Esempio n. 1
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  @Test
  public void testNonOverlap() {
    CPModel model = new CPModel();

    List<GeostObject> geosts = new ArrayList<GeostObject>();
    Map<Integer, ShiftedBox> boxesById = new HashMap<Integer, ShiftedBox>();

    // Blocks to be placed
    int currentShapeId = 0;
    ShiftedBox block = new ShiftedBox(currentShapeId, new int[] {0, 0}, new int[] {20, 1});
    boxesById.put(currentShapeId, block);

    IntegerVariable[] fixedCoordinates = new IntegerVariable[] {constant(0), constant(0)};
    IntegerVariable[] variableCoordinates =
        new IntegerVariable[] {makeIntVar("variable", 0, 0), constant(0)};

    geosts.add(
        new GeostObject(
            2,
            0,
            constant(currentShapeId),
            fixedCoordinates,
            constant(0),
            constant(1),
            constant(1)));

    geosts.add(
        new GeostObject(
            2,
            1,
            constant(currentShapeId),
            fixedCoordinates,
            constant(0),
            constant(1),
            constant(1)));

    List<IExternalConstraint> ectr = new ArrayList<IExternalConstraint>();

    int[] ectrDim = new int[] {0, 1};
    int[] objOfEctr = new int[geosts.size()];

    NonOverlappingModel n = new NonOverlappingModel(Constants.NON_OVERLAPPING, ectrDim, objOfEctr);
    ectr.add(n);

    List<int[]> ctrlVs = new ArrayList<int[]>();
    int[] v0 = {1, -3, -2};
    // int[] v1 = { 1, -2, 2 };
    // ctrlVs.add(v1);
    ctrlVs.add(v0);

    // Definition of the GEOST constraint
    Constraint geost =
        geost(2, geosts, new ArrayList<ShiftedBox>(boxesById.values()), ectr, ctrlVs);
    model.addConstraint(geost);

    CPSolver solver = new CPSolver();
    solver.read(model);

    Assert.assertFalse(solver.solve());
  }
Esempio n. 2
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  @Test
  public void test1NeqSolve() {
    for (int seed = 0; seed < 10; seed++) {
      m = new CPModel();
      s = new CPSolver();
      int k = 9, k1 = 7, k2 = 6;
      IntegerVariable v0 = makeIntVar("v0", 0, 10);
      IntegerVariable v1 = makeIntVar("v1", 0, 10);
      IntegerVariable v2 = makeIntVar("v2", 0, 10);
      IntegerVariable v3 = makeIntVar("v3", 0, 10);

      m.addConstraint(distanceNEQ(v0, v1, k));
      m.addConstraint(distanceNEQ(v1, v2, k1));
      m.addConstraint(distanceNEQ(v2, v3, k2));
      s.read(m);
      s.setVarIntSelector(new RandomIntVarSelector(s, seed + 32));
      s.setValIntSelector(new RandomIntValSelector(seed));
      try {
        s.propagate();
      } catch (ContradictionException e) {
        LOGGER.info(e.getMessage());
      }
      s.solveAll();
      int nbNode = s.getNodeCount();
      LOGGER.info("solutions : " + s.getNbSolutions() + " nbNode : " + nbNode);
      assertEquals(s.getNbSolutions(), 12147);
    }
  }
Esempio n. 3
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 @Test
 public void test3BoundsSolve() {
   for (int seed = 0; seed < 10; seed++) {
     m = new CPModel();
     s = new CPSolver();
     int k = 9, k1 = 7, k2 = 6;
     IntegerVariable v0 = makeIntVar("v0", 0, 10);
     IntegerVariable v1 = makeIntVar("v1", 0, 10);
     IntegerVariable v2 = makeIntVar("v2", 0, 10);
     IntegerVariable v3 = makeIntVar("v3", 0, 10);
     m.addVariables(Options.V_BOUND, v0, v1, v2, v3);
     m.addConstraint(distanceEQ(v0, v1, k));
     m.addConstraint(distanceEQ(v1, v2, k1));
     m.addConstraint(distanceEQ(v2, v3, k2));
     s.read(m);
     s.setVarIntSelector(new RandomIntVarSelector(s, seed + 32));
     s.setValIntSelector(new RandomIntValSelector(seed));
     try {
       s.propagate();
     } catch (ContradictionException e) {
       LOGGER.info(e.getMessage()); // To change body of catch statement use File | Settings | File
       // Templates.
     }
     s.solveAll();
     int nbNode = s.getNodeCount();
     LOGGER.info("solutions : " + s.getNbSolutions() + " nbNode : " + nbNode);
     assertEquals(s.getNbSolutions(), 4);
   }
 }
Esempio n. 4
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 @Test
 public void test3LTSolve() {
   for (int seed = 0; seed < 10; seed++) {
     m = new CPModel();
     s = new CPSolver();
     int k = 2;
     IntegerVariable v0 = makeIntVar("v0", 0, 10);
     IntegerVariable v1 = makeIntVar("v1", 0, 10);
     m.addConstraint(distanceLT(v0, v1, k));
     s.read(m);
     s.setVarIntSelector(new RandomIntVarSelector(s, seed + 32));
     s.setValIntSelector(new RandomIntValSelector(seed));
     try {
       s.propagate();
     } catch (ContradictionException e) {
       LOGGER.info(e.getMessage()); // To change body of catch statement use File | Settings | File
       // Templates.
     }
     s.solveAll();
     int nbNode = s.getNodeCount();
     LOGGER.info("solutions : " + s.getNbSolutions() + " nbNode : " + nbNode);
     assertEquals(s.getNbSolutions(), 31);
     assertEquals(nbNodeFromRegulatModel(seed), nbNode);
   }
 }
Esempio n. 5
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 private int nbNodeFromRegulatModel(int seed) {
   m = new CPModel();
   s = new CPSolver();
   int k = 2;
   IntegerVariable v0 = makeIntVar("v0", 0, 10);
   IntegerVariable v1 = makeIntVar("v1", 0, 10);
   List<int[]> ltuple = new LinkedList<int[]>();
   for (int i = 0; i <= 10; i++) {
     for (int j = 0; j <= 10; j++) {
       if (Math.abs(i - j) < k) ltuple.add(new int[] {i, j});
     }
   }
   m.addConstraint(regular(new IntegerVariable[] {v0, v1}, ltuple));
   s.read(m);
   s.setVarIntSelector(new RandomIntVarSelector(s, seed + 32));
   s.setValIntSelector(new RandomIntValSelector(seed));
   try {
     s.propagate();
   } catch (ContradictionException e) {
     LOGGER.info(e.getMessage()); // To change body of catch statement use File | Settings | File
     // Templates.
   }
   s.solveAll();
   // LOGGER.info("solutions regular : " + s.getNbSolutions());
   return s.getNodeCount();
 }
Esempio n. 6
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  public static void main(String[] args) {
    RuleModel m = new RuleModel();

    m.buildConsecutiveWERule();
    m.buildNoNightBeforeFreeWE();
    m.buildNoMoreThanDayRule();
    m.buildRestAfterNight();
    m.buildCompleteWE();

    m.fillModel();

    m.addLexConstraint();
    m.addMandatoryShift();
    m.addMinCoverConstraint();

    CPSolver s = new CPSolver();
    s.read(m);

    ArrayList<IntDomainVar> mars = new ArrayList<IntDomainVar>();
    for (int i = 0; i < 8; i++) mars.add(s.getVar(m.cvs[i][4]));

    int[][] lowb = new int[28][3];
    {
      for (int i = 0; i < lowb.length; i++) {
        lowb[i][0] = 3;
        lowb[i][1] = 1;
        lowb[i][2] = 4;
      }
    }

    CoverVarValSelector sel = new CoverVarValSelector(s, m.vs, lowb);
    //   s.attachGoal(new AssignVar(sel,sel));

    // s.attachGoal(new AssignVar(new StaticVarOrder(mars.toArray(new IntDomainVar[8])),new
    // DecreasingDomain()));
    s.attachGoal(
        new AssignVar(
            new StaticVarOrder(s, s.getVar(ArrayUtils.flatten(ArrayUtils.transpose(m.vs)))),
            new IncreasingDomain()));
    // s.addGoal(new AssignVar(new
    // RandomIntVarSelector(s,s.getVar(ArrayUtils.flatten(ArrayUtils.transpose(m.vs))),0),new
    // RandomIntValSelector()));

    if (s.solve()) {

      int i = 0;
      for (IntegerVariable[] va : m.vs) {

        for (IntDomainVar v : s.getVar(va)) {
          System.out.print(toChar(v.getVal()) + " ");
        }
        System.out.print("     |   ");
        for (IntDomainVar v : s.getVar(m.cvs[i++])) {
          System.out.print(v.getVal() + " ");
        }
        System.out.println("");
      }
    }
    s.printRuntimeStatistics();
  }
Esempio n. 7
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 @Test
 public void testStrategy2() {
   loadGolombRulerModel();
   s = new CPSolver();
   s.read(pe.model);
   s.attachGoal(new AssignVar(new MaxValueDomain(s), new DecreasingDomain()));
   checker();
 }
Esempio n. 8
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 @Test
 public void testStrategy1() {
   loadQueenModel();
   s = new CPSolver();
   s.read(pe.model);
   s.attachGoal(new AssignVar(new DomOverWDeg(s), new MidVal()));
   checker();
 }
  private void initModel(SolvableModel model) {
    solver = new CPSolver();
    this.model = model;

    solver.read(model.getModel());

    setVerbosity(Verbosity.DEFAULT);
  }
Esempio n. 10
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  /**
   * 此方法对若干条件判断表达式进行约束求解,在求解过程中将过滤掉无法处理的条件表达式
   *
   * @param constraints
   * @return
   */
  public boolean solve(
      ExpressionNode leftnNode, ExpressionNode rightNode, InfixExpression.Operator operator) {
    boolean solveable = true;

    CPSolver solver = new CPSolver();
    solver.read(model);
    //		solveable = solver.solve();
    return solveable;
  }
Esempio n. 11
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 public boolean solve() {
   CPSolver solver = new CPSolver();
   for (Iterator iterator = model.getConstraintIterator(); iterator.hasNext(); ) {
     Constraint constraint = (Constraint) iterator.next();
     System.out.println(constraint);
   }
   System.out.println("****");
   solver.read(model);
   boolean solverable = solver.solve();
   return solverable;
 }
Esempio n. 12
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  /*
   * One potential issue is determining the best way to build constraints.
   * Currently the model is reset after solving, and the solver
   * is reset right before solving. Is this the best way to do this?
   * We could alternatively pop constraints when backtracking,
   * though this would require some changes to how ProblemGeneral
   * is interfaced.
   *
   */
  public Boolean solve() {
    solver.read(model);

    System.out.println("Model:" + model.constraintsToString());

    solver.setTimeLimit(timeBound);
    Boolean solved = solver.solve();
    boolean feasible = solver.isFeasible();

    System.out.println("Solved: " + solved);
    System.out.println("Feasible: " + feasible);

    return solved;
  }
Esempio n. 13
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  @Test
  public void testDXYZProp4() {

    IntegerVariable v0 = makeIntVar("v0", -1, 5);
    IntegerVariable v1 = makeIntVar("v1", -5, 6);
    IntegerVariable v2 = makeIntVar("v2", -2, 2);
    m.addConstraint(distanceEQ(v0, v1, v2, 0));
    s.read(m);
    try {
      s.propagate();
    } catch (ContradictionException e) {
      assertTrue(false);
    }
    assertEquals(-3, s.getVar(v1).getInf());
    assertEquals(0, s.getVar(v2).getInf());
  }
Esempio n. 14
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 @Test
 public void testDXYZProp1() {
   IntegerVariable v0 = makeIntVar("v0", 1, 4);
   IntegerVariable v1 = makeIntVar("v1", 5, 7);
   IntegerVariable v2 = makeIntVar("v2", -100, 100);
   m.addVariables(Options.V_BOUND, v0, v1, v2);
   m.addConstraint(distanceEQ(v0, v1, v2, 0));
   s.read(m);
   try {
     s.propagate();
   } catch (ContradictionException e) {
     assertTrue(false);
   }
   assertEquals(1, s.getVar(v2).getInf());
   assertEquals(6, s.getVar(v2).getSup());
 }
Esempio n. 15
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 @Override
 protected Boolean solve(Instance instance) {
   CPModel chocoModel = new CPModel();
   Map<Variable, IntegerVariable> variableMap = new HashMap<Variable, IntegerVariable>();
   try {
     new ChocoTranslator(chocoModel, variableMap).translate(instance.getExpression());
     CPSolver chocoSolver = new CPSolver();
     chocoSolver.read(chocoModel);
     return chocoSolver.solve();
   } catch (TranslatorUnsupportedOperation x) {
     log.log(Level.WARNING, x.getMessage(), x);
   } catch (VisitorException x) {
     log.log(Level.SEVERE, "encountered an exception -- this should not be happening!", x);
   }
   return null;
 }
Esempio n. 16
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  @Test
  public void testStrategyQ() {
    loadQueenModel();
    for (int i = 0; i < 100; i++) {
      LOGGER.info("seed:" + i);
      random = new Random(i);

      s = new CPSolver();
      s.read(pe.model);
      IntBranchingFactory bf = new IntBranchingFactory();
      IntDomainVar[] vars = s.getIntDecisionVars();

      s.attachGoal(bf.make(random, s, vars));
      checker();
    }
  }
Esempio n. 17
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  @Test
  public void testDXYZSolve1() {
    for (int seed = 0; seed < 10; seed++) {

      m = new CPModel();
      s = new CPSolver();
      IntegerVariable v0 = makeIntVar("v0", 0, 5);
      IntegerVariable v1 = makeIntVar("v1", 0, 5);
      IntegerVariable v2 = makeIntVar("v2", 0, 5);
      m.addConstraint(distanceEQ(v0, v1, v2, 0));
      s.read(m);
      s.setVarIntSelector(new RandomIntVarSelector(s, seed + 32));
      s.setValIntSelector(new RandomIntValSelector(seed));

      s.solveAll();
      assertEquals(36, s.getNbSolutions());
    }
  }
Esempio n. 18
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  @Test
  public void testDXYZProp5() {

    IntegerVariable v0 = makeIntVar("v0", -1, 1);
    IntegerVariable v1 = makeIntVar("v1", -5, 6);
    IntegerVariable v2 = makeIntVar("v2", 3, 10);
    m.addConstraint(distanceEQ(v0, v1, v2, 0));
    s.read(m);
    try {
      s.propagate();
    } catch (ContradictionException e) {
      assertTrue(false);
    }
    LOGGER.info("" + v1.pretty());
    assertTrue(!s.getVar(v1).canBeInstantiatedTo(0));
    assertTrue(!s.getVar(v1).canBeInstantiatedTo(1));
    assertTrue(!s.getVar(v1).canBeInstantiatedTo(-1));
    assertEquals(7, s.getVar(v2).getSup());
  }
Esempio n. 19
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  @Test
  public void testDXYZProp2bis() {

    IntegerVariable v0 = makeIntVar("v0", 1, 5);
    IntegerVariable v1 = makeIntVar("v1", 5, 10);
    IntegerVariable v2 = makeIntVar("v2", 1, 2);
    m.addVariables(Options.V_BOUND, v0, v1, v2);
    m.addConstraint(distanceEQ(v0, v1, v2, -1));
    s.read(m);
    try {
      s.propagate();
    } catch (ContradictionException e) {
      assertTrue(false);
    }
    assertEquals(4, s.getVar(v0).getInf());
    assertEquals(6, s.getVar(v1).getSup());
    s.solve();
    LOGGER.info("" + s.pretty());
  }
Esempio n. 20
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  @Test
  public void test2bis() {
    CPModel m = new CPModel();

    RealVariable alpha = makeRealVar("alpha", -5.5 * Math.PI, -1.5 * Math.PI);
    m.addVariable(alpha);
    m.addConstraint(eq(cos(alpha), 1));

    CPSolver s = new CPSolver();
    s.read(m);

    boolean first = false;
    s.setFirstSolution(first);
    s.generateSearchStrategy();
    s.addGoal(new AssignInterval(new CyclicRealVarSelector(s), new RealIncreasingDomain()));
    s.launch();

    assertTrue(s.getNbSolutions() >= 2);
  }
Esempio n. 21
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  @Test
  public void testDXYZSolve4() {
    for (int seed = 0; seed < 10; seed++) {
      m = new CPModel();
      s = new CPSolver();
      IntegerVariable v0 = makeIntVar("v0", 3, 6);
      IntegerVariable v1 = makeIntVar("v1", -3, 4);
      IntegerVariable v2 = makeIntVar("v2", 0, 5);
      IntegerVariable v3 = makeIntVar("v3", 2, 5);

      m.addConstraint(distanceGT(v0, v1, v2, 0));
      m.addConstraint(distanceGT(v0, v2, v3, 0));
      s.read(m);
      s.setVarIntSelector(new RandomIntVarSelector(s, seed + 32));
      s.setValIntSelector(new RandomIntValSelector(seed));

      s.solveAll();
      LOGGER.info("nbsol " + s.getNbSolutions());
      assertEquals(getNbSolByDecomp(2), s.getNbSolutions());
    }
  }
Esempio n. 22
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  @Test
  public void test1bis() {
    CPModel m = new CPModel();

    RealVariable alpha = makeRealVar("alpha", -Math.PI, Math.PI);
    Constraint exp = eq(cos(alpha), sin(alpha));
    m.addConstraint(exp);

    CPSolver s = new CPSolver();
    s.read(m);
    LOGGER.info("eq = " + s.getCstr(exp).pretty());

    boolean first = false;
    s.setFirstSolution(first);
    s.generateSearchStrategy();
    s.addGoal(new AssignInterval(new CyclicRealVarSelector(s), new RealIncreasingDomain()));
    s.launch();

    assertTrue(s.getNbSolutions() >= 2);
    assertTrue(
        Math.abs(Math.cos(s.getVar(alpha).getInf()) - Math.sin(s.getVar(alpha).getInf())) < 1e-8);
  }
Esempio n. 23
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 public void generateSolver(Configuration conf) {
   SolverDetectorFactory.resetIndexes(model);
   solver = conf == null ? new CPSolver() : new PreProcessCPSolver(conf);
   solver.setHorizon(horizon);
   solver.read(model);
 }
Esempio n. 24
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  public static void main(String[] args) {

    final CPSolver solver = new CPSolver();
    CPModel model = new CPModel();

    // VARIABLES sŽrie varA :
    // 12 variables varsA[i] avec D( varsA[i] ) = { 0, 1, 2, .., 15, i+16}
    int tmpdomain[] = new int[17];
    for (int i = 0; i < 16; i++) tmpdomain[i] = i;
    IntegerVariable[] varsA = new IntegerVariable[12];
    for (int i = 0; i < 12; i++) {
      tmpdomain[16] = 16 + i;
      varsA[i] = makeIntVar("varsA" + i, tmpdomain.clone());
    }
    model.addVariables(varsA);

    // VARIABLES sŽrie varB
    // 16 variables varsB[i] avec D( varsB[i] ) = { 1, 2, .., 11, i+12}
    tmpdomain = new int[13];
    for (int i = 0; i < 12; i++) tmpdomain[i] = i;
    IntegerVariable[] varsB = new IntegerVariable[16];
    for (int i = 0; i < 16; i++) {
      tmpdomain[12] = 16 + i;
      varsB[i] = makeIntVar("varsB" + i, tmpdomain.clone());
    }
    model.addVariables(varsB);

    // variable pour compter les varsA et varsB infŽrieureures ˆ 16
    final IntegerVariable nbvarsInf16 =
        makeIntVar("nbvarsInf16", 0, 28, Options.V_NO_DECISION, Options.V_BOUND);
    model.addVariable(nbvarsInf16);

    // ----------- dŽfinition relation binaire : rel
    int[] min = new int[] {0, 0};
    int[] max = new int[] {27, 27};
    ArrayList<int[]> couplesOK = new ArrayList<int[]>();
    addCouples(couplesOK, 0, 1);
    addCouples(couplesOK, 0, 4);
    addCouples(couplesOK, 0, 3);
    addCouples(couplesOK, 1, 2);
    addCouples(couplesOK, 2, 3);
    addCouples(couplesOK, 2, 11);
    addCouples(couplesOK, 3, 5);
    addCouples(couplesOK, 3, 10);
    addCouples(couplesOK, 4, 5);
    addCouples(couplesOK, 4, 6);
    addCouples(couplesOK, 5, 7);
    addCouples(couplesOK, 5, 8);
    addCouples(couplesOK, 6, 7);
    addCouples(couplesOK, 7, 9);
    addCouples(couplesOK, 8, 10);
    addCouples(couplesOK, 8, 14);
    addCouples(couplesOK, 8, 9);
    addCouples(couplesOK, 9, 15);
    addCouples(couplesOK, 10, 11);
    addCouples(couplesOK, 10, 13);
    addCouples(couplesOK, 11, 12);
    addCouples(couplesOK, 12, 13);
    addCouples(couplesOK, 13, 14);
    addCouples(couplesOK, 14, 15);
    for (int j = 0; j < 12; j++) {
      for (int k = 0; k < 12; k++) {
        addCouples(couplesOK, j + 16, k);
        if (j <= k) addCouples(couplesOK, j + 16, k + 16);
      }
    }
    BinRelation rel = makeBinRelation(min, max, couplesOK, true);

    // ----contraintes entre des Vars A basŽes sur rel2
    model.addConstraint(allDifferent(varsA));

    model.addConstraint(relationPairAC(varsA[10], varsA[11], rel));
    model.addConstraint(relationPairAC(varsA[8], varsA[9], rel));
    model.addConstraint(relationPairAC(varsA[6], varsA[7], rel));
    model.addConstraint(relationPairAC(varsA[5], varsA[9], rel));
    model.addConstraint(relationPairAC(varsA[5], varsA[7], rel));
    model.addConstraint(relationPairAC(varsA[4], varsA[10], rel));
    model.addConstraint(relationPairAC(varsA[4], varsA[8], rel));
    model.addConstraint(relationPairAC(varsA[4], varsA[5], rel));
    model.addConstraint(relationPairAC(varsA[3], varsA[6], rel));
    model.addConstraint(relationPairAC(varsA[3], varsA[5], rel));
    model.addConstraint(relationPairAC(varsA[2], varsA[3], rel));
    model.addConstraint(relationPairAC(varsA[1], varsA[2], rel));
    model.addConstraint(relationPairAC(varsA[0], varsA[11], rel));
    model.addConstraint(relationPairAC(varsA[0], varsA[4], rel));
    model.addConstraint(relationPairAC(varsA[0], varsA[3], rel));
    model.addConstraint(relationPairAC(varsA[0], varsA[1], rel));

    // autres contraintes
    model.addConstraint(lt(varsB[0], varsB[2]));
    model.addConstraint(lt(varsB[0], varsB[4]));
    model.addConstraint(lt(varsB[0], varsB[7]));
    model.addConstraint(lt(varsB[0], varsB[9]));
    model.addConstraint(lt(varsB[0], varsB[11]));
    model.addConstraint(lt(varsB[0], varsB[13]));
    model.addConstraint(lt(varsB[0], varsB[14]));

    // ---- channeling entre vars A et vars B
    model.addConstraint(inverseChannelingWithinRange(varsA, varsB));

    // --- among pour compter les varsA et varsB infŽrieureures ˆ 16
    tmpdomain = new int[16];
    for (int i = 0; i < 16; i++) tmpdomain[i] = i;

    IntegerVariable[] vars_A_et_B = ArrayUtils.append(varsA, varsB);

    model.addConstraint(among(nbvarsInf16, vars_A_et_B, tmpdomain));

    // --------
    // model.addConstraint(Choco.eq(nbvarsInfN, 24));

    solver.read(model);

    try {
      solver.propagate();
    } catch (ContradictionException e) {
      // TODO Auto-generated catch block
      e.printStackTrace();
    }

    solver.maximize(solver.getVar(nbvarsInf16), true);
    Assert.assertEquals(solver.getVar(nbvarsInf16).getVal(), 24);
  }