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/*
 * Licensed to the Apache Software Foundation (ASF) under one
 * or more contributor license agreements.  See the NOTICE file
 * distributed with this work for additional information
 * regarding copyright ownership.  The ASF licenses this file
 * to you under the Apache License, Version 2.0 (the
 * "License"); you may not use this file except in compliance
 * with the License.  You may obtain a copy of the License at
 *
 *  http://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing,
 * software distributed under the License is distributed on an
 * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
 * KIND, either express or implied.  See the License for the
 * specific language governing permissions and limitations
 * under the License.
 */

// Code source of this file:
//   http://grepcode.com/file/repo1.maven.org/maven2/
//     org.apache.maven/maven-artifact/3.1.1/
//       org/apache/maven/artifact/versioning/ComparableVersion.java/
//
// Modifications made on top of the source:
//   1. Changed
//        package org.apache.maven.artifact.versioning;
//      to
//        package org.apache.hadoop.util;
//   2. Removed author tags to clear hadoop author tag warning
//
package org.apache.hadoop.util;


import java.math.BigInteger;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.Iterator;
import java.util.List;
import java.util.ListIterator;
import java.util.Properties;
import java.util.Stack;

/**
 * Generic implementation of version comparison.
 * 
 * 

Features: *

    *
  • mixing of '-' (dash) and '.' (dot) separators,
  • *
  • transition between characters and digits also constitutes a separator: * 1.0alpha1 => [1, 0, alpha, 1]
  • *
  • unlimited number of version components,
  • *
  • version components in the text can be digits or strings,
  • *
  • strings are checked for well-known qualifiers and the qualifier ordering is used for version ordering. * Well-known qualifiers (case insensitive) are:
      *
    • alpha or a
    • *
    • beta or b
    • *
    • milestone or m
    • *
    • rc or cr
    • *
    • snapshot
    • *
    • (the empty string) or ga or final
    • *
    • sp
    • *
    * Unknown qualifiers are considered after known qualifiers, with lexical order (always case insensitive), *
  • *
  • a dash usually precedes a qualifier, and is always less important than something preceded with a dot.
  • *

* * @see "Versioning" on Maven Wiki */ public class ComparableVersion implements Comparable { private String value; private String canonical; private ListItem items; private interface Item { int INTEGER_ITEM = 0; int STRING_ITEM = 1; int LIST_ITEM = 2; int compareTo( Item item ); int getType(); boolean isNull(); } /** * Represents a numeric item in the version item list. */ private static class IntegerItem implements Item { private static final BigInteger BIG_INTEGER_ZERO = new BigInteger( "0" ); private final BigInteger value; public static final IntegerItem ZERO = new IntegerItem(); private IntegerItem() { this.value = BIG_INTEGER_ZERO; } public IntegerItem( String str ) { this.value = new BigInteger( str ); } public int getType() { return INTEGER_ITEM; } public boolean isNull() { return BIG_INTEGER_ZERO.equals( value ); } public int compareTo( Item item ) { if ( item == null ) { return BIG_INTEGER_ZERO.equals( value ) ? 0 : 1; // 1.0 == 1, 1.1 > 1 } switch ( item.getType() ) { case INTEGER_ITEM: return value.compareTo( ( (IntegerItem) item ).value ); case STRING_ITEM: return 1; // 1.1 > 1-sp case LIST_ITEM: return 1; // 1.1 > 1-1 default: throw new RuntimeException( "invalid item: " + item.getClass() ); } } public String toString() { return value.toString(); } } /** * Represents a string in the version item list, usually a qualifier. */ private static class StringItem implements Item { private static final String[] QUALIFIERS = { "alpha", "beta", "milestone", "rc", "snapshot", "", "sp" }; private static final List _QUALIFIERS = Arrays.asList( QUALIFIERS ); private static final Properties ALIASES = new Properties(); static { ALIASES.put( "ga", "" ); ALIASES.put( "final", "" ); ALIASES.put( "cr", "rc" ); } /** * A comparable value for the empty-string qualifier. This one is used to determine if a given qualifier makes * the version older than one without a qualifier, or more recent. */ private static final String RELEASE_VERSION_INDEX = String.valueOf( _QUALIFIERS.indexOf( "" ) ); private String value; public StringItem( String value, boolean followedByDigit ) { if ( followedByDigit && value.length() == 1 ) { // a1 = alpha-1, b1 = beta-1, m1 = milestone-1 switch ( value.charAt( 0 ) ) { case 'a': value = "alpha"; break; case 'b': value = "beta"; break; case 'm': value = "milestone"; break; default: break; } } this.value = ALIASES.getProperty( value , value ); } public int getType() { return STRING_ITEM; } public boolean isNull() { return ( comparableQualifier( value ).compareTo( RELEASE_VERSION_INDEX ) == 0 ); } /** * Returns a comparable value for a qualifier. * * This method takes into account the ordering of known qualifiers then unknown qualifiers with lexical ordering. * * just returning an Integer with the index here is faster, but requires a lot of if/then/else to check for -1 * or QUALIFIERS.size and then resort to lexical ordering. Most comparisons are decided by the first character, * so this is still fast. If more characters are needed then it requires a lexical sort anyway. * * @param qualifier * @return an equivalent value that can be used with lexical comparison */ public static String comparableQualifier( String qualifier ) { int i = _QUALIFIERS.indexOf( qualifier ); return i == -1 ? ( _QUALIFIERS.size() + "-" + qualifier ) : String.valueOf( i ); } public int compareTo( Item item ) { if ( item == null ) { // 1-rc < 1, 1-ga > 1 return comparableQualifier( value ).compareTo( RELEASE_VERSION_INDEX ); } switch ( item.getType() ) { case INTEGER_ITEM: return -1; // 1.any < 1.1 ? case STRING_ITEM: return comparableQualifier( value ).compareTo( comparableQualifier( ( (StringItem) item ).value ) ); case LIST_ITEM: return -1; // 1.any < 1-1 default: throw new RuntimeException( "invalid item: " + item.getClass() ); } } public String toString() { return value; } } /** * Represents a version list item. This class is used both for the global item list and for sub-lists (which start * with '-(number)' in the version specification). */ private static class ListItem extends ArrayList implements Item { public int getType() { return LIST_ITEM; } public boolean isNull() { return ( size() == 0 ); } void normalize() { for ( ListIterator iterator = listIterator( size() ); iterator.hasPrevious(); ) { Item item = iterator.previous(); if ( item.isNull() ) { iterator.remove(); // remove null trailing items: 0, "", empty list } else { break; } } } public int compareTo( Item item ) { if ( item == null ) { if ( size() == 0 ) { return 0; // 1-0 = 1- (normalize) = 1 } Item first = get( 0 ); return first.compareTo( null ); } switch ( item.getType() ) { case INTEGER_ITEM: return -1; // 1-1 < 1.0.x case STRING_ITEM: return 1; // 1-1 > 1-sp case LIST_ITEM: Iterator left = iterator(); Iterator right = ( (ListItem) item ).iterator(); while ( left.hasNext() || right.hasNext() ) { Item l = left.hasNext() ? left.next() : null; Item r = right.hasNext() ? right.next() : null; // if this is shorter, then invert the compare and mul with -1 int result = l == null ? -1 * r.compareTo( l ) : l.compareTo( r ); if ( result != 0 ) { return result; } } return 0; default: throw new RuntimeException( "invalid item: " + item.getClass() ); } } public String toString() { StringBuilder buffer = new StringBuilder( "(" ); for ( Iterator iter = iterator(); iter.hasNext(); ) { buffer.append( iter.next() ); if ( iter.hasNext() ) { buffer.append( ',' ); } } buffer.append( ')' ); return buffer.toString(); } } public ComparableVersion( String version ) { parseVersion( version ); } public final void parseVersion( String version ) { this.value = version; items = new ListItem(); version = StringUtils.toLowerCase(version); ListItem list = items; Stack stack = new Stack(); stack.push( list ); boolean isDigit = false; int startIndex = 0; for ( int i = 0; i < version.length(); i++ ) { char c = version.charAt( i ); if ( c == '.' ) { if ( i == startIndex ) { list.add( IntegerItem.ZERO ); } else { list.add( parseItem( isDigit, version.substring( startIndex, i ) ) ); } startIndex = i + 1; } else if ( c == '-' ) { if ( i == startIndex ) { list.add( IntegerItem.ZERO ); } else { list.add( parseItem( isDigit, version.substring( startIndex, i ) ) ); } startIndex = i + 1; if ( isDigit ) { list.normalize(); // 1.0-* = 1-* if ( ( i + 1 < version.length() ) && Character.isDigit( version.charAt( i + 1 ) ) ) { // new ListItem only if previous were digits and new char is a digit, // ie need to differentiate only 1.1 from 1-1 list.add( list = new ListItem() ); stack.push( list ); } } } else if ( Character.isDigit( c ) ) { if ( !isDigit && i > startIndex ) { list.add( new StringItem( version.substring( startIndex, i ), true ) ); startIndex = i; } isDigit = true; } else { if ( isDigit && i > startIndex ) { list.add( parseItem( true, version.substring( startIndex, i ) ) ); startIndex = i; } isDigit = false; } } if ( version.length() > startIndex ) { list.add( parseItem( isDigit, version.substring( startIndex ) ) ); } while ( !stack.isEmpty() ) { list = (ListItem) stack.pop(); list.normalize(); } canonical = items.toString(); } private static Item parseItem( boolean isDigit, String buf ) { return isDigit ? new IntegerItem( buf ) : new StringItem( buf, false ); } public int compareTo( ComparableVersion o ) { return items.compareTo( o.items ); } public String toString() { return value; } public boolean equals( Object o ) { return ( o instanceof ComparableVersion ) && canonical.equals( ( (ComparableVersion) o ).canonical ); } public int hashCode() { return canonical.hashCode(); } }




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