Operate on List not ArrayList. Widening.
git-svn-id: https://samskivert.googlecode.com/svn/trunk@2271 6335cc39-0255-0410-8fd6-9bcaacd3b74c
This commit is contained in:
@@ -20,7 +20,7 @@
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package com.samskivert.util;
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import java.util.ArrayList;
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import java.util.List;
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import java.util.Comparator;
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/**
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@@ -29,8 +29,7 @@ import java.util.Comparator;
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public class QuickSort
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{
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/**
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* Sorts the supplied array of objects from least to greatest, using
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* the supplied comparator.
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* Sorts the supplied array of objects from least to greatest, using the supplied comparator.
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*/
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public static <T> void sort (T[] a, Comparator<? super T> comp)
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{
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@@ -38,8 +37,7 @@ public class QuickSort
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}
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/**
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* Sorts the supplied array of comparable objects from least to
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* greatest.
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* Sorts the supplied array of comparable objects from least to greatest.
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*/
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public static <T extends Comparable<? super T>> void sort (T[] a)
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{
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@@ -47,8 +45,7 @@ public class QuickSort
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}
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/**
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* Sorts the supplied array of objects from greatest to least, using
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* the supplied comparator.
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* Sorts the supplied array of objects from greatest to least, using the supplied comparator.
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*/
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public static <T> void rsort (T[] a, Comparator<? super T> comp)
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{
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@@ -56,8 +53,7 @@ public class QuickSort
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}
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/**
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* Sorts the supplied array of comparable objects from greatest to
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* least.
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* Sorts the supplied array of comparable objects from greatest to least.
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*/
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public static <T extends Comparable<? super T>> void rsort (T[] a)
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{
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@@ -65,19 +61,15 @@ public class QuickSort
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}
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/**
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* Sorts the specified subset of the supplied array from least to
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* greatest, using the supplied comparator.
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* Sorts the specified subset of the supplied array from least to greatest, using the supplied
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* comparator.
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*
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* @param a the array of objects to be sorted.
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* @param lo0 the index of the lowest element to be included in the
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* sort.
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* @param hi0 the index of the highest element to be included in the
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* sort.
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* @param comp the comparator to use to establish ordering between
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* elements.
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* @param lo0 the index of the lowest element to be included in the sort.
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* @param hi0 the index of the highest element to be included in the sort.
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* @param comp the comparator to use to establish ordering between elements.
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*/
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public static <T> void sort (
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T[] a, int lo0, int hi0, Comparator<? super T> comp)
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public static <T> void sort (T[] a, int lo0, int hi0, Comparator<? super T> comp)
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{
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// bail out if we're already done
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if (hi0 <= lo0) {
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@@ -103,12 +95,12 @@ public class QuickSort
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// loop through the array until indices cross
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for (;;) {
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// find the first element that is greater than or equal to
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// the partition element starting from the left Index.
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// find the first element that is greater than or equal to the partition element
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// starting from the left index
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while (comp.compare(a[++lo], mid) < 0);
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// find an element that is smaller than or equal to
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// the partition element starting from the right Index.
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// find an element that is smaller than or equal to the partition element starting from
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// the right index
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while (comp.compare(mid, a[--hi]) < 0);
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// swap the two elements or bail out of the loop
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@@ -119,33 +111,29 @@ public class QuickSort
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}
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}
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// if the right index has not reached the left side of array
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// must now sort the left partition
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// if the right index has not reached the left side of array must now sort the left
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// partition
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if (lo0 < lo-1) {
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sort(a, lo0, lo-1, comp);
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}
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// if the left index has not reached the right side of array
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// must now sort the right partition
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// if the left index has not reached the right side of array must now sort the right
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// partition
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if (hi+1 < hi0) {
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sort(a, hi+1, hi0, comp);
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}
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}
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/**
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* Sorts the specified subset of the supplied array from greatest to
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* least, using the supplied comparator.
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* Sorts the specified subset of the supplied array from greatest to least, using the supplied
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* comparator.
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*
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* @param a the array of objects to be sorted.
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* @param lo0 the index of the lowest element to be included in the
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* sort.
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* @param hi0 the index of the highest element to be included in the
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* sort.
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* @param comp the comparator to use to establish ordering between
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* elements.
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* @param lo0 the index of the lowest element to be included in the sort.
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* @param hi0 the index of the highest element to be included in the sort.
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* @param comp the comparator to use to establish ordering between elements.
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*/
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public static <T> void rsort (
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T[] a, int lo0, int hi0, Comparator<? super T> comp)
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public static <T> void rsort (T[] a, int lo0, int hi0, Comparator<? super T> comp)
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{
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// bail out if we're already done
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if (hi0 <= lo0) {
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@@ -171,12 +159,12 @@ public class QuickSort
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// loop through the array until indices cross
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for (;;) {
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// find the first element that is greater than or equal to
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// the partition element starting from the left Index.
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// find the first element that is greater than or equal to the partition element
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// starting from the left index
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while (comp.compare(mid, a[++lo]) < 0);
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// find an element that is smaller than or equal to
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// the partition element starting from the right Index.
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// find an element that is smaller than or equal to the partition element starting from
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// the right index
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while (comp.compare(a[--hi], mid) < 0);
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// swap the two elements or bail out of the loop
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@@ -187,31 +175,28 @@ public class QuickSort
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}
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}
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// if the right index has not reached the left side of array
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// must now sort the left partition
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// if the right index has not reached the left side of array must now sort the left
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// partition
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if (lo0 < lo-1) {
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rsort(a, lo0, lo-1, comp);
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}
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// if the left index has not reached the right side of array
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// must now sort the right partition
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// if the left index has not reached the right side of array must now sort the right
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// partition
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if (hi+1 < hi0) {
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rsort(a, hi+1, hi0, comp);
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}
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}
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/**
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* Sorts the specified subset of the supplied array of comparables
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* from least to greatest, using the supplied comparator.
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* Sorts the specified subset of the supplied array of comparables from least to greatest,
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* using the supplied comparator.
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*
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* @param a the array of objects to be sorted.
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* @param lo0 the index of the lowest element to be included in the
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* sort.
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* @param hi0 the index of the highest element to be included in the
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* sort.
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* @param lo0 the index of the lowest element to be included in the sort.
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* @param hi0 the index of the highest element to be included in the sort.
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*/
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public static <T extends Comparable<? super T>> void sort (
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T[] a, int lo0, int hi0)
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public static <T extends Comparable<? super T>> void sort (T[] a, int lo0, int hi0)
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{
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// bail out if we're already done
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if (hi0 <= lo0) {
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@@ -237,12 +222,12 @@ public class QuickSort
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// loop through the array until indices cross
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for (;;) {
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// find the first element that is greater than or equal to
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// the partition element starting from the left Index.
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// find the first element that is greater than or equal to the partition element
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// starting from the left Index.
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while (mid.compareTo(a[++lo]) > 0);
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// find an element that is smaller than or equal to
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// the partition element starting from the right Index.
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// find an element that is smaller than or equal to the partition element starting from
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// the right Index.
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while (mid.compareTo(a[--hi]) < 0);
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// swap the two elements or bail out of the loop
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@@ -253,31 +238,28 @@ public class QuickSort
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}
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}
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// if the right index has not reached the left side of array
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// must now sort the left partition
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// if the right index has not reached the left side of array must now sort the left
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// partition
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if (lo0 < lo-1) {
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sort(a, lo0, lo-1);
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}
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// if the left index has not reached the right side of array
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// must now sort the right partition
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// if the left index has not reached the right side of array must now sort the right
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// partition
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if (hi+1 < hi0) {
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sort(a, hi+1, hi0);
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}
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}
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/**
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* Sorts the specified subset of the supplied array of comparables
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* from greatest to least, using the supplied comparator.
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* Sorts the specified subset of the supplied array of comparables from greatest to least,
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* using the supplied comparator.
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*
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* @param a the array of objects to be sorted.
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* @param lo0 the index of the lowest element to be included in the
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* sort.
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* @param hi0 the index of the highest element to be included in the
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* sort.
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* @param lo0 the index of the lowest element to be included in the sort.
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* @param hi0 the index of the highest element to be included in the sort.
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*/
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public static <T extends Comparable<? super T>> void rsort (
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T[] a, int lo0, int hi0)
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public static <T extends Comparable<? super T>> void rsort (T[] a, int lo0, int hi0)
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{
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// bail out if we're already done
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if (hi0 <= lo0) {
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@@ -303,12 +285,12 @@ public class QuickSort
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// loop through the array until indices cross
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for (;;) {
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// find the first element that is greater than or equal to
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// the partition element starting from the left Index.
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// find the first element that is greater than or equal to the partition element
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// starting from the left index
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while (mid.compareTo(a[++lo]) < 0);
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// find an element that is smaller than or equal to
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// the partition element starting from the right Index.
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// find an element that is smaller than or equal to the partition element starting from
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// the right index
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while (mid.compareTo(a[--hi]) > 0);
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// swap the two elements or bail out of the loop
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@@ -319,24 +301,23 @@ public class QuickSort
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}
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}
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// if the right index has not reached the left side of array
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// must now sort the left partition
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// if the right index has not reached the left side of array must now sort the left
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// partition
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if (lo0 < lo-1) {
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rsort(a, lo0, lo-1);
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}
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// if the left index has not reached the right side of array
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// must now sort the right partition
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// if the left index has not reached the right side of array must now sort the right
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// partition
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if (hi+1 < hi0) {
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rsort(a, hi+1, hi0);
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}
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}
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/**
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* Sort the elements in the specified ArrayList according to their
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* natural order.
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* Sort the elements in the specified List according to their natural order.
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*/
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public static <T extends Comparable<? super T>> void sort (ArrayList<T> a)
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public static <T extends Comparable<? super T>> void sort (List<T> a)
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{
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sort(a, new Comparator<T>() {
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public int compare (T o1, T o2) {
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@@ -353,19 +334,18 @@ public class QuickSort
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}
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/**
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* Sort the elements in the specified ArrayList according to the
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* ordering imposed by the specified Comparator.
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* Sort the elements in the specified List according to the ordering imposed by the specified
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* Comparator.
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*/
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public static <T> void sort (ArrayList<T> a, Comparator<T> comp)
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public static <T> void sort (List<T> a, Comparator<T> comp)
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{
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sort(a, 0, a.size() - 1, comp);
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}
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/**
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* Sort the elements in the specified ArrayList according to their
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* reverse natural order.
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* Sort the elements in the specified List according to their reverse natural order.
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*/
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public static <T extends Comparable<? super T>> void rsort (ArrayList<T> a)
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public static <T extends Comparable<? super T>> void rsort (List<T> a)
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{
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sort(a, new Comparator<T>() {
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public int compare (T o1, T o2) {
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@@ -382,10 +362,10 @@ public class QuickSort
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}
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/**
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* Sort the elements in the specified ArrayList according to the
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* reverse ordering imposed by the specified Comparator.
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* Sort the elements in the specified List according to the reverse ordering imposed by the
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* specified Comparator.
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*/
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public static <T> void rsort (ArrayList<T> a, final Comparator<T> comp)
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public static <T> void rsort (List<T> a, final Comparator<T> comp)
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{
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sort(a, new Comparator<T>() {
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public int compare (T o1, T o2) {
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@@ -395,11 +375,10 @@ public class QuickSort
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}
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/**
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* Sort a subset of the elements in the specified ArrayList according
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* to the ordering imposed by the specified Comparator.
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* Sort a subset of the elements in the specified List according to the ordering imposed by the
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* specified Comparator.
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*/
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public static <T> void sort (
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ArrayList<T> a, int lo0, int hi0, Comparator<T> comp)
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public static <T> void sort (List<T> a, int lo0, int hi0, Comparator<T> comp)
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{
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// bail out if we're already done
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if (hi0 <= lo0) {
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@@ -428,14 +407,14 @@ public class QuickSort
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// loop through the array until indices cross
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for (;;) {
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// find the first element that is greater than or equal to
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// the partition element starting from the left Index.
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// find the first element that is greater than or equal to the partition element
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// starting from the left index
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do {
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e1 = a.get(++lo);
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} while (comp.compare(e1, mid) < 0);
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// find an element that is smaller than or equal to
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// the partition element starting from the right Index.
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// find an element that is smaller than or equal to the partition element starting from
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// the right index
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do {
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e2 = a.get(--hi);
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} while (comp.compare(mid, e2) < 0);
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@@ -449,14 +428,14 @@ public class QuickSort
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}
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}
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// if the right index has not reached the left side of array
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// must now sort the left partition
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// if the right index has not reached the left side of array must now sort the left
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// partition
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if (lo0 < lo-1) {
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sort(a, lo0, lo-1, comp);
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}
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// if the left index has not reached the right side of array
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// must now sort the right partition
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// if the left index has not reached the right side of array must now sort the right
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// partition
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if (hi+1 < hi0) {
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sort(a, hi+1, hi0, comp);
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}
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Reference in New Issue
Block a user