Beispiel #1
0
  @Test(groups = "1s")
  public void testSimpleAuto() {
    Solver solver = new Solver();

    int n = 10;
    IntVar[] vars = new IntVar[n];
    for (int i = 0; i < n; i++) {
      vars[i] = VariableFactory.enumerated("x_" + i, 0, 2, solver);
    }

    FiniteAutomaton auto = new FiniteAutomaton();
    int start = auto.addState();
    int end = auto.addState();
    auto.setInitialState(start);
    auto.setFinal(start);
    auto.setFinal(end);

    auto.addTransition(start, start, 0, 1);
    auto.addTransition(start, end, 2);

    auto.addTransition(end, start, 2);
    auto.addTransition(end, start, 0, 1);

    solver.post(IntConstraintFactory.regular(vars, auto));
    solver.set(IntStrategyFactory.lexico_LB(vars));

    solver.findAllSolutions();
    Assert.assertEquals(solver.getMeasures().getSolutionCount(), 59049);
  }
Beispiel #2
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  @Test(groups = "1m")
  public void testSumvsIntLinCombTest() {
    Random rand = new Random();
    for (int seed = 0; seed < 400; seed++) {
      rand.setSeed(seed);
      int n = 1 + rand.nextInt(6);
      int min = -10 + rand.nextInt(20);
      int max = min + rand.nextInt(20);
      int[][] domains = DomainBuilder.buildFullDomains(n, min, max, rand, 1.0, false);
      int[] coeffs = new int[n];
      for (int i = 0; i < n; i++) {
        coeffs[i] = -25 + rand.nextInt(50);
      }
      int lb = -50 + rand.nextInt(100);
      int op = -1 + rand.nextInt(3);

      Solver sum = sum(domains, coeffs, lb, op);
      Solver intlincomb = intlincomb(domains, coeffs, lb, op);

      sum.findAllSolutions();
      intlincomb.findAllSolutions();
      Assert.assertEquals(
          sum.getMeasures().getSolutionCount(), intlincomb.getMeasures().getSolutionCount());
      Assert.assertEquals(
          sum.getMeasures().getNodeCount(), intlincomb.getMeasures().getNodeCount());
      LoggerFactory.getLogger("test")
          .info(
              "({}) {}ms vs {}ms",
              op,
              sum.getMeasures().getTimeCount(),
              intlincomb.getMeasures().getTimeCount());
    }
  }
Beispiel #3
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 protected Solver intlincomb(int[][] domains, int[] coeffs, int b, int op) {
   Solver solver = new Solver();
   IntVar[] bins = new IntVar[domains.length];
   for (int i = 0; i < domains.length; i++) {
     bins[i] =
         VariableFactory.bounded(
             "v_" + i, domains[i][0], domains[i][domains[i].length - 1], solver);
   }
   String opname = "=";
   if (op != 0) {
     if (op > 0) {
       opname = ">=";
     } else {
       opname = "<=";
     }
   }
   IntVar sum = VariableFactory.bounded("scal", -99999999, 99999999, solver);
   Constraint[] cstrs =
       new Constraint[] {
         IntConstraintFactory.scalar(bins, coeffs, sum),
         IntConstraintFactory.arithm(sum, opname, b)
       };
   solver.post(cstrs);
   solver.set(IntStrategyFactory.lexico_LB(bins));
   return solver;
 }
Beispiel #4
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  @Override
  public boolean inject(ReconfigurationProblem rp) {

    Solver solver = rp.getSolver();
    Collection<Node> nodes = constraint.getInvolvedNodes();

    BoolVar[] spareNode = new BoolVar[nodes.size()];
    int i = 0;
    for (Node node : constraint.getInvolvedNodes()) {
      BoolVar state = rp.getNodeAction(node).getState();
      IntVar NbVms = rp.getNbRunningVMs()[rp.getNode(node)];

      spareNode[i] = VF.bool(StringUtils.randomName(), solver);

      // if the server is off (state = false), then it is not free
      solver.post(new FastImpliesEq(VF.not(state), spareNode[i], 0));
      // if the server hosts VMs, then it is not free
      solver.post(new FastImpliesEq(ICF.arithm(NbVms, "!=", 0).reif(), spareNode[i], 0));
      i++;
    }

    IntVar spareNodes = VF.bounded("freeNumber", 0, nodes.size(), solver);
    solver.post(ICF.sum(spareNode, spareNodes));
    solver.post(ICF.arithm(spareNodes, ">=", constraint.getMinSpareNodes()));

    return true;
  }
Beispiel #5
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 @Test(groups = "1s")
 public void testregExp4() {
   Solver solver = new Solver();
   IntVar[] CS = VF.enumeratedArray("CS", 2, 0, 3, solver);
   solver.post(ICF.regular(CS, new FiniteAutomaton(".*", 0, 3)));
   solver.findAllSolutions();
   Assert.assertEquals(solver.getMeasures().getSolutionCount(), 16);
 }
Beispiel #6
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 @Test(groups = "1s")
 public void testIss237_1() {
   Solver solver = new Solver();
   BoolVar[] bs = VF.boolArray("b", 3, solver);
   solver.post(ICF.scalar(bs, new int[] {1, 2, 3}, "=", VF.fixed(2, solver)));
   Chatterbox.showSolutions(solver);
   solver.findAllSolutions();
 }
Beispiel #7
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 @Test(groups = "1s")
 public void testregExp8() {
   Solver solver = new Solver();
   IntVar[] CS = VF.enumeratedArray("CS", 3, new int[] {43, 59, 117}, solver);
   solver.post(ICF.regular(CS, new FiniteAutomaton("<43><59><117>")));
   solver.set(ISF.lexico_LB(CS));
   solver.findAllSolutions();
   Assert.assertEquals(solver.getMeasures().getSolutionCount(), 1);
 }
Beispiel #8
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 @Test(groups = "1s")
 public void test3() {
   Solver s = new Solver();
   IntVar three = VF.fixed(3, s);
   IntVar two = VF.fixed(2, s);
   s.post(ICF.arithm(three, "=", two, "+", 1));
   Assert.assertTrue(s.findSolution());
   Assert.assertEquals(ESat.TRUE, s.isSatisfied());
 }
Beispiel #9
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 @Test(groups = "1s")
 public void test1() {
   Solver s = new Solver();
   IntVar two1 = VF.fixed(2, s);
   IntVar two2 = VF.fixed(2, s);
   s.post(ICF.arithm(two1, "=", two2));
   Assert.assertTrue(s.findSolution());
   Assert.assertEquals(ESat.TRUE, s.isSatisfied());
 }
Beispiel #10
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 @Test(groups = "1s")
 public void testAdd() {
   Solver sol = new Solver();
   EnumDelta d = new EnumDelta(sol.getEnvironment());
   for (int i = 1; i < 40; i++) {
     d.add(i, Cause.Null);
     Assert.assertEquals(d.size(), i);
   }
 }
Beispiel #11
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 @Test(groups = "1s")
 public void testregExp6() {
   Solver solver = new Solver();
   IntVar[] CS = VF.enumeratedArray("CS", 4, 0, 3, solver);
   solver.post(ICF.regular(CS, new FiniteAutomaton("0{2,3}1*")));
   Chatterbox.showSolutions(solver);
   Chatterbox.showDecisions(solver);
   solver.findAllSolutions();
   Assert.assertEquals(solver.getMeasures().getSolutionCount(), 2);
 }
Beispiel #12
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  @Test(groups = "1s")
  public void test1() {
    Solver solver = new Solver("t1");
    IntVar x = VariableFactory.bounded("X", 1, 3, solver);
    IntVar y = VariableFactory.bounded("Y", 1, 3, solver);
    solver.post(IntConstraintFactory.arithm(x, ">=", y));
    solver.post(IntConstraintFactory.arithm(x, "<=", 2));

    solver.findSolution();
  }
  public void solveProblem() {
    Solver solver = new Solver();

    // Decision selection
    BoolVar Root = (BoolVar) VariableFactory.fixed(1, solver);
    BoolVar A = (BoolVar) VariableFactory.fixed(1, solver);
    BoolVar B = (BoolVar) VariableFactory.fixed(1, solver);
    BoolVar C = (BoolVar) VariableFactory.fixed(1, solver);
    BoolVar D = VariableFactory.bool("D", solver);
    BoolVar E = VariableFactory.bool("E", solver);
    BoolVar A1 = VariableFactory.bool("A1", solver);
    BoolVar A2 = VariableFactory.bool("A2", solver);
    BoolVar C1 = VariableFactory.bool("C1", solver);
    BoolVar C2 = VariableFactory.bool("C2", solver);
    BoolVar C3 = VariableFactory.bool("C3", solver);
    BoolVar E1 = VariableFactory.bool("E1", solver);
    BoolVar E2 = VariableFactory.bool("E2", solver);
    BoolVar e1 = VariableFactory.bool("e1", solver);
    BoolVar e2 = VariableFactory.bool("e2", solver);
    BoolVar e3 = VariableFactory.bool("e3", solver);

    // Decision cost
    IntVar A1Cost = VariableFactory.bounded("A1Cost", 0, 500, solver);
    IntVar A2Cost = VariableFactory.bounded("A2Cost", 0, 200, solver);
    IntVar C1Cost = VariableFactory.bounded("C1Cost", 0, 600, solver);
    IntVar C2Cost = VariableFactory.bounded("C2Cost", 0, 400, solver);
    IntVar C3Cost = VariableFactory.bounded("C3Cost", 0, 300, solver);
    IntVar E1Cost = VariableFactory.bounded("E1Cost", 0, 450, solver);
    IntVar e1Cost = VariableFactory.bounded("e1Cost", 0, 350, solver);
    IntVar e2Cost = VariableFactory.bounded("e2Cost", 0, 350, solver);
    IntVar e3Cost = VariableFactory.bounded("e3Cost", 0, 500, solver);

    IntVar[] Vars = new IntVar[9];
    Vars[0] = A1Cost;
    Vars[1] = A2Cost;
    Vars[2] = C1Cost;
    Vars[3] = C2Cost;
    Vars[4] = C3Cost;
    Vars[5] = E1Cost;
    Vars[6] = e1Cost;
    Vars[7] = e2Cost;
    Vars[8] = e3Cost;

    int maxValue = 3650;
    IntVar TotalCost = VariableFactory.bounded("TotalCost", 0, maxValue, solver);

    solver.post(IntConstraintFactory.sum(Vars, TotalCost));

    Chatterbox.showSolutions(solver);
    solver.findOptimalSolution(ResolutionPolicy.MAXIMIZE, TotalCost);
    Chatterbox.printStatistics(solver);
  }
  @Test
  public void testKnapsack() throws IOException, URISyntaxException {
    for (Path path : filesInDirectory("/kp")) {
      for (int k = 0; k < 3; k++) {
        Solver solver = SolverFactory.makeSolver();

        Pair pair = parseKnapsack(Files.newBufferedReader(path), solver);
        IntVar[] objectives = pair.totalEnergies;

        long start = System.currentTimeMillis();
        solver.plugMonitor(
            new IMonitorOpenNode() {

              @Override
              public void beforeOpenNode() {
                if (System.currentTimeMillis() - start > 30000) {
                  solver.getSearchLoop().interrupt("Times up", true);
                }
              }

              @Override
              public void afterOpenNode() {}
            });

        String out;
        if (k == 0) {
          out = "gia " + objectives.length + " " + pair.objects + " " + Moo.gia(solver, objectives);
        } else if (k == 1) {
          out =
              "classic "
                  + objectives.length
                  + " "
                  + pair.objects
                  + " "
                  + Moo.classic(solver, objectives).size();
        } else {
          out =
              "oia "
                  + objectives.length
                  + " "
                  + pair.objects
                  + " "
                  + Moo.oia(solver, objectives).size()
                  + " "
                  + solver.getMeasures().getSolutionCount();
        }
        boolean limit = solver.hasReachedLimit();
        long time = System.currentTimeMillis() - start;
        System.out.println(out + " " + time + " " + limit);
      }
    }
  }
Beispiel #15
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  @Test(groups = "1m")
  public void test16to32() {
    int[] size = {32, 36, 40, 44, 48, 52, 56, 60, 64};
    int[] sols = {1, 1, 1, 1, 1, 1, 1, 1, 1};
    //        int[] nodes = {633, 760, 2250, 6331, 19832, 19592, 60477, 139296, 180302};

    for (int i = 0; i < size.length; i++) {
      Solver sol = modeler(size[i]);
      sol.findSolution();
      Assert.assertEquals(sol.getMeasures().getSolutionCount(), sols[i]);
      //            Assert.assertEquals(sol.getMeasures().getNodeCount(), nodes[i]);
    }
  }
Beispiel #16
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  @Test(groups = "1m")
  public void test4to14() {
    int[] size = {8, 12, 16, 20, 24, 28};
    int[] sols = {1, 1, 7, 24, 296, 1443};
    //        int[] nodes = {3, 22, 189, 1739, 17889, 189944};

    for (int i = 0; i < size.length; i++) {
      Solver sol = modeler(size[i]);
      sol.findAllSolutions();
      Assert.assertEquals(sol.getMeasures().getSolutionCount(), sols[i]);
      //            Assert.assertEquals(sol.getMeasures().getNodeCount(), nodes[i]);
    }
  }
Beispiel #17
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 @Test(groups = "1s")
 public void testJL2() {
   for (int k = 0; k < 50; k++) {
     Solver s = new Solver();
     final IntVar i = VF.enumerated("i", -2, 2, s);
     final IntVar j = VF.enumerated("j", -2, 2, s);
     // Chatterbox.showDecisions(s);
     // Chatterbox.showSolutions(s);
     s.set(ISF.random_value(new IntVar[] {i, j}));
     s.post(new Constraint("Constraint", new PropTestDM1(i, j), new PropTestDM2(i, j)));
     s.findAllSolutions();
   }
 }
Beispiel #18
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  @Test(groups = "1s")
  public void testEq() throws ContradictionException {
    Solver solver = new Solver();
    IntVar x = VariableFactory.enumerated("X", 1, 6, solver);
    IntVar y = VariableFactory.enumerated("Y", 1, 6, solver);

    solver.post(IntConstraintFactory.arithm(x, "=", y));

    solver.propagate();

    x.removeValue(4, Cause.Null);

    solver.propagate();

    Assert.assertFalse(y.contains(4));
  }
Beispiel #19
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 /**
  * Set all variables to their respective value in the solution Throws an exception is this empties
  * a domain (i.e. this domain does not contain the solution value)
  *
  * <p>BEWARE: A restart might be required so that domains contain the solution values
  */
 public void restore(Solver solver) throws ContradictionException {
   if (empty) {
     throw new UnsupportedOperationException("Empty solution. No solution found");
   }
   Variable[] vars = solver.getVars();
   for (int i = 0; i < vars.length; i++) {
     if ((vars[i].getTypeAndKind() & Variable.TYPE) != Variable.CSTE) {
       int kind = vars[i].getTypeAndKind() & Variable.KIND;
       switch (kind) {
         case Variable.INT:
         case Variable.BOOL:
           IntVar v = (IntVar) vars[i];
           int value = intmap.get(v.getId());
           if (value != NO_ENTRY) {
             v.instantiateTo(value, this);
           } // otherwise, this is not a decision variable
           break;
         case Variable.REAL:
           RealVar r = (RealVar) vars[i];
           double[] bounds = realmap.get(r.getId());
           if (bounds != null) {
             r.updateBounds(bounds[0], bounds[1], this);
           } // otherwise, this is not a decision variable
           break;
         case Variable.SET:
           SetVar s = (SetVar) vars[i];
           int[] values = setmap.get(s.getId());
           if (values != null) {
             s.instantiateTo(values, Cause.Null);
           } // otherwise, this is not a decision variable
           break;
       }
     }
   }
 }
  private static Pair parseKnapsack(BufferedReader in, Solver solver) throws IOException {
    int objectives = Integer.parseUnsignedInt(in.readLine());
    int objects = Integer.parseUnsignedInt(in.readLine());
    int capacity = Integer.parseUnsignedInt(in.readLine());

    int[][] energies = parse2dArray(in);
    if (energies.length != objectives) {
      throw new IOException();
    }
    for (int[] energy : energies) {
      if (energy.length != objects) {
        throw new IOException();
      }
    }

    int[] weights = parse1dArray(in);
    if (weights.length != objects) {
      throw new IOException();
    }

    IntVar[] occurences = VF.enumeratedArray("occurences", objects, 0, 50, solver);
    IntVar totalWeight = VF.enumerated("totalWeight", 0, capacity, solver);
    IntVar[] totalEnergies = new IntVar[energies.length];
    for (int i = 0; i < energies.length; i++) {
      totalEnergies[i] = VF.enumerated("totalEnergy[" + i + "]", 0, sum(energies[i]), solver);
      solver.post(ICF.knapsack(occurences, totalWeight, totalEnergies[i], weights, energies[i]));
    }
    return new Pair(totalEnergies, objects);
  }
Beispiel #21
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 public String toString(Solver solver) {
   Variable[] vars = solver.getVars();
   StringBuilder st = new StringBuilder("Solution: ");
   for (int i = 0; i < vars.length; i++) {
     if ((vars[i].getTypeAndKind() & Variable.TYPE) != Variable.CSTE) {
       int kind = vars[i].getTypeAndKind() & Variable.KIND;
       switch (kind) {
         case Variable.INT:
         case Variable.BOOL:
           IntVar v = (IntVar) vars[i];
           st.append(v.getName()).append("=").append(intmap.get(v.getId())).append(", ");
           break;
         case Variable.REAL:
           RealVar r = (RealVar) vars[i];
           double[] bounds = realmap.get(r.getId());
           st.append(r.getName())
               .append("=[")
               .append(bounds[0])
               .append(",")
               .append(bounds[1])
               .append("], ");
           break;
         case Variable.SET:
           SetVar s = (SetVar) vars[i];
           st.append(s.getName())
               .append("=")
               .append(Arrays.toString(setmap.get(s.getId())))
               .append(", ");
           break;
       }
     }
   }
   return st.toString();
 }
Beispiel #22
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  @Test(groups = "10s")
  public void compareVersionSpeedNew() {
    int n = 14;
    FiniteAutomaton auto = new FiniteAutomaton("(0|1|2)*(0|1)(0|1)(0|1)(0|1|2)*");

    Solver solver = new Solver();
    IntVar[] vars = new IntVar[n];
    for (int i = 0; i < n; i++) {
      vars[i] = VariableFactory.enumerated("x_" + i, 0, 2, solver);
    }
    solver.post(IntConstraintFactory.regular(vars, auto));
    solver.set(IntStrategyFactory.lexico_LB(vars));

    solver.findAllSolutions();
    Assert.assertEquals(solver.getMeasures().getSolutionCount(), 4371696);
  }
Beispiel #23
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 /**
  * Records the current solution of the solver clears all previous recordings
  *
  * @param solver a solver
  */
 public void record(Solver solver) {
   if (empty) {
     Variable[] _dvars = solver.getStrategy().getVariables();
     for (int i = 0; i < _dvars.length; i++) {
       dvars.add(_dvars[i].getId());
     }
     empty = false;
   }
   boolean warn = false;
   intmap.clear();
   realmap.clear();
   setmap.clear();
   Variable[] vars = solver.getVars();
   for (int i = 0; i < vars.length; i++) {
     if ((vars[i].getTypeAndKind() & Variable.TYPE) != Variable.CSTE) {
       int kind = vars[i].getTypeAndKind() & Variable.KIND;
       if (!vars[i].isInstantiated()) {
         if (dvars.contains(vars[i].getId())) {
           throw new SolverException(vars[i] + " is not instantiated when recording a solution.");
         } else {
           warn = true;
         }
       } else {
         switch (kind) {
           case Variable.INT:
           case Variable.BOOL:
             IntVar v = (IntVar) vars[i];
             intmap.put(v.getId(), v.getValue());
             break;
           case Variable.REAL:
             RealVar r = (RealVar) vars[i];
             realmap.put(r.getId(), new double[] {r.getLB(), r.getUB()});
             break;
           case Variable.SET:
             SetVar s = (SetVar) vars[i];
             setmap.put(s.getId(), s.getValues());
             break;
         }
       }
     }
   }
   if (warn && solver.getSettings().warnUser()) {
     Chatterbox.err.printf(
         "Some non decision variables are not instantiated in the current solution.");
   }
 }
Beispiel #24
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  @Test(groups = "1s")
  public void compareVersionSpeedNew2() {
    int n = 5;
    FiniteAutomaton auto = new FiniteAutomaton("(0|<10>|<20>)*(0|<10>)");

    Solver solver = new Solver();
    IntVar[] vars = new IntVar[n];
    for (int i = 0; i < n; i++) {
      vars[i] = VariableFactory.enumerated("x_" + i, new int[] {0, 10, 20}, solver);
    }
    solver.post(IntConstraintFactory.regular(vars, auto));
    solver.set(IntStrategyFactory.lexico_LB(vars));

    Chatterbox.showSolutions(solver);
    solver.findAllSolutions();
    Assert.assertEquals(solver.getMeasures().getSolutionCount(), 162);
  }
Beispiel #25
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  @Test(groups = "1s", expectedExceptions = SolverException.class)
  public void testNeg() {
    Solver solver = new Solver();
    IntVar[] CS = VF.enumeratedArray("CS", 4, -10, 10, solver);
    solver.post(ICF.regular(CS, new FiniteAutomaton("<-9>1*")));
    Chatterbox.showSolutions(solver);
    solver.findAllSolutions();

    final List<Solution> solutions = solver.getSolutionRecorder().getSolutions();

    System.out.println(solutions);

    Assert.assertEquals(1, solutions.size());
    Assert.assertEquals(-9, (int) solutions.get(0).getIntVal(CS[0]));
    Assert.assertEquals(1, (int) solutions.get(0).getIntVal(CS[1]));
    Assert.assertEquals(1, (int) solutions.get(0).getIntVal(CS[2]));
    Assert.assertEquals(-5, (int) solutions.get(0).getIntVal(CS[3]));
  }
Beispiel #26
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  public ExplainingCut(Solver aSolver, int level, long seed) {
    super(aSolver);
    if (!(aSolver.getExplainer() instanceof LazyExplanationEngineFromRestart)) {
      aSolver.set(new LazyExplanationEngineFromRestart(aSolver));
    }
    this.mExplanationEngine = aSolver.getExplainer();
    this.level = level;
    this.random = new Random(seed);

    path = new ArrayList<>(16);
    related2cut = new BitSet(16);
    notFrozen = new BitSet(16);
    unrelated = new BitSet(16);
    refuted = new BitSet(16);
    // TEMPORARY DATA STRUCTURES
    tmpDeductions = new ArrayList<>(16);
    tmpValueDeductions = new HashSet<>(16);
    mSolver.getSearchLoop().plugSearchMonitor(this);
  }
Beispiel #27
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 /**
  * Default propagation test: When an opposite var is declared, the lower (resp. upper) bound
  * modification should be transposed in upper (resp. lower) bound event...
  */
 @Test(groups = "1s")
 public void testUSum2() throws ContradictionException {
   Solver sum =
       sum(
           new int[][] {{-2, 7}, {-1, 6}, {2}, {-2, 5}, {-2, 4}, {-2, 6}},
           new int[] {-7, 13, -3, -18, -24, 1},
           30,
           0);
   PropagationEngineFactory.DEFAULT.make(sum);
   Variable[] vars = sum.getVars();
   int offSet = 2; // ZERO and ONE constants
   ((IntVar) vars[offSet]).instantiateTo(-2, Cause.Null);
   ((IntVar) vars[1 + offSet]).instantiateTo(-1, Cause.Null);
   sum.propagate();
   //        sum.getSearchLoop().timeStamp++;
   ((IntVar) vars[2 + offSet]).removeValue(-2, Cause.Null);
   sum.propagate();
   Assert.assertTrue(vars[2 + offSet].isInstantiated());
 }
Beispiel #28
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 @Test(groups = "1s")
 public void testregExp7() {
   Solver solver = new Solver();
   IntVar[] CS = VF.enumeratedArray("CS", 10, 0, 2, solver);
   solver.post(ICF.regular(CS, new FiniteAutomaton("0*(1{2,4}0{0,2}0)*0*")));
   Chatterbox.showSolutions(
       solver,
       () -> {
         for (int i = 0; i < 10; i++) {
           System.out.printf("%d", CS[i].getValue());
         }
         //            System.out.printf("\n");
         return "";
       });
   solver.set(ISF.lexico_LB(CS));
   //        Chatterbox.showDecisions(solver);
   solver.findAllSolutions();
   Assert.assertEquals(solver.getMeasures().getSolutionCount(), 84);
 }
Beispiel #29
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 @Override
 public boolean init() {
   boolean init = super.init();
   ObjectiveManager<IntVar, Integer> om = mSolver.getObjectiveManager();
   this.objectiveManager = om;
   if (objectiveManager.getPolicy() == ResolutionPolicy.SATISFACTION) {
     throw new UnsupportedOperationException("HBFS is not adapted to satisfaction problems.");
   }
   isMinimization = objectiveManager.getPolicy() == ResolutionPolicy.MINIMIZE;
   return init;
 }
Beispiel #30
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 @Test(groups = "1s")
 public void test2() {
   Solver solver = new Solver();
   IntVar[] VARS = VF.enumeratedArray("X", 2, 0, 2, solver);
   Constraint CSTR = ICF.arithm(VARS[0], "+", VARS[1], "=", 2);
   solver.post(CSTR, CSTR);
   solver.findAllSolutions();
   Assert.assertEquals(solver.getMeasures().getSolutionCount(), 3);
   solver.getSearchLoop().reset();
   solver.unpost(CSTR);
   solver.findAllSolutions();
   Assert.assertEquals(solver.getMeasures().getSolutionCount(), 3);
 }