/** * Build an array of <? extends {@link solver.variables.Variable}>. </br>WARNING: array's indice * are from 1 to n. * * @param name name of the array of variables.</br> Each variable is named like {@code name}_i. * @param type {@link parser.flatzinc.ast.declaration.DArray} object. * @param earr array of {@link parser.flatzinc.ast.expression.Expression} * @param map * @param solver */ private static void buildWithDArray( String name, DArray type, Expression expression, EArray earr, THashMap<String, Object> map, Solver solver) { final DInt2 index = (DInt2) type.getIndex(0); // no need to get lowB, it is always 1 (see specification of FZN for more informations) final int size = index.getUpp(); final Declaration what = type.getWhat(); switch (what.typeOf) { case BOOL: final BoolVar[] bs = new BoolVar[size]; for (int i = 0; i < size; i++) { bs[i] = earr.getWhat_i(i).boolVarValue(solver); } map.put(name, bs); break; case INT: case INT2: case INTN: final IntVar[] vs = new IntVar[size]; for (int i = 0; i < size; i++) { vs[i] = earr.getWhat_i(i).intVarValue(solver); } map.put(name, vs); break; case SET: // final SetVariable[] svs = new SetVariable[size]; // for (int i = 0; i < size; i++) { // svs[i] = earr.getWhat_i(i).setVarValue(); // } // map.put(name, svs); Exit.log("SET VAR"); break; default: break; } }
/** * Build an array of <? extends {@link solver.variables.Variable}>. </br>WARNING: array's indice * are from 1 to n. * * @param name name of the array of variables.</br> Each variable is named like {@code name}_i. * @param type {@link parser.flatzinc.ast.declaration.DArray} object. * @param map * @param solver */ private static void buildWithDArray( String name, DArray type, Expression expression, THashMap<String, Object> map, Solver solver) { final DInt2 index = (DInt2) type.getIndex(0); // no need to get lowB, it is always 1 (see specification of FZN for more informations) final int size = index.getUpp(); final Declaration what = type.getWhat(); final IntVar[] vs; switch (what.typeOf) { case BOOL: BoolVar[] bs = new BoolVar[size]; if (expression == null) { for (int i = 1; i <= size; i++) { bs[i - 1] = buildWithBool(name + '_' + i, expression, map, solver); } } else if (expression.getTypeOf().equals(Expression.EType.ARR)) { EArray array = (EArray) expression; // build the array for (int i = 0; i < size; i++) { bs[i] = array.getWhat_i(i).boolVarValue(solver); } } map.put(name, bs); break; case INT: vs = new IntVar[size]; if (expression == null) { for (int i = 1; i <= size; i++) { vs[i - 1] = buildWithInt(name + '_' + i, null, map, solver); } } else if (expression.getTypeOf().equals(Expression.EType.ARR)) { buildFromIntArray(vs, (EArray) expression, size, solver); } map.put(name, vs); break; case INT2: vs = new IntVar[size]; if (expression == null) { for (int i = 1; i <= size; i++) { vs[i - 1] = buildWithInt2(name + '_' + i, (DInt2) what, expression, map, solver); } } else if (expression.getTypeOf().equals(Expression.EType.ARR)) { buildFromIntArray(vs, (EArray) expression, size, solver); } map.put(name, vs); break; case INTN: vs = new IntVar[size]; if (expression == null) { for (int i = 1; i <= size; i++) { vs[i - 1] = buildWithManyInt(name + '_' + i, (DManyInt) what, expression, map, solver); } } else if (expression.getTypeOf().equals(Expression.EType.ARR)) { buildFromIntArray(vs, (EArray) expression, size, solver); } map.put(name, vs); break; case SET: // final SetVariable[] svs = new SetVariable[size]; // for (int i = 1; i <= size; i++) { // svs[i - 1] = buildWithSet(name + '_' + i, (DSet) what, map); // } // map.put(name, svs); Exit.log("SET VAR"); break; default: break; } }