modified: ../../../main/java/de/dhbwstuttgart/typeinference/unify/TypeUnifyTask.java
Es muss noch geklaert werden, wann ein neuer Thread generiert werden darf. modified: ../../resources/bytecode/javFiles/MatrixOP.jav
This commit is contained in:
Martin Plümicke
parent
01891c9513
commit
38d4481756
@ -56,12 +56,13 @@ public class TypeUnifyTask extends RecursiveTask<Set<Set<UnifyPair>>> {
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private boolean printtag = false;
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Boolean log = true; //gibt an ob ein Log-File nach System.getProperty("user.dir")+"/test/logFiles/log" geschrieben werden soll?
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/*
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/**
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* Fuer die Threads
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*/
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private static int noOfThread = 0;
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private int thNo;
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protected boolean one = false;
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Integer MaxNoOfThreads = 4;
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public static final String rootDirectory = System.getProperty("user.dir")+"/test/logFiles/";
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FileWriter logFile;
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@ -141,7 +142,7 @@ public class TypeUnifyTask extends RecursiveTask<Set<Set<UnifyPair>>> {
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this.log = log;
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rules = new RuleSet(logFile);
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this.rekTiefeField = rekTiefe;
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noOfThread++;
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synchronized (this) { noOfThread++; }
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thNo = noOfThread;
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}
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@ -790,23 +791,34 @@ public class TypeUnifyTask extends RecursiveTask<Set<Set<UnifyPair>>> {
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Set<UnifyPair> a = null;
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while (nextSetasList.size() > 0) { //(nextSetasList.size() != 0) {
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Set<UnifyPair> a_last = a;
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List<Set<UnifyPair>> nextSetasListRest= new ArrayList<>();
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List<Set<UnifyPair>> nextSetasListRestMax = new ArrayList<>();
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List<Set<UnifyPair>> nextSetasListRestMin = new ArrayList<>();
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List<Set<UnifyPair>> nextSetasListRestOder = new ArrayList<>();
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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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nextSetasListRest = new ArrayList<>(nextSetasList);
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Iterator<Set<UnifyPair>> nextSetasListItRest = new ArrayList<Set<UnifyPair>>(nextSetasListRest).iterator();
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nextSetasListRestMax = new ArrayList<>(nextSetasList);
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Iterator<Set<UnifyPair>> nextSetasListItRest = new ArrayList<Set<UnifyPair>>(nextSetasListRestMax).iterator();
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while (nextSetasListItRest.hasNext()) {
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Set<UnifyPair> a_next = nextSetasListItRest.next();
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if (//a.equals(a_next) ||
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(oup.compare(a, a_next) == 1)) {
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nextSetasListRest.remove(a_next);
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nextSetasListRestMax.remove(a_next);
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}
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}
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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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nextSetasListRestMin = new ArrayList<>(nextSetasList);
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Iterator<Set<UnifyPair>> nextSetasListItRest = new ArrayList<Set<UnifyPair>>(nextSetasListRestMin).iterator();
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while (nextSetasListItRest.hasNext()) {
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Set<UnifyPair> a_next = nextSetasListItRest.next();
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if (//a.equals(a_next) ||
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(oup.compare(a, a_next) == -1)) {
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nextSetasListRestMin.remove(a_next);
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}
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}
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}
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else if (variance == 0 || variance == 2) {
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a = nextSetasList.remove(0);
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@ -843,7 +855,7 @@ public class TypeUnifyTask extends RecursiveTask<Set<Set<UnifyPair>>> {
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//writeLog("Vor unify2 Aufruf: " + elems.toString());
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Set<Set<UnifyPair>> res = new HashSet<>();
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Set<Set<Set<UnifyPair>>> add_res = new HashSet<>();
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if(parallel && (variance == 1)) {
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if(parallel && (variance == 1) && noOfThread <= MaxNoOfThreads) {
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/*
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elems.add(a);
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TypeUnify2Task fork = new TypeUnify2Task(elems, eq, fc, parallel, logFile, log);
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@ -864,8 +876,8 @@ public class TypeUnifyTask extends RecursiveTask<Set<Set<UnifyPair>>> {
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forks.add(forkOrig);
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forkOrig.fork();
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while (!nextSetasListRest.isEmpty()) {
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Set<UnifyPair> nSaL = nextSetasListRest.remove(0);
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while (!nextSetasListRestMax.isEmpty()) {
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Set<UnifyPair> nSaL = nextSetasListRestMax.remove(0);
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Set<UnifyPair> newEq = new HashSet<>(eq);
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Set<Set<UnifyPair>> newElems = new HashSet<>(elems);
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List<Set<Set<UnifyPair>>> newOderConstraints = new ArrayList<>(oderConstraints);
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@ -878,13 +890,70 @@ public class TypeUnifyTask extends RecursiveTask<Set<Set<UnifyPair>>> {
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res = forkOrig.join();
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for(TypeUnifyTask fork : forks) {
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Set<Set<UnifyPair>> fork_res = fork.join();
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synchronized (this) { noOfThread--; };
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add_res.add(fork_res);
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}
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}
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else {
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} else {
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if(parallel && (variance == -1) && noOfThread <= MaxNoOfThreads) {
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Set<TypeUnifyTask> forks = new HashSet<>();
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Set<UnifyPair> newEqOrig = new HashSet<>(eq);
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Set<Set<UnifyPair>> newElemsOrig = new HashSet<>(elems);
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List<Set<Set<UnifyPair>>> newOderConstraintsOrig = new ArrayList<>(oderConstraints);
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newElemsOrig.add(a);
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TypeUnify2Task forkOrig = new TypeUnify2Task(newElemsOrig, newEqOrig, newOderConstraintsOrig, fc, parallel, logFile, log, rekTiefe);
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forks.add(forkOrig);
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forkOrig.fork();
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while (!nextSetasListRestMin.isEmpty()) {
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Set<UnifyPair> nSaL = nextSetasListRestMin.remove(0);
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Set<UnifyPair> newEq = new HashSet<>(eq);
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Set<Set<UnifyPair>> newElems = new HashSet<>(elems);
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List<Set<Set<UnifyPair>>> newOderConstraints = new ArrayList<>(oderConstraints);
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newElems.add(nSaL);
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TypeUnify2Task fork = new TypeUnify2Task(newElems, newEq, newOderConstraints, fc, parallel, logFile, log, rekTiefe);
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forks.add(fork);
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fork.fork();
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}
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//res = unify2(elems, eq, fc, parallel);
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res = forkOrig.join();
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for(TypeUnifyTask fork : forks) {
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Set<Set<UnifyPair>> fork_res = fork.join();
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synchronized (this) { noOfThread--; };
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add_res.add(fork_res);
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}
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} else {
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if(parallel && (variance == 2) && noOfThread <= MaxNoOfThreads) {
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Set<TypeUnifyTask> forks = new HashSet<>();
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Set<UnifyPair> newEqOrig = new HashSet<>(eq);
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Set<Set<UnifyPair>> newElemsOrig = new HashSet<>(elems);
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List<Set<Set<UnifyPair>>> newOderConstraintsOrig = new ArrayList<>(oderConstraints);
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newElemsOrig.add(a);
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TypeUnify2Task forkOrig = new TypeUnify2Task(newElemsOrig, newEqOrig, newOderConstraintsOrig, fc, parallel, logFile, log, rekTiefe);
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forks.add(forkOrig);
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forkOrig.fork();
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while (!nextSetasListRestOder.isEmpty()) {
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Set<UnifyPair> nSaL = nextSetasListRestOder.remove(0);
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Set<UnifyPair> newEq = new HashSet<>(eq);
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Set<Set<UnifyPair>> newElems = new HashSet<>(elems);
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List<Set<Set<UnifyPair>>> newOderConstraints = new ArrayList<>(oderConstraints);
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newElems.add(nSaL);
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TypeUnify2Task fork = new TypeUnify2Task(newElems, newEq, newOderConstraints, fc, parallel, logFile, log, rekTiefe);
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forks.add(fork);
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fork.fork();
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}
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//res = unify2(elems, eq, fc, parallel);
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res = forkOrig.join();
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for(TypeUnifyTask fork : forks) {
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Set<Set<UnifyPair>> fork_res = fork.join();
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synchronized (this) { noOfThread--; };
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add_res.add(fork_res);
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}}
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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 833
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res = unify2(elems, eq, oderConstraints, fc, parallel, rekTiefe);
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}
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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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@ -1032,6 +1101,27 @@ public class TypeUnifyTask extends RecursiveTask<Set<Set<UnifyPair>>> {
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}
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}
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else { if (variance == -1) {
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if (parallel) {
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for (Set<Set<UnifyPair>> par_res : add_res) {
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if (!isUndefinedPairSetSet(par_res) && isUndefinedPairSetSet(result)) {
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//wenn korrektes Ergebnis gefunden alle Fehlerfaelle loeschen
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result = par_res;
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if (par_res.iterator().next() instanceof WildcardType) {
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System.out.println("");
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}
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}
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else {
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if ((isUndefinedPairSetSet(par_res) && isUndefinedPairSetSet(result))
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|| (!isUndefinedPairSetSet(par_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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writeLog("RESADD:" + result.toString() + " " + par_res.toString());
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result.addAll(par_res);
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}
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}
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}
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break;
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}
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System.out.println("");
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writeLog("a: " + rekTiefe + " variance: " + variance + a.toString());
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while (nextSetasListIt.hasNext()) {
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@ -1047,10 +1137,32 @@ public class TypeUnifyTask extends RecursiveTask<Set<Set<UnifyPair>>> {
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}
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}
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}
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else if (variance == 0) {
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else { if (variance == 0) {
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writeLog("a: " + rekTiefe + " variance: " + variance + a.toString());
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break;
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}
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break; }
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else { if (variance == 2) {
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if (parallel) {
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for (Set<Set<UnifyPair>> par_res : add_res) {
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if (!isUndefinedPairSetSet(par_res) && isUndefinedPairSetSet(result)) {
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//wenn korrektes Ergebnis gefunden alle Fehlerfaelle loeschen
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result = par_res;
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if (par_res.iterator().next() instanceof WildcardType) {
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System.out.println("");
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}
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}
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else {
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if ((isUndefinedPairSetSet(par_res) && isUndefinedPairSetSet(result))
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|| (!isUndefinedPairSetSet(par_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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writeLog("RESADD:" + result.toString() + " " + par_res.toString());
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result.addAll(par_res);
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}
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}
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}
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break;
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}
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}}}
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writeLog("a: " + rekTiefe + " variance: " + variance + a.toString());
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}
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}
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@ -1944,6 +2056,8 @@ public class TypeUnifyTask extends RecursiveTask<Set<Set<UnifyPair>>> {
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if (log) {
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try {
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logFile.write("Thread no.:" + thNo + "\n");
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logFile.write("noOfThread:" + noOfThread + "\n");
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logFile.write("parallel:" + parallel + "\n");
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logFile.write(str+"\n\n");
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logFile.flush();
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@ -1,6 +1,6 @@
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import java.util.Vector;
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import java.lang.Integer;
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//import java.lang.Byte;
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import java.lang.Byte;
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import java.lang.Boolean;
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public class MatrixOP extends Vector<Vector<Integer>> {
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