smalller und neue testcases
This commit is contained in:
Florian Steurer
parent
257edfc0b3
commit
26cc9b85ef
@ -53,6 +53,6 @@ public interface IFiniteClosure {
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public Set<Type> grArg(FunNType type);
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public Set<Type> smArg(FunNType type);
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public Optional<Type> getGenericType(String typeName);
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public Optional<Type> findGenericParent(String typeName);
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public Set<Type> getAllTypesByName(String typeName);
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}
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@ -18,15 +18,17 @@ public class FiniteClosure implements IFiniteClosure {
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private HashMap<Type, Node<Type>> inheritanceGraph;
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private HashMap<String, HashSet<Node<Type>>> strInheritanceGraph;
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private Set<MPair> pairs;
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private Set<Type> basicTypes;
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//TODO im konstruktor mitgeben um typenabzuhandeln die keine extends beziehung haben. (Damit die FC diese Typen auch kennt)
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//(ALternative: immer die extends zu object beziehung einfügen)
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public FiniteClosure(Set<MPair> pairs) {
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this.pairs = new HashSet<>(pairs);
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inheritanceGraph = new HashMap<Type, Node<Type>>();
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// Build the transitive closure of the inheritance tree
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for(MPair pair : pairs) {
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if(!pair.getLhsType().getTypeParams().arePlaceholders())
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throw new IllegalArgumentException("The finite closure only has pairs of the form D<a1, a2, ... , an> <= C<...>");
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if(pair.getPairOp() != PairOperator.SMALLER)
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continue;
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@ -64,51 +66,68 @@ public class FiniteClosure implements IFiniteClosure {
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*/
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@Override
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public Set<Type> smaller(Type type) {
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if(inheritanceGraph.containsKey(type)) {
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Set<Type> result = new HashSet<>();
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result.add(type);
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// - if(T < T') then T <=* T'
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// if T1 <=* T2 then sigma1(T1) <=* sigma1(T2)
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// where foreach type var a in T2:
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// sigma1(T1) <=* sigma2(T2)
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//If a type of the same name is in the fc AND the type "type" is parameterized (some substitution sigma1 was applied)
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result.addAll(inheritanceGraph.get(type).getContentOfDescendants());
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return result;
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}
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IUnify unify = new MartelliMontanariUnify();
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HashSet<Type> candidates = new HashSet<>();
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if (strInheritanceGraph.containsKey(type.getName()))
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strInheritanceGraph.get(type.getName()).forEach(x -> candidates.add(x.getContent()));
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else
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candidates.add(type);
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Set<Type> result1 = new HashSet<>();
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for (Type theta2 : candidates) {
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Optional<Unifier> sigma2 = unify.unify(theta2, type);
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if (!sigma2.isPresent())
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continue;
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Set<Type> theta1s = new HashSet<>();
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if(inheritanceGraph.containsKey(type))
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theta1s = inheritanceGraph.get(type).getContentOfDescendants();
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else if(theta2.equals(type))
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theta1s.add(type);
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else
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theta1s = smaller(theta2);
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for (Type theta1 : theta1s) {
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// Because only the most general type is calculated, sigma1 =
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// sigma2
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Type sigma1Theta1 = sigma2.get().apply(theta1);
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// if T = T' then T <=* T'
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result1.add(type);
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ArrayList<Set<Type>> paramCandidates = new ArrayList<>();
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for (Type param : sigma1Theta1.getTypeParams())
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{ArrayList<Set<Type>> paramCandidates = new ArrayList<>();
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for (Type param : type.getTypeParams())
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paramCandidates.add(smArg(param));
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Set<TypeParams> permResult = new HashSet<>();
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permuteParams(paramCandidates, 0, permResult, new Type[paramCandidates.size()]);
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for (TypeParams newParams : permResult)
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result.add(sigma1Theta1.setTypeParams(newParams));
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result1.add(type.setTypeParams(newParams));}
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Set<Type> result2 = new HashSet<>();
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if (strInheritanceGraph.containsKey(type.getName())) {
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HashSet<Type> candidates = new HashSet<>();
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strInheritanceGraph.get(type.getName()).forEach(x -> candidates.add(x.getContent()));
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for(Type typePrime : result1) {
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for (Type theta2 : candidates) {
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Optional<Unifier> sigma2 = unify.unify(typePrime, theta2);
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if (!sigma2.isPresent())
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continue;
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if(type.equals(theta2))
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continue;
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Set<Type> theta1s = smaller(theta2);
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for (Type theta1 : theta1s) {
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// Because only the most general type is calculated, sigma1 = sigma2
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Type sigma1Theta1 = sigma2.get().apply(theta1);
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result2.add(sigma1Theta1);
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}
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}
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}
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}
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else
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result2 = result1;
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Set<Type> result3 = new HashSet<>();
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for(Type t : result2) {
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ArrayList<Set<Type>> paramCandidates = new ArrayList<>();
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for (Type param : t.getTypeParams())
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paramCandidates.add(smArg(param));
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Set<TypeParams> permResult = new HashSet<>();
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permuteParams(paramCandidates, 0, permResult, new Type[paramCandidates.size()]);
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for (TypeParams newParams : permResult)
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result3.add(t.setTypeParams(newParams));
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}
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return result;
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return result3;
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}
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/**
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@ -260,19 +279,37 @@ public class FiniteClosure implements IFiniteClosure {
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return result;
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}
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@Override
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public Optional<Type> getGenericType(String typeName) {
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if(!strInheritanceGraph.containsKey(typeName))
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return Optional.empty();
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HashSet<Node<Type>> candidates = strInheritanceGraph.get(typeName);
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public boolean isGenericType(Type t) {
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if(t.getTypeParams().size() == 0)
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return true;
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for(Node<Type> node : candidates) {
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Type candidate = node.getContent();
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if(candidate.getTypeParams().arePlaceholders())
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return Optional.of(candidate);
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if(!strInheritanceGraph.containsKey(t.getName()))
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return false;
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for(MPair pair : pairs)
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if(pair.getLhsType().equals(t))
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return true;
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return false;
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}
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@Override
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public Optional<Type> findGenericParent(String type) {
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Type genericType = null;
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for(MPair pair : pairs) {
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Type lhs = pair.getLhsType();
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if(lhs.getName().equals(type)) {
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genericType = lhs;
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break;
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}
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}
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if(genericType == null)
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return Optional.empty();
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// TODO reduce reglen überarbeiten, es kann mehrere Typen D geben die eine bedingung
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// erfüllen, diese methode ausimplementieren
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return Optional.empty();
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}
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@ -101,8 +101,12 @@ public class MartelliMontanariUnify implements IUnify {
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TypeParams rhsTypeParams = rhs.getTypeParams();
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TypeParams lhsTypeParams = lhs.getTypeParams();
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if(rhsTypeParams.size() != lhsTypeParams.size() || (!rhs.getName().equals(lhs.getName()) && rhsTypeParams.size() != 0))
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if(!(rhs instanceof PlaceholderType) && !(lhs instanceof PlaceholderType)) {
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if(!rhs.getName().equals(lhs.getName()))
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return null; // conflict
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if(rhsTypeParams.size() != lhsTypeParams.size())
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return null; // conflict;
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}
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if(rhsTypeParams.size() == 0 || lhsTypeParams.size() == 0)
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return Optional.empty();
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@ -328,7 +328,7 @@ public class RuleSet implements IRuleSet{
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if(typeD.getName().equals(typeDs.getName()))
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return Optional.empty();
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Optional<Type> opt = finiteClosure.getGenericType(typeD.getName());
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Optional<Type> opt = finiteClosure.findGenericParent(typeD.getName());
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if(!opt.isPresent())
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return Optional.empty();
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@ -373,9 +373,9 @@ public class RuleSet implements IRuleSet{
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Type typeDgen;
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if(typeD instanceof SimpleType)
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typeDgen = finiteClosure.getGenericType(typeD.getName()).orElse(null);
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typeDgen = finiteClosure.findGenericParent(typeD.getName()).orElse(null);
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else {
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Optional<Type> opt = finiteClosure.getGenericType(((ExtendsType) typeD).getExtendedType().getName());
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Optional<Type> opt = finiteClosure.findGenericParent(((ExtendsType) typeD).getExtendedType().getName());
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typeDgen = opt.isPresent() ? new ExtendsType(opt.get()) : null;
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}
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@ -418,7 +418,7 @@ public class RuleSet implements IRuleSet{
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return Optional.empty();
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Optional<Type> opt = finiteClosure.getGenericType(((SuperType) typeSupD).getSuperedType().getName());
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Optional<Type> opt = finiteClosure.findGenericParent(((SuperType) typeSupD).getSuperedType().getName());
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if(!opt.isPresent())
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return Optional.empty();
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@ -462,13 +462,13 @@ public class RuleSet implements IRuleSet{
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private int[] pi(Type C, Type D) {
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Type cFromFc = null;
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if(C instanceof SimpleType)
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cFromFc = finiteClosure.getGenericType(C.getName()).orElse(null);
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cFromFc = finiteClosure.findGenericParent(C.getName()).orElse(null);
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else if(C instanceof ExtendsType) {
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Optional<Type> opt = finiteClosure.getGenericType(((ExtendsType) C).getExtendedType().getName());
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Optional<Type> opt = finiteClosure.findGenericParent(((ExtendsType) C).getExtendedType().getName());
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if(opt.isPresent()) cFromFc = new ExtendsType(opt.get());
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}
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else if(C instanceof SuperType) {
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Optional<Type> opt = finiteClosure.getGenericType(((SuperType) C).getSuperedType().getName());
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Optional<Type> opt = finiteClosure.findGenericParent(((SuperType) C).getSuperedType().getName());
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if(opt.isPresent()) cFromFc = new SuperType(opt.get());
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}
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@ -33,7 +33,8 @@ public class FiniteClosureBuilder {
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Type collection = tf.getSimpleType("Collection");
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Type set = tf.getSimpleType("Set", "T");
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Type sortedSet = tf.getSimpleType("Set", "T");
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//Type sortedSet = tf.getSimpleType("SortedSet", "T"); Sorted set bei den Unit-Tests vergessen
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// nachträgliches einfügen zu aufwendig
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Type TreeSet = tf.getSimpleType("TreeSet", "T");
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Type hashSet = tf.getSimpleType("HashSet", "T");
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Type linkedHashSet = tf.getSimpleType("LinkedHashSet", "T");
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@ -46,8 +47,8 @@ public class FiniteClosureBuilder {
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Type arrayList = tf.getSimpleType("ArrayList", "T");
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add(set, collection);
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add(sortedSet, set);
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add(TreeSet, sortedSet);
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//add(sortedSet, set);
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add(TreeSet, set);
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add(hashSet, set);
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add(linkedHashSet, set);
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@ -67,7 +68,7 @@ public class FiniteClosureBuilder {
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Type treeMap = tf.getSimpleType("TreeMap", "K", "V");
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Type hashMap = tf.getSimpleType("HashMap", "K", "V");
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Type hashtable = tf.getSimpleType("Hashtable", "K", "V");
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Type linkedHashMap = tf.getSimpleType("LinkedHashSet", "K", "V");
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Type linkedHashMap = tf.getSimpleType("LinkedHashMap", "K", "V");
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add(sortedMap, map);
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add(hashMap, map);
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@ -251,38 +251,92 @@ public class FiniteClosureTest {
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/*
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* Test Case 10:
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*
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* smaller(HashMap<? extends Number, ? super Integer>) =
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* { HashMap<? extends Number, ? super Integer>, HashMap<? extends Number, ? super Number>, HashMap<? extends Number, Integer>, HashMap<? extends Number, Number>
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* HashMap<Number, ? super Integer>, HashMap<Number, ? super Number>, HashMap<Number, Integer>, HashMap<Number, Number>,
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* HashMap<Integer, ? super Integer, HashMap<Integer, ? super Number>, HashMap<Integer, Integer>, HashMap<Integer, Number>
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* HashMap<? extends Integer, ? super Integer>, HashMap<? extends Integer, ? super Number>, HashMap<? extends Integer, Integer>, HashMap<? extends Integer, Number> }
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* smaller(TreeMap<? extends Number, ? super Integer>) =
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* { TreeMap<? extends Number, ? super Integer>, TreeMap<? extends Number, ? super Number>, TreeMap<? extends Number, Integer>, TreeMap<? extends Number, Number>
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* TreeMap<Number, ? super Integer>, TreeMap<Number, ? super Number>, TreeMap<Number, Integer>, TreeMap<Number, Number>,
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* TreeMap<Integer, ? super Integer, TreeMap<Integer, ? super Number>, TreeMap<Integer, Integer>, TreeMap<Integer, Number>
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* TreeMap<? extends Integer, ? super Integer>, TreeMap<? extends Integer, ? super Number>, TreeMap<? extends Integer, Integer>, TreeMap<? extends Integer, Number> }
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*/
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Type treeMapExtNumSupInt = tf.getSimpleType("TreeMap", extNum, superInt);
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expectedResult = new HashSet<>(Arrays.stream(new Type[] {
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treeMapExtNumSupInt, tf.getSimpleType("TreeMap", extNum, superNum), tf.getSimpleType("TreeMap", extNum, integer), tf.getSimpleType("TreeMap", extNum, number),
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tf.getSimpleType("TreeMap", number, superInt), tf.getSimpleType("TreeMap", number, superNum), tf.getSimpleType("TreeMap", number, integer), tf.getSimpleType("TreeMap", number, number),
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tf.getSimpleType("TreeMap", integer, superInt), tf.getSimpleType("TreeMap", integer, superNum), tf.getSimpleType("TreeMap", integer, integer), tf.getSimpleType("TreeMap", integer, number),
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tf.getSimpleType("TreeMap", extInt, superInt), tf.getSimpleType("TreeMap", extInt, superNum), tf.getSimpleType("TreeMap", extInt, integer), tf.getSimpleType("TreeMap", extInt, number)
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}).collect(Collectors.toSet()));
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actual = fc.smaller(treeMapExtNumSupInt);
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Assert.assertEquals(expectedResult, actual);
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/*
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* Test Case 11:
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*
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* smaller(SortedMap<Number, T>) = { SortedMap<Number, T>, NavigableMap<Number, T>, TreeMap<Number, T> }
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*/
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Type sortedMapNumberT = tf.getSimpleType("SortedMap", number, t);
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Type navigableMapNumberT = tf.getSimpleType("NavigableMap", number, t);
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Type treeMapNumberT = tf.getSimpleType("TreeMap", number, t);
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expectedResult = new HashSet<>(Arrays.stream(new Type[] {
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sortedMapNumberT, navigableMapNumberT, treeMapNumberT
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}).collect(Collectors.toSet()));
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actual = fc.smaller(sortedMapNumberT);
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Assert.assertEquals(expectedResult, actual);
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/*
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* Test Case 12:
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*
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* MyMap<K, List<K>> <* HashMap<K, V>
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* MyMap<K> <* TreeMap<K, List<K>>
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*
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* smaller(HashMap<Number, List<Number>) = { HashMap<Number, List<Number>>, MyMap<Number, List<Number>> }
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* smaller(TreeMap<Number, List<Number>) = { TreeMap<Number, List<Number>>, MyMap<Number> }
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*/
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fcb = new FiniteClosureBuilder();
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Type k = tf.getPlaceholderType("K");
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Type myMap = tf.getSimpleType("MyMap", k);
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fcb.add(myMap, tf.getSimpleType("TreeMap", k, tf.getSimpleType("List", k)));
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fcb.add(integer, number);
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fc = fcb.getCollectionExample();
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Type treeMapNumberListNumber = tf.getSimpleType("TreeMap", number, tf.getSimpleType("List", number));
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expectedResult = new HashSet<>(Arrays.stream(new Type[] {
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treeMapNumberListNumber,
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tf.getSimpleType("MyMap", number)
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}).collect(Collectors.toSet()));
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actual = fc.smaller(treeMapNumberListNumber);
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Assert.assertEquals(expectedResult, actual);
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/*
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* Test Case 13:
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*
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* MyMap<K, List<K>> <* HashMap<K, V>
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* MyMap<K> <* TreeMap<K, List<K>>
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*
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* smaller(HashMap<? extends Number, List<Integer>) =
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* { HashMap<? extends Integer>, List<Integer>>,
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* HashMap<? extends Number, List<Integer>>,
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* MyMap<Integer, List<Integer>> }
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* smaller(TreeMap<? extends Number, List<Integer>) =
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* { TreeMap<? extends Integer>, List<Integer>>,
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* TreeMap<? extends Number, List<Integer>>,
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* TreeMap<Number, List<Integer>>,
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* TreeMap<Integer, List<Integer>>,
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* MyMap<Integer> }
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*/
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Type listInteger = tf.getSimpleType("List", integer);
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Type treeMapExtNumberListInteger = tf.getSimpleType("TreeMap", extNum, listInteger);
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expectedResult = new HashSet<>(Arrays.stream(new Type[] {
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treeMapExtNumberListInteger,
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tf.getSimpleType("TreeMap", extInt, listInteger),
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tf.getSimpleType("TreeMap", number, listInteger),
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tf.getSimpleType("TreeMap", integer, listInteger),
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tf.getSimpleType("MyMap", integer)
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}).collect(Collectors.toSet()));
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actual = fc.smaller(treeMapExtNumberListInteger);
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Assert.assertEquals(expectedResult, actual);
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/*
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* Test Case 14
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*
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@ -292,7 +346,7 @@ public class FiniteClosureTest {
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*/
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/*
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* Test Case 13:
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* Test Case 15:
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*
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* MyMap<K, List<K>> <* HashMap<K, V>
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// * TODO sinnvoll ausformulieren
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@ -350,4 +404,12 @@ public class FiniteClosureTest {
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// TODO
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}
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private void printDiff(Set<Type> expected, Set<Type> actual) {
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System.out.println("Diff:");
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System.out.println("In expected but not in actual:");
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Set<Type> expected1 = new HashSet<>(expected);
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expected1.removeAll(actual);
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System.out.println(expected1);
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}
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}
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