//*****************************************************************************
//
// File: MaximumParsimonyResults.java
// Package: edu.rit.compbio.phyl
// Unit: Class edu.rit.compbio.phyl.MaximumParsimonyResults
//
// This Java source file is copyright (C) 2008 by Alan Kaminsky. All rights
// reserved. For further information, contact the author, Alan Kaminsky, at
// ark@cs.rit.edu.
//
// This Java source file is part of the Parallel Java Library ("PJ"). PJ is free
// software; you can redistribute it and/or modify it under the terms of the GNU
// General Public License as published by the Free Software Foundation; either
// version 3 of the License, or (at your option) any later version.
//
// PJ is distributed in the hope that it will be useful, but WITHOUT ANY
// WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR
// A PARTICULAR PURPOSE. See the GNU General Public License for more details.
//
// Linking this library statically or dynamically with other modules is making a
// combined work based on this library. Thus, the terms and conditions of the
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// As a special exception, the copyright holders of this library give you
// permission to link this library with independent modules to produce an
// executable, regardless of the license terms of these independent modules, and
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// A copy of the GNU General Public License is provided in the file gpl.txt. You
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//******************************************************************************
package edu.rit.compbio.phyl;
import java.io.Externalizable;
import java.io.IOException;
import java.io.ObjectInput;
import java.io.ObjectOutput;
import java.util.ConcurrentModificationException;
import java.util.Iterator;
import java.util.NoSuchElementException;
/**
* Class MaximumParsimonyResults contains the results of a maximum parsimony
* phylogenetic tree construction algorithm. The results include:
*
* -
* List of maximum parsimony phylogenetic trees. The list contains zero or more
* tree signatures representing the phylogenetic trees found during the search.
* If no tree with a score better than the initial bound was found, the list is
* empty. For further information about the tree signatures, see the
* toTree() method of class {@linkplain DnaSequenceList}.
*
-
* Parsimony score. This contains the best (smallest) Fitch parsimony score
* found during the search. This is also the Fitch parsimony score of the
* phylogenetic trees in the tree list (if any).
*
*
* Note: Class MaximumParsimonyResults is not multiple thread safe. It is
* intended to be used as a per-thread variable in a parallel program.
*
* @author Alan Kaminsky
* @version 25-Oct-2008
*/
public class MaximumParsimonyResults
implements Iterable, Externalizable
{
// Hidden constants.
// Extra padding in tree list.
private static final int PAD = 32;
// Hidden data members.
// List of tree signatures, its size, and its capacity.
private int[][] treeList;
private int size;
private int capacity;
// Parsimony score.
private int score;
// For detecting modifications during an iteration.
private int modCount;
// Extra padding to avert cache interference.
private static long p0, p1, p2, p3, p4, p5, p6, p7;
private static long p8, p9, pa, pb, pc, pd, pe, pf;
// Exported constructors.
/**
* Construct a new uninitialized maximum parsimony results object. This
* constructor is for use only by object deserialization.
*/
public MaximumParsimonyResults()
{
}
/**
* Construct a new maximum parsimony results object. The tree list is
* initialized to an empty list with the given capacity. The parsimony score
* is initialized to Integer.MAX_VALUE.
*
* @param capacity Capacity.
*
* @exception IllegalArgumentException
* (unchecked exception) Thrown if capacity ≤ 0.
*/
public MaximumParsimonyResults
(int capacity)
{
if (capacity <= 0)
{
throw new IllegalArgumentException
("MaximumParsimonyResults(): capacity (= "+capacity+
") illegal");
}
this.size = 0;
this.capacity = capacity;
this.treeList = new int [capacity+PAD] [];
this.score = Integer.MAX_VALUE;
}
/**
* Construct a new maximum parsimony results object that is a copy of the
* given maximum parsimony results object.
*
* @param results Maximum parsimony results object to copy.
*/
public MaximumParsimonyResults
(MaximumParsimonyResults results)
{
this.size = results.size;
this.capacity = results.capacity;
this.treeList = new int [results.capacity+PAD] [];
for (int i = 0; i < results.size; ++ i)
{
this.treeList[i] = (int[]) results.treeList[i].clone();
}
this.score = results.score;
}
// Exported operations.
/**
* Clear this maximum parsimony results object. Afterwards, the tree list is
* empty and the parsimony score is Integer.MAX_VALUE.
*/
public void clear()
{
++ modCount;
for (int i = 0; i < size; ++ i) treeList[i] = null;
size = 0;
score = Integer.MAX_VALUE;
}
/**
* Add the given tree with the given parsimony score to this maximum
* parsimony results object. The following invariant is maintained: This
* maximum parsimony results object contains only those trees with the
* smallest parsimony score seen so far; and only the first C such
* trees are stored, where C is the capacity.
*
* @param tree Tree signature.
* @param score Tree's parsimony score.
*/
public void add
(int[] tree,
int score)
{
++ modCount;
if (score < this.score)
{
clear();
this.score = score;
}
if (score == this.score && size < capacity)
{
treeList[size] = (int[]) tree.clone();
++ size;
}
}
/**
* Add all the trees in the given maximum parsimony results object to this
* maximum parsimony results object. The following invariant is maintained:
* This maximum parsimony results object contains only those trees with the
* smallest parsimony score seen so far; and only the first C such
* trees are stored, where C is the capacity.
*
* @param results Maximum parsimony results object containing trees to
* add.
*/
public void addAll
(MaximumParsimonyResults results)
{
++ modCount;
if (results.score < this.score)
{
clear();
this.score = results.score;
}
if (results.score == this.score)
{
int i = 0;
while (this.size < this.capacity && i < results.size)
{
this.treeList[this.size] = (int[]) results.treeList[i].clone();
++ this.size;
++ i;
}
}
}
/**
* Returns the size of this maximum parsimony results object.
*
* @return Size (number of trees stored).
*/
public int size()
{
return size;
}
/**
* Returns the capacity of this maximum parsimony results object.
*
* @return Capacity (maximum number of trees that can be stored).
*/
public int capacity()
{
return capacity;
}
/**
* Returns the tree at the given index in this maximum parsimony results
* object.
*
* @param i Index, 0 ≤ i ≤ size()-1.
*
* @return Tree signature at index i.
*
* @exception IndexOutOfBoundsException
* (unchecked exception) Thrown if i is out of bounds.
*/
public int[] tree
(int i)
{
if (0 > i || i >= size)
{
throw new IndexOutOfBoundsException
("MaximumParsimonyScore.tree(): i (= "+i+") out of bounds");
}
return treeList[i];
}
/**
* Returns the parsimony score of this maximum parsimony results object.
*
* @return Parsimony score.
*/
public int score()
{
return this.score;
}
/**
* Sets the parsimony score of this maximum parsimony results object.
*
* @param score Parsimony score.
*/
public void score
(int score)
{
this.score = score;
}
/**
* Reduce this maximum parsimony results object's score to the given score.
* If this object's score is less than or equal to score, this
* object is unchanged. If this object's score is greater than
* score, this object is cleared and its score is set to
* score.
*
* @param score Parsimony score.
*/
public void reduceScore
(int score)
{
if (this.score > score)
{
clear();
this.score = score;
}
}
/**
* Get an iterator for the trees in this maximum parsimony results object.
* The iterator does not support removing elements. The iterator is a
* "fail-fast" iterator that throws a ConcurrentModificationException if one
* thread changes this maximum parsimony results object while another thread
* is iterating over the trees.
*
* @return Iterator.
*/
public Iterator iterator()
{
return new Iterator()
{
private int originalModCount = modCount;
private int i;
public boolean hasNext()
{
if (modCount != originalModCount)
{
throw new ConcurrentModificationException();
}
return i < size;
}
public int[] next()
{
if (modCount != originalModCount)
{
throw new ConcurrentModificationException();
}
if (i >= size)
{
throw new NoSuchElementException();
}
return treeList[i++];
}
public void remove()
{
throw new UnsupportedOperationException();
}
};
}
/**
* Write this maximum parsimony results object to the given object output
* stream.
*
* @param out Object output stream.
*
* @exception IOException
* Thrown if an I/O error occurred.
*/
public void writeExternal
(ObjectOutput out)
throws IOException
{
out.writeInt (size);
out.writeInt (capacity);
out.writeInt (score);
for (int i = 0; i < size; ++ i)
{
int[] treeList_i = treeList[i];
int n = treeList_i.length;
out.writeInt (n);
for (int j = 0; j < n; ++ j)
{
out.writeInt (treeList_i[j]);
}
}
}
/**
* Read this maximum parsimony results object from the given object input
* stream.
*
* @param in Object input stream.
*
* @exception IOException
* Thrown if an I/O error occurred.
*/
public void readExternal
(ObjectInput in)
throws IOException
{
size = in.readInt();
capacity = in.readInt();
score = in.readInt();
treeList = new int [capacity+PAD] [];
for (int i = 0; i < size; ++ i)
{
int n = in.readInt();
int[] treeList_i = new int [n];
treeList[i] = treeList_i;
for (int j = 0; j < n; ++ j)
{
treeList_i[j] = in.readInt();
}
}
}
}