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/*
 * Licensed to the Apache Software Foundation (ASF) under one or more
 * contributor license agreements.  See the NOTICE file distributed with
 * this work for additional information regarding copyright ownership.
 * The ASF licenses this file to You 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 org.apache.commons.text;

import java.io.IOException;
import java.io.Reader;
import java.io.Serializable;
import java.io.Writer;
import java.nio.CharBuffer;
import java.util.Arrays;
import java.util.Iterator;
import java.util.List;
import java.util.Objects;

import org.apache.commons.lang3.ArrayUtils;
import org.apache.commons.lang3.StringUtils;
import org.apache.commons.text.matcher.StringMatcher;

/**
 * Builds a string from constituent parts providing a more flexible and powerful API than {@link StringBuffer} and
 * {@link StringBuilder}.
 * 

* The main differences from StringBuffer/StringBuilder are: *

*
    *
  • Not synchronized
  • *
  • Not final
  • *
  • Subclasses have direct access to character array
  • *
  • Additional methods *
      *
    • appendWithSeparators - adds an array of values, with a separator
    • *
    • appendPadding - adds a length padding characters
    • *
    • appendFixedLength - adds a fixed width field to the builder
    • *
    • toCharArray/getChars - simpler ways to get a range of the character array
    • *
    • delete - delete char or string
    • *
    • replace - search and replace for a char or string
    • *
    • leftString/rightString/midString - substring without exceptions
    • *
    • contains - whether the builder contains a char or string
    • *
    • size/clear/isEmpty - collections style API methods
    • *
    *
  • *
  • Views *
      *
    • asTokenizer - uses the internal buffer as the source of a StrTokenizer
    • *
    • asReader - uses the internal buffer as the source of a Reader
    • *
    • asWriter - allows a Writer to write directly to the internal buffer
    • *
    *
  • *
*

* The aim has been to provide an API that mimics very closely what StringBuffer provides, but with additional methods. * It should be noted that some edge cases, with invalid indices or null input, have been altered - see individual * methods. The biggest of these changes is that by default, null will not output the text 'null'. This can be * controlled by a property, {@link #setNullText(String)}. *

*

* This class is called {@code TextStringBuilder} instead of {@code StringBuilder} to avoid clashing with * {@link StringBuilder}. *

* * @since 1.3 */ public class TextStringBuilder implements CharSequence, Appendable, Serializable, Builder { /** * Inner class to allow StrBuilder to operate as a reader. */ final class TextStringBuilderReader extends Reader { /** The last mark position. */ private int mark; /** The current stream position. */ private int pos; /** * Default constructor. */ TextStringBuilderReader() { } /** {@inheritDoc} */ @Override public void close() { // do nothing } /** {@inheritDoc} */ @Override public void mark(final int readAheadLimit) { mark = pos; } /** {@inheritDoc} */ @Override public boolean markSupported() { return true; } /** {@inheritDoc} */ @Override public int read() { if (!ready()) { return -1; } return charAt(pos++); } /** {@inheritDoc} */ @Override public int read(final char[] b, final int off, int len) { if (off < 0 || len < 0 || off > b.length || off + len > b.length || off + len < 0) { throw new IndexOutOfBoundsException(); } if (len == 0) { return 0; } if (pos >= size()) { return -1; } if (pos + len > size()) { len = size() - pos; } TextStringBuilder.this.getChars(pos, pos + len, b, off); pos += len; return len; } /** {@inheritDoc} */ @Override public boolean ready() { return pos < size(); } /** {@inheritDoc} */ @Override public void reset() { pos = mark; } /** {@inheritDoc} */ @Override public long skip(long n) { if (pos + n > size()) { n = size() - pos; } if (n < 0) { return 0; } pos = Math.addExact(pos, Math.toIntExact(n)); return n; } } /** * Inner class to allow StrBuilder to operate as a tokenizer. */ final class TextStringBuilderTokenizer extends StringTokenizer { /** * Default constructor. */ TextStringBuilderTokenizer() { } /** {@inheritDoc} */ @Override public String getContent() { final String str = super.getContent(); if (str == null) { return TextStringBuilder.this.toString(); } return str; } /** {@inheritDoc} */ @Override protected List tokenize(final char[] chars, final int offset, final int count) { if (chars == null) { return super.tokenize(getBuffer(), 0, TextStringBuilder.this.size()); } return super.tokenize(chars, offset, count); } } /** * Inner class to allow StrBuilder to operate as a writer. */ final class TextStringBuilderWriter extends Writer { /** * Default constructor. */ TextStringBuilderWriter() { } /** {@inheritDoc} */ @Override public void close() { // do nothing } /** {@inheritDoc} */ @Override public void flush() { // do nothing } /** {@inheritDoc} */ @Override public void write(final char[] cbuf) { TextStringBuilder.this.append(cbuf); } /** {@inheritDoc} */ @Override public void write(final char[] cbuf, final int off, final int len) { TextStringBuilder.this.append(cbuf, off, len); } /** {@inheritDoc} */ @Override public void write(final int c) { TextStringBuilder.this.append((char) c); } /** {@inheritDoc} */ @Override public void write(final String str) { TextStringBuilder.this.append(str); } /** {@inheritDoc} */ @Override public void write(final String str, final int off, final int len) { TextStringBuilder.this.append(str, off, len); } } /** The space character. */ private static final char SPACE = ' '; /** * The extra capacity for new builders. */ static final int CAPACITY = 32; /** * End-Of-Stream. */ private static final int EOS = -1; /** * The size of the string {@code "false"}. */ private static final int FALSE_STRING_SIZE = Boolean.FALSE.toString().length(); /** * Required for serialization support. * * @see java.io.Serializable */ private static final long serialVersionUID = 1L; /** * The size of the string {@code "true"}. */ private static final int TRUE_STRING_SIZE = Boolean.TRUE.toString().length(); /** * The maximum size buffer to allocate. * *

This is set to the same size used in the JDK {@link java.util.ArrayList}:

*
* Some VMs reserve some header words in an array. * Attempts to allocate larger arrays may result in * OutOfMemoryError: Requested array size exceeds VM limit. *
*/ private static final int MAX_BUFFER_SIZE = Integer.MAX_VALUE - 8; /** * Creates a positive capacity at least as large the minimum required capacity. * If the minimum capacity is negative then this throws an OutOfMemoryError as no array * can be allocated. * * @param minCapacity the minimum capacity * @return the capacity * @throws OutOfMemoryError if the {@code minCapacity} is negative */ private static int createPositiveCapacity(final int minCapacity) { if (minCapacity < 0) { // overflow throw new OutOfMemoryError("Unable to allocate array size: " + Integer.toUnsignedString(minCapacity)); } // This is called when we require buffer expansion to a very big array. // Use the conservative maximum buffer size if possible, otherwise the biggest required. // // Note: In this situation JDK 1.8 java.util.ArrayList returns Integer.MAX_VALUE. // This excludes some VMs that can exceed MAX_BUFFER_SIZE but not allocate a full // Integer.MAX_VALUE length array. // The result is that we may have to allocate an array of this size more than once if // the capacity must be expanded again. return Math.max(minCapacity, MAX_BUFFER_SIZE); } /** * Constructs an instance from a reference to a character array. Changes to the input chars are reflected in this * instance until the internal buffer needs to be reallocated. Using a reference to an array allows the instance to * be initialized without copying the input array. * * @param initialBuffer The initial array that will back the new builder. * @return A new instance. * @since 1.9 */ public static TextStringBuilder wrap(final char[] initialBuffer) { Objects.requireNonNull(initialBuffer, "initialBuffer"); return new TextStringBuilder(initialBuffer, initialBuffer.length); } /** * Constructs an instance from a reference to a character array. Changes to the input chars are reflected in this * instance until the internal buffer needs to be reallocated. Using a reference to an array allows the instance to * be initialized without copying the input array. * * @param initialBuffer The initial array that will back the new builder. * @param length The length of the subarray to be used; must be non-negative and no larger than * {@code initialBuffer.length}. The new builder's size will be set to {@code length}. * @return A new instance. * @since 1.9 */ public static TextStringBuilder wrap(final char[] initialBuffer, final int length) { return new TextStringBuilder(initialBuffer, length); } /** Internal data storage. */ private char[] buffer; /** * The new line, {@code null} means use the system default from {@link System#lineSeparator()}. */ private String newLine; /** The null text. */ private String nullText; /** Incremented when the buffer is reallocated. */ private int reallocations; /** Current size of the buffer. */ private int size; /** * Constructs an empty builder with an initial capacity of 32 characters. */ public TextStringBuilder() { this(CAPACITY); } /** * Constructs an instance from a reference to a character array. * * @param initialBuffer a reference to a character array, must not be null. * @param length The length of the subarray to be used; must be non-negative and no larger than * {@code initialBuffer.length}. The new builder's size will be set to {@code length}. * @throws NullPointerException If {@code initialBuffer} is null. * @throws IllegalArgumentException if {@code length} is bad. */ private TextStringBuilder(final char[] initialBuffer, final int length) { this.buffer = Objects.requireNonNull(initialBuffer, "initialBuffer"); if (length < 0 || length > initialBuffer.length) { throw new IllegalArgumentException("initialBuffer.length=" + initialBuffer.length + ", length=" + length); } this.size = length; } /** * Constructs an instance from a character sequence, allocating 32 extra characters for growth. * * @param seq the string to copy, null treated as blank string * @since 1.9 */ public TextStringBuilder(final CharSequence seq) { this(StringUtils.length(seq) + CAPACITY); if (seq != null) { append(seq); } } /** * Constructs an instance with the specified initial capacity. * * @param initialCapacity the initial capacity, zero or less will be converted to 32 */ public TextStringBuilder(final int initialCapacity) { buffer = new char[initialCapacity <= 0 ? CAPACITY : initialCapacity]; } /** * Constructs an instance from a string, allocating 32 extra characters for growth. * * @param str the string to copy, null treated as blank string */ public TextStringBuilder(final String str) { this(StringUtils.length(str) + CAPACITY); if (str != null) { append(str); } } /** * Appends a boolean value to the string builder. * * @param value the value to append * @return this, to enable chaining */ public TextStringBuilder append(final boolean value) { if (value) { ensureCapacityInternal(size + TRUE_STRING_SIZE); appendTrue(size); } else { ensureCapacityInternal(size + FALSE_STRING_SIZE); appendFalse(size); } return this; } /** * Appends a char value to the string builder. * * @param ch the value to append * @return this, to enable chaining */ @Override public TextStringBuilder append(final char ch) { final int len = length(); ensureCapacityInternal(len + 1); buffer[size++] = ch; return this; } /** * Appends a char array to the string builder. Appending null will call {@link #appendNull()}. * * @param chars the char array to append * @return this, to enable chaining */ public TextStringBuilder append(final char[] chars) { if (chars == null) { return appendNull(); } final int strLen = chars.length; if (strLen > 0) { final int len = length(); ensureCapacityInternal(len + strLen); System.arraycopy(chars, 0, buffer, len, strLen); size += strLen; } return this; } /** * Appends a char array to the string builder. Appending null will call {@link #appendNull()}. * * @param chars the char array to append * @param startIndex the start index, inclusive, must be valid * @param length the length to append, must be valid * @return this, to enable chaining * @throws StringIndexOutOfBoundsException if {@code startIndex} is not in the * range {@code 0 <= startIndex <= chars.length} * @throws StringIndexOutOfBoundsException if {@code length < 0} * @throws StringIndexOutOfBoundsException if {@code startIndex + length > chars.length} */ public TextStringBuilder append(final char[] chars, final int startIndex, final int length) { if (chars == null) { return appendNull(); } if (startIndex < 0 || startIndex > chars.length) { throw new StringIndexOutOfBoundsException("Invalid startIndex: " + length); } if (length < 0 || startIndex + length > chars.length) { throw new StringIndexOutOfBoundsException("Invalid length: " + length); } if (length > 0) { final int len = length(); ensureCapacityInternal(len + length); System.arraycopy(chars, startIndex, buffer, len, length); size += length; } return this; } /** * Appends the contents of a char buffer to this string builder. Appending null will call {@link #appendNull()}. * * @param str the char buffer to append * @return this, to enable chaining */ public TextStringBuilder append(final CharBuffer str) { return append(str, 0, StringUtils.length(str)); } /** * Appends the contents of a char buffer to this string builder. Appending null will call {@link #appendNull()}. * * @param buf the char buffer to append * @param startIndex the start index, inclusive, must be valid * @param length the length to append, must be valid * @return this, to enable chaining */ public TextStringBuilder append(final CharBuffer buf, final int startIndex, final int length) { if (buf == null) { return appendNull(); } if (buf.hasArray()) { final int totalLength = buf.remaining(); if (startIndex < 0 || startIndex > totalLength) { throw new StringIndexOutOfBoundsException("startIndex must be valid"); } if (length < 0 || startIndex + length > totalLength) { throw new StringIndexOutOfBoundsException("length must be valid"); } final int len = length(); ensureCapacityInternal(len + length); System.arraycopy(buf.array(), buf.arrayOffset() + buf.position() + startIndex, buffer, len, length); size += length; } else { append(buf.toString(), startIndex, length); } return this; } /** * Appends a CharSequence to this string builder. Appending null will call {@link #appendNull()}. * * @param seq the CharSequence to append * @return this, to enable chaining */ @Override public TextStringBuilder append(final CharSequence seq) { if (seq == null) { return appendNull(); } if (seq instanceof TextStringBuilder) { return append((TextStringBuilder) seq); } if (seq instanceof StringBuilder) { return append((StringBuilder) seq); } if (seq instanceof StringBuffer) { return append((StringBuffer) seq); } if (seq instanceof CharBuffer) { return append((CharBuffer) seq); } return append(seq.toString()); } /** * Appends part of a CharSequence to this string builder. Appending null will call {@link #appendNull()}. * * @param seq the CharSequence to append * @param startIndex the start index, inclusive, must be valid * @param endIndex the end index, exclusive, must be valid * @return this, to enable chaining */ @Override public TextStringBuilder append(final CharSequence seq, final int startIndex, final int endIndex) { if (seq == null) { return appendNull(); } if (endIndex <= 0) { throw new StringIndexOutOfBoundsException("endIndex must be valid"); } if (startIndex >= endIndex) { throw new StringIndexOutOfBoundsException("endIndex must be greater than startIndex"); } return append(seq.toString(), startIndex, endIndex - startIndex); } /** * Appends a double value to the string builder using {@code String.valueOf}. * * @param value the value to append * @return this, to enable chaining */ public TextStringBuilder append(final double value) { return append(String.valueOf(value)); } /** * Appends a float value to the string builder using {@code String.valueOf}. * * @param value the value to append * @return this, to enable chaining */ public TextStringBuilder append(final float value) { return append(String.valueOf(value)); } /** * Appends an int value to the string builder using {@code String.valueOf}. * * @param value the value to append * @return this, to enable chaining */ public TextStringBuilder append(final int value) { return append(String.valueOf(value)); } /** * Appends a long value to the string builder using {@code String.valueOf}. * * @param value the value to append * @return this, to enable chaining */ public TextStringBuilder append(final long value) { return append(String.valueOf(value)); } /** * Appends an object to this string builder. Appending null will call {@link #appendNull()}. * * @param obj the object to append * @return this, to enable chaining */ public TextStringBuilder append(final Object obj) { if (obj == null) { return appendNull(); } if (obj instanceof CharSequence) { return append((CharSequence) obj); } return append(obj.toString()); } /** * Appends a string to this string builder. Appending null will call {@link #appendNull()}. * * @param str the string to append * @return this, to enable chaining */ public TextStringBuilder append(final String str) { return append(str, 0, StringUtils.length(str)); } /** * Appends part of a string to this string builder. Appending null will call {@link #appendNull()}. * * @param str the string to append * @param startIndex the start index, inclusive, must be valid * @param length the length to append, must be valid * @return this, to enable chaining * @throws StringIndexOutOfBoundsException if {@code startIndex} is not in the * range {@code 0 <= startIndex <= str.length()} * @throws StringIndexOutOfBoundsException if {@code length < 0} * @throws StringIndexOutOfBoundsException if {@code startIndex + length > str.length()} */ public TextStringBuilder append(final String str, final int startIndex, final int length) { if (str == null) { return appendNull(); } if (startIndex < 0 || startIndex > str.length()) { throw new StringIndexOutOfBoundsException("startIndex must be valid"); } if (length < 0 || startIndex + length > str.length()) { throw new StringIndexOutOfBoundsException("length must be valid"); } if (length > 0) { final int len = length(); ensureCapacityInternal(len + length); str.getChars(startIndex, startIndex + length, buffer, len); size += length; } return this; } /** * Calls {@link String#format(String, Object...)} and appends the result. * * @param format the format string * @param objs the objects to use in the format string * @return {@code this} to enable chaining * @see String#format(String, Object...) */ public TextStringBuilder append(final String format, final Object... objs) { return append(String.format(format, objs)); } /** * Appends a string buffer to this string builder. Appending null will call {@link #appendNull()}. * * @param str the string buffer to append * @return this, to enable chaining */ public TextStringBuilder append(final StringBuffer str) { return append(str, 0, StringUtils.length(str)); } /** * Appends part of a string buffer to this string builder. Appending null will call {@link #appendNull()}. * * @param str the string to append * @param startIndex the start index, inclusive, must be valid * @param length the length to append, must be valid * @return this, to enable chaining */ public TextStringBuilder append(final StringBuffer str, final int startIndex, final int length) { if (str == null) { return appendNull(); } if (startIndex < 0 || startIndex > str.length()) { throw new StringIndexOutOfBoundsException("startIndex must be valid"); } if (length < 0 || startIndex + length > str.length()) { throw new StringIndexOutOfBoundsException("length must be valid"); } if (length > 0) { final int len = length(); ensureCapacityInternal(len + length); str.getChars(startIndex, startIndex + length, buffer, len); size += length; } return this; } /** * Appends a StringBuilder to this string builder. Appending null will call {@link #appendNull()}. * * @param str the StringBuilder to append * @return this, to enable chaining */ public TextStringBuilder append(final StringBuilder str) { return append(str, 0, StringUtils.length(str)); } /** * Appends part of a StringBuilder to this string builder. Appending null will call {@link #appendNull()}. * * @param str the StringBuilder to append * @param startIndex the start index, inclusive, must be valid * @param length the length to append, must be valid * @return this, to enable chaining */ public TextStringBuilder append(final StringBuilder str, final int startIndex, final int length) { if (str == null) { return appendNull(); } if (startIndex < 0 || startIndex > str.length()) { throw new StringIndexOutOfBoundsException("startIndex must be valid"); } if (length < 0 || startIndex + length > str.length()) { throw new StringIndexOutOfBoundsException("length must be valid"); } if (length > 0) { final int len = length(); ensureCapacityInternal(len + length); str.getChars(startIndex, startIndex + length, buffer, len); size += length; } return this; } /** * Appends another string builder to this string builder. Appending null will call {@link #appendNull()}. * * @param str the string builder to append * @return this, to enable chaining */ public TextStringBuilder append(final TextStringBuilder str) { return append(str, 0, StringUtils.length(str)); } /** * Appends part of a string builder to this string builder. Appending null will call {@link #appendNull()}. * * @param str the string to append * @param startIndex the start index, inclusive, must be valid * @param length the length to append, must be valid * @return this, to enable chaining */ public TextStringBuilder append(final TextStringBuilder str, final int startIndex, final int length) { if (str == null) { return appendNull(); } if (startIndex < 0 || startIndex > str.length()) { throw new StringIndexOutOfBoundsException("startIndex must be valid"); } if (length < 0 || startIndex + length > str.length()) { throw new StringIndexOutOfBoundsException("length must be valid"); } if (length > 0) { final int len = length(); ensureCapacityInternal(len + length); str.getChars(startIndex, startIndex + length, buffer, len); size += length; } return this; } /** * Appends each item in an iterable to the builder without any separators. Appending a null iterable will have no * effect. Each object is appended using {@link #append(Object)}. * * @param iterable the iterable to append * @return this, to enable chaining */ public TextStringBuilder appendAll(final Iterable iterable) { if (iterable != null) { iterable.forEach(this::append); } return this; } /** * Appends each item in an iterator to the builder without any separators. Appending a null iterator will have no * effect. Each object is appended using {@link #append(Object)}. * * @param it the iterator to append * @return this, to enable chaining */ public TextStringBuilder appendAll(final Iterator it) { if (it != null) { it.forEachRemaining(this::append); } return this; } /** * Appends each item in an array to the builder without any separators. Appending a null array will have no effect. * Each object is appended using {@link #append(Object)}. * * @param the element type * @param array the array to append * @return this, to enable chaining */ public TextStringBuilder appendAll(@SuppressWarnings("unchecked") final T... array) { /* * @SuppressWarnings used to hide warning about vararg usage. We cannot use @SafeVarargs, since this method is * not final. Using @SuppressWarnings is fine, because it isn't inherited by subclasses, so each subclass must * vouch for itself whether its use of 'array' is safe. */ if (array != null && array.length > 0) { for (final Object element : array) { append(element); } } return this; } /** Appends {@code "false"}. */ private void appendFalse(int index) { buffer[index++] = 'f'; buffer[index++] = 'a'; buffer[index++] = 'l'; buffer[index++] = 's'; buffer[index] = 'e'; size += FALSE_STRING_SIZE; } /** * Appends an object to the builder padding on the left to a fixed width. The {@code String.valueOf} of the * {@code int} value is used. If the formatted value is larger than the length, the left hand side is lost. * * @param value the value to append * @param width the fixed field width, zero or negative has no effect * @param padChar the pad character to use * @return this, to enable chaining */ public TextStringBuilder appendFixedWidthPadLeft(final int value, final int width, final char padChar) { return appendFixedWidthPadLeft(String.valueOf(value), width, padChar); } /** * Appends an object to the builder padding on the left to a fixed width. The {@code toString} of the object is * used. If the object is larger than the length, the left hand side is lost. If the object is null, the null text * value is used. * * @param obj the object to append, null uses null text * @param width the fixed field width, zero or negative has no effect * @param padChar the pad character to use * @return this, to enable chaining */ public TextStringBuilder appendFixedWidthPadLeft(final Object obj, final int width, final char padChar) { if (width > 0) { ensureCapacityInternal(size + width); String str = Objects.toString(obj, getNullText()); if (str == null) { str = StringUtils.EMPTY; } final int strLen = str.length(); if (strLen >= width) { str.getChars(strLen - width, strLen, buffer, size); } else { final int padLen = width - strLen; for (int i = 0; i < padLen; i++) { buffer[size + i] = padChar; } str.getChars(0, strLen, buffer, size + padLen); } size += width; } return this; } /** * Appends an object to the builder padding on the right to a fixed length. The {@code String.valueOf} of the * {@code int} value is used. If the object is larger than the length, the right hand side is lost. * * @param value the value to append * @param width the fixed field width, zero or negative has no effect * @param padChar the pad character to use * @return this, to enable chaining */ public TextStringBuilder appendFixedWidthPadRight(final int value, final int width, final char padChar) { return appendFixedWidthPadRight(String.valueOf(value), width, padChar); } /** * Appends an object to the builder padding on the right to a fixed length. The {@code toString} of the object is * used. If the object is larger than the length, the right hand side is lost. If the object is null, null text * value is used. * * @param obj the object to append, null uses null text * @param width the fixed field width, zero or negative has no effect * @param padChar the pad character to use * @return this, to enable chaining */ public TextStringBuilder appendFixedWidthPadRight(final Object obj, final int width, final char padChar) { if (width > 0) { ensureCapacityInternal(size + width); String str = Objects.toString(obj, getNullText()); if (str == null) { str = StringUtils.EMPTY; } final int strLen = str.length(); if (strLen >= width) { str.getChars(0, width, buffer, size); } else { final int padLen = width - strLen; str.getChars(0, strLen, buffer, size); for (int i = 0; i < padLen; i++) { buffer[size + strLen + i] = padChar; } } size += width; } return this; } /** * Appends a boolean value followed by a new line to the string builder. * * @param value the value to append * @return this, to enable chaining */ public TextStringBuilder appendln(final boolean value) { return append(value).appendNewLine(); } /** * Appends a char value followed by a new line to the string builder. * * @param ch the value to append * @return this, to enable chaining */ public TextStringBuilder appendln(final char ch) { return append(ch).appendNewLine(); } /** * Appends a char array followed by a new line to the string builder. Appending null will call * {@link #appendNull()}. * * @param chars the char array to append * @return this, to enable chaining */ public TextStringBuilder appendln(final char[] chars) { return append(chars).appendNewLine(); } /** * Appends a char array followed by a new line to the string builder. Appending null will call * {@link #appendNull()}. * * @param chars the char array to append * @param startIndex the start index, inclusive, must be valid * @param length the length to append, must be valid * @return this, to enable chaining */ public TextStringBuilder appendln(final char[] chars, final int startIndex, final int length) { return append(chars, startIndex, length).appendNewLine(); } /** * Appends a double value followed by a new line to the string builder using {@code String.valueOf}. * * @param value the value to append * @return this, to enable chaining */ public TextStringBuilder appendln(final double value) { return append(value).appendNewLine(); } /** * Appends a float value followed by a new line to the string builder using {@code String.valueOf}. * * @param value the value to append * @return this, to enable chaining */ public TextStringBuilder appendln(final float value) { return append(value).appendNewLine(); } /** * Appends an int value followed by a new line to the string builder using {@code String.valueOf}. * * @param value the value to append * @return this, to enable chaining */ public TextStringBuilder appendln(final int value) { return append(value).appendNewLine(); } /** * Appends a long value followed by a new line to the string builder using {@code String.valueOf}. * * @param value the value to append * @return this, to enable chaining */ public TextStringBuilder appendln(final long value) { return append(value).appendNewLine(); } /** * Appends an object followed by a new line to this string builder. Appending null will call {@link #appendNull()}. * * @param obj the object to append * @return this, to enable chaining */ public TextStringBuilder appendln(final Object obj) { return append(obj).appendNewLine(); } /** * Appends a string followed by a new line to this string builder. Appending null will call {@link #appendNull()}. * * @param str the string to append * @return this, to enable chaining */ public TextStringBuilder appendln(final String str) { return append(str).appendNewLine(); } /** * Appends part of a string followed by a new line to this string builder. Appending null will call * {@link #appendNull()}. * * @param str the string to append * @param startIndex the start index, inclusive, must be valid * @param length the length to append, must be valid * @return this, to enable chaining */ public TextStringBuilder appendln(final String str, final int startIndex, final int length) { return append(str, startIndex, length).appendNewLine(); } /** * Calls {@link String#format(String, Object...)} and appends the result. * * @param format the format string * @param objs the objects to use in the format string * @return {@code this} to enable chaining * @see String#format(String, Object...) */ public TextStringBuilder appendln(final String format, final Object... objs) { return append(format, objs).appendNewLine(); } /** * Appends a string buffer followed by a new line to this string builder. Appending null will call * {@link #appendNull()}. * * @param str the string buffer to append * @return this, to enable chaining */ public TextStringBuilder appendln(final StringBuffer str) { return append(str).appendNewLine(); } /** * Appends part of a string buffer followed by a new line to this string builder. Appending null will call * {@link #appendNull()}. * * @param str the string to append * @param startIndex the start index, inclusive, must be valid * @param length the length to append, must be valid * @return this, to enable chaining */ public TextStringBuilder appendln(final StringBuffer str, final int startIndex, final int length) { return append(str, startIndex, length).appendNewLine(); } /** * Appends a string builder followed by a new line to this string builder. Appending null will call * {@link #appendNull()}. * * @param str the string builder to append * @return this, to enable chaining */ public TextStringBuilder appendln(final StringBuilder str) { return append(str).appendNewLine(); } /** * Appends part of a string builder followed by a new line to this string builder. Appending null will call * {@link #appendNull()}. * * @param str the string builder to append * @param startIndex the start index, inclusive, must be valid * @param length the length to append, must be valid * @return this, to enable chaining */ public TextStringBuilder appendln(final StringBuilder str, final int startIndex, final int length) { return append(str, startIndex, length).appendNewLine(); } /** * Appends another string builder followed by a new line to this string builder. Appending null will call * {@link #appendNull()}. * * @param str the string builder to append * @return this, to enable chaining */ public TextStringBuilder appendln(final TextStringBuilder str) { return append(str).appendNewLine(); } /** * Appends part of a string builder followed by a new line to this string builder. Appending null will call * {@link #appendNull()}. * * @param str the string to append * @param startIndex the start index, inclusive, must be valid * @param length the length to append, must be valid * @return this, to enable chaining */ public TextStringBuilder appendln(final TextStringBuilder str, final int startIndex, final int length) { return append(str, startIndex, length).appendNewLine(); } /** * Appends this builder's new line string to this builder. *

* By default, the new line is the system default from {@link System#lineSeparator()}. *

*

* The new line string can be changed using {@link #setNewLineText(String)}. For example, you can use this to force the output to always use Unix line * endings even when on Windows. *

* * @return this * @see #getNewLineText() * @see #setNewLineText(String) */ public TextStringBuilder appendNewLine() { if (newLine == null) { append(System.lineSeparator()); return this; } return append(newLine); } /** * Appends the text representing {@code null} to this string builder. * * @return this, to enable chaining */ public TextStringBuilder appendNull() { if (nullText == null) { return this; } return append(nullText); } /** * Appends the pad character to the builder the specified number of times. * * @param length the length to append, negative means no append * @param padChar the character to append * @return this, to enable chaining */ public TextStringBuilder appendPadding(final int length, final char padChar) { if (length >= 0) { ensureCapacityInternal(size + length); for (int i = 0; i < length; i++) { buffer[size++] = padChar; } } return this; } /** * Appends a separator if the builder is currently non-empty. The separator is appended using {@link #append(char)}. *

* This method is useful for adding a separator each time around the loop except the first. *

* *
     * for (Iterator it = list.iterator(); it.hasNext();) {
     *     appendSeparator(',');
     *     append(it.next());
     * }
     * 
* *

* Note that for this simple example, you should use {@link #appendWithSeparators(Iterable, String)}. *

* * @param separator the separator to use * @return this, to enable chaining */ public TextStringBuilder appendSeparator(final char separator) { if (isNotEmpty()) { append(separator); } return this; } /** * Appends one of both separators to the builder If the builder is currently empty it will append the * defaultIfEmpty-separator Otherwise it will append the standard-separator * * The separator is appended using {@link #append(char)}. * * @param standard the separator if builder is not empty * @param defaultIfEmpty the separator if builder is empty * @return this, to enable chaining */ public TextStringBuilder appendSeparator(final char standard, final char defaultIfEmpty) { if (isEmpty()) { append(defaultIfEmpty); } else { append(standard); } return this; } /** * Appends a separator to the builder if the loop index is greater than zero. The separator is appended using * {@link #append(char)}. *

* This method is useful for adding a separator each time around the loop except the first. *

* *
     * for (int i = 0; i < list.size(); i++) {
     *     appendSeparator(",", i);
     *     append(list.get(i));
     * }
     * 
* *

* Note that for this simple example, you should use {@link #appendWithSeparators(Iterable, String)}. *

* * @param separator the separator to use * @param loopIndex the loop index * @return this, to enable chaining */ public TextStringBuilder appendSeparator(final char separator, final int loopIndex) { if (loopIndex > 0) { append(separator); } return this; } /** * Appends a separator if the builder is currently non-empty. Appending a null separator will have no effect. The * separator is appended using {@link #append(String)}. *

* This method is useful for adding a separator each time around the loop except the first. *

* *
     * for (Iterator it = list.iterator(); it.hasNext();) {
     *     appendSeparator(",");
     *     append(it.next());
     * }
     * 
* *

* Note that for this simple example, you should use {@link #appendWithSeparators(Iterable, String)}. *

* * @param separator the separator to use, null means no separator * @return this, to enable chaining */ public TextStringBuilder appendSeparator(final String separator) { return appendSeparator(separator, null); } /** * Appends a separator to the builder if the loop index is greater than zero. Appending a null separator will have * no effect. The separator is appended using {@link #append(String)}. *

* This method is useful for adding a separator each time around the loop except the first. *

* *
     * for (int i = 0; i < list.size(); i++) {
     *     appendSeparator(",", i);
     *     append(list.get(i));
     * }
     * 
* *

* Note that for this simple example, you should use {@link #appendWithSeparators(Iterable, String)}. *

* * @param separator the separator to use, null means no separator * @param loopIndex the loop index * @return this, to enable chaining */ public TextStringBuilder appendSeparator(final String separator, final int loopIndex) { if (separator != null && loopIndex > 0) { append(separator); } return this; } /** * Appends one of both separators to the StrBuilder. If the builder is currently empty, it will append the * defaultIfEmpty-separator, otherwise it will append the standard-separator. *

* Appending a null separator will have no effect. The separator is appended using {@link #append(String)}. *

*

* This method is for example useful for constructing queries *

* *
     * StrBuilder whereClause = new StrBuilder();
     * if (searchCommand.getPriority() != null) {
     *  whereClause.appendSeparator(" and", " where");
     *  whereClause.append(" priority = ?")
     * }
     * if (searchCommand.getComponent() != null) {
     *  whereClause.appendSeparator(" and", " where");
     *  whereClause.append(" component = ?")
     * }
     * selectClause.append(whereClause)
     * 
* * @param standard the separator if builder is not empty, null means no separator * @param defaultIfEmpty the separator if builder is empty, null means no separator * @return this, to enable chaining */ public TextStringBuilder appendSeparator(final String standard, final String defaultIfEmpty) { final String str = isEmpty() ? defaultIfEmpty : standard; if (str != null) { append(str); } return this; } /** * Appends current contents of this {@code StrBuilder} to the provided {@link Appendable}. *

* This method tries to avoid doing any extra copies of contents. *

* * @param appendable the appendable to append data to * @throws IOException if an I/O error occurs. * @see #readFrom(Readable) */ public void appendTo(final Appendable appendable) throws IOException { if (appendable instanceof Writer) { ((Writer) appendable).write(buffer, 0, size); } else if (appendable instanceof StringBuilder) { ((StringBuilder) appendable).append(buffer, 0, size); } else if (appendable instanceof StringBuffer) { ((StringBuffer) appendable).append(buffer, 0, size); } else if (appendable instanceof CharBuffer) { ((CharBuffer) appendable).put(buffer, 0, size); } else { appendable.append(this); } } /** Appends {@code "true"}. */ private void appendTrue(int index) { buffer[index++] = 't'; buffer[index++] = 'r'; buffer[index++] = 'u'; buffer[index] = 'e'; size += TRUE_STRING_SIZE; } /** * Appends an iterable placing separators between each value, but not before the first or after the last. Appending * a null iterable will have no effect. Each object is appended using {@link #append(Object)}. * * @param iterable the iterable to append * @param separator the separator to use, null means no separator * @return this, to enable chaining */ public TextStringBuilder appendWithSeparators(final Iterable iterable, final String separator) { if (iterable != null) { appendWithSeparators(iterable.iterator(), separator); } return this; } /** * Appends an iterator placing separators between each value, but not before the first or after the last. Appending * a null iterator will have no effect. Each object is appended using {@link #append(Object)}. * * @param it the iterator to append * @param separator the separator to use, null means no separator * @return this, to enable chaining */ public TextStringBuilder appendWithSeparators(final Iterator it, final String separator) { if (it != null) { final String sep = Objects.toString(separator, StringUtils.EMPTY); while (it.hasNext()) { append(it.next()); if (it.hasNext()) { append(sep); } } } return this; } /** * Appends an array placing separators between each value, but not before the first or after the last. Appending a * null array will have no effect. Each object is appended using {@link #append(Object)}. * * @param array the array to append * @param separator the separator to use, null means no separator * @return this, to enable chaining */ public TextStringBuilder appendWithSeparators(final Object[] array, final String separator) { if (array != null && array.length > 0) { final String sep = Objects.toString(separator, StringUtils.EMPTY); append(array[0]); for (int i = 1; i < array.length; i++) { append(sep); append(array[i]); } } return this; } /** * Gets the contents of this builder as a Reader. *

* This method allows the contents of the builder to be read using any standard method that expects a Reader. *

*

* To use, simply create a {@code StrBuilder}, populate it with data, call {@code asReader}, and then read away. *

*

* The internal character array is shared between the builder and the reader. This allows you to append to the * builder after creating the reader, and the changes will be picked up. Note however, that no synchronization * occurs, so you must perform all operations with the builder and the reader in one thread. *

*

* The returned reader supports marking, and ignores the flush method. *

* * @return a reader that reads from this builder */ public Reader asReader() { return new TextStringBuilderReader(); } /** * Creates a tokenizer that can tokenize the contents of this builder. *

* This method allows the contents of this builder to be tokenized. The tokenizer will be setup by default to * tokenize on space, tab, newline and form feed (as per StringTokenizer). These values can be changed on the * tokenizer class, before retrieving the tokens. *

*

* The returned tokenizer is linked to this builder. You may intermix calls to the builder and tokenizer within * certain limits, however there is no synchronization. Once the tokenizer has been used once, it must be * {@link StringTokenizer#reset() reset} to pickup the latest changes in the builder. For example: *

* *
     * StrBuilder b = new StrBuilder();
     * b.append("a b ");
     * StrTokenizer t = b.asTokenizer();
     * String[] tokens1 = t.getTokenArray(); // returns a,b
     * b.append("c d ");
     * String[] tokens2 = t.getTokenArray(); // returns a,b (c and d ignored)
     * t.reset(); // reset causes builder changes to be picked up
     * String[] tokens3 = t.getTokenArray(); // returns a,b,c,d
     * 
* *

* In addition to simply intermixing appends and tokenization, you can also call the set methods on the tokenizer to * alter how it tokenizes. Just remember to call reset when you want to pickup builder changes. *

*

* Calling {@link StringTokenizer#reset(String)} or {@link StringTokenizer#reset(char[])} with a non-null value will * break the link with the builder. *

* * @return a tokenizer that is linked to this builder */ public StringTokenizer asTokenizer() { return new TextStringBuilderTokenizer(); } /** * Gets this builder as a Writer that can be written to. *

* This method allows you to populate the contents of the builder using any standard method that takes a Writer. *

*

* To use, simply create a {@code StrBuilder}, call {@code asWriter}, and populate away. The data is available at * any time using the methods of the {@code StrBuilder}. *

*

* The internal character array is shared between the builder and the writer. This allows you to intermix calls that * append to the builder and write using the writer and the changes will be occur correctly. Note however, that no * synchronization occurs, so you must perform all operations with the builder and the writer in one thread. *

*

* The returned writer ignores the close and flush methods. *

* * @return a writer that populates this builder */ public Writer asWriter() { return new TextStringBuilderWriter(); } /** * Converts this instance to a String. * * @return This instance as a String * @see #toString() * @deprecated Use {@link #get()}. */ @Deprecated @Override public String build() { return toString(); } /** * Gets the current size of the internal character array buffer. * * @return The capacity */ public int capacity() { return buffer.length; } /** * Gets the character at the specified index. * * @see #setCharAt(int, char) * @see #deleteCharAt(int) * @param index the index to retrieve, must be valid * @return The character at the index * @throws IndexOutOfBoundsException if the index is invalid */ @Override public char charAt(final int index) { validateIndex(index); return buffer[index]; } /** * Clears the string builder (convenience Collections API style method). *

* This method does not reduce the size of the internal character buffer. To do that, call {@code clear()} followed * by {@link #minimizeCapacity()}. *

*

* This method is the same as {@link #setLength(int)} called with zero and is provided to match the API of * Collections. *

* * @return this, to enable chaining */ public TextStringBuilder clear() { size = 0; return this; } /** * Tests if the string builder contains the specified char. * * @param ch the character to find * @return true if the builder contains the character */ public boolean contains(final char ch) { final char[] thisBuf = buffer; for (int i = 0; i < this.size; i++) { if (thisBuf[i] == ch) { return true; } } return false; } /** * Tests if the string builder contains the specified string. * * @param str the string to find * @return true if the builder contains the string */ public boolean contains(final String str) { return indexOf(str, 0) >= 0; } /** * Tests if the string builder contains a string matched using the specified matcher. *

* Matchers can be used to perform advanced searching behavior. For example you could write a matcher to search for * the character 'a' followed by a number. *

* * @param matcher the matcher to use, null returns -1 * @return true if the matcher finds a match in the builder */ public boolean contains(final StringMatcher matcher) { return indexOf(matcher, 0) >= 0; } /** * Deletes the characters between the two specified indices. * * @param startIndex the start index, inclusive, must be valid * @param endIndex the end index, exclusive, must be valid except that if too large it is treated as end of string * @return this, to enable chaining * @throws IndexOutOfBoundsException if the index is invalid */ public TextStringBuilder delete(final int startIndex, final int endIndex) { final int actualEndIndex = validateRange(startIndex, endIndex); final int len = actualEndIndex - startIndex; if (len > 0) { deleteImpl(startIndex, actualEndIndex, len); } return this; } /** * Deletes the character wherever it occurs in the builder. * * @param ch the character to delete * @return this, to enable chaining */ public TextStringBuilder deleteAll(final char ch) { for (int i = 0; i < size; i++) { if (buffer[i] == ch) { final int start = i; while (++i < size) { if (buffer[i] != ch) { break; } } final int len = i - start; deleteImpl(start, i, len); i -= len; } } return this; } /** * Deletes the string wherever it occurs in the builder. * * @param str the string to delete, null causes no action * @return this, to enable chaining */ public TextStringBuilder deleteAll(final String str) { final int len = str == null ? 0 : str.length(); if (len > 0) { int index = indexOf(str, 0); while (index >= 0) { deleteImpl(index, index + len, len); index = indexOf(str, index); } } return this; } /** * Deletes all parts of the builder that the matcher matches. *

* Matchers can be used to perform advanced deletion behavior. For example you could write a matcher to delete all * occurrences where the character 'a' is followed by a number. *

* * @param matcher the matcher to use to find the deletion, null causes no action * @return this, to enable chaining */ public TextStringBuilder deleteAll(final StringMatcher matcher) { return replace(matcher, null, 0, size, -1); } /** * Deletes the character at the specified index. * * @see #charAt(int) * @see #setCharAt(int, char) * @param index the index to delete * @return this, to enable chaining * @throws IndexOutOfBoundsException if the index is invalid */ public TextStringBuilder deleteCharAt(final int index) { validateIndex(index); deleteImpl(index, index + 1, 1); return this; } /** * Deletes the character wherever it occurs in the builder. * * @param ch the character to delete * @return this, to enable chaining */ public TextStringBuilder deleteFirst(final char ch) { for (int i = 0; i < size; i++) { if (buffer[i] == ch) { deleteImpl(i, i + 1, 1); break; } } return this; } /** * Deletes the string wherever it occurs in the builder. * * @param str the string to delete, null causes no action * @return this, to enable chaining */ public TextStringBuilder deleteFirst(final String str) { final int len = str == null ? 0 : str.length(); if (len > 0) { final int index = indexOf(str, 0); if (index >= 0) { deleteImpl(index, index + len, len); } } return this; } /** * Deletes the first match within the builder using the specified matcher. *

* Matchers can be used to perform advanced deletion behavior. For example you could write a matcher to delete where * the character 'a' is followed by a number. *

* * @param matcher the matcher to use to find the deletion, null causes no action * @return this, to enable chaining */ public TextStringBuilder deleteFirst(final StringMatcher matcher) { return replace(matcher, null, 0, size, 1); } /** * Internal method to delete a range without validation. * * @param startIndex the start index, must be valid * @param endIndex the end index (exclusive), must be valid * @param len the length, must be valid * @throws IndexOutOfBoundsException if any index is invalid */ private void deleteImpl(final int startIndex, final int endIndex, final int len) { System.arraycopy(buffer, endIndex, buffer, startIndex, size - endIndex); size -= len; } /** * Gets the character at the specified index before deleting it. * * @see #charAt(int) * @see #deleteCharAt(int) * @param index the index to retrieve, must be valid * @return The character at the index * @throws IndexOutOfBoundsException if the index is invalid * @since 1.9 */ public char drainChar(final int index) { validateIndex(index); final char c = buffer[index]; deleteCharAt(index); return c; } /** * Drains (copies, then deletes) this character sequence into the specified array. This is equivalent to copying the * characters from this sequence into the target and then deleting those character from this sequence. * * @param startIndex first index to copy, inclusive. * @param endIndex last index to copy, exclusive. * @param target the target array, must not be {@code null}. * @param targetIndex the index to start copying in the target. * @return How many characters where copied (then deleted). If this builder is empty, return {@code 0}. * @since 1.9 */ public int drainChars(final int startIndex, final int endIndex, final char[] target, final int targetIndex) { final int length = endIndex - startIndex; if (isEmpty() || length == 0 || target.length == 0) { return 0; } final int actualLen = Math.min(Math.min(size, length), target.length - targetIndex); getChars(startIndex, actualLen, target, targetIndex); delete(startIndex, actualLen); return actualLen; } /** * Checks whether this builder ends with the specified string. *

* Note that this method handles null input quietly, unlike String. *

* * @param str the string to search for, null returns false * @return true if the builder ends with the string */ public boolean endsWith(final String str) { if (str == null) { return false; } final int len = str.length(); if (len == 0) { return true; } if (len > size) { return false; } int pos = size - len; for (int i = 0; i < len; i++, pos++) { if (buffer[pos] != str.charAt(i)) { return false; } } return true; } /** * Tests the capacity and ensures that it is at least the size specified. * *

* Note: This method can be used to minimise memory reallocations during * repeated addition of values by pre-allocating the character buffer. * The method ignores a negative {@code capacity} argument. *

* * @param capacity the capacity to ensure * @return this, to enable chaining * @throws OutOfMemoryError if the capacity cannot be allocated */ public TextStringBuilder ensureCapacity(final int capacity) { if (capacity > 0) { ensureCapacityInternal(capacity); } return this; } /** * Ensures that the buffer is at least the size specified. The {@code capacity} argument * is treated as an unsigned integer. * *

* This method will raise an {@link OutOfMemoryError} if the capacity is too large * for an array, or cannot be allocated. *

* * @param capacity the capacity to ensure * @throws OutOfMemoryError if the capacity cannot be allocated */ private void ensureCapacityInternal(final int capacity) { // Check for overflow of the current buffer. // Assumes capacity is an unsigned integer up to Integer.MAX_VALUE * 2 // (the largest possible addition of two maximum length arrays). if (capacity - buffer.length > 0) { resizeBuffer(capacity); } } /** * Tests the contents of this builder against another to see if they contain the same character content. * * @param obj the object to check, null returns false * @return true if the builders contain the same characters in the same order */ @Override public boolean equals(final Object obj) { return obj instanceof TextStringBuilder && equals((TextStringBuilder) obj); } /** * Tests the contents of this builder against another to see if they contain the same character content. * * @param other the object to check, null returns false * @return true if the builders contain the same characters in the same order */ public boolean equals(final TextStringBuilder other) { if (this == other) { return true; } if (other == null) { return false; } if (this.size != other.size) { return false; } // Be aware not to use Arrays.equals(buffer, other.buffer) for equals() method // as length of the buffers may be different (TEXT-211) final char[] thisBuf = this.buffer; final char[] otherBuf = other.buffer; for (int i = size - 1; i >= 0; i--) { if (thisBuf[i] != otherBuf[i]) { return false; } } return true; } /** * Tests the contents of this builder against another to see if they contain the same character content ignoring * case. * * @param other the object to check, null returns false * @return true if the builders contain the same characters in the same order */ public boolean equalsIgnoreCase(final TextStringBuilder other) { if (this == other) { return true; } if (this.size != other.size) { return false; } final char[] thisBuf = this.buffer; final char[] otherBuf = other.buffer; for (int i = size - 1; i >= 0; i--) { final char c1 = thisBuf[i]; final char c2 = otherBuf[i]; if (c1 != c2 && Character.toUpperCase(c1) != Character.toUpperCase(c2)) { return false; } } return true; } /** * Converts this instance to a String. * * @return This instance as a String * @see #toString() * @since 1.12.0 */ @Override public String get() { return toString(); } /** * Gets a direct reference to internal storage, not for public consumption. */ char[] getBuffer() { return buffer; } /** * Copies this character array into the specified array. * * @param target the target array, null will cause an array to be created * @return The input array, unless that was null or too small */ public char[] getChars(char[] target) { final int len = length(); if (target == null || target.length < len) { target = new char[len]; } System.arraycopy(buffer, 0, target, 0, len); return target; } /** * Copies this character array into the specified array. * * @param startIndex first index to copy, inclusive, must be valid. * @param endIndex last index to copy, exclusive, must be valid. * @param target the target array, must not be null or too small. * @param targetIndex the index to start copying in target. * @throws NullPointerException if the array is null. * @throws IndexOutOfBoundsException if any index is invalid. */ public void getChars(final int startIndex, final int endIndex, final char[] target, final int targetIndex) { if (startIndex < 0) { throw new StringIndexOutOfBoundsException(startIndex); } if (endIndex < 0 || endIndex > length()) { throw new StringIndexOutOfBoundsException(endIndex); } if (startIndex > endIndex) { throw new StringIndexOutOfBoundsException("end < start"); } System.arraycopy(buffer, startIndex, target, targetIndex, endIndex - startIndex); } /** * Gets the text to be appended when a {@link #appendNewLine() new line} is added. * * @return The new line text, {@code null} means use the system default from {@link System#lineSeparator()}. */ public String getNewLineText() { return newLine; } /** * Gets the text to be appended when null is added. * * @return The null text, null means no append */ public String getNullText() { return nullText; } /** * Gets a suitable hash code for this builder. * * @return a hash code */ @Override public int hashCode() { // no allocation final char[] buf = buffer; int result = 0; for (int i = 0; i < size; i++) { result = 31 * result + buf[i]; } return result; } /** * Searches the string builder to find the first reference to the specified char. * * @param ch the character to find * @return The first index of the character, or -1 if not found */ public int indexOf(final char ch) { return indexOf(ch, 0); } /** * Searches the string builder to find the first reference to the specified char. * * @param ch the character to find * @param startIndex the index to start at, invalid index rounded to edge * @return The first index of the character, or -1 if not found */ public int indexOf(final char ch, int startIndex) { startIndex = Math.max(0, startIndex); if (startIndex >= size) { return StringUtils.INDEX_NOT_FOUND; } final char[] thisBuf = buffer; for (int i = startIndex; i < size; i++) { if (thisBuf[i] == ch) { return i; } } return StringUtils.INDEX_NOT_FOUND; } /** * Searches the string builder to find the first reference to the specified string. *

* Note that a null input string will return -1, whereas the JDK throws an exception. *

* * @param str the string to find, null returns -1 * @return The first index of the string, or -1 if not found */ public int indexOf(final String str) { return indexOf(str, 0); } /** * Searches the string builder to find the first reference to the specified string starting searching from the given * index. *

* Note that a null input string will return -1, whereas the JDK throws an exception. *

* * @param str the string to find, null returns -1 * @param startIndex the index to start at, invalid index rounded to edge * @return The first index of the string, or -1 if not found */ public int indexOf(final String str, int startIndex) { startIndex = Math.max(0, startIndex); if (str == null || startIndex >= size) { return StringUtils.INDEX_NOT_FOUND; } final int strLen = str.length(); if (strLen == 1) { return indexOf(str.charAt(0), startIndex); } if (strLen == 0) { return startIndex; } if (strLen > size) { return StringUtils.INDEX_NOT_FOUND; } final char[] thisBuf = buffer; final int len = size - strLen + 1; outer: for (int i = startIndex; i < len; i++) { for (int j = 0; j < strLen; j++) { if (str.charAt(j) != thisBuf[i + j]) { continue outer; } } return i; } return StringUtils.INDEX_NOT_FOUND; } /** * Searches the string builder using the matcher to find the first match. *

* Matchers can be used to perform advanced searching behavior. For example you could write a matcher to find the * character 'a' followed by a number. *

* * @param matcher the matcher to use, null returns -1 * @return The first index matched, or -1 if not found */ public int indexOf(final StringMatcher matcher) { return indexOf(matcher, 0); } /** * Searches the string builder using the matcher to find the first match searching from the given index. *

* Matchers can be used to perform advanced searching behavior. For example you could write a matcher to find the * character 'a' followed by a number. *

* * @param matcher the matcher to use, null returns -1 * @param startIndex the index to start at, invalid index rounded to edge * @return The first index matched, or -1 if not found */ public int indexOf(final StringMatcher matcher, int startIndex) { startIndex = Math.max(0, startIndex); if (matcher == null || startIndex >= size) { return StringUtils.INDEX_NOT_FOUND; } final int len = size; final char[] buf = buffer; for (int i = startIndex; i < len; i++) { if (matcher.isMatch(buf, i, startIndex, len) > 0) { return i; } } return StringUtils.INDEX_NOT_FOUND; } /** * Inserts the value into this builder. * * @param index the index to add at, must be valid * @param value the value to insert * @return this, to enable chaining * @throws IndexOutOfBoundsException if the index is invalid */ public TextStringBuilder insert(final int index, final boolean value) { validateIndex(index); if (value) { ensureCapacityInternal(size + TRUE_STRING_SIZE); System.arraycopy(buffer, index, buffer, index + TRUE_STRING_SIZE, size - index); appendTrue(index); } else { ensureCapacityInternal(size + FALSE_STRING_SIZE); System.arraycopy(buffer, index, buffer, index + FALSE_STRING_SIZE, size - index); appendFalse(index); } return this; } /** * Inserts the value into this builder. * * @param index the index to add at, must be valid * @param value the value to insert * @return this, to enable chaining * @throws IndexOutOfBoundsException if the index is invalid */ public TextStringBuilder insert(final int index, final char value) { validateIndex(index); ensureCapacityInternal(size + 1); System.arraycopy(buffer, index, buffer, index + 1, size - index); buffer[index] = value; size++; return this; } /** * Inserts the character array into this builder. Inserting null will use the stored null text value. * * @param index the index to add at, must be valid * @param chars the char array to insert * @return this, to enable chaining * @throws IndexOutOfBoundsException if the index is invalid */ public TextStringBuilder insert(final int index, final char[] chars) { validateIndex(index); if (chars == null) { return insert(index, nullText); } final int len = chars.length; if (len > 0) { ensureCapacityInternal(size + len); System.arraycopy(buffer, index, buffer, index + len, size - index); System.arraycopy(chars, 0, buffer, index, len); size += len; } return this; } /** * Inserts part of the character array into this builder. Inserting null will use the stored null text value. * * @param index the index to add at, must be valid * @param chars the char array to insert * @param offset the offset into the character array to start at, must be valid * @param length the length of the character array part to copy, must be positive * @return this, to enable chaining * @throws IndexOutOfBoundsException if any index is invalid */ public TextStringBuilder insert(final int index, final char[] chars, final int offset, final int length) { validateIndex(index); if (chars == null) { return insert(index, nullText); } if (offset < 0 || offset > chars.length) { throw new StringIndexOutOfBoundsException("Invalid offset: " + offset); } if (length < 0 || offset + length > chars.length) { throw new StringIndexOutOfBoundsException("Invalid length: " + length); } if (length > 0) { ensureCapacityInternal(size + length); System.arraycopy(buffer, index, buffer, index + length, size - index); System.arraycopy(chars, offset, buffer, index, length); size += length; } return this; } /** * Inserts the value into this builder. * * @param index the index to add at, must be valid * @param value the value to insert * @return this, to enable chaining * @throws IndexOutOfBoundsException if the index is invalid */ public TextStringBuilder insert(final int index, final double value) { return insert(index, String.valueOf(value)); } /** * Inserts the value into this builder. * * @param index the index to add at, must be valid * @param value the value to insert * @return this, to enable chaining * @throws IndexOutOfBoundsException if the index is invalid */ public TextStringBuilder insert(final int index, final float value) { return insert(index, String.valueOf(value)); } /** * Inserts the value into this builder. * * @param index the index to add at, must be valid * @param value the value to insert * @return this, to enable chaining * @throws IndexOutOfBoundsException if the index is invalid */ public TextStringBuilder insert(final int index, final int value) { return insert(index, String.valueOf(value)); } /** * Inserts the value into this builder. * * @param index the index to add at, must be valid * @param value the value to insert * @return this, to enable chaining * @throws IndexOutOfBoundsException if the index is invalid */ public TextStringBuilder insert(final int index, final long value) { return insert(index, String.valueOf(value)); } /** * Inserts the string representation of an object into this builder. Inserting null will use the stored null text * value. * * @param index the index to add at, must be valid * @param obj the object to insert * @return this, to enable chaining * @throws IndexOutOfBoundsException if the index is invalid */ public TextStringBuilder insert(final int index, final Object obj) { if (obj == null) { return insert(index, nullText); } return insert(index, obj.toString()); } /** * Inserts the string into this builder. Inserting null will use the stored null text value. * * @param index the index to add at, must be valid * @param str the string to insert * @return this, to enable chaining * @throws IndexOutOfBoundsException if the index is invalid */ public TextStringBuilder insert(final int index, String str) { validateIndex(index); if (str == null) { str = nullText; } if (str != null) { final int strLen = str.length(); if (strLen > 0) { final int newSize = size + strLen; ensureCapacityInternal(newSize); System.arraycopy(buffer, index, buffer, index + strLen, size - index); size = newSize; str.getChars(0, strLen, buffer, index); } } return this; } /** * Checks is the string builder is empty (convenience Collections API style method). *

* This method is the same as checking {@link #length()} and is provided to match the API of Collections. *

* * @return {@code true} if the size is {@code 0}. */ public boolean isEmpty() { return size == 0; } /** * Checks is the string builder is not empty. *

* This method is the same as checking {@link #length()}. *

* * @return {@code true} if the size is not {@code 0}. * @since 1.9 */ public boolean isNotEmpty() { return size != 0; } /** * Gets whether the internal buffer has been reallocated. * * @return Whether the internal buffer has been reallocated. * @since 1.9 */ public boolean isReallocated() { return reallocations > 0; } /** * Searches the string builder to find the last reference to the specified char. * * @param ch the character to find * @return The last index of the character, or -1 if not found */ public int lastIndexOf(final char ch) { return lastIndexOf(ch, size - 1); } /** * Searches the string builder to find the last reference to the specified char. * * @param ch the character to find * @param startIndex the index to start at, invalid index rounded to edge * @return The last index of the character, or -1 if not found */ public int lastIndexOf(final char ch, int startIndex) { startIndex = startIndex >= size ? size - 1 : startIndex; if (startIndex < 0) { return StringUtils.INDEX_NOT_FOUND; } for (int i = startIndex; i >= 0; i--) { if (buffer[i] == ch) { return i; } } return StringUtils.INDEX_NOT_FOUND; } /** * Searches the string builder to find the last reference to the specified string. *

* Note that a null input string will return -1, whereas the JDK throws an exception. *

* * @param str the string to find, null returns -1 * @return The last index of the string, or -1 if not found */ public int lastIndexOf(final String str) { return lastIndexOf(str, size - 1); } /** * Searches the string builder to find the last reference to the specified string starting searching from the given * index. *

* Note that a null input string will return -1, whereas the JDK throws an exception. *

* * @param str the string to find, null returns -1 * @param startIndex the index to start at, invalid index rounded to edge * @return The last index of the string, or -1 if not found */ public int lastIndexOf(final String str, int startIndex) { startIndex = startIndex >= size ? size - 1 : startIndex; if (str == null || startIndex < 0) { return StringUtils.INDEX_NOT_FOUND; } final int strLen = str.length(); if (strLen > 0 && strLen <= size) { if (strLen == 1) { return lastIndexOf(str.charAt(0), startIndex); } outer: for (int i = startIndex - strLen + 1; i >= 0; i--) { for (int j = 0; j < strLen; j++) { if (str.charAt(j) != buffer[i + j]) { continue outer; } } return i; } } else if (strLen == 0) { return startIndex; } return StringUtils.INDEX_NOT_FOUND; } /** * Searches the string builder using the matcher to find the last match. *

* Matchers can be used to perform advanced searching behavior. For example you could write a matcher to find the * character 'a' followed by a number. *

* * @param matcher the matcher to use, null returns -1 * @return The last index matched, or -1 if not found */ public int lastIndexOf(final StringMatcher matcher) { return lastIndexOf(matcher, size); } /** * Searches the string builder using the matcher to find the last match searching from the given index. *

* Matchers can be used to perform advanced searching behavior. For example you could write a matcher to find the * character 'a' followed by a number. *

* * @param matcher the matcher to use, null returns -1 * @param startIndex the index to start at, invalid index rounded to edge * @return The last index matched, or -1 if not found */ public int lastIndexOf(final StringMatcher matcher, int startIndex) { startIndex = startIndex >= size ? size - 1 : startIndex; if (matcher == null || startIndex < 0) { return StringUtils.INDEX_NOT_FOUND; } final char[] buf = buffer; final int endIndex = startIndex + 1; for (int i = startIndex; i >= 0; i--) { if (matcher.isMatch(buf, i, 0, endIndex) > 0) { return i; } } return StringUtils.INDEX_NOT_FOUND; } /** * Extracts the leftmost characters from the string builder without throwing an exception. *

* This method extracts the left {@code length} characters from the builder. If this many characters are not * available, the whole builder is returned. Thus the returned string may be shorter than the length requested. *

* * @param length the number of characters to extract, negative returns empty string * @return The new string */ public String leftString(final int length) { if (length <= 0) { return StringUtils.EMPTY; } if (length >= size) { return new String(buffer, 0, size); } return new String(buffer, 0, length); } /** * Gets the length of the string builder. * * @return The length */ @Override public int length() { return size; } /** * Extracts some characters from the middle of the string builder without throwing an exception. *

* This method extracts {@code length} characters from the builder at the specified index. If the index is negative * it is treated as zero. If the index is greater than the builder size, it is treated as the builder size. If the * length is negative, the empty string is returned. If insufficient characters are available in the builder, as * much as possible is returned. Thus the returned string may be shorter than the length requested. *

* * @param index the index to start at, negative means zero * @param length the number of characters to extract, negative returns empty string * @return The new string */ public String midString(int index, final int length) { if (index < 0) { index = 0; } if (length <= 0 || index >= size) { return StringUtils.EMPTY; } if (size <= index + length) { return new String(buffer, index, size - index); } return new String(buffer, index, length); } /** * Minimizes the capacity to the actual length of the string. * * @return this, to enable chaining */ public TextStringBuilder minimizeCapacity() { if (buffer.length > size) { reallocate(size); } return this; } /** * If possible, reads chars from the provided {@link CharBuffer} directly into underlying character buffer without * making extra copies. * * @param charBuffer CharBuffer to read. * @return The number of characters read. * @see #appendTo(Appendable) * @since 1.9 */ public int readFrom(final CharBuffer charBuffer) { final int oldSize = size; final int remaining = charBuffer.remaining(); ensureCapacityInternal(size + remaining); charBuffer.get(buffer, size, remaining); size += remaining; return size - oldSize; } /** * If possible, reads all chars from the provided {@link Readable} directly into underlying character buffer without * making extra copies. * * @param readable object to read from * @return The number of characters read * @throws IOException if an I/O error occurs. * @see #appendTo(Appendable) */ public int readFrom(final Readable readable) throws IOException { if (readable instanceof Reader) { return readFrom((Reader) readable); } if (readable instanceof CharBuffer) { return readFrom((CharBuffer) readable); } final int oldSize = size; while (true) { ensureCapacityInternal(size + 1); final CharBuffer buf = CharBuffer.wrap(buffer, size, buffer.length - size); final int read = readable.read(buf); if (read == EOS) { break; } size += read; } return size - oldSize; } /** * If possible, reads all chars from the provided {@link Reader} directly into underlying character buffer without * making extra copies. * * @param reader Reader to read. * @return The number of characters read or -1 if we reached the end of stream. * @throws IOException if an I/O error occurs. * @see #appendTo(Appendable) * @since 1.9 */ public int readFrom(final Reader reader) throws IOException { final int oldSize = size; ensureCapacityInternal(size + 1); int readCount = reader.read(buffer, size, buffer.length - size); if (readCount == EOS) { return EOS; } do { size += readCount; ensureCapacityInternal(size + 1); readCount = reader.read(buffer, size, buffer.length - size); } while (readCount != EOS); return size - oldSize; } /** * If possible, reads {@code count} chars from the provided {@link Reader} directly into underlying character buffer * without making extra copies. * * @param reader Reader to read. * @param count The maximum characters to read, a value <= 0 returns 0. * @return The number of characters read. If less than {@code count}, then we've reached the end-of-stream, or -1 if * we reached the end of stream. * @throws IOException if an I/O error occurs. * @see #appendTo(Appendable) * @since 1.9 */ public int readFrom(final Reader reader, final int count) throws IOException { if (count <= 0) { return 0; } final int oldSize = size; ensureCapacityInternal(size + count); int target = count; int readCount = reader.read(buffer, size, target); if (readCount == EOS) { return EOS; } do { target -= readCount; size += readCount; readCount = reader.read(buffer, size, target); } while (target > 0 && readCount != EOS); return size - oldSize; } /** * Reallocates the buffer to the new length. * * @param newLength the length of the copy to be returned */ private void reallocate(final int newLength) { this.buffer = Arrays.copyOf(buffer, newLength); this.reallocations++; } /** * Replaces a portion of the string builder with another string. The length of the inserted string does not have to * match the removed length. * * @param startIndex the start index, inclusive, must be valid * @param endIndex the end index, exclusive, must be valid except that if too large it is treated as end of string * @param replaceStr the string to replace with, null means delete range * @return this, to enable chaining * @throws IndexOutOfBoundsException if the index is invalid */ public TextStringBuilder replace(final int startIndex, int endIndex, final String replaceStr) { endIndex = validateRange(startIndex, endIndex); final int insertLen = replaceStr == null ? 0 : replaceStr.length(); replaceImpl(startIndex, endIndex, endIndex - startIndex, replaceStr, insertLen); return this; } /** * Advanced search and replaces within the builder using a matcher. *

* Matchers can be used to perform advanced behavior. For example you could write a matcher to delete all * occurrences where the character 'a' is followed by a number. *

* * @param matcher the matcher to use to find the deletion, null causes no action * @param replaceStr the string to replace the match with, null is a delete * @param startIndex the start index, inclusive, must be valid * @param endIndex the end index, exclusive, must be valid except that if too large it is treated as end of string * @param replaceCount the number of times to replace, -1 for replace all * @return this, to enable chaining * @throws IndexOutOfBoundsException if start index is invalid */ public TextStringBuilder replace(final StringMatcher matcher, final String replaceStr, final int startIndex, int endIndex, final int replaceCount) { endIndex = validateRange(startIndex, endIndex); return replaceImpl(matcher, replaceStr, startIndex, endIndex, replaceCount); } /** * Replaces the search character with the replace character throughout the builder. * * @param search the search character * @param replace the replace character * @return this, to enable chaining */ public TextStringBuilder replaceAll(final char search, final char replace) { if (search != replace) { for (int i = 0; i < size; i++) { if (buffer[i] == search) { buffer[i] = replace; } } } return this; } /** * Replaces the search string with the replace string throughout the builder. * * @param searchStr the search string, null causes no action to occur * @param replaceStr the replace string, null is equivalent to an empty string * @return this, to enable chaining */ public TextStringBuilder replaceAll(final String searchStr, final String replaceStr) { final int searchLen = searchStr == null ? 0 : searchStr.length(); if (searchLen > 0) { final int replaceLen = replaceStr == null ? 0 : replaceStr.length(); int index = indexOf(searchStr, 0); while (index >= 0) { replaceImpl(index, index + searchLen, searchLen, replaceStr, replaceLen); index = indexOf(searchStr, index + replaceLen); } } return this; } /** * Replaces all matches within the builder with the replace string. *

* Matchers can be used to perform advanced replace behavior. For example you could write a matcher to replace all * occurrences where the character 'a' is followed by a number. *

* * @param matcher the matcher to use to find the deletion, null causes no action * @param replaceStr the replace string, null is equivalent to an empty string * @return this, to enable chaining */ public TextStringBuilder replaceAll(final StringMatcher matcher, final String replaceStr) { return replace(matcher, replaceStr, 0, size, -1); } /** * Replaces the first instance of the search character with the replace character in the builder. * * @param search the search character * @param replace the replace character * @return this, to enable chaining */ public TextStringBuilder replaceFirst(final char search, final char replace) { if (search != replace) { for (int i = 0; i < size; i++) { if (buffer[i] == search) { buffer[i] = replace; break; } } } return this; } /** * Replaces the first instance of the search string with the replace string. * * @param searchStr the search string, null causes no action to occur * @param replaceStr the replace string, null is equivalent to an empty string * @return this, to enable chaining */ public TextStringBuilder replaceFirst(final String searchStr, final String replaceStr) { final int searchLen = searchStr == null ? 0 : searchStr.length(); if (searchLen > 0) { final int index = indexOf(searchStr, 0); if (index >= 0) { final int replaceLen = replaceStr == null ? 0 : replaceStr.length(); replaceImpl(index, index + searchLen, searchLen, replaceStr, replaceLen); } } return this; } /** * Replaces the first match within the builder with the replace string. *

* Matchers can be used to perform advanced replace behavior. For example you could write a matcher to replace where * the character 'a' is followed by a number. *

* * @param matcher the matcher to use to find the deletion, null causes no action * @param replaceStr the replace string, null is equivalent to an empty string * @return this, to enable chaining */ public TextStringBuilder replaceFirst(final StringMatcher matcher, final String replaceStr) { return replace(matcher, replaceStr, 0, size, 1); } /** * Internal method to delete a range without validation. * * @param startIndex the start index, must be valid * @param endIndex the end index (exclusive), must be valid * @param removeLen the length to remove (endIndex - startIndex), must be valid * @param insertStr the string to replace with, null means delete range * @param insertLen the length of the insert string, must be valid * @throws IndexOutOfBoundsException if any index is invalid */ private void replaceImpl(final int startIndex, final int endIndex, final int removeLen, final String insertStr, final int insertLen) { final int newSize = size - removeLen + insertLen; if (insertLen != removeLen) { ensureCapacityInternal(newSize); System.arraycopy(buffer, endIndex, buffer, startIndex + insertLen, size - endIndex); size = newSize; } if (insertLen > 0) { insertStr.getChars(0, insertLen, buffer, startIndex); } } /** * Replaces within the builder using a matcher. *

* Matchers can be used to perform advanced behavior. For example you could write a matcher to delete all * occurrences where the character 'a' is followed by a number. *

* * @param matcher the matcher to use to find the deletion, null causes no action * @param replaceStr the string to replace the match with, null is a delete * @param from the start index, must be valid * @param to the end index (exclusive), must be valid * @param replaceCount the number of times to replace, -1 for replace all * @return this, to enable chaining * @throws IndexOutOfBoundsException if any index is invalid */ private TextStringBuilder replaceImpl(final StringMatcher matcher, final String replaceStr, final int from, int to, int replaceCount) { if (matcher == null || size == 0) { return this; } final int replaceLen = replaceStr == null ? 0 : replaceStr.length(); for (int i = from; i < to && replaceCount != 0; i++) { final char[] buf = buffer; final int removeLen = matcher.isMatch(buf, i, from, to); if (removeLen > 0) { replaceImpl(i, i + removeLen, removeLen, replaceStr, replaceLen); to = to - removeLen + replaceLen; i = i + replaceLen - 1; if (replaceCount > 0) { replaceCount--; } } } return this; } /** * Resizes the buffer to at least the size specified. * * @param minCapacity the minimum required capacity * @throws OutOfMemoryError if the {@code minCapacity} is negative */ private void resizeBuffer(final int minCapacity) { // Overflow-conscious code treats the min and new capacity as unsigned. final int oldCapacity = buffer.length; int newCapacity = oldCapacity * 2; if (Integer.compareUnsigned(newCapacity, minCapacity) < 0) { newCapacity = minCapacity; } if (Integer.compareUnsigned(newCapacity, MAX_BUFFER_SIZE) > 0) { newCapacity = createPositiveCapacity(minCapacity); } reallocate(newCapacity); } /** * Reverses the string builder placing each character in the opposite index. * * @return this, to enable chaining */ public TextStringBuilder reverse() { if (size == 0) { return this; } final int half = size / 2; final char[] buf = buffer; for (int leftIdx = 0, rightIdx = size - 1; leftIdx < half; leftIdx++, rightIdx--) { final char swap = buf[leftIdx]; buf[leftIdx] = buf[rightIdx]; buf[rightIdx] = swap; } return this; } /** * Extracts the rightmost characters from the string builder without throwing an exception. *

* This method extracts the right {@code length} characters from the builder. If this many characters are not * available, the whole builder is returned. Thus the returned string may be shorter than the length requested. *

* * @param length the number of characters to extract, negative returns empty string * @return The new string */ public String rightString(final int length) { if (length <= 0) { return StringUtils.EMPTY; } if (length >= size) { return new String(buffer, 0, size); } return new String(buffer, size - length, length); } /** * Clears and sets this builder to the given value. * * @see #charAt(int) * @see #deleteCharAt(int) * @param str the new value. * @return this, to enable chaining * @since 1.9 */ public TextStringBuilder set(final CharSequence str) { clear(); append(str); return this; } /** * Sets the character at the specified index. * * @see #charAt(int) * @see #deleteCharAt(int) * @param index the index to set * @param ch the new character * @return this, to enable chaining * @throws IndexOutOfBoundsException if the index is invalid */ public TextStringBuilder setCharAt(final int index, final char ch) { validateIndex(index); buffer[index] = ch; return this; } /** * Updates the length of the builder by either dropping the last characters or adding filler of Unicode zero. * * @param length the length to set to, must be zero or positive * @return this, to enable chaining * @throws IndexOutOfBoundsException if the length is negative */ public TextStringBuilder setLength(final int length) { if (length < 0) { throw new StringIndexOutOfBoundsException(length); } if (length < size) { size = length; } else if (length > size) { ensureCapacityInternal(length); final int oldEnd = size; size = length; Arrays.fill(buffer, oldEnd, length, '\0'); } return this; } /** * Sets the text to be appended when {@link #appendNewLine() new line} is called. * * @param newLine the new line text, {@code null} means use the system default from {@link System#lineSeparator()}. * @return this instance. */ public TextStringBuilder setNewLineText(final String newLine) { this.newLine = newLine; return this; } /** * Sets the text to be appended when null is added. * * @param nullText the null text, null means no append * @return this, to enable chaining */ public TextStringBuilder setNullText(String nullText) { if (nullText != null && nullText.isEmpty()) { nullText = null; } this.nullText = nullText; return this; } /** * Gets the length of the string builder. *

* This method is the same as {@link #length()} and is provided to match the API of Collections. *

* * @return The length */ public int size() { return size; } /** * Checks whether this builder starts with the specified string. *

* Note that this method handles null input quietly, unlike String. *

* * @param str the string to search for, null returns false * @return true if the builder starts with the string */ public boolean startsWith(final String str) { if (str == null) { return false; } final int len = str.length(); if (len == 0) { return true; } if (len > size) { return false; } for (int i = 0; i < len; i++) { if (buffer[i] != str.charAt(i)) { return false; } } return true; } /** * {@inheritDoc} */ @Override public CharSequence subSequence(final int startIndex, final int endIndex) { if (startIndex < 0) { throw new StringIndexOutOfBoundsException(startIndex); } if (endIndex > size) { throw new StringIndexOutOfBoundsException(endIndex); } if (startIndex > endIndex) { throw new StringIndexOutOfBoundsException(endIndex - startIndex); } return substring(startIndex, endIndex); } /** * Extracts a portion of this string builder as a string. * * @param start the start index, inclusive, must be valid * @return The new string * @throws IndexOutOfBoundsException if the index is invalid */ public String substring(final int start) { return substring(start, size); } /** * Extracts a portion of this string builder as a string. *

* Note: This method treats an endIndex greater than the length of the builder as equal to the length of the * builder, and continues without error, unlike StringBuffer or String. *

* * @param startIndex the start index, inclusive, must be valid * @param endIndex the end index, exclusive, must be valid except that if too large it is treated as end of string * @return The new string * @throws IndexOutOfBoundsException if the index is invalid */ public String substring(final int startIndex, int endIndex) { endIndex = validateRange(startIndex, endIndex); return new String(buffer, startIndex, endIndex - startIndex); } /** * Copies the builder's character array into a new character array. * * @return a new array that represents the contents of the builder */ public char[] toCharArray() { return size == 0 ? ArrayUtils.EMPTY_CHAR_ARRAY : Arrays.copyOf(buffer, size); } /** * Copies part of the builder's character array into a new character array. * * @param startIndex the start index, inclusive, must be valid * @param endIndex the end index, exclusive, must be valid except that if too large it is treated as end of string * @return a new array that holds part of the contents of the builder * @throws IndexOutOfBoundsException if startIndex is invalid, or if endIndex is invalid (but endIndex greater than * size is valid) */ public char[] toCharArray(final int startIndex, int endIndex) { endIndex = validateRange(startIndex, endIndex); final int len = endIndex - startIndex; return len == 0 ? ArrayUtils.EMPTY_CHAR_ARRAY : Arrays.copyOfRange(buffer, startIndex, endIndex); } /** * Gets a String version of the string builder, creating a new instance each time the method is called. *

* Note that unlike StringBuffer, the string version returned is independent of the string builder. *

* * @return The builder as a String */ @Override public String toString() { return new String(buffer, 0, size); } /** * Gets a StringBuffer version of the string builder, creating a new instance each time the method is called. * * @return The builder as a StringBuffer */ public StringBuffer toStringBuffer() { return new StringBuffer(size).append(buffer, 0, size); } /** * Gets a StringBuilder version of the string builder, creating a new instance each time the method is called. * * @return The builder as a StringBuilder */ public StringBuilder toStringBuilder() { return new StringBuilder(size).append(buffer, 0, size); } /** * Trims the builder by removing characters less than or equal to a space from the beginning and end. * * @return this, to enable chaining */ public TextStringBuilder trim() { if (size == 0) { return this; } int len = size; final char[] buf = buffer; int pos = 0; while (pos < len && buf[pos] <= SPACE) { pos++; } while (pos < len && buf[len - 1] <= SPACE) { len--; } if (len < size) { delete(len, size); } if (pos > 0) { delete(0, pos); } return this; } /** * Validates that an index is in the range {@code 0 <= index <= size}. * * @param index the index to test. * @throws IndexOutOfBoundsException Thrown when the index is not the range {@code 0 <= index <= size}. */ protected void validateIndex(final int index) { if (index < 0 || index >= size) { throw new StringIndexOutOfBoundsException(index); } } /** * Validates parameters defining a range of the builder. * * @param startIndex the start index, inclusive, must be valid * @param endIndex the end index, exclusive, must be valid except that if too large it is treated as end of string * @return A valid end index. * @throws StringIndexOutOfBoundsException if the index is invalid */ protected int validateRange(final int startIndex, int endIndex) { if (startIndex < 0) { throw new StringIndexOutOfBoundsException(startIndex); } if (endIndex > size) { endIndex = size; } if (startIndex > endIndex) { throw new StringIndexOutOfBoundsException("end < start"); } return endIndex; } }




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