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/*
 * Copyright (C) 2010 The Guava Authors
 *
 * Licensed 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.
 */

package com.hazelcast.com.google.common.base;

import static com.hazelcast.com.google.common.base.Preconditions.checkArgument;
import static com.hazelcast.com.google.common.base.Preconditions.checkNotNull;
import static java.util.logging.Level.WARNING;

import com.hazelcast.com.google.common.annotations.GwtCompatible;
import com.hazelcast.com.google.common.annotations.VisibleForTesting;
import java.util.logging.Logger;
import org.checkerframework.checker.nullness.qual.Nullable;

/**
 * Static utility methods pertaining to {@code String} or {@code CharSequence} instances.
 *
 * @author Kevin Bourrillion
 * @since 3.0
 */
@GwtCompatible
public final class Strings {
  private Strings() {}

  /**
   * Returns the given string if it is non-null; the empty string otherwise.
   *
   * @param string the string to test and possibly return
   * @return {@code string} itself if it is non-null; {@code ""} if it is null
   */
  public static String nullToEmpty(@Nullable String string) {
    return Platform.nullToEmpty(string);
  }

  /**
   * Returns the given string if it is nonempty; {@code null} otherwise.
   *
   * @param string the string to test and possibly return
   * @return {@code string} itself if it is nonempty; {@code null} if it is empty or null
   */
  public static @Nullable String emptyToNull(@Nullable String string) {
    return Platform.emptyToNull(string);
  }

  /**
   * Returns {@code true} if the given string is null or is the empty string.
   *
   * 

Consider normalizing your string references with {@link #nullToEmpty}. If you do, you can * use {@link String#isEmpty()} instead of this method, and you won't need special null-safe forms * of methods like {@link String#toUpperCase} either. Or, if you'd like to normalize "in the other * direction," converting empty strings to {@code null}, you can use {@link #emptyToNull}. * * @param string a string reference to check * @return {@code true} if the string is null or is the empty string */ public static boolean isNullOrEmpty(@Nullable String string) { return Platform.stringIsNullOrEmpty(string); } /** * Returns a string, of length at least {@code minLength}, consisting of {@code string} prepended * with as many copies of {@code padChar} as are necessary to reach that length. For example, * *

    *
  • {@code padStart("7", 3, '0')} returns {@code "007"} *
  • {@code padStart("2010", 3, '0')} returns {@code "2010"} *
* *

See {@link java.util.Formatter} for a richer set of formatting capabilities. * * @param string the string which should appear at the end of the result * @param minLength the minimum length the resulting string must have. Can be zero or negative, in * which case the input string is always returned. * @param padChar the character to insert at the beginning of the result until the minimum length * is reached * @return the padded string */ public static String padStart(String string, int minLength, char padChar) { checkNotNull(string); // eager for GWT. if (string.length() >= minLength) { return string; } StringBuilder sb = new StringBuilder(minLength); for (int i = string.length(); i < minLength; i++) { sb.append(padChar); } sb.append(string); return sb.toString(); } /** * Returns a string, of length at least {@code minLength}, consisting of {@code string} appended * with as many copies of {@code padChar} as are necessary to reach that length. For example, * *

    *
  • {@code padEnd("4.", 5, '0')} returns {@code "4.000"} *
  • {@code padEnd("2010", 3, '!')} returns {@code "2010"} *
* *

See {@link java.util.Formatter} for a richer set of formatting capabilities. * * @param string the string which should appear at the beginning of the result * @param minLength the minimum length the resulting string must have. Can be zero or negative, in * which case the input string is always returned. * @param padChar the character to append to the end of the result until the minimum length is * reached * @return the padded string */ public static String padEnd(String string, int minLength, char padChar) { checkNotNull(string); // eager for GWT. if (string.length() >= minLength) { return string; } StringBuilder sb = new StringBuilder(minLength); sb.append(string); for (int i = string.length(); i < minLength; i++) { sb.append(padChar); } return sb.toString(); } /** * Returns a string consisting of a specific number of concatenated copies of an input string. For * example, {@code repeat("hey", 3)} returns the string {@code "heyheyhey"}. * * @param string any non-null string * @param count the number of times to repeat it; a nonnegative integer * @return a string containing {@code string} repeated {@code count} times (the empty string if * {@code count} is zero) * @throws IllegalArgumentException if {@code count} is negative */ public static String repeat(String string, int count) { checkNotNull(string); // eager for GWT. if (count <= 1) { checkArgument(count >= 0, "invalid count: %s", count); return (count == 0) ? "" : string; } // IF YOU MODIFY THE CODE HERE, you must update StringsRepeatBenchmark final int len = string.length(); final long longSize = (long) len * (long) count; final int size = (int) longSize; if (size != longSize) { throw new ArrayIndexOutOfBoundsException("Required array size too large: " + longSize); } final char[] array = new char[size]; string.getChars(0, len, array, 0); int n; for (n = len; n < size - n; n <<= 1) { System.arraycopy(array, 0, array, n, n); } System.arraycopy(array, 0, array, n, size - n); return new String(array); } /** * Returns the longest string {@code prefix} such that {@code a.toString().startsWith(prefix) && * b.toString().startsWith(prefix)}, taking care not to split surrogate pairs. If {@code a} and * {@code b} have no common prefix, returns the empty string. * * @since 11.0 */ public static String commonPrefix(CharSequence a, CharSequence b) { checkNotNull(a); checkNotNull(b); int maxPrefixLength = Math.min(a.length(), b.length()); int p = 0; while (p < maxPrefixLength && a.charAt(p) == b.charAt(p)) { p++; } if (validSurrogatePairAt(a, p - 1) || validSurrogatePairAt(b, p - 1)) { p--; } return a.subSequence(0, p).toString(); } /** * Returns the longest string {@code suffix} such that {@code a.toString().endsWith(suffix) && * b.toString().endsWith(suffix)}, taking care not to split surrogate pairs. If {@code a} and * {@code b} have no common suffix, returns the empty string. * * @since 11.0 */ public static String commonSuffix(CharSequence a, CharSequence b) { checkNotNull(a); checkNotNull(b); int maxSuffixLength = Math.min(a.length(), b.length()); int s = 0; while (s < maxSuffixLength && a.charAt(a.length() - s - 1) == b.charAt(b.length() - s - 1)) { s++; } if (validSurrogatePairAt(a, a.length() - s - 1) || validSurrogatePairAt(b, b.length() - s - 1)) { s--; } return a.subSequence(a.length() - s, a.length()).toString(); } /** * True when a valid surrogate pair starts at the given {@code index} in the given {@code string}. * Out-of-range indexes return false. */ @VisibleForTesting static boolean validSurrogatePairAt(CharSequence string, int index) { return index >= 0 && index <= (string.length() - 2) && Character.isHighSurrogate(string.charAt(index)) && Character.isLowSurrogate(string.charAt(index + 1)); } /** * Returns the given {@code template} string with each occurrence of {@code "%s"} replaced with * the corresponding argument value from {@code args}; or, if the placeholder and argument counts * do not match, returns a best-effort form of that string. Will not throw an exception under * normal conditions. * *

Note: For most string-formatting needs, use {@link String#format String.format}, * {@link java.io.PrintWriter#format PrintWriter.format}, and related methods. These support the * full range of format * specifiers, and alert you to usage errors by throwing {@link * java.util.IllegalFormatException}. * *

In certain cases, such as outputting debugging information or constructing a message to be * used for another unchecked exception, an exception during string formatting would serve little * purpose except to supplant the real information you were trying to provide. These are the cases * this method is made for; it instead generates a best-effort string with all supplied argument * values present. This method is also useful in environments such as GWT where {@code * String.format} is not available. As an example, method implementations of the {@link * Preconditions} class use this formatter, for both of the reasons just discussed. * *

Warning: Only the exact two-character placeholder sequence {@code "%s"} is * recognized. * * @param template a string containing zero or more {@code "%s"} placeholder sequences. {@code * null} is treated as the four-character string {@code "null"}. * @param args the arguments to be substituted into the message template. The first argument * specified is substituted for the first occurrence of {@code "%s"} in the template, and so * forth. A {@code null} argument is converted to the four-character string {@code "null"}; * non-null values are converted to strings using {@link Object#toString()}. * @since 25.1 */ // TODO(diamondm) consider using Arrays.toString() for array parameters public static String lenientFormat( @Nullable String template, @Nullable Object @Nullable ... args) { template = String.valueOf(template); // null -> "null" if (args == null) { args = new Object[] {"(Object[])null"}; } else { for (int i = 0; i < args.length; i++) { args[i] = lenientToString(args[i]); } } // start substituting the arguments into the '%s' placeholders StringBuilder builder = new StringBuilder(template.length() + 16 * args.length); int templateStart = 0; int i = 0; while (i < args.length) { int placeholderStart = template.indexOf("%s", templateStart); if (placeholderStart == -1) { break; } builder.append(template, templateStart, placeholderStart); builder.append(args[i++]); templateStart = placeholderStart + 2; } builder.append(template, templateStart, template.length()); // if we run out of placeholders, append the extra args in square braces if (i < args.length) { builder.append(" ["); builder.append(args[i++]); while (i < args.length) { builder.append(", "); builder.append(args[i++]); } builder.append(']'); } return builder.toString(); } private static String lenientToString(@Nullable Object o) { if (o == null) { return "null"; } try { return o.toString(); } catch (Exception e) { // Default toString() behavior - see Object.toString() String objectToString = o.getClass().getName() + '@' + Integer.toHexString(System.identityHashCode(o)); // Logger is created inline with fixed name to avoid forcing Proguard to create another class. Logger.getLogger("com.hazelcast.com.google.common.base.Strings") .log(WARNING, "Exception during lenientFormat for " + objectToString, e); return "<" + objectToString + " threw " + e.getClass().getName() + ">"; } } }





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