001/* 002 * Copyright (C) 2008 The Guava Authors 003 * 004 * Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except 005 * in compliance with the License. You may obtain a copy of the License at 006 * 007 * http://www.apache.org/licenses/LICENSE-2.0 008 * 009 * Unless required by applicable law or agreed to in writing, software distributed under the License 010 * is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express 011 * or implied. See the License for the specific language governing permissions and limitations under 012 * the License. 013 */ 014 015package com.google.common.base; 016 017import static com.google.common.base.Preconditions.checkNotNull; 018 019import com.google.common.annotations.GwtCompatible; 020import com.google.errorprone.annotations.CanIgnoreReturnValue; 021import com.google.errorprone.annotations.ForOverride; 022import com.google.errorprone.annotations.concurrent.LazyInit; 023import com.google.j2objc.annotations.RetainedWith; 024import java.io.Serializable; 025import java.util.Iterator; 026import org.checkerframework.checker.nullness.compatqual.NullableDecl; 027 028/** 029 * A function from {@code A} to {@code B} with an associated <i>reverse</i> function from {@code B} 030 * to {@code A}; used for converting back and forth between <i>different representations of the same 031 * information</i>. 032 * 033 * <h3>Invertibility</h3> 034 * 035 * <p>The reverse operation <b>may</b> be a strict <i>inverse</i> (meaning that {@code 036 * converter.reverse().convert(converter.convert(a)).equals(a)} is always true). However, it is very 037 * common (perhaps <i>more</i> common) for round-trip conversion to be <i>lossy</i>. Consider an 038 * example round-trip using {@link com.google.common.primitives.Doubles#stringConverter}: 039 * 040 * <ol> 041 * <li>{@code stringConverter().convert("1.00")} returns the {@code Double} value {@code 1.0} 042 * <li>{@code stringConverter().reverse().convert(1.0)} returns the string {@code "1.0"} -- 043 * <i>not</i> the same string ({@code "1.00"}) we started with 044 * </ol> 045 * 046 * <p>Note that it should still be the case that the round-tripped and original objects are 047 * <i>similar</i>. 048 * 049 * <h3>Nullability</h3> 050 * 051 * <p>A converter always converts {@code null} to {@code null} and non-null references to non-null 052 * references. It would not make sense to consider {@code null} and a non-null reference to be 053 * "different representations of the same information", since one is distinguishable from 054 * <i>missing</i> information and the other is not. The {@link #convert} method handles this null 055 * behavior for all converters; implementations of {@link #doForward} and {@link #doBackward} are 056 * guaranteed to never be passed {@code null}, and must never return {@code null}. 057 * 058 * 059 * <h3>Common ways to use</h3> 060 * 061 * <p>Getting a converter: 062 * 063 * <ul> 064 * <li>Use a provided converter implementation, such as {@link Enums#stringConverter}, {@link 065 * com.google.common.primitives.Ints#stringConverter Ints.stringConverter} or the {@linkplain 066 * #reverse reverse} views of these. 067 * <li>Convert between specific preset values using {@link 068 * com.google.common.collect.Maps#asConverter Maps.asConverter}. For example, use this to 069 * create a "fake" converter for a unit test. It is unnecessary (and confusing) to <i>mock</i> 070 * the {@code Converter} type using a mocking framework. 071 * <li>Extend this class and implement its {@link #doForward} and {@link #doBackward} methods. 072 * <li><b>Java 8 users:</b> you may prefer to pass two lambda expressions or method references to 073 * the {@link #from from} factory method. 074 * </ul> 075 * 076 * <p>Using a converter: 077 * 078 * <ul> 079 * <li>Convert one instance in the "forward" direction using {@code converter.convert(a)}. 080 * <li>Convert multiple instances "forward" using {@code converter.convertAll(as)}. 081 * <li>Convert in the "backward" direction using {@code converter.reverse().convert(b)} or {@code 082 * converter.reverse().convertAll(bs)}. 083 * <li>Use {@code converter} or {@code converter.reverse()} anywhere a {@link 084 * java.util.function.Function} is accepted (for example {@link java.util.stream.Stream#map 085 * Stream.map}). 086 * <li><b>Do not</b> call {@link #doForward} or {@link #doBackward} directly; these exist only to 087 * be overridden. 088 * </ul> 089 * 090 * <h3>Example</h3> 091 * 092 * <pre> 093 * return new Converter<Integer, String>() { 094 * protected String doForward(Integer i) { 095 * return Integer.toHexString(i); 096 * } 097 * 098 * protected Integer doBackward(String s) { 099 * return parseUnsignedInt(s, 16); 100 * } 101 * };</pre> 102 * 103 * <p>An alternative using Java 8: 104 * 105 * <pre>{@code 106 * return Converter.from( 107 * Integer::toHexString, 108 * s -> parseUnsignedInt(s, 16)); 109 * }</pre> 110 * 111 * @author Mike Ward 112 * @author Kurt Alfred Kluever 113 * @author Gregory Kick 114 * @since 16.0 115 */ 116@GwtCompatible 117public abstract class Converter<A, B> implements Function<A, B> { 118 private final boolean handleNullAutomatically; 119 120 // We lazily cache the reverse view to avoid allocating on every call to reverse(). 121 @LazyInit @RetainedWith @NullableDecl private transient Converter<B, A> reverse; 122 123 /** Constructor for use by subclasses. */ 124 protected Converter() { 125 this(true); 126 } 127 128 /** Constructor used only by {@code LegacyConverter} to suspend automatic null-handling. */ 129 Converter(boolean handleNullAutomatically) { 130 this.handleNullAutomatically = handleNullAutomatically; 131 } 132 133 // SPI methods (what subclasses must implement) 134 135 /** 136 * Returns a representation of {@code a} as an instance of type {@code B}. If {@code a} cannot be 137 * converted, an unchecked exception (such as {@link IllegalArgumentException}) should be thrown. 138 * 139 * @param a the instance to convert; will never be null 140 * @return the converted instance; <b>must not</b> be null 141 */ 142 @ForOverride 143 protected abstract B doForward(A a); 144 145 /** 146 * Returns a representation of {@code b} as an instance of type {@code A}. If {@code b} cannot be 147 * converted, an unchecked exception (such as {@link IllegalArgumentException}) should be thrown. 148 * 149 * @param b the instance to convert; will never be null 150 * @return the converted instance; <b>must not</b> be null 151 * @throws UnsupportedOperationException if backward conversion is not implemented; this should be 152 * very rare. Note that if backward conversion is not only unimplemented but 153 * unimplement<i>able</i> (for example, consider a {@code Converter<Chicken, ChickenNugget>}), 154 * then this is not logically a {@code Converter} at all, and should just implement {@link 155 * Function}. 156 */ 157 @ForOverride 158 protected abstract A doBackward(B b); 159 160 // API (consumer-side) methods 161 162 /** 163 * Returns a representation of {@code a} as an instance of type {@code B}. 164 * 165 * @return the converted value; is null <i>if and only if</i> {@code a} is null 166 */ 167 @CanIgnoreReturnValue 168 @NullableDecl 169 public final B convert(@NullableDecl A a) { 170 return correctedDoForward(a); 171 } 172 173 @NullableDecl 174 B correctedDoForward(@NullableDecl A a) { 175 if (handleNullAutomatically) { 176 // TODO(kevinb): we shouldn't be checking for a null result at runtime. Assert? 177 return a == null ? null : checkNotNull(doForward(a)); 178 } else { 179 return doForward(a); 180 } 181 } 182 183 @NullableDecl 184 A correctedDoBackward(@NullableDecl B b) { 185 if (handleNullAutomatically) { 186 // TODO(kevinb): we shouldn't be checking for a null result at runtime. Assert? 187 return b == null ? null : checkNotNull(doBackward(b)); 188 } else { 189 return doBackward(b); 190 } 191 } 192 193 /** 194 * Returns an iterable that applies {@code convert} to each element of {@code fromIterable}. The 195 * conversion is done lazily. 196 * 197 * <p>The returned iterable's iterator supports {@code remove()} if the input iterator does. After 198 * a successful {@code remove()} call, {@code fromIterable} no longer contains the corresponding 199 * element. 200 */ 201 @CanIgnoreReturnValue 202 public Iterable<B> convertAll(final Iterable<? extends A> fromIterable) { 203 checkNotNull(fromIterable, "fromIterable"); 204 return new Iterable<B>() { 205 @Override 206 public Iterator<B> iterator() { 207 return new Iterator<B>() { 208 private final Iterator<? extends A> fromIterator = fromIterable.iterator(); 209 210 @Override 211 public boolean hasNext() { 212 return fromIterator.hasNext(); 213 } 214 215 @Override 216 public B next() { 217 return convert(fromIterator.next()); 218 } 219 220 @Override 221 public void remove() { 222 fromIterator.remove(); 223 } 224 }; 225 } 226 }; 227 } 228 229 /** 230 * Returns the reversed view of this converter, which converts {@code this.convert(a)} back to a 231 * value roughly equivalent to {@code a}. 232 * 233 * <p>The returned converter is serializable if {@code this} converter is. 234 * 235 * <p><b>Note:</b> you should not override this method. It is non-final for legacy reasons. 236 */ 237 @CanIgnoreReturnValue 238 public Converter<B, A> reverse() { 239 Converter<B, A> result = reverse; 240 return (result == null) ? reverse = new ReverseConverter<>(this) : result; 241 } 242 243 private static final class ReverseConverter<A, B> extends Converter<B, A> 244 implements Serializable { 245 final Converter<A, B> original; 246 247 ReverseConverter(Converter<A, B> original) { 248 this.original = original; 249 } 250 251 /* 252 * These gymnastics are a little confusing. Basically this class has neither legacy nor 253 * non-legacy behavior; it just needs to let the behavior of the backing converter shine 254 * through. So, we override the correctedDo* methods, after which the do* methods should never 255 * be reached. 256 */ 257 258 @Override 259 protected A doForward(B b) { 260 throw new AssertionError(); 261 } 262 263 @Override 264 protected B doBackward(A a) { 265 throw new AssertionError(); 266 } 267 268 @Override 269 @NullableDecl 270 A correctedDoForward(@NullableDecl B b) { 271 return original.correctedDoBackward(b); 272 } 273 274 @Override 275 @NullableDecl 276 B correctedDoBackward(@NullableDecl A a) { 277 return original.correctedDoForward(a); 278 } 279 280 @Override 281 public Converter<A, B> reverse() { 282 return original; 283 } 284 285 @Override 286 public boolean equals(@NullableDecl Object object) { 287 if (object instanceof ReverseConverter) { 288 ReverseConverter<?, ?> that = (ReverseConverter<?, ?>) object; 289 return this.original.equals(that.original); 290 } 291 return false; 292 } 293 294 @Override 295 public int hashCode() { 296 return ~original.hashCode(); 297 } 298 299 @Override 300 public String toString() { 301 return original + ".reverse()"; 302 } 303 304 private static final long serialVersionUID = 0L; 305 } 306 307 /** 308 * Returns a converter whose {@code convert} method applies {@code secondConverter} to the result 309 * of this converter. Its {@code reverse} method applies the converters in reverse order. 310 * 311 * <p>The returned converter is serializable if {@code this} converter and {@code secondConverter} 312 * are. 313 */ 314 public final <C> Converter<A, C> andThen(Converter<B, C> secondConverter) { 315 return doAndThen(secondConverter); 316 } 317 318 /** Package-private non-final implementation of andThen() so only we can override it. */ 319 <C> Converter<A, C> doAndThen(Converter<B, C> secondConverter) { 320 return new ConverterComposition<>(this, checkNotNull(secondConverter)); 321 } 322 323 private static final class ConverterComposition<A, B, C> extends Converter<A, C> 324 implements Serializable { 325 final Converter<A, B> first; 326 final Converter<B, C> second; 327 328 ConverterComposition(Converter<A, B> first, Converter<B, C> second) { 329 this.first = first; 330 this.second = second; 331 } 332 333 /* 334 * These gymnastics are a little confusing. Basically this class has neither legacy nor 335 * non-legacy behavior; it just needs to let the behaviors of the backing converters shine 336 * through (which might even differ from each other!). So, we override the correctedDo* methods, 337 * after which the do* methods should never be reached. 338 */ 339 340 @Override 341 protected C doForward(A a) { 342 throw new AssertionError(); 343 } 344 345 @Override 346 protected A doBackward(C c) { 347 throw new AssertionError(); 348 } 349 350 @Override 351 @NullableDecl 352 C correctedDoForward(@NullableDecl A a) { 353 return second.correctedDoForward(first.correctedDoForward(a)); 354 } 355 356 @Override 357 @NullableDecl 358 A correctedDoBackward(@NullableDecl C c) { 359 return first.correctedDoBackward(second.correctedDoBackward(c)); 360 } 361 362 @Override 363 public boolean equals(@NullableDecl Object object) { 364 if (object instanceof ConverterComposition) { 365 ConverterComposition<?, ?, ?> that = (ConverterComposition<?, ?, ?>) object; 366 return this.first.equals(that.first) && this.second.equals(that.second); 367 } 368 return false; 369 } 370 371 @Override 372 public int hashCode() { 373 return 31 * first.hashCode() + second.hashCode(); 374 } 375 376 @Override 377 public String toString() { 378 return first + ".andThen(" + second + ")"; 379 } 380 381 private static final long serialVersionUID = 0L; 382 } 383 384 /** 385 * @deprecated Provided to satisfy the {@code Function} interface; use {@link #convert} instead. 386 */ 387 @Deprecated 388 @Override 389 @CanIgnoreReturnValue 390 @NullableDecl 391 public final B apply(@NullableDecl A a) { 392 return convert(a); 393 } 394 395 /** 396 * Indicates whether another object is equal to this converter. 397 * 398 * <p>Most implementations will have no reason to override the behavior of {@link Object#equals}. 399 * However, an implementation may also choose to return {@code true} whenever {@code object} is a 400 * {@link Converter} that it considers <i>interchangeable</i> with this one. "Interchangeable" 401 * <i>typically</i> means that {@code Objects.equal(this.convert(a), that.convert(a))} is true for 402 * all {@code a} of type {@code A} (and similarly for {@code reverse}). Note that a {@code false} 403 * result from this method does not imply that the converters are known <i>not</i> to be 404 * interchangeable. 405 */ 406 @Override 407 public boolean equals(@NullableDecl Object object) { 408 return super.equals(object); 409 } 410 411 // Static converters 412 413 /** 414 * Returns a converter based on separate forward and backward functions. This is useful if the 415 * function instances already exist, or so that you can supply lambda expressions. If those 416 * circumstances don't apply, you probably don't need to use this; subclass {@code Converter} and 417 * implement its {@link #doForward} and {@link #doBackward} methods directly. 418 * 419 * <p>These functions will never be passed {@code null} and must not under any circumstances 420 * return {@code null}. If a value cannot be converted, the function should throw an unchecked 421 * exception (typically, but not necessarily, {@link IllegalArgumentException}). 422 * 423 * <p>The returned converter is serializable if both provided functions are. 424 * 425 * @since 17.0 426 */ 427 public static <A, B> Converter<A, B> from( 428 Function<? super A, ? extends B> forwardFunction, 429 Function<? super B, ? extends A> backwardFunction) { 430 return new FunctionBasedConverter<>(forwardFunction, backwardFunction); 431 } 432 433 private static final class FunctionBasedConverter<A, B> extends Converter<A, B> 434 implements Serializable { 435 private final Function<? super A, ? extends B> forwardFunction; 436 private final Function<? super B, ? extends A> backwardFunction; 437 438 private FunctionBasedConverter( 439 Function<? super A, ? extends B> forwardFunction, 440 Function<? super B, ? extends A> backwardFunction) { 441 this.forwardFunction = checkNotNull(forwardFunction); 442 this.backwardFunction = checkNotNull(backwardFunction); 443 } 444 445 @Override 446 protected B doForward(A a) { 447 return forwardFunction.apply(a); 448 } 449 450 @Override 451 protected A doBackward(B b) { 452 return backwardFunction.apply(b); 453 } 454 455 @Override 456 public boolean equals(@NullableDecl Object object) { 457 if (object instanceof FunctionBasedConverter) { 458 FunctionBasedConverter<?, ?> that = (FunctionBasedConverter<?, ?>) object; 459 return this.forwardFunction.equals(that.forwardFunction) 460 && this.backwardFunction.equals(that.backwardFunction); 461 } 462 return false; 463 } 464 465 @Override 466 public int hashCode() { 467 return forwardFunction.hashCode() * 31 + backwardFunction.hashCode(); 468 } 469 470 @Override 471 public String toString() { 472 return "Converter.from(" + forwardFunction + ", " + backwardFunction + ")"; 473 } 474 } 475 476 /** Returns a serializable converter that always converts or reverses an object to itself. */ 477 @SuppressWarnings("unchecked") // implementation is "fully variant" 478 public static <T> Converter<T, T> identity() { 479 return (IdentityConverter<T>) IdentityConverter.INSTANCE; 480 } 481 482 /** 483 * A converter that always converts or reverses an object to itself. Note that T is now a 484 * "pass-through type". 485 */ 486 private static final class IdentityConverter<T> extends Converter<T, T> implements Serializable { 487 static final IdentityConverter<?> INSTANCE = new IdentityConverter<>(); 488 489 @Override 490 protected T doForward(T t) { 491 return t; 492 } 493 494 @Override 495 protected T doBackward(T t) { 496 return t; 497 } 498 499 @Override 500 public IdentityConverter<T> reverse() { 501 return this; 502 } 503 504 @Override 505 <S> Converter<T, S> doAndThen(Converter<T, S> otherConverter) { 506 return checkNotNull(otherConverter, "otherConverter"); 507 } 508 509 /* 510 * We *could* override convertAll() to return its input, but it's a rather pointless 511 * optimization and opened up a weird type-safety problem. 512 */ 513 514 @Override 515 public String toString() { 516 return "Converter.identity()"; 517 } 518 519 private Object readResolve() { 520 return INSTANCE; 521 } 522 523 private static final long serialVersionUID = 0L; 524 } 525}