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StringParser
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StringParser(): void
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StringParser(String): void
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chars: char[]
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index: int
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length: int
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string: String
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getIndex(): int
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getLength(): int
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getString(): String
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setString(String): void
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advance(): void
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extract(int): String
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extract(int, int): String
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findChar(char): int
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findText(): int
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findWhite(): int
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reset(): void
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skipChar(char): int
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skipText(): int
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skipWhite(): int
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isWhite(char): boolean
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https://projects.eclipse.org/projects/ee4j.grizzly/grizzly-http-server: Grizzly Bill of Materials (BOM)
(Oracle Corporation)
- Jeanfrancois Arcand (Async IO)
- Justin Lee
- Marc Arens (Open Xchange)
- Matt Swift
/*
* Copyright (c) 2010, 2017 Oracle and/or its affiliates. All rights reserved.
* Copyright 2004 The Apache Software Foundation
*
* 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.glassfish.grizzly.http.server.util;
Utility class for string parsing that is higher performance than
StringParser for simple delimited text cases. Parsing is performed
by setting the string, and then using the findXxxx() and
skipXxxx() families of methods to remember significant
offsets. To retrieve the parsed substrings, call the extract()
method with the appropriate saved offset values.
Author: Craig R. McClanahan Version: $Revision: 1.3 $ $Date: 2007/06/18 14:17:08 $
/**
* Utility class for string parsing that is higher performance than
* StringParser for simple delimited text cases. Parsing is performed
* by setting the string, and then using the <code>findXxxx()</code> and
* <code>skipXxxx()</code> families of methods to remember significant
* offsets. To retrieve the parsed substrings, call the <code>extract()</code>
* method with the appropriate saved offset values.
*
* @author Craig R. McClanahan
* @version $Revision: 1.3 $ $Date: 2007/06/18 14:17:08 $
*/
public final class StringParser {
// ----------------------------------------------------------- Constructors
Construct a string parser with no preset string to be parsed.
/**
* Construct a string parser with no preset string to be parsed.
*/
public StringParser() {
this(null);
}
Construct a string parser that is initialized to parse the specified
string.
Params: - string – The string to be parsed
/**
* Construct a string parser that is initialized to parse the specified
* string.
*
* @param string The string to be parsed
*/
public StringParser(String string) {
super();
setString(string);
}
// ----------------------------------------------------- Instance Variables
The characters of the current string, as a character array. Stored
when the string is first specified to speed up access to characters
being compared during parsing.
/**
* The characters of the current string, as a character array. Stored
* when the string is first specified to speed up access to characters
* being compared during parsing.
*/
private char chars[] = null;
The zero-relative index of the current point at which we are
positioned within the string being parsed. NOTE:
the value of this index can be one larger than the index of the last
character of the string (i.e. equal to the string length) if you
parse off the end of the string. This value is useful for extracting
substrings that include the end of the string.
/**
* The zero-relative index of the current point at which we are
* positioned within the string being parsed. <strong>NOTE</strong>:
* the value of this index can be one larger than the index of the last
* character of the string (i.e. equal to the string length) if you
* parse off the end of the string. This value is useful for extracting
* substrings that include the end of the string.
*/
private int index = 0;
The length of the String we are currently parsing. Stored when the
string is first specified to avoid repeated recalculations.
/**
* The length of the String we are currently parsing. Stored when the
* string is first specified to avoid repeated recalculations.
*/
private int length = 0;
The String we are currently parsing.
/**
* The String we are currently parsing.
*/
private String string = null;
// ------------------------------------------------------------- Properties
Return the zero-relative index of our current parsing position
within the string being parsed.
/**
* Return the zero-relative index of our current parsing position
* within the string being parsed.
*/
public int getIndex() {
return (this.index);
}
Return the length of the string we are parsing.
/**
* Return the length of the string we are parsing.
*/
public int getLength() {
return (this.length);
}
Return the String we are currently parsing.
/**
* Return the String we are currently parsing.
*/
public String getString() {
return (this.string);
}
Set the String we are currently parsing. The parser state is also reset
to begin at the start of this string.
Params: - string – The string to be parsed.
/**
* Set the String we are currently parsing. The parser state is also reset
* to begin at the start of this string.
*
* @param string The string to be parsed.
*/
public void setString(String string) {
this.string = string;
if (string != null) {
this.length = string.length();
chars = this.string.toCharArray();
} else {
this.length = 0;
chars = new char[0];
}
reset();
}
// --------------------------------------------------------- Public Methods
Advance the current parsing position by one, if we are not already
past the end of the string.
/**
* Advance the current parsing position by one, if we are not already
* past the end of the string.
*/
public void advance() {
if (index < length)
index++;
}
Extract and return a substring that starts at the specified position,
and extends to the end of the string being parsed. If this is not
possible, a zero-length string is returned.
Params: - start – Starting index, zero relative, inclusive
/**
* Extract and return a substring that starts at the specified position,
* and extends to the end of the string being parsed. If this is not
* possible, a zero-length string is returned.
*
* @param start Starting index, zero relative, inclusive
*/
public String extract(int start) {
if ((start < 0) || (start >= length))
return ("");
else
return (string.substring(start));
}
Extract and return a substring that starts at the specified position,
and ends at the character before the specified position. If this is
not possible, a zero-length string is returned.
Params: - start – Starting index, zero relative, inclusive
- end – Ending index, zero relative, exclusive
/**
* Extract and return a substring that starts at the specified position,
* and ends at the character before the specified position. If this is
* not possible, a zero-length string is returned.
*
* @param start Starting index, zero relative, inclusive
* @param end Ending index, zero relative, exclusive
*/
public String extract(int start, int end) {
if ((start < 0) || (start >= end) || (end > length))
return ("");
else
return (string.substring(start, end));
}
Return the index of the next occurrence of the specified character,
or the index of the character after the last position of the string
if no more occurrences of this character are found. The current
parsing position is updated to the returned value.
Params: - ch – Character to be found
/**
* Return the index of the next occurrence of the specified character,
* or the index of the character after the last position of the string
* if no more occurrences of this character are found. The current
* parsing position is updated to the returned value.
*
* @param ch Character to be found
*/
public int findChar(char ch) {
while ((index < length) && (ch != chars[index]))
index++;
return (index);
}
Return the index of the next occurrence of a non-whitespace character,
or the index of the character after the last position of the string
if no more non-whitespace characters are found. The current
parsing position is updated to the returned value.
/**
* Return the index of the next occurrence of a non-whitespace character,
* or the index of the character after the last position of the string
* if no more non-whitespace characters are found. The current
* parsing position is updated to the returned value.
*/
public int findText() {
while ((index < length) && isWhite(chars[index]))
index++;
return (index);
}
Return the index of the next occurrence of a whitespace character,
or the index of the character after the last position of the string
if no more whitespace characters are found. The current parsing
position is updated to the returned value.
/**
* Return the index of the next occurrence of a whitespace character,
* or the index of the character after the last position of the string
* if no more whitespace characters are found. The current parsing
* position is updated to the returned value.
*/
public int findWhite() {
while ((index < length) && !isWhite(chars[index]))
index++;
return (index);
}
Reset the current state of the parser to the beginning of the
current string being parsed.
/**
* Reset the current state of the parser to the beginning of the
* current string being parsed.
*/
public void reset() {
index = 0;
}
Advance the current parsing position while it is pointing at the
specified character, or until it moves past the end of the string.
Return the final value.
Params: - ch – Character to be skipped
/**
* Advance the current parsing position while it is pointing at the
* specified character, or until it moves past the end of the string.
* Return the final value.
*
* @param ch Character to be skipped
*/
public int skipChar(char ch) {
while ((index < length) && (ch == chars[index]))
index++;
return (index);
}
Advance the current parsing position while it is pointing at a
non-whitespace character, or until it moves past the end of the string.
Return the final value.
/**
* Advance the current parsing position while it is pointing at a
* non-whitespace character, or until it moves past the end of the string.
* Return the final value.
*/
public int skipText() {
while ((index < length) && !isWhite(chars[index]))
index++;
return (index);
}
Advance the current parsing position while it is pointing at a
whitespace character, or until it moves past the end of the string.
Return the final value.
/**
* Advance the current parsing position while it is pointing at a
* whitespace character, or until it moves past the end of the string.
* Return the final value.
*/
public int skipWhite() {
while ((index < length) && isWhite(chars[index]))
index++;
return (index);
}
// ------------------------------------------------------ Protected Methods
Is the specified character considered to be whitespace?
Params: - ch – Character to be checked
/**
* Is the specified character considered to be whitespace?
*
* @param ch Character to be checked
*/
protected boolean isWhite(char ch) {
if ((ch == ' ') || (ch == '\t') || (ch == '\r') || (ch == '\n'))
return (true);
else
return (false);
}
}