Mercurial > jhg
view src/org/tmatesoft/hg/internal/IntMap.java @ 341:75c452fdd76a
Merging state not detected when there's no conflicts to resolve (no merge/state file)
author | Artem Tikhomirov <tikhomirov.artem@gmail.com> |
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date | Thu, 17 Nov 2011 07:04:58 +0100 |
parents | 81e9a3c9bafe |
children | ee8264d80747 2e402c12ebc6 |
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/* * Copyright (c) 2011 TMate Software Ltd * * This program 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; version 2 of the License. * * This program 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. * * For information on how to redistribute this software under * the terms of a license other than GNU General Public License * contact TMate Software at support@hg4j.com */ package org.tmatesoft.hg.internal; import java.util.NoSuchElementException; /** * Map implementation that uses plain int keys and performs with log n effectiveness. * * @author Artem Tikhomirov * @author TMate Software Ltd. */ public class IntMap<V> { private int[] keys; private Object[] values; private int size; public IntMap(int size) { keys = new int[size <= 0 ? 16 : size]; values = new Object[keys.length]; } public int size() { return size; } public int firstKey() { if (size == 0) { throw new NoSuchElementException(); } return keys[0]; } public int lastKey() { if (size == 0) { throw new NoSuchElementException(); } return keys[size-1]; } public void trimToSize() { if (size < keys.length) { int[] newKeys = new int[size]; Object[] newValues = new Object[size]; System.arraycopy(keys, 0, newKeys, 0, size); System.arraycopy(values, 0, newValues, 0, size); keys = newKeys; values = newValues; } } public void put(int key, V value) { int ix = binarySearch(keys, size, key); if (ix < 0) { final int insertPoint = -ix - 1; assert insertPoint <= size; // can't be greater, provided binarySearch didn't malfunction. if (size == keys.length) { int capInc = size >>> 2; // +25% int newCapacity = size + (capInc < 2 ? 2 : capInc) ; int[] newKeys = new int[newCapacity]; Object[] newValues = new Object[newCapacity]; System.arraycopy(keys, 0, newKeys, 0, insertPoint); System.arraycopy(keys, insertPoint, newKeys, insertPoint+1, keys.length - insertPoint); System.arraycopy(values, 0, newValues, 0, insertPoint); System.arraycopy(values, insertPoint, newValues, insertPoint+1, values.length - insertPoint); keys = newKeys; values = newValues; } else { // arrays got enough capacity if (insertPoint != size) { System.arraycopy(keys, insertPoint, keys, insertPoint+1, keys.length - insertPoint - 1); System.arraycopy(values, insertPoint, values, insertPoint+1, values.length - insertPoint - 1); } // else insertPoint is past known elements, no need to copy arrays } keys[insertPoint] = key; values[insertPoint] = value; size++; } else { values[ix] = value; } } public boolean containsKey(int key) { return binarySearch(keys, size, key) >= 0; } @SuppressWarnings("unchecked") public V get(int key) { int ix = binarySearch(keys, size, key); if (ix >= 0) { return (V) values[ix]; } return null; } public void remove(int key) { int ix = binarySearch(keys, size, key); if (ix >= 0) { if (ix <= size - 1) { System.arraycopy(keys, ix+1, keys, ix, size - ix - 1); System.arraycopy(values, ix+1, values, ix, size - ix - 1); } // if ix points to last element, no reason to attempt a copy size--; keys[size] = 0; values[size] = null; } } /** * Forget first N entries (in natural order) in the map. */ @Experimental public void removeFromStart(int count) { if (count > 0 && count <= size) { if (count < size) { System.arraycopy(keys, count, keys, 0, size - count); System.arraycopy(values, count, values, 0, size - count); } for (int i = size - count; i < size; i++) { keys[i] = 0; values[i] = null; } size -= count; } } // copy of Arrays.binarySearch, with upper search limit as argument private static int binarySearch(int[] a, int high, int key) { int low = 0; high--; while (low <= high) { int mid = (low + high) >> 1; int midVal = a[mid]; if (midVal < key) low = mid + 1; else if (midVal > key) high = mid - 1; else return mid; // key found } return -(low + 1); // key not found. } }