1 /* 2 * Copyright (C) 2012 The Android Open Source Project 3 * 4 * Licensed under the Apache License, Version 2.0 (the "License"); 5 * you may not use this file except in compliance with the License. 6 * You may obtain a copy of the License at 7 * 8 * http://www.apache.org/licenses/LICENSE-2.0 9 * 10 * Unless required by applicable law or agreed to in writing, software 11 * distributed under the License is distributed on an "AS IS" BASIS, 12 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. 13 * See the License for the specific language governing permissions and 14 * limitations under the License. 15 */ 16 17 package com.android.inputmethod.latin.common; 18 19 import com.android.inputmethod.annotations.UsedForTesting; 20 21 import java.util.ArrayList; 22 import java.util.Arrays; 23 import java.util.Locale; 24 25 import javax.annotation.Nonnull; 26 import javax.annotation.Nullable; 27 28 public final class StringUtils { 29 public static final int CAPITALIZE_NONE = 0; // No caps, or mixed case 30 public static final int CAPITALIZE_FIRST = 1; // First only 31 public static final int CAPITALIZE_ALL = 2; // All caps 32 33 @Nonnull 34 private static final String EMPTY_STRING = ""; 35 36 private static final char CHAR_LINE_FEED = 0X000A; 37 private static final char CHAR_VERTICAL_TAB = 0X000B; 38 private static final char CHAR_FORM_FEED = 0X000C; 39 private static final char CHAR_CARRIAGE_RETURN = 0X000D; 40 private static final char CHAR_NEXT_LINE = 0X0085; 41 private static final char CHAR_LINE_SEPARATOR = 0X2028; 42 private static final char CHAR_PARAGRAPH_SEPARATOR = 0X2029; 43 StringUtils()44 private StringUtils() { 45 // This utility class is not publicly instantiable. 46 } 47 48 // Taken from android.text.TextUtils. We are extensively using this method in many places, 49 // some of which don't have the android libraries available. 50 /** 51 * Returns true if the string is null or 0-length. 52 * @param str the string to be examined 53 * @return true if str is null or zero length 54 */ isEmpty(@ullable final CharSequence str)55 public static boolean isEmpty(@Nullable final CharSequence str) { 56 return (str == null || str.length() == 0); 57 } 58 59 // Taken from android.text.TextUtils to cut the dependency to the Android framework. 60 /** 61 * Returns a string containing the tokens joined by delimiters. 62 * @param delimiter the delimiter 63 * @param tokens an array objects to be joined. Strings will be formed from 64 * the objects by calling object.toString(). 65 */ 66 @Nonnull join(@onnull final CharSequence delimiter, @Nonnull final Iterable<?> tokens)67 public static String join(@Nonnull final CharSequence delimiter, 68 @Nonnull final Iterable<?> tokens) { 69 final StringBuilder sb = new StringBuilder(); 70 boolean firstTime = true; 71 for (final Object token: tokens) { 72 if (firstTime) { 73 firstTime = false; 74 } else { 75 sb.append(delimiter); 76 } 77 sb.append(token); 78 } 79 return sb.toString(); 80 } 81 82 // Taken from android.text.TextUtils to cut the dependency to the Android framework. 83 /** 84 * Returns true if a and b are equal, including if they are both null. 85 * <p><i>Note: In platform versions 1.1 and earlier, this method only worked well if 86 * both the arguments were instances of String.</i></p> 87 * @param a first CharSequence to check 88 * @param b second CharSequence to check 89 * @return true if a and b are equal 90 */ equals(@ullable final CharSequence a, @Nullable final CharSequence b)91 public static boolean equals(@Nullable final CharSequence a, @Nullable final CharSequence b) { 92 if (a == b) { 93 return true; 94 } 95 final int length; 96 if (a != null && b != null && (length = a.length()) == b.length()) { 97 if (a instanceof String && b instanceof String) { 98 return a.equals(b); 99 } 100 for (int i = 0; i < length; i++) { 101 if (a.charAt(i) != b.charAt(i)) { 102 return false; 103 } 104 } 105 return true; 106 } 107 return false; 108 } 109 codePointCount(@ullable final CharSequence text)110 public static int codePointCount(@Nullable final CharSequence text) { 111 if (isEmpty(text)) { 112 return 0; 113 } 114 return Character.codePointCount(text, 0, text.length()); 115 } 116 117 @Nonnull newSingleCodePointString(final int codePoint)118 public static String newSingleCodePointString(final int codePoint) { 119 if (Character.charCount(codePoint) == 1) { 120 // Optimization: avoid creating a temporary array for characters that are 121 // represented by a single char value 122 return String.valueOf((char) codePoint); 123 } 124 // For surrogate pair 125 return new String(Character.toChars(codePoint)); 126 } 127 containsInArray(@onnull final String text, @Nonnull final String[] array)128 public static boolean containsInArray(@Nonnull final String text, 129 @Nonnull final String[] array) { 130 for (final String element : array) { 131 if (text.equals(element)) { 132 return true; 133 } 134 } 135 return false; 136 } 137 138 /** 139 * Comma-Splittable Text is similar to Comma-Separated Values (CSV) but has much simpler syntax. 140 * Unlike CSV, Comma-Splittable Text has no escaping mechanism, so that the text can't contain 141 * a comma character in it. 142 */ 143 @Nonnull 144 private static final String SEPARATOR_FOR_COMMA_SPLITTABLE_TEXT = ","; 145 containsInCommaSplittableText(@onnull final String text, @Nullable final String extraValues)146 public static boolean containsInCommaSplittableText(@Nonnull final String text, 147 @Nullable final String extraValues) { 148 if (isEmpty(extraValues)) { 149 return false; 150 } 151 return containsInArray(text, extraValues.split(SEPARATOR_FOR_COMMA_SPLITTABLE_TEXT)); 152 } 153 154 @Nonnull removeFromCommaSplittableTextIfExists(@onnull final String text, @Nullable final String extraValues)155 public static String removeFromCommaSplittableTextIfExists(@Nonnull final String text, 156 @Nullable final String extraValues) { 157 if (isEmpty(extraValues)) { 158 return EMPTY_STRING; 159 } 160 final String[] elements = extraValues.split(SEPARATOR_FOR_COMMA_SPLITTABLE_TEXT); 161 if (!containsInArray(text, elements)) { 162 return extraValues; 163 } 164 final ArrayList<String> result = new ArrayList<>(elements.length - 1); 165 for (final String element : elements) { 166 if (!text.equals(element)) { 167 result.add(element); 168 } 169 } 170 return join(SEPARATOR_FOR_COMMA_SPLITTABLE_TEXT, result); 171 } 172 173 /** 174 * Remove duplicates from an array of strings. 175 * 176 * This method will always keep the first occurrence of all strings at their position 177 * in the array, removing the subsequent ones. 178 */ removeDupes(@onnull final ArrayList<String> suggestions)179 public static void removeDupes(@Nonnull final ArrayList<String> suggestions) { 180 if (suggestions.size() < 2) { 181 return; 182 } 183 int i = 1; 184 // Don't cache suggestions.size(), since we may be removing items 185 while (i < suggestions.size()) { 186 final String cur = suggestions.get(i); 187 // Compare each suggestion with each previous suggestion 188 for (int j = 0; j < i; j++) { 189 final String previous = suggestions.get(j); 190 if (equals(cur, previous)) { 191 suggestions.remove(i); 192 i--; 193 break; 194 } 195 } 196 i++; 197 } 198 } 199 200 @Nonnull capitalizeFirstCodePoint(@onnull final String s, @Nonnull final Locale locale)201 public static String capitalizeFirstCodePoint(@Nonnull final String s, 202 @Nonnull final Locale locale) { 203 if (s.length() <= 1) { 204 return s.toUpperCase(getLocaleUsedForToTitleCase(locale)); 205 } 206 // Please refer to the comment below in 207 // {@link #capitalizeFirstAndDowncaseRest(String,Locale)} as this has the same shortcomings 208 final int cutoff = s.offsetByCodePoints(0, 1); 209 return s.substring(0, cutoff).toUpperCase(getLocaleUsedForToTitleCase(locale)) 210 + s.substring(cutoff); 211 } 212 213 @Nonnull capitalizeFirstAndDowncaseRest(@onnull final String s, @Nonnull final Locale locale)214 public static String capitalizeFirstAndDowncaseRest(@Nonnull final String s, 215 @Nonnull final Locale locale) { 216 if (s.length() <= 1) { 217 return s.toUpperCase(getLocaleUsedForToTitleCase(locale)); 218 } 219 // TODO: fix the bugs below 220 // - It does not work for Serbian, because it fails to account for the "lj" character, 221 // which should be "Lj" in title case and "LJ" in upper case. 222 // - It does not work for Dutch, because it fails to account for the "ij" digraph when it's 223 // written as two separate code points. They are two different characters but both should 224 // be capitalized as "IJ" as if they were a single letter in most words (not all). If the 225 // unicode char for the ligature is used however, it works. 226 final int cutoff = s.offsetByCodePoints(0, 1); 227 return s.substring(0, cutoff).toUpperCase(getLocaleUsedForToTitleCase(locale)) 228 + s.substring(cutoff).toLowerCase(locale); 229 } 230 231 @Nonnull toCodePointArray(@onnull final CharSequence charSequence)232 public static int[] toCodePointArray(@Nonnull final CharSequence charSequence) { 233 return toCodePointArray(charSequence, 0, charSequence.length()); 234 } 235 236 @Nonnull 237 private static final int[] EMPTY_CODEPOINTS = {}; 238 239 /** 240 * Converts a range of a string to an array of code points. 241 * @param charSequence the source string. 242 * @param startIndex the start index inside the string in java chars, inclusive. 243 * @param endIndex the end index inside the string in java chars, exclusive. 244 * @return a new array of code points. At most endIndex - startIndex, but possibly less. 245 */ 246 @Nonnull toCodePointArray(@onnull final CharSequence charSequence, final int startIndex, final int endIndex)247 public static int[] toCodePointArray(@Nonnull final CharSequence charSequence, 248 final int startIndex, final int endIndex) { 249 final int length = charSequence.length(); 250 if (length <= 0) { 251 return EMPTY_CODEPOINTS; 252 } 253 final int[] codePoints = 254 new int[Character.codePointCount(charSequence, startIndex, endIndex)]; 255 copyCodePointsAndReturnCodePointCount(codePoints, charSequence, startIndex, endIndex, 256 false /* downCase */); 257 return codePoints; 258 } 259 260 /** 261 * Copies the codepoints in a CharSequence to an int array. 262 * 263 * This method assumes there is enough space in the array to store the code points. The size 264 * can be measured with Character#codePointCount(CharSequence, int, int) before passing to this 265 * method. If the int array is too small, an ArrayIndexOutOfBoundsException will be thrown. 266 * Also, this method makes no effort to be thread-safe. Do not modify the CharSequence while 267 * this method is running, or the behavior is undefined. 268 * This method can optionally downcase code points before copying them, but it pays no attention 269 * to locale while doing so. 270 * 271 * @param destination the int array. 272 * @param charSequence the CharSequence. 273 * @param startIndex the start index inside the string in java chars, inclusive. 274 * @param endIndex the end index inside the string in java chars, exclusive. 275 * @param downCase if this is true, code points will be downcased before being copied. 276 * @return the number of copied code points. 277 */ copyCodePointsAndReturnCodePointCount(@onnull final int[] destination, @Nonnull final CharSequence charSequence, final int startIndex, final int endIndex, final boolean downCase)278 public static int copyCodePointsAndReturnCodePointCount(@Nonnull final int[] destination, 279 @Nonnull final CharSequence charSequence, final int startIndex, final int endIndex, 280 final boolean downCase) { 281 int destIndex = 0; 282 for (int index = startIndex; index < endIndex; 283 index = Character.offsetByCodePoints(charSequence, index, 1)) { 284 final int codePoint = Character.codePointAt(charSequence, index); 285 // TODO: stop using this, as it's not aware of the locale and does not always do 286 // the right thing. 287 destination[destIndex] = downCase ? Character.toLowerCase(codePoint) : codePoint; 288 destIndex++; 289 } 290 return destIndex; 291 } 292 293 @Nonnull toSortedCodePointArray(@onnull final String string)294 public static int[] toSortedCodePointArray(@Nonnull final String string) { 295 final int[] codePoints = toCodePointArray(string); 296 Arrays.sort(codePoints); 297 return codePoints; 298 } 299 300 /** 301 * Construct a String from a code point array 302 * 303 * @param codePoints a code point array that is null terminated when its logical length is 304 * shorter than the array length. 305 * @return a string constructed from the code point array. 306 */ 307 @Nonnull getStringFromNullTerminatedCodePointArray( @onnull final int[] codePoints)308 public static String getStringFromNullTerminatedCodePointArray( 309 @Nonnull final int[] codePoints) { 310 int stringLength = codePoints.length; 311 for (int i = 0; i < codePoints.length; i++) { 312 if (codePoints[i] == 0) { 313 stringLength = i; 314 break; 315 } 316 } 317 return new String(codePoints, 0 /* offset */, stringLength); 318 } 319 320 // This method assumes the text is not null. For the empty string, it returns CAPITALIZE_NONE. getCapitalizationType(@onnull final String text)321 public static int getCapitalizationType(@Nonnull final String text) { 322 // If the first char is not uppercase, then the word is either all lower case or 323 // camel case, and in either case we return CAPITALIZE_NONE. 324 final int len = text.length(); 325 int index = 0; 326 for (; index < len; index = text.offsetByCodePoints(index, 1)) { 327 if (Character.isLetter(text.codePointAt(index))) { 328 break; 329 } 330 } 331 if (index == len) return CAPITALIZE_NONE; 332 if (!Character.isUpperCase(text.codePointAt(index))) { 333 return CAPITALIZE_NONE; 334 } 335 int capsCount = 1; 336 int letterCount = 1; 337 for (index = text.offsetByCodePoints(index, 1); index < len; 338 index = text.offsetByCodePoints(index, 1)) { 339 if (1 != capsCount && letterCount != capsCount) break; 340 final int codePoint = text.codePointAt(index); 341 if (Character.isUpperCase(codePoint)) { 342 ++capsCount; 343 ++letterCount; 344 } else if (Character.isLetter(codePoint)) { 345 // We need to discount non-letters since they may not be upper-case, but may 346 // still be part of a word (e.g. single quote or dash, as in "IT'S" or "FULL-TIME") 347 ++letterCount; 348 } 349 } 350 // We know the first char is upper case. So we want to test if either every letter other 351 // than the first is lower case, or if they are all upper case. If the string is exactly 352 // one char long, then we will arrive here with letterCount 1, and this is correct, too. 353 if (1 == capsCount) return CAPITALIZE_FIRST; 354 return (letterCount == capsCount ? CAPITALIZE_ALL : CAPITALIZE_NONE); 355 } 356 isIdenticalAfterUpcase(@onnull final String text)357 public static boolean isIdenticalAfterUpcase(@Nonnull final String text) { 358 final int length = text.length(); 359 int i = 0; 360 while (i < length) { 361 final int codePoint = text.codePointAt(i); 362 if (Character.isLetter(codePoint) && !Character.isUpperCase(codePoint)) { 363 return false; 364 } 365 i += Character.charCount(codePoint); 366 } 367 return true; 368 } 369 isIdenticalAfterDowncase(@onnull final String text)370 public static boolean isIdenticalAfterDowncase(@Nonnull final String text) { 371 final int length = text.length(); 372 int i = 0; 373 while (i < length) { 374 final int codePoint = text.codePointAt(i); 375 if (Character.isLetter(codePoint) && !Character.isLowerCase(codePoint)) { 376 return false; 377 } 378 i += Character.charCount(codePoint); 379 } 380 return true; 381 } 382 isIdenticalAfterCapitalizeEachWord(@onnull final String text, @Nonnull final int[] sortedSeparators)383 public static boolean isIdenticalAfterCapitalizeEachWord(@Nonnull final String text, 384 @Nonnull final int[] sortedSeparators) { 385 boolean needsCapsNext = true; 386 final int len = text.length(); 387 for (int i = 0; i < len; i = text.offsetByCodePoints(i, 1)) { 388 final int codePoint = text.codePointAt(i); 389 if (Character.isLetter(codePoint)) { 390 if ((needsCapsNext && !Character.isUpperCase(codePoint)) 391 || (!needsCapsNext && !Character.isLowerCase(codePoint))) { 392 return false; 393 } 394 } 395 // We need a capital letter next if this is a separator. 396 needsCapsNext = (Arrays.binarySearch(sortedSeparators, codePoint) >= 0); 397 } 398 return true; 399 } 400 401 // TODO: like capitalizeFirst*, this does not work perfectly for Dutch because of the IJ digraph 402 // which should be capitalized together in *some* cases. 403 @Nonnull capitalizeEachWord(@onnull final String text, @Nonnull final int[] sortedSeparators, @Nonnull final Locale locale)404 public static String capitalizeEachWord(@Nonnull final String text, 405 @Nonnull final int[] sortedSeparators, @Nonnull final Locale locale) { 406 final StringBuilder builder = new StringBuilder(); 407 boolean needsCapsNext = true; 408 final int len = text.length(); 409 for (int i = 0; i < len; i = text.offsetByCodePoints(i, 1)) { 410 final String nextChar = text.substring(i, text.offsetByCodePoints(i, 1)); 411 if (needsCapsNext) { 412 builder.append(nextChar.toUpperCase(locale)); 413 } else { 414 builder.append(nextChar.toLowerCase(locale)); 415 } 416 // We need a capital letter next if this is a separator. 417 needsCapsNext = (Arrays.binarySearch(sortedSeparators, nextChar.codePointAt(0)) >= 0); 418 } 419 return builder.toString(); 420 } 421 422 /** 423 * Approximates whether the text before the cursor looks like a URL. 424 * 425 * This is not foolproof, but it should work well in the practice. 426 * Essentially it walks backward from the cursor until it finds something that's not a letter, 427 * digit, or common URL symbol like underscore. If it hasn't found a period yet, then it 428 * does not look like a URL. 429 * If the text: 430 * - starts with www and contains a period 431 * - starts with a slash preceded by either a slash, whitespace, or start-of-string 432 * Then it looks like a URL and we return true. Otherwise, we return false. 433 * 434 * Note: this method is called quite often, and should be fast. 435 * 436 * TODO: This will return that "abc./def" and ".abc/def" look like URLs to keep down the 437 * code complexity, but ideally it should not. It's acceptable for now. 438 */ lastPartLooksLikeURL(@onnull final CharSequence text)439 public static boolean lastPartLooksLikeURL(@Nonnull final CharSequence text) { 440 int i = text.length(); 441 if (0 == i) { 442 return false; 443 } 444 int wCount = 0; 445 int slashCount = 0; 446 boolean hasSlash = false; 447 boolean hasPeriod = false; 448 int codePoint = 0; 449 while (i > 0) { 450 codePoint = Character.codePointBefore(text, i); 451 if (codePoint < Constants.CODE_PERIOD || codePoint > 'z') { 452 // Handwavy heuristic to see if that's a URL character. Anything between period 453 // and z. This includes all lower- and upper-case ascii letters, period, 454 // underscore, arrobase, question mark, equal sign. It excludes spaces, exclamation 455 // marks, double quotes... 456 // Anything that's not a URL-like character causes us to break from here and 457 // evaluate normally. 458 break; 459 } 460 if (Constants.CODE_PERIOD == codePoint) { 461 hasPeriod = true; 462 } 463 if (Constants.CODE_SLASH == codePoint) { 464 hasSlash = true; 465 if (2 == ++slashCount) { 466 return true; 467 } 468 } else { 469 slashCount = 0; 470 } 471 if ('w' == codePoint) { 472 ++wCount; 473 } else { 474 wCount = 0; 475 } 476 i = Character.offsetByCodePoints(text, i, -1); 477 } 478 // End of the text run. 479 // If it starts with www and includes a period, then it looks like a URL. 480 if (wCount >= 3 && hasPeriod) { 481 return true; 482 } 483 // If it starts with a slash, and the code point before is whitespace, it looks like an URL. 484 if (1 == slashCount && (0 == i || Character.isWhitespace(codePoint))) { 485 return true; 486 } 487 // If it has both a period and a slash, it looks like an URL. 488 if (hasPeriod && hasSlash) { 489 return true; 490 } 491 // Otherwise, it doesn't look like an URL. 492 return false; 493 } 494 495 /** 496 * Examines the string and returns whether we're inside a double quote. 497 * 498 * This is used to decide whether we should put an automatic space before or after a double 499 * quote character. If we're inside a quotation, then we want to close it, so we want a space 500 * after and not before. Otherwise, we want to open the quotation, so we want a space before 501 * and not after. Exception: after a digit, we never want a space because the "inch" or 502 * "minutes" use cases is dominant after digits. 503 * In the practice, we determine whether we are in a quotation or not by finding the previous 504 * double quote character, and looking at whether it's followed by whitespace. If so, that 505 * was a closing quotation mark, so we're not inside a double quote. If it's not followed 506 * by whitespace, then it was an opening quotation mark, and we're inside a quotation. 507 * 508 * @param text the text to examine. 509 * @return whether we're inside a double quote. 510 */ isInsideDoubleQuoteOrAfterDigit(@onnull final CharSequence text)511 public static boolean isInsideDoubleQuoteOrAfterDigit(@Nonnull final CharSequence text) { 512 int i = text.length(); 513 if (0 == i) { 514 return false; 515 } 516 int codePoint = Character.codePointBefore(text, i); 517 if (Character.isDigit(codePoint)) { 518 return true; 519 } 520 int prevCodePoint = 0; 521 while (i > 0) { 522 codePoint = Character.codePointBefore(text, i); 523 if (Constants.CODE_DOUBLE_QUOTE == codePoint) { 524 // If we see a double quote followed by whitespace, then that 525 // was a closing quote. 526 if (Character.isWhitespace(prevCodePoint)) { 527 return false; 528 } 529 } 530 if (Character.isWhitespace(codePoint) && Constants.CODE_DOUBLE_QUOTE == prevCodePoint) { 531 // If we see a double quote preceded by whitespace, then that 532 // was an opening quote. No need to continue seeking. 533 return true; 534 } 535 i -= Character.charCount(codePoint); 536 prevCodePoint = codePoint; 537 } 538 // We reached the start of text. If the first char is a double quote, then we're inside 539 // a double quote. Otherwise we're not. 540 return Constants.CODE_DOUBLE_QUOTE == codePoint; 541 } 542 isEmptyStringOrWhiteSpaces(@onnull final String s)543 public static boolean isEmptyStringOrWhiteSpaces(@Nonnull final String s) { 544 final int N = codePointCount(s); 545 for (int i = 0; i < N; ++i) { 546 if (!Character.isWhitespace(s.codePointAt(i))) { 547 return false; 548 } 549 } 550 return true; 551 } 552 553 @UsedForTesting 554 @Nonnull byteArrayToHexString(@ullable final byte[] bytes)555 public static String byteArrayToHexString(@Nullable final byte[] bytes) { 556 if (bytes == null || bytes.length == 0) { 557 return EMPTY_STRING; 558 } 559 final StringBuilder sb = new StringBuilder(); 560 for (final byte b : bytes) { 561 sb.append(String.format("%02x", b & 0xff)); 562 } 563 return sb.toString(); 564 } 565 566 /** 567 * Convert hex string to byte array. The string length must be an even number. 568 */ 569 @UsedForTesting 570 @Nullable hexStringToByteArray(@ullable final String hexString)571 public static byte[] hexStringToByteArray(@Nullable final String hexString) { 572 if (isEmpty(hexString)) { 573 return null; 574 } 575 final int N = hexString.length(); 576 if (N % 2 != 0) { 577 throw new NumberFormatException("Input hex string length must be an even number." 578 + " Length = " + N); 579 } 580 final byte[] bytes = new byte[N / 2]; 581 for (int i = 0; i < N; i += 2) { 582 bytes[i / 2] = (byte) ((Character.digit(hexString.charAt(i), 16) << 4) 583 + Character.digit(hexString.charAt(i + 1), 16)); 584 } 585 return bytes; 586 } 587 588 private static final String LANGUAGE_GREEK = "el"; 589 590 @Nonnull getLocaleUsedForToTitleCase(@onnull final Locale locale)591 private static Locale getLocaleUsedForToTitleCase(@Nonnull final Locale locale) { 592 // In Greek locale {@link String#toUpperCase(Locale)} eliminates accents from its result. 593 // In order to get accented upper case letter, {@link Locale#ROOT} should be used. 594 if (LANGUAGE_GREEK.equals(locale.getLanguage())) { 595 return Locale.ROOT; 596 } 597 return locale; 598 } 599 600 @Nullable toTitleCaseOfKeyLabel(@ullable final String label, @Nonnull final Locale locale)601 public static String toTitleCaseOfKeyLabel(@Nullable final String label, 602 @Nonnull final Locale locale) { 603 if (label == null) { 604 return label; 605 } 606 return label.toUpperCase(getLocaleUsedForToTitleCase(locale)); 607 } 608 toTitleCaseOfKeyCode(final int code, @Nonnull final Locale locale)609 public static int toTitleCaseOfKeyCode(final int code, @Nonnull final Locale locale) { 610 if (!Constants.isLetterCode(code)) { 611 return code; 612 } 613 final String label = newSingleCodePointString(code); 614 final String titleCaseLabel = toTitleCaseOfKeyLabel(label, locale); 615 return codePointCount(titleCaseLabel) == 1 616 ? titleCaseLabel.codePointAt(0) : Constants.CODE_UNSPECIFIED; 617 } 618 getTrailingSingleQuotesCount(@onnull final CharSequence charSequence)619 public static int getTrailingSingleQuotesCount(@Nonnull final CharSequence charSequence) { 620 final int lastIndex = charSequence.length() - 1; 621 int i = lastIndex; 622 while (i >= 0 && charSequence.charAt(i) == Constants.CODE_SINGLE_QUOTE) { 623 --i; 624 } 625 return lastIndex - i; 626 } 627 628 @UsedForTesting 629 public static class Stringizer<E> { 630 @Nonnull 631 private static final String[] EMPTY_STRING_ARRAY = new String[0]; 632 633 @UsedForTesting 634 @Nonnull stringize(@ullable final E element)635 public String stringize(@Nullable final E element) { 636 if (element == null) { 637 return "null"; 638 } 639 return element.toString(); 640 } 641 642 @UsedForTesting 643 @Nonnull join(@ullable final E[] array)644 public final String join(@Nullable final E[] array) { 645 return joinStringArray(toStringArray(array), null /* delimiter */); 646 } 647 648 @UsedForTesting join(@ullable final E[] array, @Nullable final String delimiter)649 public final String join(@Nullable final E[] array, @Nullable final String delimiter) { 650 return joinStringArray(toStringArray(array), delimiter); 651 } 652 653 @Nonnull toStringArray(@ullable final E[] array)654 protected String[] toStringArray(@Nullable final E[] array) { 655 if (array == null) { 656 return EMPTY_STRING_ARRAY; 657 } 658 final String[] stringArray = new String[array.length]; 659 for (int index = 0; index < array.length; index++) { 660 stringArray[index] = stringize(array[index]); 661 } 662 return stringArray; 663 } 664 665 @Nonnull joinStringArray(@onnull final String[] stringArray, @Nullable final String delimiter)666 protected String joinStringArray(@Nonnull final String[] stringArray, 667 @Nullable final String delimiter) { 668 if (delimiter == null) { 669 return Arrays.toString(stringArray); 670 } 671 final StringBuilder sb = new StringBuilder(); 672 for (int index = 0; index < stringArray.length; index++) { 673 sb.append(index == 0 ? "[" : delimiter); 674 sb.append(stringArray[index]); 675 } 676 return sb + "]"; 677 } 678 } 679 680 /** 681 * Returns whether the last composed word contains line-breaking character (e.g. CR or LF). 682 * @param text the text to be examined. 683 * @return {@code true} if the last composed word contains line-breaking separator. 684 */ hasLineBreakCharacter(@ullable final String text)685 public static boolean hasLineBreakCharacter(@Nullable final String text) { 686 if (isEmpty(text)) { 687 return false; 688 } 689 for (int i = text.length() - 1; i >= 0; --i) { 690 final char c = text.charAt(i); 691 switch (c) { 692 case CHAR_LINE_FEED: 693 case CHAR_VERTICAL_TAB: 694 case CHAR_FORM_FEED: 695 case CHAR_CARRIAGE_RETURN: 696 case CHAR_NEXT_LINE: 697 case CHAR_LINE_SEPARATOR: 698 case CHAR_PARAGRAPH_SEPARATOR: 699 return true; 700 } 701 } 702 return false; 703 } 704 } 705