001/* 002 * Copyright (C) 2008 The Guava Authors 003 * 004 * Licensed under the Apache License, Version 2.0 (the "License"); 005 * you may not use this file except in compliance with the License. 006 * You may obtain a copy of the License at 007 * 008 * http://www.apache.org/licenses/LICENSE-2.0 009 * 010 * Unless required by applicable law or agreed to in writing, software 011 * distributed under the License is distributed on an "AS IS" BASIS, 012 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. 013 * See the License for the specific language governing permissions and 014 * limitations under the License. 015 */ 016 017package com.google.common.collect; 018 019import static com.google.common.base.Preconditions.checkNotNull; 020 021import com.google.common.annotations.GwtCompatible; 022import com.google.common.base.Equivalence; 023import com.google.common.base.Function; 024import com.google.common.base.Predicate; 025 026import java.io.Serializable; 027import java.util.Comparator; 028import java.util.Iterator; 029import java.util.NoSuchElementException; 030import java.util.SortedSet; 031 032import javax.annotation.Nullable; 033 034/** 035 * A range (or "interval") defines the <i>boundaries</i> around a contiguous span of values of some 036 * {@code Comparable} type; for example, "integers from 1 to 100 inclusive." Note that it is not 037 * possible to <i>iterate</i> over these contained values. To do so, pass this range instance and 038 * an appropriate {@link DiscreteDomain} to {@link ContiguousSet#create}. 039 * 040 * <h3>Types of ranges</h3> 041 * 042 * <p>Each end of the range may be bounded or unbounded. If bounded, there is an associated 043 * <i>endpoint</i> value, and the range is considered to be either <i>open</i> (does not include the 044 * endpoint) or <i>closed</i> (includes the endpoint) on that side. With three possibilities on each 045 * side, this yields nine basic types of ranges, enumerated below. (Notation: a square bracket 046 * ({@code [ ]}) indicates that the range is closed on that side; a parenthesis ({@code ( )}) means 047 * it is either open or unbounded. The construct {@code {x | statement}} is read "the set of all 048 * <i>x</i> such that <i>statement</i>.") 049 * 050 * <blockquote><table> 051 * <tr><td><b>Notation</b> <td><b>Definition</b> <td><b>Factory method</b> 052 * <tr><td>{@code (a..b)} <td>{@code {x | a < x < b}} <td>{@link Range#open open} 053 * <tr><td>{@code [a..b]} <td>{@code {x | a <= x <= b}}<td>{@link Range#closed closed} 054 * <tr><td>{@code (a..b]} <td>{@code {x | a < x <= b}} <td>{@link Range#openClosed openClosed} 055 * <tr><td>{@code [a..b)} <td>{@code {x | a <= x < b}} <td>{@link Range#closedOpen closedOpen} 056 * <tr><td>{@code (a..+∞)} <td>{@code {x | x > a}} <td>{@link Range#greaterThan greaterThan} 057 * <tr><td>{@code [a..+∞)} <td>{@code {x | x >= a}} <td>{@link Range#atLeast atLeast} 058 * <tr><td>{@code (-∞..b)} <td>{@code {x | x < b}} <td>{@link Range#lessThan lessThan} 059 * <tr><td>{@code (-∞..b]} <td>{@code {x | x <= b}} <td>{@link Range#atMost atMost} 060 * <tr><td>{@code (-∞..+∞)}<td>{@code {x}} <td>{@link Range#all all} 061 * </table></blockquote> 062 * 063 * <p>When both endpoints exist, the upper endpoint may not be less than the lower. The endpoints 064 * may be equal only if at least one of the bounds is closed: 065 * 066 * <ul> 067 * <li>{@code [a..a]} : a singleton range 068 * <li>{@code [a..a); (a..a]} : {@linkplain #isEmpty empty} ranges; also valid 069 * <li>{@code (a..a)} : <b>invalid</b>; an exception will be thrown 070 * </ul> 071 * 072 * <h3>Warnings</h3> 073 * 074 * <ul> 075 * <li>Use immutable value types only, if at all possible. If you must use a mutable type, <b>do 076 * not</b> allow the endpoint instances to mutate after the range is created! 077 * <li>Your value type's comparison method should be {@linkplain Comparable consistent with equals} 078 * if at all possible. Otherwise, be aware that concepts used throughout this documentation such 079 * as "equal", "same", "unique" and so on actually refer to whether {@link Comparable#compareTo 080 * compareTo} returns zero, not whether {@link Object#equals equals} returns {@code true}. 081 * <li>A class which implements {@code Comparable<UnrelatedType>} is very broken, and will cause 082 * undefined horrible things to happen in {@code Range}. For now, the Range API does not prevent 083 * its use, because this would also rule out all ungenerified (pre-JDK1.5) data types. <b>This 084 * may change in the future.</b> 085 * </ul> 086 * 087 * <h3>Other notes</h3> 088 * 089 * <ul> 090 * <li>Instances of this type are obtained using the static factory methods in this class. 091 * <li>Ranges are <i>convex</i>: whenever two values are contained, all values in between them must 092 * also be contained. More formally, for any {@code c1 <= c2 <= c3} of type {@code C}, {@code 093 * r.contains(c1) && r.contains(c3)} implies {@code r.contains(c2)}). This means that a {@code 094 * Range<Integer>} can never be used to represent, say, "all <i>prime</i> numbers from 1 to 095 * 100." 096 * <li>When evaluated as a {@link Predicate}, a range yields the same result as invoking {@link 097 * #contains}. 098 * <li>Terminology note: a range {@code a} is said to be the <i>maximal</i> range having property 099 * <i>P</i> if, for all ranges {@code b} also having property <i>P</i>, {@code a.encloses(b)}. 100 * Likewise, {@code a} is <i>minimal</i> when {@code b.encloses(a)} for all {@code b} having 101 * property <i>P</i>. See, for example, the definition of {@link #intersection intersection}. 102 * </ul> 103 * 104 * <h3>Further reading</h3> 105 * 106 * <p>See the Guava User Guide article on 107 * <a href="http://code.google.com/p/guava-libraries/wiki/RangesExplained">{@code Range}</a>. 108 * 109 * @author Kevin Bourrillion 110 * @author Gregory Kick 111 * @since 10.0 112 */ 113@GwtCompatible 114@SuppressWarnings("rawtypes") 115public final class Range<C extends Comparable> implements Predicate<C>, Serializable { 116 117 private static final Function<Range, Cut> LOWER_BOUND_FN = new Function<Range, Cut>() { 118 @Override 119 public Cut apply(Range range) { 120 return range.lowerBound; 121 } 122 }; 123 124 @SuppressWarnings("unchecked") 125 static <C extends Comparable<?>> Function<Range<C>, Cut<C>> lowerBoundFn() { 126 return (Function) LOWER_BOUND_FN; 127 } 128 129 private static final Function<Range, Cut> UPPER_BOUND_FN = new Function<Range, Cut>() { 130 @Override 131 public Cut apply(Range range) { 132 return range.upperBound; 133 } 134 }; 135 136 @SuppressWarnings("unchecked") 137 static <C extends Comparable<?>> Function<Range<C>, Cut<C>> upperBoundFn() { 138 return (Function) UPPER_BOUND_FN; 139 } 140 141 static final Ordering<Range<?>> RANGE_LEX_ORDERING = new Ordering<Range<?>>() { 142 @Override 143 public int compare(Range<?> left, Range<?> right) { 144 return ComparisonChain.start() 145 .compare(left.lowerBound, right.lowerBound) 146 .compare(left.upperBound, right.upperBound) 147 .result(); 148 } 149 }; 150 151 static <C extends Comparable<?>> Range<C> create( 152 Cut<C> lowerBound, Cut<C> upperBound) { 153 return new Range<C>(lowerBound, upperBound); 154 } 155 156 /** 157 * Returns a range that contains all values strictly greater than {@code 158 * lower} and strictly less than {@code upper}. 159 * 160 * @throws IllegalArgumentException if {@code lower} is greater than <i>or 161 * equal to</i> {@code upper} 162 * @since 14.0 163 */ 164 public static <C extends Comparable<?>> Range<C> open(C lower, C upper) { 165 return create(Cut.aboveValue(lower), Cut.belowValue(upper)); 166 } 167 168 /** 169 * Returns a range that contains all values greater than or equal to 170 * {@code lower} and less than or equal to {@code upper}. 171 * 172 * @throws IllegalArgumentException if {@code lower} is greater than {@code 173 * upper} 174 * @since 14.0 175 */ 176 public static <C extends Comparable<?>> Range<C> closed(C lower, C upper) { 177 return create(Cut.belowValue(lower), Cut.aboveValue(upper)); 178 } 179 180 /** 181 * Returns a range that contains all values greater than or equal to 182 * {@code lower} and strictly less than {@code upper}. 183 * 184 * @throws IllegalArgumentException if {@code lower} is greater than {@code 185 * upper} 186 * @since 14.0 187 */ 188 public static <C extends Comparable<?>> Range<C> closedOpen( 189 C lower, C upper) { 190 return create(Cut.belowValue(lower), Cut.belowValue(upper)); 191 } 192 193 /** 194 * Returns a range that contains all values strictly greater than {@code 195 * lower} and less than or equal to {@code upper}. 196 * 197 * @throws IllegalArgumentException if {@code lower} is greater than {@code 198 * upper} 199 * @since 14.0 200 */ 201 public static <C extends Comparable<?>> Range<C> openClosed( 202 C lower, C upper) { 203 return create(Cut.aboveValue(lower), Cut.aboveValue(upper)); 204 } 205 206 /** 207 * Returns a range that contains any value from {@code lower} to {@code 208 * upper}, where each endpoint may be either inclusive (closed) or exclusive 209 * (open). 210 * 211 * @throws IllegalArgumentException if {@code lower} is greater than {@code 212 * upper} 213 * @since 14.0 214 */ 215 public static <C extends Comparable<?>> Range<C> range( 216 C lower, BoundType lowerType, C upper, BoundType upperType) { 217 checkNotNull(lowerType); 218 checkNotNull(upperType); 219 220 Cut<C> lowerBound = (lowerType == BoundType.OPEN) 221 ? Cut.aboveValue(lower) 222 : Cut.belowValue(lower); 223 Cut<C> upperBound = (upperType == BoundType.OPEN) 224 ? Cut.belowValue(upper) 225 : Cut.aboveValue(upper); 226 return create(lowerBound, upperBound); 227 } 228 229 /** 230 * Returns a range that contains all values strictly less than {@code 231 * endpoint}. 232 * 233 * @since 14.0 234 */ 235 public static <C extends Comparable<?>> Range<C> lessThan(C endpoint) { 236 return create(Cut.<C>belowAll(), Cut.belowValue(endpoint)); 237 } 238 239 /** 240 * Returns a range that contains all values less than or equal to 241 * {@code endpoint}. 242 * 243 * @since 14.0 244 */ 245 public static <C extends Comparable<?>> Range<C> atMost(C endpoint) { 246 return create(Cut.<C>belowAll(), Cut.aboveValue(endpoint)); 247 } 248 249 /** 250 * Returns a range with no lower bound up to the given endpoint, which may be 251 * either inclusive (closed) or exclusive (open). 252 * 253 * @since 14.0 254 */ 255 public static <C extends Comparable<?>> Range<C> upTo( 256 C endpoint, BoundType boundType) { 257 switch (boundType) { 258 case OPEN: 259 return lessThan(endpoint); 260 case CLOSED: 261 return atMost(endpoint); 262 default: 263 throw new AssertionError(); 264 } 265 } 266 267 /** 268 * Returns a range that contains all values strictly greater than {@code 269 * endpoint}. 270 * 271 * @since 14.0 272 */ 273 public static <C extends Comparable<?>> Range<C> greaterThan(C endpoint) { 274 return create(Cut.aboveValue(endpoint), Cut.<C>aboveAll()); 275 } 276 277 /** 278 * Returns a range that contains all values greater than or equal to 279 * {@code endpoint}. 280 * 281 * @since 14.0 282 */ 283 public static <C extends Comparable<?>> Range<C> atLeast(C endpoint) { 284 return create(Cut.belowValue(endpoint), Cut.<C>aboveAll()); 285 } 286 287 /** 288 * Returns a range from the given endpoint, which may be either inclusive 289 * (closed) or exclusive (open), with no upper bound. 290 * 291 * @since 14.0 292 */ 293 public static <C extends Comparable<?>> Range<C> downTo( 294 C endpoint, BoundType boundType) { 295 switch (boundType) { 296 case OPEN: 297 return greaterThan(endpoint); 298 case CLOSED: 299 return atLeast(endpoint); 300 default: 301 throw new AssertionError(); 302 } 303 } 304 305 private static final Range<Comparable> ALL = 306 new Range<Comparable>(Cut.belowAll(), Cut.aboveAll()); 307 308 /** 309 * Returns a range that contains every value of type {@code C}. 310 * 311 * @since 14.0 312 */ 313 @SuppressWarnings("unchecked") 314 public static <C extends Comparable<?>> Range<C> all() { 315 return (Range) ALL; 316 } 317 318 /** 319 * Returns a range that {@linkplain Range#contains(Comparable) contains} only 320 * the given value. The returned range is {@linkplain BoundType#CLOSED closed} 321 * on both ends. 322 * 323 * @since 14.0 324 */ 325 public static <C extends Comparable<?>> Range<C> singleton(C value) { 326 return closed(value, value); 327 } 328 329 /** 330 * Returns the minimal range that 331 * {@linkplain Range#contains(Comparable) contains} all of the given values. 332 * The returned range is {@linkplain BoundType#CLOSED closed} on both ends. 333 * 334 * @throws ClassCastException if the parameters are not <i>mutually 335 * comparable</i> 336 * @throws NoSuchElementException if {@code values} is empty 337 * @throws NullPointerException if any of {@code values} is null 338 * @since 14.0 339 */ 340 public static <C extends Comparable<?>> Range<C> encloseAll( 341 Iterable<C> values) { 342 checkNotNull(values); 343 if (values instanceof ContiguousSet) { 344 return ((ContiguousSet<C>) values).range(); 345 } 346 Iterator<C> valueIterator = values.iterator(); 347 C min = checkNotNull(valueIterator.next()); 348 C max = min; 349 while (valueIterator.hasNext()) { 350 C value = checkNotNull(valueIterator.next()); 351 min = Ordering.natural().min(min, value); 352 max = Ordering.natural().max(max, value); 353 } 354 return closed(min, max); 355 } 356 357 final Cut<C> lowerBound; 358 final Cut<C> upperBound; 359 360 private Range(Cut<C> lowerBound, Cut<C> upperBound) { 361 if (lowerBound.compareTo(upperBound) > 0 || lowerBound == Cut.<C>aboveAll() 362 || upperBound == Cut.<C>belowAll()) { 363 throw new IllegalArgumentException("Invalid range: " + toString(lowerBound, upperBound)); 364 } 365 this.lowerBound = checkNotNull(lowerBound); 366 this.upperBound = checkNotNull(upperBound); 367 } 368 369 /** 370 * Returns {@code true} if this range has a lower endpoint. 371 */ 372 public boolean hasLowerBound() { 373 return lowerBound != Cut.belowAll(); 374 } 375 376 /** 377 * Returns the lower endpoint of this range. 378 * 379 * @throws IllegalStateException if this range is unbounded below (that is, {@link 380 * #hasLowerBound()} returns {@code false}) 381 */ 382 public C lowerEndpoint() { 383 return lowerBound.endpoint(); 384 } 385 386 /** 387 * Returns the type of this range's lower bound: {@link BoundType#CLOSED} if the range includes 388 * its lower endpoint, {@link BoundType#OPEN} if it does not. 389 * 390 * @throws IllegalStateException if this range is unbounded below (that is, {@link 391 * #hasLowerBound()} returns {@code false}) 392 */ 393 public BoundType lowerBoundType() { 394 return lowerBound.typeAsLowerBound(); 395 } 396 397 /** 398 * Returns {@code true} if this range has an upper endpoint. 399 */ 400 public boolean hasUpperBound() { 401 return upperBound != Cut.aboveAll(); 402 } 403 404 /** 405 * Returns the upper endpoint of this range. 406 * 407 * @throws IllegalStateException if this range is unbounded above (that is, {@link 408 * #hasUpperBound()} returns {@code false}) 409 */ 410 public C upperEndpoint() { 411 return upperBound.endpoint(); 412 } 413 414 /** 415 * Returns the type of this range's upper bound: {@link BoundType#CLOSED} if the range includes 416 * its upper endpoint, {@link BoundType#OPEN} if it does not. 417 * 418 * @throws IllegalStateException if this range is unbounded above (that is, {@link 419 * #hasUpperBound()} returns {@code false}) 420 */ 421 public BoundType upperBoundType() { 422 return upperBound.typeAsUpperBound(); 423 } 424 425 /** 426 * Returns {@code true} if this range is of the form {@code [v..v)} or {@code (v..v]}. (This does 427 * not encompass ranges of the form {@code (v..v)}, because such ranges are <i>invalid</i> and 428 * can't be constructed at all.) 429 * 430 * <p>Note that certain discrete ranges such as the integer range {@code (3..4)} are <b>not</b> 431 * considered empty, even though they contain no actual values. In these cases, it may be 432 * helpful to preprocess ranges with {@link #canonical(DiscreteDomain)}. 433 */ 434 public boolean isEmpty() { 435 return lowerBound.equals(upperBound); 436 } 437 438 /** 439 * Returns {@code true} if {@code value} is within the bounds of this range. For example, on the 440 * range {@code [0..2)}, {@code contains(1)} returns {@code true}, while {@code contains(2)} 441 * returns {@code false}. 442 */ 443 public boolean contains(C value) { 444 checkNotNull(value); 445 // let this throw CCE if there is some trickery going on 446 return lowerBound.isLessThan(value) && !upperBound.isLessThan(value); 447 } 448 449 /** 450 * @deprecated Provided only to satisfy the {@link Predicate} interface; use {@link #contains} 451 * instead. 452 */ 453 @Deprecated 454 @Override 455 public boolean apply(C input) { 456 return contains(input); 457 } 458 459 /** 460 * Returns {@code true} if every element in {@code values} is {@linkplain #contains contained} in 461 * this range. 462 */ 463 public boolean containsAll(Iterable<? extends C> values) { 464 if (Iterables.isEmpty(values)) { 465 return true; 466 } 467 468 // this optimizes testing equality of two range-backed sets 469 if (values instanceof SortedSet) { 470 SortedSet<? extends C> set = cast(values); 471 Comparator<?> comparator = set.comparator(); 472 if (Ordering.natural().equals(comparator) || comparator == null) { 473 return contains(set.first()) && contains(set.last()); 474 } 475 } 476 477 for (C value : values) { 478 if (!contains(value)) { 479 return false; 480 } 481 } 482 return true; 483 } 484 485 /** 486 * Returns {@code true} if the bounds of {@code other} do not extend outside the bounds of this 487 * range. Examples: 488 * 489 * <ul> 490 * <li>{@code [3..6]} encloses {@code [4..5]} 491 * <li>{@code (3..6)} encloses {@code (3..6)} 492 * <li>{@code [3..6]} encloses {@code [4..4)} (even though the latter is empty) 493 * <li>{@code (3..6]} does not enclose {@code [3..6]} 494 * <li>{@code [4..5]} does not enclose {@code (3..6)} (even though it contains every value 495 * contained by the latter range) 496 * <li>{@code [3..6]} does not enclose {@code (1..1]} (even though it contains every value 497 * contained by the latter range) 498 * </ul> 499 * 500 * <p>Note that if {@code a.encloses(b)}, then {@code b.contains(v)} implies 501 * {@code a.contains(v)}, but as the last two examples illustrate, the converse is not always 502 * true. 503 * 504 * <p>Being reflexive, antisymmetric and transitive, the {@code encloses} relation defines a 505 * <i>partial order</i> over ranges. There exists a unique {@linkplain Range#all maximal} range 506 * according to this relation, and also numerous {@linkplain #isEmpty minimal} ranges. Enclosure 507 * also implies {@linkplain #isConnected connectedness}. 508 */ 509 public boolean encloses(Range<C> other) { 510 return lowerBound.compareTo(other.lowerBound) <= 0 511 && upperBound.compareTo(other.upperBound) >= 0; 512 } 513 514 /** 515 * Returns {@code true} if there exists a (possibly empty) range which is {@linkplain #encloses 516 * enclosed} by both this range and {@code other}. 517 * 518 * <p>For example, 519 * <ul> 520 * <li>{@code [2, 4)} and {@code [5, 7)} are not connected 521 * <li>{@code [2, 4)} and {@code [3, 5)} are connected, because both enclose {@code [3, 4)} 522 * <li>{@code [2, 4)} and {@code [4, 6)} are connected, because both enclose the empty range 523 * {@code [4, 4)} 524 * </ul> 525 * 526 * <p>Note that this range and {@code other} have a well-defined {@linkplain #span union} and 527 * {@linkplain #intersection intersection} (as a single, possibly-empty range) if and only if this 528 * method returns {@code true}. 529 * 530 * <p>The connectedness relation is both reflexive and symmetric, but does not form an {@linkplain 531 * Equivalence equivalence relation} as it is not transitive. 532 * 533 * <p>Note that certain discrete ranges are not considered connected, even though there are no 534 * elements "between them." For example, {@code [3, 5]} is not considered connected to {@code 535 * [6, 10]}. In these cases, it may be desirable for both input ranges to be preprocessed with 536 * {@link #canonical(DiscreteDomain)} before testing for connectedness. 537 */ 538 public boolean isConnected(Range<C> other) { 539 return lowerBound.compareTo(other.upperBound) <= 0 540 && other.lowerBound.compareTo(upperBound) <= 0; 541 } 542 543 /** 544 * Returns the maximal range {@linkplain #encloses enclosed} by both this range and {@code 545 * connectedRange}, if such a range exists. 546 * 547 * <p>For example, the intersection of {@code [1..5]} and {@code (3..7)} is {@code (3..5]}. The 548 * resulting range may be empty; for example, {@code [1..5)} intersected with {@code [5..7)} 549 * yields the empty range {@code [5..5)}. 550 * 551 * <p>The intersection exists if and only if the two ranges are {@linkplain #isConnected 552 * connected}. 553 * 554 * <p>The intersection operation is commutative, associative and idempotent, and its identity 555 * element is {@link Range#all}). 556 * 557 * @throws IllegalArgumentException if {@code isConnected(connectedRange)} is {@code false} 558 */ 559 public Range<C> intersection(Range<C> connectedRange) { 560 int lowerCmp = lowerBound.compareTo(connectedRange.lowerBound); 561 int upperCmp = upperBound.compareTo(connectedRange.upperBound); 562 if (lowerCmp >= 0 && upperCmp <= 0) { 563 return this; 564 } else if (lowerCmp <= 0 && upperCmp >= 0) { 565 return connectedRange; 566 } else { 567 Cut<C> newLower = (lowerCmp >= 0) ? lowerBound : connectedRange.lowerBound; 568 Cut<C> newUpper = (upperCmp <= 0) ? upperBound : connectedRange.upperBound; 569 return create(newLower, newUpper); 570 } 571 } 572 573 /** 574 * Returns the minimal range that {@linkplain #encloses encloses} both this range and {@code 575 * other}. For example, the span of {@code [1..3]} and {@code (5..7)} is {@code [1..7)}. 576 * 577 * <p><i>If</i> the input ranges are {@linkplain #isConnected connected}, the returned range can 578 * also be called their <i>union</i>. If they are not, note that the span might contain values 579 * that are not contained in either input range. 580 * 581 * <p>Like {@link #intersection(Range) intersection}, this operation is commutative, associative 582 * and idempotent. Unlike it, it is always well-defined for any two input ranges. 583 */ 584 public Range<C> span(Range<C> other) { 585 int lowerCmp = lowerBound.compareTo(other.lowerBound); 586 int upperCmp = upperBound.compareTo(other.upperBound); 587 if (lowerCmp <= 0 && upperCmp >= 0) { 588 return this; 589 } else if (lowerCmp >= 0 && upperCmp <= 0) { 590 return other; 591 } else { 592 Cut<C> newLower = (lowerCmp <= 0) ? lowerBound : other.lowerBound; 593 Cut<C> newUpper = (upperCmp >= 0) ? upperBound : other.upperBound; 594 return create(newLower, newUpper); 595 } 596 } 597 598 /** 599 * Returns the canonical form of this range in the given domain. The canonical form has the 600 * following properties: 601 * 602 * <ul> 603 * <li>equivalence: {@code a.canonical().contains(v) == a.contains(v)} for all {@code v} (in other 604 * words, {@code ContiguousSet.create(a.canonical(domain), domain).equals( 605 * ContiguousSet.create(a, domain))} 606 * <li>uniqueness: unless {@code a.isEmpty()}, 607 * {@code ContiguousSet.create(a, domain).equals(ContiguousSet.create(b, domain))} implies 608 * {@code a.canonical(domain).equals(b.canonical(domain))} 609 * <li>idempotence: {@code a.canonical(domain).canonical(domain).equals(a.canonical(domain))} 610 * </ul> 611 * 612 * <p>Furthermore, this method guarantees that the range returned will be one of the following 613 * canonical forms: 614 * 615 * <ul> 616 * <li>[start..end) 617 * <li>[start..+∞) 618 * <li>(-∞..end) (only if type {@code C} is unbounded below) 619 * <li>(-∞..+∞) (only if type {@code C} is unbounded below) 620 * </ul> 621 */ 622 public Range<C> canonical(DiscreteDomain<C> domain) { 623 checkNotNull(domain); 624 Cut<C> lower = lowerBound.canonical(domain); 625 Cut<C> upper = upperBound.canonical(domain); 626 return (lower == lowerBound && upper == upperBound) ? this : create(lower, upper); 627 } 628 629 /** 630 * Returns {@code true} if {@code object} is a range having the same endpoints and bound types as 631 * this range. Note that discrete ranges such as {@code (1..4)} and {@code [2..3]} are <b>not</b> 632 * equal to one another, despite the fact that they each contain precisely the same set of values. 633 * Similarly, empty ranges are not equal unless they have exactly the same representation, so 634 * {@code [3..3)}, {@code (3..3]}, {@code (4..4]} are all unequal. 635 */ 636 @Override public boolean equals(@Nullable Object object) { 637 if (object instanceof Range) { 638 Range<?> other = (Range<?>) object; 639 return lowerBound.equals(other.lowerBound) 640 && upperBound.equals(other.upperBound); 641 } 642 return false; 643 } 644 645 /** Returns a hash code for this range. */ 646 @Override public int hashCode() { 647 return lowerBound.hashCode() * 31 + upperBound.hashCode(); 648 } 649 650 /** 651 * Returns a string representation of this range, such as {@code "[3..5)"} (other examples are 652 * listed in the class documentation). 653 */ 654 @Override public String toString() { 655 return toString(lowerBound, upperBound); 656 } 657 658 private static String toString(Cut<?> lowerBound, Cut<?> upperBound) { 659 StringBuilder sb = new StringBuilder(16); 660 lowerBound.describeAsLowerBound(sb); 661 sb.append('\u2025'); 662 upperBound.describeAsUpperBound(sb); 663 return sb.toString(); 664 } 665 666 /** 667 * Used to avoid http://bugs.sun.com/view_bug.do?bug_id=6558557 668 */ 669 private static <T> SortedSet<T> cast(Iterable<T> iterable) { 670 return (SortedSet<T>) iterable; 671 } 672 673 Object readResolve() { 674 if (this.equals(ALL)) { 675 return all(); 676 } else { 677 return this; 678 } 679 } 680 681 @SuppressWarnings("unchecked") // this method may throw CCE 682 static int compareOrThrow(Comparable left, Comparable right) { 683 return left.compareTo(right); 684 } 685 686 private static final long serialVersionUID = 0; 687}