001package org.apache.maven.artifact.versioning; 002 003/* 004 * Licensed to the Apache Software Foundation (ASF) under one 005 * or more contributor license agreements. See the NOTICE file 006 * distributed with this work for additional information 007 * regarding copyright ownership. The ASF licenses this file 008 * to you under the Apache License, Version 2.0 (the 009 * "License"); you may not use this file except in compliance 010 * with the License. You may obtain a copy of the License at 011 * 012 * http://www.apache.org/licenses/LICENSE-2.0 013 * 014 * Unless required by applicable law or agreed to in writing, 015 * software distributed under the License is distributed on an 016 * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY 017 * KIND, either express or implied. See the License for the 018 * specific language governing permissions and limitations 019 * under the License. 020 */ 021 022import java.math.BigInteger; 023import java.util.ArrayList; 024import java.util.Arrays; 025import java.util.Iterator; 026import java.util.List; 027import java.util.ListIterator; 028import java.util.Locale; 029import java.util.Properties; 030import java.util.Stack; 031 032/** 033 * Generic implementation of version comparison. 034 * 035 * <p>Features: 036 * <ul> 037 * <li>mixing of '<code>-</code>' (dash) and '<code>.</code>' (dot) separators,</li> 038 * <li>transition between characters and digits also constitutes a separator: 039 * <code>1.0alpha1 => [1, 0, alpha, 1]</code></li> 040 * <li>unlimited number of version components,</li> 041 * <li>version components in the text can be digits or strings,</li> 042 * <li>strings are checked for well-known qualifiers and the qualifier ordering is used for version ordering. 043 * Well-known qualifiers (case insensitive) are:<ul> 044 * <li><code>alpha</code> or <code>a</code></li> 045 * <li><code>beta</code> or <code>b</code></li> 046 * <li><code>milestone</code> or <code>m</code></li> 047 * <li><code>rc</code> or <code>cr</code></li> 048 * <li><code>snapshot</code></li> 049 * <li><code>(the empty string)</code> or <code>ga</code> or <code>final</code></li> 050 * <li><code>sp</code></li> 051 * </ul> 052 * Unknown qualifiers are considered after known qualifiers, with lexical order (always case insensitive), 053 * </li> 054 * <li>a dash usually precedes a qualifier, and is always less important than something preceded with a dot.</li> 055 * </ul></p> 056 * 057 * @see <a href="https://cwiki.apache.org/confluence/display/MAVENOLD/Versioning">"Versioning" on Maven Wiki</a> 058 * @author <a href="mailto:kenney@apache.org">Kenney Westerhof</a> 059 * @author <a href="mailto:hboutemy@apache.org">Hervé Boutemy</a> 060 */ 061public class ComparableVersion 062 implements Comparable<ComparableVersion> 063{ 064 private String value; 065 066 private String canonical; 067 068 private ListItem items; 069 070 private interface Item 071 { 072 int INTEGER_ITEM = 0; 073 int STRING_ITEM = 1; 074 int LIST_ITEM = 2; 075 076 int compareTo( Item item ); 077 078 int getType(); 079 080 boolean isNull(); 081 } 082 083 /** 084 * Represents a numeric item in the version item list. 085 */ 086 private static class IntegerItem 087 implements Item 088 { 089 private static final BigInteger BIG_INTEGER_ZERO = new BigInteger( "0" ); 090 091 private final BigInteger value; 092 093 public static final IntegerItem ZERO = new IntegerItem(); 094 095 private IntegerItem() 096 { 097 this.value = BIG_INTEGER_ZERO; 098 } 099 100 public IntegerItem( String str ) 101 { 102 this.value = new BigInteger( str ); 103 } 104 105 public int getType() 106 { 107 return INTEGER_ITEM; 108 } 109 110 public boolean isNull() 111 { 112 return BIG_INTEGER_ZERO.equals( value ); 113 } 114 115 public int compareTo( Item item ) 116 { 117 if ( item == null ) 118 { 119 return BIG_INTEGER_ZERO.equals( value ) ? 0 : 1; // 1.0 == 1, 1.1 > 1 120 } 121 122 switch ( item.getType() ) 123 { 124 case INTEGER_ITEM: 125 return value.compareTo( ( (IntegerItem) item ).value ); 126 127 case STRING_ITEM: 128 return 1; // 1.1 > 1-sp 129 130 case LIST_ITEM: 131 return 1; // 1.1 > 1-1 132 133 default: 134 throw new RuntimeException( "invalid item: " + item.getClass() ); 135 } 136 } 137 138 public String toString() 139 { 140 return value.toString(); 141 } 142 } 143 144 /** 145 * Represents a string in the version item list, usually a qualifier. 146 */ 147 private static class StringItem 148 implements Item 149 { 150 private static final String[] QUALIFIERS = { "alpha", "beta", "milestone", "rc", "snapshot", "", "sp" }; 151 152 private static final List<String> _QUALIFIERS = Arrays.asList( QUALIFIERS ); 153 154 private static final Properties ALIASES = new Properties(); 155 static 156 { 157 ALIASES.put( "ga", "" ); 158 ALIASES.put( "final", "" ); 159 ALIASES.put( "cr", "rc" ); 160 } 161 162 /** 163 * A comparable value for the empty-string qualifier. This one is used to determine if a given qualifier makes 164 * the version older than one without a qualifier, or more recent. 165 */ 166 private static final String RELEASE_VERSION_INDEX = String.valueOf( _QUALIFIERS.indexOf( "" ) ); 167 168 private String value; 169 170 public StringItem( String value, boolean followedByDigit ) 171 { 172 if ( followedByDigit && value.length() == 1 ) 173 { 174 // a1 = alpha-1, b1 = beta-1, m1 = milestone-1 175 switch ( value.charAt( 0 ) ) 176 { 177 case 'a': 178 value = "alpha"; 179 break; 180 case 'b': 181 value = "beta"; 182 break; 183 case 'm': 184 value = "milestone"; 185 break; 186 } 187 } 188 this.value = ALIASES.getProperty( value , value ); 189 } 190 191 public int getType() 192 { 193 return STRING_ITEM; 194 } 195 196 public boolean isNull() 197 { 198 return ( comparableQualifier( value ).compareTo( RELEASE_VERSION_INDEX ) == 0 ); 199 } 200 201 /** 202 * Returns a comparable value for a qualifier. 203 * 204 * This method takes into account the ordering of known qualifiers then unknown qualifiers with lexical ordering. 205 * 206 * just returning an Integer with the index here is faster, but requires a lot of if/then/else to check for -1 207 * or QUALIFIERS.size and then resort to lexical ordering. Most comparisons are decided by the first character, 208 * so this is still fast. If more characters are needed then it requires a lexical sort anyway. 209 * 210 * @param qualifier 211 * @return an equivalent value that can be used with lexical comparison 212 */ 213 public static String comparableQualifier( String qualifier ) 214 { 215 int i = _QUALIFIERS.indexOf( qualifier ); 216 217 return i == -1 ? ( _QUALIFIERS.size() + "-" + qualifier ) : String.valueOf( i ); 218 } 219 220 public int compareTo( Item item ) 221 { 222 if ( item == null ) 223 { 224 // 1-rc < 1, 1-ga > 1 225 return comparableQualifier( value ).compareTo( RELEASE_VERSION_INDEX ); 226 } 227 switch ( item.getType() ) 228 { 229 case INTEGER_ITEM: 230 return -1; // 1.any < 1.1 ? 231 232 case STRING_ITEM: 233 return comparableQualifier( value ).compareTo( comparableQualifier( ( (StringItem) item ).value ) ); 234 235 case LIST_ITEM: 236 return -1; // 1.any < 1-1 237 238 default: 239 throw new RuntimeException( "invalid item: " + item.getClass() ); 240 } 241 } 242 243 public String toString() 244 { 245 return value; 246 } 247 } 248 249 /** 250 * Represents a version list item. This class is used both for the global item list and for sub-lists (which start 251 * with '-(number)' in the version specification). 252 */ 253 private static class ListItem 254 extends ArrayList<Item> 255 implements Item 256 { 257 public int getType() 258 { 259 return LIST_ITEM; 260 } 261 262 public boolean isNull() 263 { 264 return ( size() == 0 ); 265 } 266 267 void normalize() 268 { 269 for ( ListIterator<Item> iterator = listIterator( size() ); iterator.hasPrevious(); ) 270 { 271 Item item = iterator.previous(); 272 if ( item.isNull() ) 273 { 274 iterator.remove(); // remove null trailing items: 0, "", empty list 275 } 276 else 277 { 278 break; 279 } 280 } 281 } 282 283 public int compareTo( Item item ) 284 { 285 if ( item == null ) 286 { 287 if ( size() == 0 ) 288 { 289 return 0; // 1-0 = 1- (normalize) = 1 290 } 291 Item first = get( 0 ); 292 return first.compareTo( null ); 293 } 294 switch ( item.getType() ) 295 { 296 case INTEGER_ITEM: 297 return -1; // 1-1 < 1.0.x 298 299 case STRING_ITEM: 300 return 1; // 1-1 > 1-sp 301 302 case LIST_ITEM: 303 Iterator<Item> left = iterator(); 304 Iterator<Item> right = ( (ListItem) item ).iterator(); 305 306 while ( left.hasNext() || right.hasNext() ) 307 { 308 Item l = left.hasNext() ? left.next() : null; 309 Item r = right.hasNext() ? right.next() : null; 310 311 // if this is shorter, then invert the compare and mul with -1 312 int result = l == null ? -1 * r.compareTo( l ) : l.compareTo( r ); 313 314 if ( result != 0 ) 315 { 316 return result; 317 } 318 } 319 320 return 0; 321 322 default: 323 throw new RuntimeException( "invalid item: " + item.getClass() ); 324 } 325 } 326 327 public String toString() 328 { 329 StringBuilder buffer = new StringBuilder( "(" ); 330 for ( Iterator<Item> iter = iterator(); iter.hasNext(); ) 331 { 332 buffer.append( iter.next() ); 333 if ( iter.hasNext() ) 334 { 335 buffer.append( ',' ); 336 } 337 } 338 buffer.append( ')' ); 339 return buffer.toString(); 340 } 341 } 342 343 public ComparableVersion( String version ) 344 { 345 parseVersion( version ); 346 } 347 348 public final void parseVersion( String version ) 349 { 350 this.value = version; 351 352 items = new ListItem(); 353 354 version = version.toLowerCase( Locale.ENGLISH ); 355 356 ListItem list = items; 357 358 Stack<Item> stack = new Stack<Item>(); 359 stack.push( list ); 360 361 boolean isDigit = false; 362 363 int startIndex = 0; 364 365 for ( int i = 0; i < version.length(); i++ ) 366 { 367 char c = version.charAt( i ); 368 369 if ( c == '.' ) 370 { 371 if ( i == startIndex ) 372 { 373 list.add( IntegerItem.ZERO ); 374 } 375 else 376 { 377 list.add( parseItem( isDigit, version.substring( startIndex, i ) ) ); 378 } 379 startIndex = i + 1; 380 } 381 else if ( c == '-' ) 382 { 383 if ( i == startIndex ) 384 { 385 list.add( IntegerItem.ZERO ); 386 } 387 else 388 { 389 list.add( parseItem( isDigit, version.substring( startIndex, i ) ) ); 390 } 391 startIndex = i + 1; 392 393 if ( isDigit ) 394 { 395 list.normalize(); // 1.0-* = 1-* 396 397 if ( ( i + 1 < version.length() ) && Character.isDigit( version.charAt( i + 1 ) ) ) 398 { 399 // new ListItem only if previous were digits and new char is a digit, 400 // ie need to differentiate only 1.1 from 1-1 401 list.add( list = new ListItem() ); 402 403 stack.push( list ); 404 } 405 } 406 } 407 else if ( Character.isDigit( c ) ) 408 { 409 if ( !isDigit && i > startIndex ) 410 { 411 list.add( new StringItem( version.substring( startIndex, i ), true ) ); 412 startIndex = i; 413 } 414 415 isDigit = true; 416 } 417 else 418 { 419 if ( isDigit && i > startIndex ) 420 { 421 list.add( parseItem( true, version.substring( startIndex, i ) ) ); 422 startIndex = i; 423 } 424 425 isDigit = false; 426 } 427 } 428 429 if ( version.length() > startIndex ) 430 { 431 list.add( parseItem( isDigit, version.substring( startIndex ) ) ); 432 } 433 434 while ( !stack.isEmpty() ) 435 { 436 list = (ListItem) stack.pop(); 437 list.normalize(); 438 } 439 440 canonical = items.toString(); 441 } 442 443 private static Item parseItem( boolean isDigit, String buf ) 444 { 445 return isDigit ? new IntegerItem( buf ) : new StringItem( buf, false ); 446 } 447 448 public int compareTo( ComparableVersion o ) 449 { 450 return items.compareTo( o.items ); 451 } 452 453 public String toString() 454 { 455 return value; 456 } 457 458 public boolean equals( Object o ) 459 { 460 return ( o instanceof ComparableVersion ) && canonical.equals( ( (ComparableVersion) o ).canonical ); 461 } 462 463 public int hashCode() 464 { 465 return canonical.hashCode(); 466 } 467}