forked from JavaTX/JavaCompilerCore
modified: ../../../../main/java/de/dhbwstuttgart/typeinference/unify/TypeUnify2Task.java
modified: ../../../../main/java/de/dhbwstuttgart/typeinference/unify/TypeUnifyTask.java modified: ../../../../main/java/de/dhbwstuttgart/typeinference/unify/model/OrderingUnifyPair.java modified: ../../../../main/java/de/dhbwstuttgart/typeinference/unify/model/UnifyPair.java Noch einige Fehler
This commit is contained in:
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728b729f08
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2bd6147517
@ -33,7 +33,7 @@ public class TypeUnify2Task extends TypeUnifyTask {
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System.out.println("two");
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}
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one = true;
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Set<Set<UnifyPair>> res = unify2(setToFlatten, eq, oderConstraintsField, fc, parallel, rekTiefeField);
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Set<Set<UnifyPair>> res = unify2(setToFlatten, eq, oderConstraintsField, fc, parallel, rekTiefeField, true);
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/*if (isUndefinedPairSetSet(res)) {
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return new HashSet<>(); }
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else
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@ -217,7 +217,7 @@ public class TypeUnifyTask extends RecursiveTask<Set<Set<UnifyPair>>> {
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ArrayList<Set<Set<UnifyPair>>> remainingOderconstraints = oderConstraintsField.stream()
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.filter(x -> x.size()>1)
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.collect(Collectors.toCollection(ArrayList::new));
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Set<Set<UnifyPair>> res = unify(neweq, remainingOderconstraints, fc, parallel, rekTiefeField);
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Set<Set<UnifyPair>> res = unify(neweq, remainingOderconstraints, fc, parallel, rekTiefeField, true);
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noOfThread--;
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try {
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logFile.close();
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@ -240,253 +240,7 @@ public class TypeUnifyTask extends RecursiveTask<Set<Set<UnifyPair>>> {
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*/
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public Set<Set<UnifyPair>> computeCartesianRecursiveOderConstraints(Set<Set<UnifyPair>> fstElems, List<Set<Set<UnifyPair>>> topLevelSets, IFiniteClosure fc, boolean parallel, int rekTiefe) {
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//ArrayList<Set<Set<UnifyPair>>> remainingSets = new ArrayList<>(topLevelSets);
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fstElems.addAll(topLevelSets.stream()
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.filter(x -> x.size()==1)
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.map(y -> y.stream().findFirst().get())
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.collect(Collectors.toCollection(HashSet::new)));
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ArrayList<Set<Set<UnifyPair>>> remainingSets = topLevelSets.stream()
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.filter(x -> x.size()>1)
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.collect(Collectors.toCollection(ArrayList::new));
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if (remainingSets.isEmpty()) {//Alle Elemente sind 1-elementig
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Set<UnifyPair> eq = new HashSet<>();
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fstElems.stream().forEach(x -> eq.addAll(x));
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Set<Set<UnifyPair>> result = unify(eq, new ArrayList<>(), fc, parallel, rekTiefe);
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return result;
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}
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Set<Set<UnifyPair>> nextSet = remainingSets.remove(0);
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writeLog("nextSet: " + nextSet.toString());
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List<Set<UnifyPair>> nextSetasList =new ArrayList<>(nextSet);
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try {
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//List<Set<UnifyPair>>
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//nextSetasList = oup.sortedCopy(nextSet);//new ArrayList<>(nextSet);
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}
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catch (java.lang.IllegalArgumentException e) {
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System.out.print("");
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}
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Set<Set<UnifyPair>> result = new HashSet<>();
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int variance = 0;
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Optional<Integer> xi = nextSetasList.stream().map(x -> x.stream().filter(y -> y.getLhsType() instanceof PlaceholderType)
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.filter(z -> ((PlaceholderType)z.getLhsType()).getVariance() != 0)
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.map(c -> ((PlaceholderType)c.getLhsType()).getVariance())
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.reduce((a,b)-> {if (a==b) return a; else return 0; }))
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.filter(d -> d.isPresent())
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.map(e -> e.get())
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.findAny();
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if (xi.isPresent()) {
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variance = xi.get();
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}
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//if (variance == 1 && nextSetasList.size() > 1) {
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// List<Set<UnifyPair>> al = new ArrayList<>(nextSetasList.size());
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// for (int ii = 0; ii < nextSetasList.size();ii++) {
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// al.add(0,nextSetasList.get(ii));
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// }
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// nextSetasList = al;
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//}
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//Set<UnifyPair> a = nextSetasListIt.next();
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/*if (nextSetasList.size()>1) {zu loeschen
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if (nextSetasList.iterator().next().iterator().next().getLhsType().getName().equals("D"))
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System.out.print("");
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if (variance == 1) {
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a_next = oup.max(nextSetasList.iterator());
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}
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else if (variance == -1) {
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a_next = oup.min(nextSetasList.iterator());
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}
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else if (variance == 0) {
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a_next = nextSetasList.iterator().next();
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}
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}
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else {
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a_next = nextSetasList.iterator().next();
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}
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*/
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if (!nextSetasList.iterator().hasNext())
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System.out.print("");
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if (nextSetasList.iterator().next().stream().filter(x -> x.getLhsType().getName().equals("D")).findFirst().isPresent() && nextSetasList.size()>1)
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System.out.print("");
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writeLog("nextSetasList: " + nextSetasList.toString());
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while (nextSetasList.size() > 0) { //(nextSetasList.size() != 0) {
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Set<UnifyPair> a = null;
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if (variance == 1) {
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a = oup.max(nextSetasList.iterator());
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nextSetasList.remove(a);
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}
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else if (variance == -1) {
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a = oup.min(nextSetasList.iterator());
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nextSetasList.remove(a);
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}
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else if (variance == 0) {
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a = nextSetasList.remove(0);
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}
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//writeLog("nextSet: " + nextSetasList.toString()+ "\n");
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//nextSetasList.remove(a);
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/* zu loeschen
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if (nextSetasList.size() > 0) {
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if (nextSetasList.size()>1) {
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if (variance == 1) {
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a_next = oup.max(nextSetasList.iterator());
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}
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else if (variance == -1) {
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a_next = oup.min(nextSetasList.iterator());
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}
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else {
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a_next = nextSetasList.iterator().next();
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}
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}
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else {
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a_next = nextSetasList.iterator().next();
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}
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}
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*/
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//PL 2018-03-01
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//TODO: 1. Maximum und Minimum unterscheiden
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//TODO: 2. compare noch für alle Elmemente die nicht X =. ty sind erweitern
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//for(Set<UnifyPair> a : newSet) {
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i++;
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Set<Set<UnifyPair>> elems = new HashSet<Set<UnifyPair>>(fstElems);
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elems.add(a);
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Set<Set<UnifyPair>> res = new HashSet<>();
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if (remainingSets.isEmpty()) {
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noou++;
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writeLog("Vor unify Aufruf: " + eq.toString());
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writeLog("No of Unify " + noou);
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System.out.println(noou);
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Set<UnifyPair> eq = new HashSet<>();
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elems.stream().forEach(x -> eq.addAll(x));
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res = unify(eq, new ArrayList<>(), fc, parallel, rekTiefe);
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}
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else {//duerfte gar nicht mehr vorkommen PL 2018-04-03
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res = computeCartesianRecursiveOderConstraints(elems, remainingSets, fc, parallel, rekTiefe);
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}
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if (!isUndefinedPairSetSet(res) && isUndefinedPairSetSet(result)) {
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//wenn korrektes Ergebnis gefunden alle Fehlerfaelle loeschen
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result = res;
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}
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else {
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if ((isUndefinedPairSetSet(res) && isUndefinedPairSetSet(result))
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|| (!isUndefinedPairSetSet(res) && !isUndefinedPairSetSet(result))
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|| result.isEmpty()) {
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//alle Fehlerfaelle und alle korrekten Ergebnis jeweils adden
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result.addAll(res);
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}
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//else {
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//wenn Korrekte Ergebnisse da und Feherfälle dazukommen Fehlerfälle ignorieren
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// if (isUndefinedPairSetSet(res) && !isUndefinedPairSetSet(result)) {
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// result = result;
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// }
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//}
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}
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/* auskommentiert um alle Max und min Betrachtung auszuschalten ANFANG */
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if (!result.isEmpty() && !isUndefinedPairSetSet(res)) {
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if (nextSetasList.iterator().hasNext() && nextSetasList.iterator().next().stream().filter(x -> x.getLhsType().getName().equals("B")).findFirst().isPresent() && nextSetasList.size()>1)
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System.out.print("");
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Iterator<Set<UnifyPair>> nextSetasListIt = new ArrayList<Set<UnifyPair>>(nextSetasList).iterator();
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if (variance == 1) {
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System.out.println("");
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while (nextSetasListIt.hasNext()) {
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Set<UnifyPair> a_next = nextSetasListIt.next();
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if (a.equals(a_next) ||
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(oup.compare(a, a_next) == 1)) {
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nextSetasList.remove(a_next);
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}
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else {
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System.out.println("");
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}
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}
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}
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else { if (variance == -1) {
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System.out.println("");
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while (nextSetasListIt.hasNext()) {
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Set<UnifyPair> a_next = nextSetasListIt.next();
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if (a.equals(a_next) ||
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(oup.compare(a, a_next) == -1)) {
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nextSetasList.remove(0);
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}
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else {
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System.out.println("");
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}
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}
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}
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else if (variance == 0) {
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//break;
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}}
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}
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/* auskommentiert um alle Max und min Betrachtung auszuschalten ENDE */
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/* PL 2018-11-05 wird falsch weil es auf der obersten Ebene ist.
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if (isUndefinedPairSetSet(res)) {
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int nofstred= 0;
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Set<UnifyPair> abhSubst = res.stream()
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.map(b ->
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b.stream()
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.map(x -> x.getAllSubstitutions())
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.reduce((y,z) -> { y.addAll(z); return y;}).get())
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.reduce((y,z) -> { y.addAll(z); return y;}).get();
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Set<UnifyPair> b = a;//effective final a
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Set<UnifyPair> durchschnitt = abhSubst.stream()
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.filter(x -> b.contains(x))
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//.filter(y -> abhSubst.contains(y))
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.collect(Collectors.toCollection(HashSet::new));
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//Set<PlaceholderType> vars = durchschnitt.stream().map(x -> (PlaceholderType)x.getLhsType()).collect(Collectors.toCollection(HashSet::new));
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int len = nextSetasList.size();
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Set<UnifyPair> undefRes = res.stream().reduce((y,z) -> { y.addAll(z); return y;}).get(); //flatten aller undef results
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Set<Pair<Set<UnifyPair>, UnifyPair>> reducedUndefResSubstGroundedBasePair = undefRes.stream()
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.map(x -> { Set<UnifyPair> su = x.getAllSubstitutions(); //alle benutzten Substitutionen
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su.add(x.getGroundBasePair()); // urspruengliches Paar
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su.removeAll(durchschnitt); //alle aktuell genänderten Paare entfernen
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return new Pair<>(su, x.getGroundBasePair());})
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.collect(Collectors.toCollection(HashSet::new));
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if (res.size() > 1) {
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System.out.println();
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}
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nextSetasList = nextSetasList.stream().filter(x -> {
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//Boolean ret = false;
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//for (PlaceholderType var : vars) {
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// ret = ret || x.stream().map(b -> b.getLhsType().equals(var)).reduce((c,d) -> c || d).get();
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//}
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return (!x.containsAll(durchschnitt));//Was passiert wenn durchschnitt leer ist??
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})//.filter(y -> couldBecorrect(reducedUndefResSubstGroundedBasePair, y)) //fuer testzwecke auskommentiert um nofstred zu bestimmen PL 2018-10-10
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.collect(Collectors.toCollection(ArrayList::new));
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nofstred = nextSetasList.size();
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//NOCH NICHT korrekt PL 2018-10-12
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//nextSetasList = nextSetasList.stream().filter(y -> couldBecorrect(reducedUndefResSubstGroundedBasePair, y))
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// .collect(Collectors.toCollection(ArrayList::new));
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writeLog("res (undef): " + res.toString());
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writeLog("abhSubst: " + abhSubst.toString());
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writeLog("a: " + a.toString());
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writeLog("Durchschnitt: " + durchschnitt.toString());
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writeLog("nextSet: " + nextSet.toString());
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writeLog("nextSetasList: " + nextSetasList.toString());
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writeLog("Number first erased Elements (undef): " + (len - nofstred));
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writeLog("Number second erased Elements (undef): " + (nofstred- nextSetasList.size()));
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writeLog("Number erased Elements (undef): " + (len - nextSetasList.size()));
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noAllErasedElements = noAllErasedElements + (len - nextSetasList.size());
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writeLog("Number of all erased Elements (undef): " + noAllErasedElements.toString());
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noBacktracking++;
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writeLog("Number of Backtracking: " + noBacktracking);
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System.out.println("");
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}
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*/
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//if (nextSetasList.size() == 0 && isUndefinedPairSetSet(result) && nextSet.size() > 1) {
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// return result;
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//}
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//else {
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// result.removeIf(y -> isUndefinedPairSet(y));
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//}
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//else result.stream().filter(y -> !isUndefinedPairSet(y));
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} // End of while (nextSetasList.size() > 0)
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return result;
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}
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/**
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* Computes all principal type unifiers for a set of constraints.
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@ -494,7 +248,7 @@ public class TypeUnifyTask extends RecursiveTask<Set<Set<UnifyPair>>> {
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* @param fc The finite closure
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* @return The set of all principal type unifiers
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*/
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protected Set<Set<UnifyPair>> unify(final Set<UnifyPair> eq, List<Set<Set<UnifyPair>>> oderConstraints, IFiniteClosure fc, boolean parallel, int rekTiefe) {
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protected Set<Set<UnifyPair>> unify(final Set<UnifyPair> eq, List<Set<Set<UnifyPair>>> oderConstraints, IFiniteClosure fc, boolean parallel, int rekTiefe, Boolean finalresult) {
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//Set<UnifyPair> aas = eq.stream().filter(x -> x.getLhsType().getName().equals("AA") //&& x.getPairOp().equals(PairOperator.SMALLERDOT)
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// ).collect(Collectors.toCollection(HashSet::new));
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//writeLog(nOfUnify.toString() + " AA: " + aas.toString());
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@ -647,12 +401,12 @@ public class TypeUnifyTask extends RecursiveTask<Set<Set<UnifyPair>>> {
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//Aufruf von computeCartesianRecursive ANFANG
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//writeLog("topLevelSets: " + topLevelSets.toString());
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return computeCartesianRecursive(new HashSet<>(), new ArrayList<>(topLevelSets), eq, oderConstraintsOutput, fc, parallel, rekTiefe, collectErr);
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return computeCartesianRecursive(new HashSet<>(), new ArrayList<>(topLevelSets), eq, oderConstraintsOutput, fc, parallel, rekTiefe, collectErr, finalresult);
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}
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Set<Set<UnifyPair>> unify2(Set<Set<UnifyPair>> setToFlatten, Set<UnifyPair> eq, List<Set<Set<UnifyPair>>> oderConstraints, IFiniteClosure fc, boolean parallel, int rekTiefe) {
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Set<Set<UnifyPair>> unify2(Set<Set<UnifyPair>> setToFlatten, Set<UnifyPair> eq, List<Set<Set<UnifyPair>>> oderConstraints, IFiniteClosure fc, boolean parallel, int rekTiefe, Boolean finalresult) {
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//Aufruf von computeCartesianRecursive ENDE
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//keine Ahnung woher das kommt
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@ -729,15 +483,17 @@ public class TypeUnifyTask extends RecursiveTask<Set<Set<UnifyPair>>> {
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// System.err.println("log-File nicht vorhanden");
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//}
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eqPrimePrimeSet.add(eqPrime);
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urm.notify(eqPrimePrimeSet);
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if (finalresult) {
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urm.notify(eqPrimePrimeSet);
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}
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}
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else if(eqPrimePrime.isPresent()) {
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Set<Set<UnifyPair>> unifyres = unifyres1 = unify(eqPrimePrime.get(), newOderConstraints, fc, parallel, rekTiefe);
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Set<Set<UnifyPair>> unifyres = unifyres1 = unify(eqPrimePrime.get(), newOderConstraints, fc, parallel, rekTiefe, finalresult);
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eqPrimePrimeSet.addAll(unifyres);
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}
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else {
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Set<Set<UnifyPair>> unifyres = unifyres2 = unify(eqPrime, newOderConstraints, fc, parallel, rekTiefe);
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Set<Set<UnifyPair>> unifyres = unifyres2 = unify(eqPrime, newOderConstraints, fc, parallel, rekTiefe, finalresult);
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eqPrimePrimeSet.addAll(unifyres);
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@ -769,7 +525,7 @@ public class TypeUnifyTask extends RecursiveTask<Set<Set<UnifyPair>>> {
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Set<Set<UnifyPair>> computeCartesianRecursive(Set<Set<UnifyPair>> fstElems, ArrayList<Set<Set<UnifyPair>>> topLevelSets, Set<UnifyPair> eq, List<Set<Set<UnifyPair>>> oderConstraints, IFiniteClosure fc, boolean parallel, int rekTiefe, Set<Set<UnifyPair>> collectErr) {
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Set<Set<UnifyPair>> computeCartesianRecursive(Set<Set<UnifyPair>> fstElems, ArrayList<Set<Set<UnifyPair>>> topLevelSets, Set<UnifyPair> eq, List<Set<Set<UnifyPair>>> oderConstraints, IFiniteClosure fc, boolean parallel, int rekTiefe, Set<Set<UnifyPair>> collectErr, Boolean finalresult) {
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//ArrayList<Set<Set<UnifyPair>>> remainingSets = new ArrayList<>(topLevelSets);
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fstElems.addAll(topLevelSets.stream()
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.filter(x -> x.size()==1)
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@ -779,7 +535,7 @@ public class TypeUnifyTask extends RecursiveTask<Set<Set<UnifyPair>>> {
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.filter(x -> x.size()>1)
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.collect(Collectors.toCollection(ArrayList::new));
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if (remainingSets.isEmpty()) {//Alle Elemente sind 1-elementig
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Set<Set<UnifyPair>> result = unify2(fstElems, eq, oderConstraints, fc, parallel, rekTiefe);
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Set<Set<UnifyPair>> result = unify2(fstElems, eq, oderConstraints, fc, parallel, rekTiefe, finalresult);
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return result;
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}
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Set<Set<UnifyPair>> nextSet = remainingSets.remove(0);
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@ -1128,7 +884,7 @@ public class TypeUnifyTask extends RecursiveTask<Set<Set<UnifyPair>>> {
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} else {
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//parallel = false; //Wenn MaxNoOfThreads erreicht ist, sequentiell weiterarbeiten
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elems.add(a); //PL 2019-01-16 muss das wirklich hin steht schon in Zeile 859 ja braucht man siehe Zeile 859
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res = unify2(elems, eq, oderConstraints, fc, parallel, rekTiefe);
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res = unify2(elems, eq, oderConstraints, fc, parallel, rekTiefe, finalresult);
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}}}
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if (!isUndefinedPairSetSet(res) && isUndefinedPairSetSet(result)) {
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//wenn korrektes Ergebnis gefunden alle Fehlerfaelle loeschen
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@ -1164,6 +920,7 @@ public class TypeUnifyTask extends RecursiveTask<Set<Set<UnifyPair>>> {
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//Alle Variablen bestimmen die nicht hinzugefügt wurden in a_last
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//System.out.println(a_last);
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a_last.forEach(x -> {writeLog("a_last_elem:" + x + " basepair: " + x.getBasePair());});
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try {//PL eingefuegt 2019-03-06 da bei map mmer wieder Nullpointer kamen
|
||||
List<PlaceholderType> varsLast_a =
|
||||
a_last.stream().filter(x -> ((x.getLhsType().getName().equals(x.getBasePair().getLhsType().getName())
|
||||
&& (x.getLhsType() instanceof PlaceholderType) && (x.getBasePair().getLhsType() instanceof PlaceholderType))
|
||||
@ -1210,6 +967,10 @@ public class TypeUnifyTask extends RecursiveTask<Set<Set<UnifyPair>>> {
|
||||
writeLog("RES var=1 ADD:" + result.toString() + " " + res.toString());
|
||||
result.addAll(res);
|
||||
}}}
|
||||
}
|
||||
catch (NullPointerException e) {
|
||||
writeLog("NullPointerException: " + a_last.toString());
|
||||
}
|
||||
}
|
||||
else {
|
||||
//alle Fehlerfaelle und alle korrekten Ergebnis jeweils adden
|
||||
@ -1845,7 +1606,7 @@ public class TypeUnifyTask extends RecursiveTask<Set<Set<UnifyPair>>> {
|
||||
Set<UnifyPair> unitedSubst = new HashSet<>(type.getSubstitution());
|
||||
unitedSubst.addAll(sameEq.getSubstitution());
|
||||
localEq.add(new UnifyPair(type.getRhsType(), sameEq.getRhsType(), sameEq.getPairOp(), unitedSubst, null));
|
||||
Set<Set<UnifyPair>> localRes = unify(localEq, new ArrayList<>(), fc, parallel, 0);
|
||||
Set<Set<UnifyPair>> localRes = unify(localEq, new ArrayList<>(), fc, false, 0, false);
|
||||
Boolean localCorr = !isUndefinedPairSetSet(localRes);
|
||||
if (!localCorr) {
|
||||
collectErr.addAll(localRes);
|
||||
@ -1865,7 +1626,7 @@ public class TypeUnifyTask extends RecursiveTask<Set<Set<UnifyPair>>> {
|
||||
Set<UnifyPair> unitedSubst = new HashSet<>(type.getSubstitution());
|
||||
unitedSubst.addAll(sameEq.getSubstitution());
|
||||
localEq.add(new UnifyPair(sameEq.getLhsType(), type.getRhsType(), sameEq.getPairOp(), unitedSubst, null));
|
||||
Set<Set<UnifyPair>> localRes = unify(localEq, new ArrayList<>(), fc, parallel, 0);
|
||||
Set<Set<UnifyPair>> localRes = unify(localEq, new ArrayList<>(), fc, false, 0, false);
|
||||
Boolean localCorr = !isUndefinedPairSetSet(localRes);
|
||||
if (!localCorr) {
|
||||
collectErr.addAll(localRes);
|
||||
|
@ -1,5 +1,6 @@
|
||||
package de.dhbwstuttgart.typeinference.unify.model;
|
||||
|
||||
import java.io.IOException;
|
||||
import java.util.ArrayList;
|
||||
import java.util.HashMap;
|
||||
import java.util.HashSet;
|
||||
@ -31,14 +32,25 @@ public class OrderingUnifyPair extends Ordering<Set<UnifyPair>> {
|
||||
* in dem compare(Theta, Theta') aufgerufen wird.
|
||||
*/
|
||||
public int compareEq (UnifyPair left, UnifyPair right) {
|
||||
try {
|
||||
//if (left.getRhsType() instanceof WildcardType || right.getRhsType() instanceof WildcardType) {//PL 2019-01-12 ausgetauscht
|
||||
if (((PlaceholderType)left.getLhsType()).isInnerType() && ((PlaceholderType)right.getLhsType()).isInnerType()) {
|
||||
return fc.compare(left.getRhsType(), right.getRhsType(), PairOperator.SMALLERDOTWC);
|
||||
}
|
||||
else {
|
||||
return fc.compare(left.getRhsType(), right.getRhsType(), PairOperator.SMALLERDOT);
|
||||
}}
|
||||
catch (ClassCastException e) {
|
||||
try {
|
||||
((FiniteClosure)fc).logFile.write("ClassCastException: " + left.toString() +"\n\n");
|
||||
((FiniteClosure)fc).logFile.flush();
|
||||
}
|
||||
catch (IOException ie) {
|
||||
}
|
||||
return -99;
|
||||
}
|
||||
}
|
||||
|
||||
/*
|
||||
public int compareEq (UnifyPair left, UnifyPair right) {
|
||||
if (left == null || right == null)
|
||||
|
@ -177,6 +177,16 @@ public class UnifyPair {
|
||||
}
|
||||
}
|
||||
|
||||
public void disableCondWildcards() {
|
||||
if (lhs instanceof PlaceholderType && rhs instanceof PlaceholderType
|
||||
&& (!((PlaceholderType)lhs).isWildcardable() || !((PlaceholderType)rhs).isWildcardable()))
|
||||
{
|
||||
((PlaceholderType)lhs).disableWildcardtable();
|
||||
((PlaceholderType)rhs).disableWildcardtable();
|
||||
}
|
||||
|
||||
}
|
||||
|
||||
public Boolean wrongWildcard() {
|
||||
return lhs.wrongWildcard() || rhs.wrongWildcard();
|
||||
}
|
||||
@ -219,10 +229,12 @@ public class UnifyPair {
|
||||
public String toString() {
|
||||
String ret = "";
|
||||
if (lhs instanceof PlaceholderType) {
|
||||
ret = new Integer(((PlaceholderType)lhs).getVariance()).toString() + " " + ((PlaceholderType)lhs).isInnerType();
|
||||
ret = new Integer(((PlaceholderType)lhs).getVariance()).toString() + " " + ((PlaceholderType)lhs).isInnerType()
|
||||
+ " " + ((PlaceholderType)lhs).isWildcardable();
|
||||
}
|
||||
if (rhs instanceof PlaceholderType) {
|
||||
ret = ret + ", " + new Integer(((PlaceholderType)rhs).getVariance()).toString() + " " + ((PlaceholderType)rhs).isInnerType();
|
||||
ret = ret + ", " + new Integer(((PlaceholderType)rhs).getVariance()).toString() + " " + ((PlaceholderType)rhs).isInnerType()
|
||||
+ " " + ((PlaceholderType)rhs).isWildcardable();
|
||||
}
|
||||
return "(" + lhs + " " + pairOp + " " + rhs + ", " + ret + ")"; //+ ", [" + getfBounded().toString()+ "])";
|
||||
}
|
||||
|
Loading…
Reference in New Issue
Block a user