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/*
 * Copyright (C) 2012 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 jersey.repackaged.com.google.common.io;

import static jersey.repackaged.com.google.common.base.Preconditions.checkArgument;
import static jersey.repackaged.com.google.common.base.Preconditions.checkNotNull;
import static jersey.repackaged.com.google.common.base.Preconditions.checkPositionIndexes;
import static jersey.repackaged.com.google.common.base.Preconditions.checkState;
import static jersey.repackaged.com.google.common.io.GwtWorkarounds.asCharInput;
import static jersey.repackaged.com.google.common.io.GwtWorkarounds.asCharOutput;
import static jersey.repackaged.com.google.common.io.GwtWorkarounds.asInputStream;
import static jersey.repackaged.com.google.common.io.GwtWorkarounds.asOutputStream;
import static jersey.repackaged.com.google.common.io.GwtWorkarounds.stringBuilderOutput;
import static jersey.repackaged.com.google.common.math.IntMath.divide;
import static jersey.repackaged.com.google.common.math.IntMath.log2;
import static java.math.RoundingMode.CEILING;
import static java.math.RoundingMode.FLOOR;
import static java.math.RoundingMode.UNNECESSARY;

import jersey.repackaged.com.google.common.annotations.Beta;
import jersey.repackaged.com.google.common.annotations.GwtCompatible;
import jersey.repackaged.com.google.common.annotations.GwtIncompatible;
import jersey.repackaged.com.google.common.base.Ascii;
import jersey.repackaged.com.google.common.base.CharMatcher;
import jersey.repackaged.com.google.common.io.GwtWorkarounds.ByteInput;
import jersey.repackaged.com.google.common.io.GwtWorkarounds.ByteOutput;
import jersey.repackaged.com.google.common.io.GwtWorkarounds.CharInput;
import jersey.repackaged.com.google.common.io.GwtWorkarounds.CharOutput;

import java.io.IOException;
import java.io.InputStream;
import java.io.OutputStream;
import java.io.Reader;
import java.io.Writer;
import java.util.Arrays;

import javax.annotation.CheckReturnValue;
import javax.annotation.Nullable;

/**
 * A binary encoding scheme for reversibly translating between byte sequences and printable ASCII
 * strings. This class includes several constants for encoding schemes specified by RFC 4648. For example, the expression:
 *
 * 
   {@code
 *   BaseEncoding.base32().encode("foo".getBytes(Charsets.US_ASCII))}
* *

returns the string {@code "MZXW6==="}, and

   {@code
 *  byte[] decoded = BaseEncoding.base32().decode("MZXW6===");}
* *

...returns the ASCII bytes of the string {@code "foo"}. * *

By default, {@code BaseEncoding}'s behavior is relatively strict and in accordance with * RFC 4648. Decoding rejects characters in the wrong case, though padding is optional. * To modify encoding and decoding behavior, use configuration methods to obtain a new encoding * with modified behavior: * *

   {@code
 *  BaseEncoding.base16().lowerCase().decode("deadbeef");}
* *

Warning: BaseEncoding instances are immutable. Invoking a configuration method has no effect * on the receiving instance; you must store and use the new encoding instance it returns, instead. * *

   {@code
 *   // Do NOT do this
 *   BaseEncoding hex = BaseEncoding.base16();
 *   hex.lowerCase(); // does nothing!
 *   return hex.decode("deadbeef"); // throws an IllegalArgumentException}
* *

It is guaranteed that {@code encoding.decode(encoding.encode(x))} is always equal to * {@code x}, but the reverse does not necessarily hold. * *

*

* * * * * * *
Encoding * Alphabet * {@code char:byte} ratio * Default padding * Comments *
{@link #base16()} * 0-9 A-F * 2.00 * N/A * Traditional hexadecimal. Defaults to upper case. *
{@link #base32()} * A-Z 2-7 * 1.60 * = * Human-readable; no possibility of mixing up 0/O or 1/I. Defaults to upper case. *
{@link #base32Hex()} * 0-9 A-V * 1.60 * = * "Numerical" base 32; extended from the traditional hex alphabet. Defaults to upper case. *
{@link #base64()} * A-Z a-z 0-9 + / * 1.33 * = * *
{@link #base64Url()} * A-Z a-z 0-9 - _ * 1.33 * = * Safe to use as filenames, or to pass in URLs without escaping *
* *

* All instances of this class are immutable, so they may be stored safely as static constants. * * @author Louis Wasserman * @since 14.0 */ @Beta @GwtCompatible(emulated = true) public abstract class BaseEncoding { // TODO(user): consider adding encodeTo(Appendable, byte[], [int, int]) BaseEncoding() {} /** * Exception indicating invalid base-encoded input encountered while decoding. * * @author Louis Wasserman * @since 15.0 */ public static final class DecodingException extends IOException { DecodingException(String message) { super(message); } DecodingException(Throwable cause) { super(cause); } } /** * Encodes the specified byte array, and returns the encoded {@code String}. */ public String encode(byte[] bytes) { return encode(checkNotNull(bytes), 0, bytes.length); } /** * Encodes the specified range of the specified byte array, and returns the encoded * {@code String}. */ public final String encode(byte[] bytes, int off, int len) { checkNotNull(bytes); checkPositionIndexes(off, off + len, bytes.length); CharOutput result = stringBuilderOutput(maxEncodedSize(len)); ByteOutput byteOutput = encodingStream(result); try { for (int i = 0; i < len; i++) { byteOutput.write(bytes[off + i]); } byteOutput.close(); } catch (IOException impossible) { throw new AssertionError("impossible"); } return result.toString(); } /** * Returns an {@code OutputStream} that encodes bytes using this encoding into the specified * {@code Writer}. When the returned {@code OutputStream} is closed, so is the backing * {@code Writer}. */ @GwtIncompatible("Writer,OutputStream") public final OutputStream encodingStream(Writer writer) { return asOutputStream(encodingStream(asCharOutput(writer))); } /** * Returns a {@code ByteSink} that writes base-encoded bytes to the specified {@code CharSink}. */ @GwtIncompatible("ByteSink,CharSink") public final ByteSink encodingSink(final CharSink encodedSink) { checkNotNull(encodedSink); return new ByteSink() { @Override public OutputStream openStream() throws IOException { return encodingStream(encodedSink.openStream()); } }; } // TODO(user): document the extent of leniency, probably after adding ignore(CharMatcher) private static byte[] extract(byte[] result, int length) { if (length == result.length) { return result; } else { byte[] trunc = new byte[length]; System.arraycopy(result, 0, trunc, 0, length); return trunc; } } /** * Decodes the specified character sequence, and returns the resulting {@code byte[]}. * This is the inverse operation to {@link #encode(byte[])}. * * @throws IllegalArgumentException if the input is not a valid encoded string according to this * encoding. */ public final byte[] decode(CharSequence chars) { try { return decodeChecked(chars); } catch (DecodingException badInput) { throw new IllegalArgumentException(badInput); } } /** * Decodes the specified character sequence, and returns the resulting {@code byte[]}. * This is the inverse operation to {@link #encode(byte[])}. * * @throws DecodingException if the input is not a valid encoded string according to this * encoding. */ final byte[] decodeChecked(CharSequence chars) throws DecodingException { chars = padding().trimTrailingFrom(chars); ByteInput decodedInput = decodingStream(asCharInput(chars)); byte[] tmp = new byte[maxDecodedSize(chars.length())]; int index = 0; try { for (int i = decodedInput.read(); i != -1; i = decodedInput.read()) { tmp[index++] = (byte) i; } } catch (DecodingException badInput) { throw badInput; } catch (IOException impossible) { throw new AssertionError(impossible); } return extract(tmp, index); } /** * Returns an {@code InputStream} that decodes base-encoded input from the specified * {@code Reader}. The returned stream throws a {@link DecodingException} upon decoding-specific * errors. */ @GwtIncompatible("Reader,InputStream") public final InputStream decodingStream(Reader reader) { return asInputStream(decodingStream(asCharInput(reader))); } /** * Returns a {@code ByteSource} that reads base-encoded bytes from the specified * {@code CharSource}. */ @GwtIncompatible("ByteSource,CharSource") public final ByteSource decodingSource(final CharSource encodedSource) { checkNotNull(encodedSource); return new ByteSource() { @Override public InputStream openStream() throws IOException { return decodingStream(encodedSource.openStream()); } }; } // Implementations for encoding/decoding abstract int maxEncodedSize(int bytes); abstract ByteOutput encodingStream(CharOutput charOutput); abstract int maxDecodedSize(int chars); abstract ByteInput decodingStream(CharInput charInput); abstract CharMatcher padding(); // Modified encoding generators /** * Returns an encoding that behaves equivalently to this encoding, but omits any padding * characters as specified by RFC 4648 * section 3.2, Padding of Encoded Data. */ @CheckReturnValue public abstract BaseEncoding omitPadding(); /** * Returns an encoding that behaves equivalently to this encoding, but uses an alternate character * for padding. * * @throws IllegalArgumentException if this padding character is already used in the alphabet or a * separator */ @CheckReturnValue public abstract BaseEncoding withPadChar(char padChar); /** * Returns an encoding that behaves equivalently to this encoding, but adds a separator string * after every {@code n} characters. Any occurrences of any characters that occur in the separator * are skipped over in decoding. * * @throws IllegalArgumentException if any alphabet or padding characters appear in the separator * string, or if {@code n <= 0} * @throws UnsupportedOperationException if this encoding already uses a separator */ @CheckReturnValue public abstract BaseEncoding withSeparator(String separator, int n); /** * Returns an encoding that behaves equivalently to this encoding, but encodes and decodes with * uppercase letters. Padding and separator characters remain in their original case. * * @throws IllegalStateException if the alphabet used by this encoding contains mixed upper- and * lower-case characters */ @CheckReturnValue public abstract BaseEncoding upperCase(); /** * Returns an encoding that behaves equivalently to this encoding, but encodes and decodes with * lowercase letters. Padding and separator characters remain in their original case. * * @throws IllegalStateException if the alphabet used by this encoding contains mixed upper- and * lower-case characters */ @CheckReturnValue public abstract BaseEncoding lowerCase(); private static final BaseEncoding BASE64 = new StandardBaseEncoding( "base64()", "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/", '='); /** * The "base64" base encoding specified by RFC 4648 section 4, Base 64 Encoding. * (This is the same as the base 64 encoding from RFC 3548.) * *

The character {@code '='} is used for padding, but can be {@linkplain #omitPadding() * omitted} or {@linkplain #withPadChar(char) replaced}. * *

No line feeds are added by default, as per RFC 4648 section 3.1, Line Feeds in * Encoded Data. Line feeds may be added using {@link #withSeparator(String, int)}. */ public static BaseEncoding base64() { return BASE64; } private static final BaseEncoding BASE64_URL = new StandardBaseEncoding( "base64Url()", "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789-_", '='); /** * The "base64url" encoding specified by RFC 4648 section 5, Base 64 Encoding * with URL and Filename Safe Alphabet, also sometimes referred to as the "web safe Base64." * (This is the same as the base 64 encoding with URL and filename safe alphabet from RFC 3548.) * *

The character {@code '='} is used for padding, but can be {@linkplain #omitPadding() * omitted} or {@linkplain #withPadChar(char) replaced}. * *

No line feeds are added by default, as per RFC 4648 section 3.1, Line Feeds in * Encoded Data. Line feeds may be added using {@link #withSeparator(String, int)}. */ public static BaseEncoding base64Url() { return BASE64_URL; } private static final BaseEncoding BASE32 = new StandardBaseEncoding("base32()", "ABCDEFGHIJKLMNOPQRSTUVWXYZ234567", '='); /** * The "base32" encoding specified by RFC 4648 section 6, Base 32 Encoding. * (This is the same as the base 32 encoding from RFC 3548.) * *

The character {@code '='} is used for padding, but can be {@linkplain #omitPadding() * omitted} or {@linkplain #withPadChar(char) replaced}. * *

No line feeds are added by default, as per RFC 4648 section 3.1, Line Feeds in * Encoded Data. Line feeds may be added using {@link #withSeparator(String, int)}. */ public static BaseEncoding base32() { return BASE32; } private static final BaseEncoding BASE32_HEX = new StandardBaseEncoding("base32Hex()", "0123456789ABCDEFGHIJKLMNOPQRSTUV", '='); /** * The "base32hex" encoding specified by RFC 4648 section 7, Base 32 Encoding * with Extended Hex Alphabet. There is no corresponding encoding in RFC 3548. * *

The character {@code '='} is used for padding, but can be {@linkplain #omitPadding() * omitted} or {@linkplain #withPadChar(char) replaced}. * *

No line feeds are added by default, as per RFC 4648 section 3.1, Line Feeds in * Encoded Data. Line feeds may be added using {@link #withSeparator(String, int)}. */ public static BaseEncoding base32Hex() { return BASE32_HEX; } private static final BaseEncoding BASE16 = new StandardBaseEncoding("base16()", "0123456789ABCDEF", null); /** * The "base16" encoding specified by RFC 4648 section 8, Base 16 Encoding. * (This is the same as the base 16 encoding from RFC 3548.) This is commonly known as * "hexadecimal" format. * *

No padding is necessary in base 16, so {@link #withPadChar(char)} and * {@link #omitPadding()} have no effect. * *

No line feeds are added by default, as per RFC 4648 section 3.1, Line Feeds in * Encoded Data. Line feeds may be added using {@link #withSeparator(String, int)}. */ public static BaseEncoding base16() { return BASE16; } private static final class Alphabet extends CharMatcher { private final String name; // this is meant to be immutable -- don't modify it! private final char[] chars; final int mask; final int bitsPerChar; final int charsPerChunk; final int bytesPerChunk; private final byte[] decodabet; private final boolean[] validPadding; Alphabet(String name, char[] chars) { this.name = checkNotNull(name); this.chars = checkNotNull(chars); try { this.bitsPerChar = log2(chars.length, UNNECESSARY); } catch (ArithmeticException e) { throw new IllegalArgumentException("Illegal alphabet length " + chars.length, e); } /* * e.g. for base64, bitsPerChar == 6, charsPerChunk == 4, and bytesPerChunk == 3. This makes * for the smallest chunk size that still has charsPerChunk * bitsPerChar be a multiple of 8. */ int gcd = Math.min(8, Integer.lowestOneBit(bitsPerChar)); this.charsPerChunk = 8 / gcd; this.bytesPerChunk = bitsPerChar / gcd; this.mask = chars.length - 1; byte[] decodabet = new byte[Ascii.MAX + 1]; Arrays.fill(decodabet, (byte) -1); for (int i = 0; i < chars.length; i++) { char c = chars[i]; checkArgument(CharMatcher.ASCII.matches(c), "Non-ASCII character: %s", c); checkArgument(decodabet[c] == -1, "Duplicate character: %s", c); decodabet[c] = (byte) i; } this.decodabet = decodabet; boolean[] validPadding = new boolean[charsPerChunk]; for (int i = 0; i < bytesPerChunk; i++) { validPadding[divide(i * 8, bitsPerChar, CEILING)] = true; } this.validPadding = validPadding; } char encode(int bits) { return chars[bits]; } boolean isValidPaddingStartPosition(int index) { return validPadding[index % charsPerChunk]; } int decode(char ch) throws IOException { if (ch > Ascii.MAX || decodabet[ch] == -1) { throw new DecodingException("Unrecognized character: " + ch); } return decodabet[ch]; } private boolean hasLowerCase() { for (char c : chars) { if (Ascii.isLowerCase(c)) { return true; } } return false; } private boolean hasUpperCase() { for (char c : chars) { if (Ascii.isUpperCase(c)) { return true; } } return false; } Alphabet upperCase() { if (!hasLowerCase()) { return this; } else { checkState(!hasUpperCase(), "Cannot call upperCase() on a mixed-case alphabet"); char[] upperCased = new char[chars.length]; for (int i = 0; i < chars.length; i++) { upperCased[i] = Ascii.toUpperCase(chars[i]); } return new Alphabet(name + ".upperCase()", upperCased); } } Alphabet lowerCase() { if (!hasUpperCase()) { return this; } else { checkState(!hasLowerCase(), "Cannot call lowerCase() on a mixed-case alphabet"); char[] lowerCased = new char[chars.length]; for (int i = 0; i < chars.length; i++) { lowerCased[i] = Ascii.toLowerCase(chars[i]); } return new Alphabet(name + ".lowerCase()", lowerCased); } } @Override public boolean matches(char c) { return CharMatcher.ASCII.matches(c) && decodabet[c] != -1; } @Override public String toString() { return name; } } static final class StandardBaseEncoding extends BaseEncoding { // TODO(user): provide a useful toString private final Alphabet alphabet; @Nullable private final Character paddingChar; StandardBaseEncoding(String name, String alphabetChars, @Nullable Character paddingChar) { this(new Alphabet(name, alphabetChars.toCharArray()), paddingChar); } StandardBaseEncoding(Alphabet alphabet, @Nullable Character paddingChar) { this.alphabet = checkNotNull(alphabet); checkArgument(paddingChar == null || !alphabet.matches(paddingChar), "Padding character %s was already in alphabet", paddingChar); this.paddingChar = paddingChar; } @Override CharMatcher padding() { return (paddingChar == null) ? CharMatcher.NONE : CharMatcher.is(paddingChar.charValue()); } @Override int maxEncodedSize(int bytes) { return alphabet.charsPerChunk * divide(bytes, alphabet.bytesPerChunk, CEILING); } @Override ByteOutput encodingStream(final CharOutput out) { checkNotNull(out); return new ByteOutput() { int bitBuffer = 0; int bitBufferLength = 0; int writtenChars = 0; @Override public void write(byte b) throws IOException { bitBuffer <<= 8; bitBuffer |= b & 0xFF; bitBufferLength += 8; while (bitBufferLength >= alphabet.bitsPerChar) { int charIndex = (bitBuffer >> (bitBufferLength - alphabet.bitsPerChar)) & alphabet.mask; out.write(alphabet.encode(charIndex)); writtenChars++; bitBufferLength -= alphabet.bitsPerChar; } } @Override public void flush() throws IOException { out.flush(); } @Override public void close() throws IOException { if (bitBufferLength > 0) { int charIndex = (bitBuffer << (alphabet.bitsPerChar - bitBufferLength)) & alphabet.mask; out.write(alphabet.encode(charIndex)); writtenChars++; if (paddingChar != null) { while (writtenChars % alphabet.charsPerChunk != 0) { out.write(paddingChar.charValue()); writtenChars++; } } } out.close(); } }; } @Override int maxDecodedSize(int chars) { return (int) ((alphabet.bitsPerChar * (long) chars + 7L) / 8L); } @Override ByteInput decodingStream(final CharInput reader) { checkNotNull(reader); return new ByteInput() { int bitBuffer = 0; int bitBufferLength = 0; int readChars = 0; boolean hitPadding = false; final CharMatcher paddingMatcher = padding(); @Override public int read() throws IOException { while (true) { int readChar = reader.read(); if (readChar == -1) { if (!hitPadding && !alphabet.isValidPaddingStartPosition(readChars)) { throw new DecodingException("Invalid input length " + readChars); } return -1; } readChars++; char ch = (char) readChar; if (paddingMatcher.matches(ch)) { if (!hitPadding && (readChars == 1 || !alphabet.isValidPaddingStartPosition(readChars - 1))) { throw new DecodingException("Padding cannot start at index " + readChars); } hitPadding = true; } else if (hitPadding) { throw new DecodingException( "Expected padding character but found '" + ch + "' at index " + readChars); } else { bitBuffer <<= alphabet.bitsPerChar; bitBuffer |= alphabet.decode(ch); bitBufferLength += alphabet.bitsPerChar; if (bitBufferLength >= 8) { bitBufferLength -= 8; return (bitBuffer >> bitBufferLength) & 0xFF; } } } } @Override public void close() throws IOException { reader.close(); } }; } @Override public BaseEncoding omitPadding() { return (paddingChar == null) ? this : new StandardBaseEncoding(alphabet, null); } @Override public BaseEncoding withPadChar(char padChar) { if (8 % alphabet.bitsPerChar == 0 || (paddingChar != null && paddingChar.charValue() == padChar)) { return this; } else { return new StandardBaseEncoding(alphabet, padChar); } } @Override public BaseEncoding withSeparator(String separator, int afterEveryChars) { checkNotNull(separator); checkArgument(padding().or(alphabet).matchesNoneOf(separator), "Separator cannot contain alphabet or padding characters"); return new SeparatedBaseEncoding(this, separator, afterEveryChars); } private transient BaseEncoding upperCase; private transient BaseEncoding lowerCase; @Override public BaseEncoding upperCase() { BaseEncoding result = upperCase; if (result == null) { Alphabet upper = alphabet.upperCase(); result = upperCase = (upper == alphabet) ? this : new StandardBaseEncoding(upper, paddingChar); } return result; } @Override public BaseEncoding lowerCase() { BaseEncoding result = lowerCase; if (result == null) { Alphabet lower = alphabet.lowerCase(); result = lowerCase = (lower == alphabet) ? this : new StandardBaseEncoding(lower, paddingChar); } return result; } @Override public String toString() { StringBuilder builder = new StringBuilder("BaseEncoding."); builder.append(alphabet.toString()); if (8 % alphabet.bitsPerChar != 0) { if (paddingChar == null) { builder.append(".omitPadding()"); } else { builder.append(".withPadChar(").append(paddingChar).append(')'); } } return builder.toString(); } } static CharInput ignoringInput(final CharInput delegate, final CharMatcher toIgnore) { checkNotNull(delegate); checkNotNull(toIgnore); return new CharInput() { @Override public int read() throws IOException { int readChar; do { readChar = delegate.read(); } while (readChar != -1 && toIgnore.matches((char) readChar)); return readChar; } @Override public void close() throws IOException { delegate.close(); } }; } static CharOutput separatingOutput( final CharOutput delegate, final String separator, final int afterEveryChars) { checkNotNull(delegate); checkNotNull(separator); checkArgument(afterEveryChars > 0); return new CharOutput() { int charsUntilSeparator = afterEveryChars; @Override public void write(char c) throws IOException { if (charsUntilSeparator == 0) { for (int i = 0; i < separator.length(); i++) { delegate.write(separator.charAt(i)); } charsUntilSeparator = afterEveryChars; } delegate.write(c); charsUntilSeparator--; } @Override public void flush() throws IOException { delegate.flush(); } @Override public void close() throws IOException { delegate.close(); } }; } static final class SeparatedBaseEncoding extends BaseEncoding { private final BaseEncoding delegate; private final String separator; private final int afterEveryChars; private final CharMatcher separatorChars; SeparatedBaseEncoding(BaseEncoding delegate, String separator, int afterEveryChars) { this.delegate = checkNotNull(delegate); this.separator = checkNotNull(separator); this.afterEveryChars = afterEveryChars; checkArgument( afterEveryChars > 0, "Cannot add a separator after every %s chars", afterEveryChars); this.separatorChars = CharMatcher.anyOf(separator).precomputed(); } @Override CharMatcher padding() { return delegate.padding(); } @Override int maxEncodedSize(int bytes) { int unseparatedSize = delegate.maxEncodedSize(bytes); return unseparatedSize + separator.length() * divide(Math.max(0, unseparatedSize - 1), afterEveryChars, FLOOR); } @Override ByteOutput encodingStream(final CharOutput output) { return delegate.encodingStream(separatingOutput(output, separator, afterEveryChars)); } @Override int maxDecodedSize(int chars) { return delegate.maxDecodedSize(chars); } @Override ByteInput decodingStream(final CharInput input) { return delegate.decodingStream(ignoringInput(input, separatorChars)); } @Override public BaseEncoding omitPadding() { return delegate.omitPadding().withSeparator(separator, afterEveryChars); } @Override public BaseEncoding withPadChar(char padChar) { return delegate.withPadChar(padChar).withSeparator(separator, afterEveryChars); } @Override public BaseEncoding withSeparator(String separator, int afterEveryChars) { throw new UnsupportedOperationException("Already have a separator"); } @Override public BaseEncoding upperCase() { return delegate.upperCase().withSeparator(separator, afterEveryChars); } @Override public BaseEncoding lowerCase() { return delegate.lowerCase().withSeparator(separator, afterEveryChars); } @Override public String toString() { return delegate.toString() + ".withSeparator(\"" + separator + "\", " + afterEveryChars + ")"; } } }





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