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1   // ******************************************************************************
2   //
3   // Title:       Force Field X.
4   // Description: Force Field X - Software for Molecular Biophysics.
5   // Copyright:   Copyright (c) Michael J. Schnieders 2001-2025.
6   //
7   // This file is part of Force Field X.
8   //
9   // Force Field X is free software; you can redistribute it and/or modify it
10  // under the terms of the GNU General Public License version 3 as published by
11  // the Free Software Foundation.
12  //
13  // Force Field X is distributed in the hope that it will be useful, but WITHOUT
14  // ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
15  // FOR A PARTICULAR PURPOSE. See the GNU General Public License for more
16  // details.
17  //
18  // You should have received a copy of the GNU General Public License along with
19  // Force Field X; if not, write to the Free Software Foundation, Inc., 59 Temple
20  // Place, Suite 330, Boston, MA 02111-1307 USA
21  //
22  // Linking this library statically or dynamically with other modules is making a
23  // combined work based on this library. Thus, the terms and conditions of the
24  // GNU General Public License cover the whole combination.
25  //
26  // As a special exception, the copyright holders of this library give you
27  // permission to link this library with independent modules to produce an
28  // executable, regardless of the license terms of these independent modules, and
29  // to copy and distribute the resulting executable under terms of your choice,
30  // provided that you also meet, for each linked independent module, the terms
31  // and conditions of the license of that module. An independent module is a
32  // module which is not derived from or based on this library. If you modify this
33  // library, you may extend this exception to your version of the library, but
34  // you are not obligated to do so. If you do not wish to do so, delete this
35  // exception statement from your version.
36  //
37  // ******************************************************************************
38  package ffx.xray.solvent;
39  
40  import edu.rit.pj.ParallelTeam;
41  import ffx.crystal.Crystal;
42  import ffx.potential.bonded.Atom;
43  import ffx.potential.nonbonded.SpatialDensityLoop;
44  import ffx.potential.nonbonded.SpatialDensityRegion;
45  
46  import static java.util.Arrays.fill;
47  
48  /**
49   * This class implements a spatial decomposition based on partitioning a grid into octants. The
50   * over-ridden "selectAtoms" method selects atoms that are not in the asymmetric unit, but are
51   * within the supplied cutoff radius.
52   *
53   * @author Michael J. Schnieders
54   * @since 1.0
55   */
56  public class BulkSolventDensityRegion extends SpatialDensityRegion {
57  
58    private final BulkSolventList bulkSolventList;
59  
60    /**
61     * Constructor for BulkSolventDensityRegion.
62     *
63     * @param gX a int.
64     * @param gY a int.
65     * @param gZ a int.
66     * @param grid an array of double.
67     * @param basisSize a int.
68     * @param nSymm a int.
69     * @param minWork a int.
70     * @param threadCount a int.
71     * @param crystal a {@link ffx.crystal.Crystal} object.
72     * @param atoms an array of {@link ffx.potential.bonded.Atom} objects.
73     * @param coordinates an array of double.
74     * @param cutoff a double.
75     * @param parallelTeam a {@link edu.rit.pj.ParallelTeam} object.
76     */
77    public BulkSolventDensityRegion(int gX, int gY, int gZ, double[] grid, int basisSize, int nSymm,
78        int minWork, int threadCount, Crystal crystal, Atom[] atoms, double[][][] coordinates,
79        double cutoff, ParallelTeam parallelTeam) {
80      super(gX, gY, gZ, grid, basisSize, nSymm, minWork, threadCount, crystal, atoms, coordinates);
81  
82      // Asymmetric unit atoms never selected by this class.
83      fill(select[0], false);
84      bulkSolventList = new BulkSolventList(crystal, atoms, cutoff, parallelTeam);
85    }
86  
87    /** {@inheritDoc} */
88    @Override
89    public void run() {
90      int ti = getThreadIndex();
91      int actualWork1 = actualWork - 1;
92      SpatialDensityLoop loop = spatialDensityLoop[ti];
93      try {
94        execute(0, actualWork1, loop.setOctant(0));
95        // Fractional chunks along the C-axis.
96        if (nC > 1) {
97          execute(0, actualWork1, loop.setOctant(1));
98          // Fractional chunks along the B-axis.
99          if (nB > 1) {
100           execute(0, actualWork1, loop.setOctant(2));
101           execute(0, actualWork1, loop.setOctant(3));
102           // Fractional chunks along the A-axis.
103           if (nA > 1) {
104             execute(0, actualWork1, loop.setOctant(4));
105             execute(0, actualWork1, loop.setOctant(5));
106             execute(0, actualWork1, loop.setOctant(6));
107             execute(0, actualWork1, loop.setOctant(7));
108           }
109         }
110       }
111     } catch (Exception e) {
112       logger.severe(e.toString());
113     }
114   }
115 
116   /** {@inheritDoc} */
117   @Override
118   public void selectAtoms() {
119     bulkSolventList.buildList(coordinates, select, false);
120   }
121 }