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/*
* Copyright (C) 2010 The Guava Authors
*
* Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except
* in compliance with the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software distributed under the License
* is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express
* or implied. See the License for the specific language governing permissions and limitations under
* the License.
*/
package org.rx.third.guava;
import java.util.Objects;
/**
* Static methods pertaining to ASCII characters (those in the range of values {@code 0x00} through
* {@code 0x7F}), and to strings containing such characters.
*
* ASCII utilities also exist in other classes of this package:
*
* @author Catherine Berry
* @author Gregory Kick
* @since 7.0
*/
public final class Ascii {
private Ascii() {
}
/* The ASCII control characters, per RFC 20. */
// /**
// * Null ('\0'): The all-zeros character which may serve to accomplish time fill and media fill.
// * Normally used as a C string terminator.
// *
// *
Although RFC 20 names this as "Null", note that it is distinct from the C/C++ "NULL"
// * pointer.
// *
// * @since 8.0
// */
// public static final byte NUL = 0;
//
// /**
// * Start of Heading: A communication control character used at the beginning of a sequence of
// * characters which constitute a machine-sensible address or routing information. Such a sequence
// * is referred to as the "heading." An STX character has the effect of terminating a heading.
// *
// * @since 8.0
// */
// public static final byte SOH = 1;
//
// /**
// * Start of Text: A communication control character which precedes a sequence of characters that
// * is to be treated as an entity and entirely transmitted through to the ultimate destination.
// * Such a sequence is referred to as "text." STX may be used to terminate a sequence of characters
// * started by SOH.
// *
// * @since 8.0
// */
// public static final byte STX = 2;
//
// /**
// * End of Text: A communication control character used to terminate a sequence of characters
// * started with STX and transmitted as an entity.
// *
// * @since 8.0
// */
// public static final byte ETX = 3;
//
// /**
// * End of Transmission: A communication control character used to indicate the conclusion of a
// * transmission, which may have contained one or more texts and any associated headings.
// *
// * @since 8.0
// */
// public static final byte EOT = 4;
//
// /**
// * Enquiry: A communication control character used in data communication systems as a request for
// * a response from a remote station. It may be used as a "Who Are You" (WRU) to obtain
// * identification, or may be used to obtain station status, or both.
// *
// * @since 8.0
// */
// public static final byte ENQ = 5;
//
// /**
// * Acknowledge: A communication control character transmitted by a receiver as an affirmative
// * response to a sender.
// *
// * @since 8.0
// */
// public static final byte ACK = 6;
//
// /**
// * Bell ('\a'): A character for use when there is a need to call for human attention. It may
// * control alarm or attention devices.
// *
// * @since 8.0
// */
// public static final byte BEL = 7;
//
// /**
// * Backspace ('\b'): A format effector which controls the movement of the printing position one
// * printing space backward on the same printing line. (Applicable also to display devices.)
// *
// * @since 8.0
// */
// public static final byte BS = 8;
//
// /**
// * Horizontal Tabulation ('\t'): A format effector which controls the movement of the printing
// * position to the next in a series of predetermined positions along the printing line.
// * (Applicable also to display devices and the skip function on punched cards.)
// *
// * @since 8.0
// */
// public static final byte HT = 9;
//
// /**
// * Line Feed ('\n'): A format effector which controls the movement of the printing position to the
// * next printing line. (Applicable also to display devices.) Where appropriate, this character may
// * have the meaning "New Line" (NL), a format effector which controls the movement of the printing
// * point to the first printing position on the next printing line. Use of this convention requires
// * agreement between sender and recipient of data.
// *
// * @since 8.0
// */
// public static final byte LF = 10;
//
// /**
// * Alternate name for {@link #LF}. ({@code LF} is preferred.)
// *
// * @since 8.0
// */
// public static final byte NL = 10;
//
// /**
// * Vertical Tabulation ('\v'): A format effector which controls the movement of the printing
// * position to the next in a series of predetermined printing lines. (Applicable also to display
// * devices.)
// *
// * @since 8.0
// */
// public static final byte VT = 11;
//
// /**
// * Form Feed ('\f'): A format effector which controls the movement of the printing position to the
// * first pre-determined printing line on the next form or page. (Applicable also to display
// * devices.)
// *
// * @since 8.0
// */
// public static final byte FF = 12;
//
// /**
// * Carriage Return ('\r'): A format effector which controls the movement of the printing position
// * to the first printing position on the same printing line. (Applicable also to display devices.)
// *
// * @since 8.0
// */
// public static final byte CR = 13;
//
// /**
// * Shift Out: A control character indicating that the code combinations which follow shall be
// * interpreted as outside of the character set of the standard code table until a Shift In
// * character is reached.
// *
// * @since 8.0
// */
// public static final byte SO = 14;
//
// /**
// * Shift In: A control character indicating that the code combinations which follow shall be
// * interpreted according to the standard code table.
// *
// * @since 8.0
// */
// public static final byte SI = 15;
//
// /**
// * Data Link Escape: A communication control character which will change the meaning of a limited
// * number of contiguously following characters. It is used exclusively to provide supplementary
// * controls in data communication networks.
// *
// * @since 8.0
// */
// public static final byte DLE = 16;
//
// /**
// * Device Control 1. Characters for the control of ancillary devices associated with data
// * processing or telecommunication systems, more especially switching devices "on" or "off." (If a
// * single "stop" control is required to interrupt or turn off ancillary devices, DC4 is the
// * preferred assignment.)
// *
// * @since 8.0
// */
// public static final byte DC1 = 17; // aka XON
//
// /**
// * Transmission On: Although originally defined as DC1, this ASCII control character is now better
// * known as the XON code used for software flow control in serial communications. The main use is
// * restarting the transmission after the communication has been stopped by the XOFF control code.
// *
// * @since 8.0
// */
// public static final byte XON = 17; // aka DC1
//
// /**
// * Device Control 2. Characters for the control of ancillary devices associated with data
// * processing or telecommunication systems, more especially switching devices "on" or "off." (If a
// * single "stop" control is required to interrupt or turn off ancillary devices, DC4 is the
// * preferred assignment.)
// *
// * @since 8.0
// */
// public static final byte DC2 = 18;
//
// /**
// * Device Control 3. Characters for the control of ancillary devices associated with data
// * processing or telecommunication systems, more especially switching devices "on" or "off." (If a
// * single "stop" control is required to interrupt or turn off ancillary devices, DC4 is the
// * preferred assignment.)
// *
// * @since 8.0
// */
// public static final byte DC3 = 19; // aka XOFF
//
// /**
// * Transmission off. See {@link #XON} for explanation.
// *
// * @since 8.0
// */
// public static final byte XOFF = 19; // aka DC3
//
// /**
// * Device Control 4. Characters for the control of ancillary devices associated with data
// * processing or telecommunication systems, more especially switching devices "on" or "off." (If a
// * single "stop" control is required to interrupt or turn off ancillary devices, DC4 is the
// * preferred assignment.)
// *
// * @since 8.0
// */
// public static final byte DC4 = 20;
//
// /**
// * Negative Acknowledge: A communication control character transmitted by a receiver as a negative
// * response to the sender.
// *
// * @since 8.0
// */
// public static final byte NAK = 21;
//
// /**
// * Synchronous Idle: A communication control character used by a synchronous transmission system
// * in the absence of any other character to provide a signal from which synchronism may be
// * achieved or retained.
// *
// * @since 8.0
// */
// public static final byte SYN = 22;
//
// /**
// * End of Transmission Block: A communication control character used to indicate the end of a
// * block of data for communication purposes. ETB is used for blocking data where the block
// * structure is not necessarily related to the processing format.
// *
// * @since 8.0
// */
// public static final byte ETB = 23;
//
// /**
// * Cancel: A control character used to indicate that the data with which it is sent is in error or
// * is to be disregarded.
// *
// * @since 8.0
// */
// public static final byte CAN = 24;
//
// /**
// * End of Medium: A control character associated with the sent data which may be used to identify
// * the physical end of the medium, or the end of the used, or wanted, portion of information
// * recorded on a medium. (The position of this character does not necessarily correspond to the
// * physical end of the medium.)
// *
// * @since 8.0
// */
// public static final byte EM = 25;
//
// /**
// * Substitute: A character that may be substituted for a character which is determined to be
// * invalid or in error.
// *
// * @since 8.0
// */
// public static final byte SUB = 26;
//
// /**
// * Escape: A control character intended to provide code extension (supplementary characters) in
// * general information interchange. The Escape character itself is a prefix affecting the
// * interpretation of a limited number of contiguously following characters.
// *
// * @since 8.0
// */
// public static final byte ESC = 27;
//
// /**
// * File Separator: These four information separators may be used within data in optional fashion,
// * except that their hierarchical relationship shall be: FS is the most inclusive, then GS, then
// * RS, and US is least inclusive. (The content and length of a File, Group, Record, or Unit are
// * not specified.)
// *
// * @since 8.0
// */
// public static final byte FS = 28;
//
// /**
// * Group Separator: These four information separators may be used within data in optional fashion,
// * except that their hierarchical relationship shall be: FS is the most inclusive, then GS, then
// * RS, and US is least inclusive. (The content and length of a File, Group, Record, or Unit are
// * not specified.)
// *
// * @since 8.0
// */
// public static final byte GS = 29;
//
// /**
// * Record Separator: These four information separators may be used within data in optional
// * fashion, except that their hierarchical relationship shall be: FS is the most inclusive, then
// * GS, then RS, and US is least inclusive. (The content and length of a File, Group, Record, or
// * Unit are not specified.)
// *
// * @since 8.0
// */
// public static final byte RS = 30;
//
// /**
// * Unit Separator: These four information separators may be used within data in optional fashion,
// * except that their hierarchical relationship shall be: FS is the most inclusive, then GS, then
// * RS, and US is least inclusive. (The content and length of a File, Group, Record, or Unit are
// * not specified.)
// *
// * @since 8.0
// */
// public static final byte US = 31;
//
// /**
// * Space: A normally non-printing graphic character used to separate words. It is also a format
// * effector which controls the movement of the printing position, one printing position forward.
// * (Applicable also to display devices.)
// *
// * @since 8.0
// */
// public static final byte SP = 32;
//
// /**
// * Alternate name for {@link #SP}.
// *
// * @since 8.0
// */
// public static final byte SPACE = 32;
//
// /**
// * Delete: This character is used primarily to "erase" or "obliterate" erroneous or unwanted
// * characters in perforated tape.
// *
// * @since 8.0
// */
// public static final byte DEL = 127;
//
// /**
// * The minimum value of an ASCII character.
// *
// * @since 9.0 (was type {@code int} before 12.0)
// */
// public static final char MIN = 0;
//
// /**
// * The maximum value of an ASCII character.
// *
// * @since 9.0 (was type {@code int} before 12.0)
// */
// public static final char MAX = 127;
/**
* A bit mask which selects the bit encoding ASCII character case.
*/
private static final char CASE_MASK = 0x20;
/**
* Returns a copy of the input string in which all {@linkplain #isUpperCase(char) uppercase ASCII
* characters} have been converted to lowercase. All other characters are copied without
* modification.
*/
public static String toLowerCase(String string) {
int length = string.length();
for (int i = 0; i < length; i++) {
if (isUpperCase(string.charAt(i))) {
char[] chars = string.toCharArray();
for (; i < length; i++) {
char c = chars[i];
if (isUpperCase(c)) {
chars[i] = (char) (c ^ CASE_MASK);
}
}
return String.valueOf(chars);
}
}
return string;
}
/**
* Returns a copy of the input character sequence in which all {@linkplain #isUpperCase(char)
* uppercase ASCII characters} have been converted to lowercase. All other characters are copied
* without modification.
*
* @since 14.0
*/
public static String toLowerCase(CharSequence chars) {
if (chars instanceof String) {
return toLowerCase((String) chars);
}
char[] newChars = new char[chars.length()];
for (int i = 0; i < newChars.length; i++) {
newChars[i] = toLowerCase(chars.charAt(i));
}
return String.valueOf(newChars);
}
/**
* If the argument is an {@linkplain #isUpperCase(char) uppercase ASCII character}, returns the
* lowercase equivalent. Otherwise returns the argument.
*/
public static char toLowerCase(char c) {
return isUpperCase(c) ? (char) (c ^ CASE_MASK) : c;
}
/**
* Returns a copy of the input string in which all {@linkplain #isLowerCase(char) lowercase ASCII
* characters} have been converted to uppercase. All other characters are copied without
* modification.
*/
public static String toUpperCase(String string) {
int length = string.length();
for (int i = 0; i < length; i++) {
if (isLowerCase(string.charAt(i))) {
char[] chars = string.toCharArray();
for (; i < length; i++) {
char c = chars[i];
if (isLowerCase(c)) {
chars[i] = (char) (c ^ CASE_MASK);
}
}
return String.valueOf(chars);
}
}
return string;
}
/**
* Returns a copy of the input character sequence in which all {@linkplain #isLowerCase(char)
* lowercase ASCII characters} have been converted to uppercase. All other characters are copied
* without modification.
*
* @since 14.0
*/
public static String toUpperCase(CharSequence chars) {
if (chars instanceof String) {
return toUpperCase((String) chars);
}
char[] newChars = new char[chars.length()];
for (int i = 0; i < newChars.length; i++) {
newChars[i] = toUpperCase(chars.charAt(i));
}
return String.valueOf(newChars);
}
/**
* If the argument is a {@linkplain #isLowerCase(char) lowercase ASCII character}, returns the
* uppercase equivalent. Otherwise returns the argument.
*/
public static char toUpperCase(char c) {
return isLowerCase(c) ? (char) (c ^ CASE_MASK) : c;
}
/**
* Indicates whether {@code c} is one of the twenty-six lowercase ASCII alphabetic characters
* between {@code 'a'} and {@code 'z'} inclusive. All others (including non-ASCII characters)
* return {@code false}.
*/
public static boolean isLowerCase(char c) {
// Note: This was benchmarked against the alternate expression "(char)(c - 'a') < 26" (Nov '13)
// and found to perform at least as well, or better.
return (c >= 'a') && (c <= 'z');
}
/**
* Indicates whether {@code c} is one of the twenty-six uppercase ASCII alphabetic characters
* between {@code 'A'} and {@code 'Z'} inclusive. All others (including non-ASCII characters)
* return {@code false}.
*/
public static boolean isUpperCase(char c) {
return (c >= 'A') && (c <= 'Z');
}
/**
* Truncates the given character sequence to the given maximum length. If the length of the
* sequence is greater than {@code maxLength}, the returned string will be exactly {@code
* maxLength} chars in length and will end with the given {@code truncationIndicator}. Otherwise,
* the sequence will be returned as a string with no changes to the content.
*
*
Examples:
*
*
{@code
* Ascii.truncate("foobar", 7, "..."); // returns "foobar"
* Ascii.truncate("foobar", 5, "..."); // returns "fo..."
* }
*
* Note: This method may work with certain non-ASCII text but is not safe for use
* with arbitrary Unicode text. It is mostly intended for use with text that is known to be safe
* for use with it (such as all-ASCII text) and for simple debugging text. When using this method,
* consider the following:
*
*
* - it may split surrogate pairs
*
- it may split characters and combining characters
*
- it does not consider word boundaries
*
- if truncating for display to users, there are other considerations that must be taken
* into account
*
- the appropriate truncation indicator may be locale-dependent
*
- it is safe to use non-ASCII characters in the truncation indicator
*
*
* @throws IllegalArgumentException if {@code maxLength} is less than the length of {@code
* truncationIndicator}
* @since 16.0
*/
public static String truncate(CharSequence seq, int maxLength, String truncationIndicator) {
Objects.requireNonNull(seq);
// length to truncate the sequence to, not including the truncation indicator
int truncationLength = maxLength - truncationIndicator.length();
// in this worst case, this allows a maxLength equal to the length of the truncationIndicator,
// meaning that a string will be truncated to just the truncation indicator itself
// checkArgument(
// truncationLength >= 0,
// "maxLength (%s) must be >= length of the truncation indicator (%s)",
// maxLength,
// truncationIndicator.length());
if (seq.length() <= maxLength) {
String string = seq.toString();
if (string.length() <= maxLength) {
return string;
}
// if the length of the toString() result was > maxLength for some reason, truncate that
seq = string;
}
return new StringBuilder(maxLength)
.append(seq, 0, truncationLength)
.append(truncationIndicator)
.toString();
}
/**
* Indicates whether the contents of the given character sequences {@code s1} and {@code s2} are
* equal, ignoring the case of any ASCII alphabetic characters between {@code 'a'} and {@code 'z'}
* or {@code 'A'} and {@code 'Z'} inclusive.
*
* This method is significantly faster than {@link String#equalsIgnoreCase} and should be used
* in preference if at least one of the parameters is known to contain only ASCII characters.
*
*
Note however that this method does not always behave identically to expressions such as:
*
*
* - {@code string.toUpperCase().equals("UPPER CASE ASCII")}
*
- {@code string.toLowerCase().equals("lower case ascii")}
*
*
* due to case-folding of some non-ASCII characters (which does not occur in {@link
* String#equalsIgnoreCase}). However in almost all cases that ASCII strings are used, the author
* probably wanted the behavior provided by this method rather than the subtle and sometimes
* surprising behavior of {@code toUpperCase()} and {@code toLowerCase()}.
*
* @since 16.0
*/
public static boolean equalsIgnoreCase(CharSequence s1, CharSequence s2) {
// Calling length() is the null pointer check (so do it before we can exit early).
int length = s1.length();
if (s1 == s2) {
return true;
}
if (length != s2.length()) {
return false;
}
for (int i = 0; i < length; i++) {
char c1 = s1.charAt(i);
char c2 = s2.charAt(i);
if (c1 == c2) {
continue;
}
int alphaIndex = getAlphaIndex(c1);
// This was also benchmarked using '&' to avoid branching (but always evaluate the rhs),
// however this showed no obvious improvement.
if (alphaIndex < 26 && alphaIndex == getAlphaIndex(c2)) {
continue;
}
return false;
}
return true;
}
/**
* Returns the non-negative index value of the alpha character {@code c}, regardless of case. Ie,
* 'a'/'A' returns 0 and 'z'/'Z' returns 25. Non-alpha characters return a value of 26 or greater.
*/
private static int getAlphaIndex(char c) {
// Fold upper-case ASCII to lower-case and make zero-indexed and unsigned (by casting to char).
return (char) ((c | CASE_MASK) - 'a');
}
}