashCode;
}
@Override