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Vaadin is a web application framework for Rich Internet Applications (RIA).
Vaadin enables easy development and maintenance of fast and
secure rich web
applications with a stunning look and feel and a wide browser support.
It features a server-side architecture with the majority of the logic
running
on the server. Ajax technology is used at the browser-side to ensure a
rich
and interactive user experience.
/*
******************************************************************************
* Copyright (C) 2003-2011, International Business Machines Corporation and *
* others. All Rights Reserved. *
******************************************************************************
*/
package com.ibm.icu.impl;
import java.util.Collections;
import java.util.Comparator;
import java.util.Iterator;
import java.util.Map;
import java.util.TreeMap;
import com.ibm.icu.impl.locale.AsciiUtil;
/**
* Utility class to parse and normalize locale ids (including POSIX style)
*/
public final class LocaleIDParser {
/**
* Char array representing the locale ID.
*/
private char[] id;
/**
* Current position in {@link #id} (while parsing).
*/
private int index;
/**
* Temporary buffer for parsed sections of data.
*/
private StringBuilder buffer;
// um, don't handle POSIX ids unless we request it. why not? well... because.
private boolean canonicalize;
private boolean hadCountry;
// used when canonicalizing
Map keywords;
String baseName;
/**
* Parsing constants.
*/
private static final char KEYWORD_SEPARATOR = '@';
private static final char HYPHEN = '-';
private static final char KEYWORD_ASSIGN = '=';
private static final char COMMA = ',';
private static final char ITEM_SEPARATOR = ';';
private static final char DOT = '.';
private static final char UNDERSCORE = '_';
public LocaleIDParser(String localeID) {
this(localeID, false);
}
public LocaleIDParser(String localeID, boolean canonicalize) {
id = localeID.toCharArray();
index = 0;
buffer = new StringBuilder(id.length + 5);
this.canonicalize = canonicalize;
}
private void reset() {
index = 0;
buffer = new StringBuilder(id.length + 5);
}
// utilities for working on text in the buffer
/**
* Append c to the buffer.
*/
private void append(char c) {
buffer.append(c);
}
private void addSeparator() {
append(UNDERSCORE);
}
/**
* Returns the text in the buffer from start to blen as a String.
*/
private String getString(int start) {
return buffer.substring(start);
}
/**
* Set the length of the buffer to pos, then append the string.
*/
private void set(int pos, String s) {
buffer.delete(pos, buffer.length());
buffer.insert(pos, s);
}
/**
* Append the string to the buffer.
*/
private void append(String s) {
buffer.append(s);
}
// utilities for parsing text out of the id
/**
* Character to indicate no more text is available in the id.
*/
private static final char DONE = '\uffff';
/**
* Returns the character at index in the id, and advance index. The returned character
* is DONE if index was at the limit of the buffer. The index is advanced regardless
* so that decrementing the index will always 'unget' the last character returned.
*/
private char next() {
if (index == id.length) {
index++;
return DONE;
}
return id[index++];
}
/**
* Advance index until the next terminator or id separator, and leave it there.
*/
private void skipUntilTerminatorOrIDSeparator() {
while (!isTerminatorOrIDSeparator(next()));
--index;
}
/**
* Returns true if the character at index in the id is a terminator.
*/
private boolean atTerminator() {
return index >= id.length || isTerminator(id[index]);
}
/**
* Returns true if the character is a terminator (keyword separator, dot, or DONE).
* Dot is a terminator because of the POSIX form, where dot precedes the codepage.
*/
private boolean isTerminator(char c) {
// always terminate at DOT, even if not handling POSIX. It's an error...
return c == KEYWORD_SEPARATOR || c == DONE || c == DOT;
}
/**
* Returns true if the character is a terminator or id separator.
*/
private boolean isTerminatorOrIDSeparator(char c) {
return c == UNDERSCORE || c == HYPHEN || isTerminator(c);
}
/**
* Returns true if the start of the buffer has an experimental or private language
* prefix, the pattern '[ixIX][-_].' shows the syntax checked.
*/
private boolean haveExperimentalLanguagePrefix() {
if (id.length > 2) {
char c = id[1];
if (c == HYPHEN || c == UNDERSCORE) {
c = id[0];
return c == 'x' || c == 'X' || c == 'i' || c == 'I';
}
}
return false;
}
/**
* Returns true if a value separator occurs at or after index.
*/
private boolean haveKeywordAssign() {
// assume it is safe to start from index
for (int i = index; i < id.length; ++i) {
if (id[i] == KEYWORD_ASSIGN) {
return true;
}
}
return false;
}
/**
* Advance index past language, and accumulate normalized language code in buffer.
* Index must be at 0 when this is called. Index is left at a terminator or id
* separator. Returns the start of the language code in the buffer.
*/
private int parseLanguage() {
int startLength = buffer.length();
if (haveExperimentalLanguagePrefix()) {
append(AsciiUtil.toLower(id[0]));
append(HYPHEN);
index = 2;
}
char c;
while(!isTerminatorOrIDSeparator(c = next())) {
append(AsciiUtil.toLower(c));
}
--index; // unget
if (buffer.length() - startLength == 3) {
String lang = LocaleIDs.threeToTwoLetterLanguage(getString(0));
if (lang != null) {
set(0, lang);
}
}
return 0;
}
/**
* Advance index past language. Index must be at 0 when this is called. Index
* is left at a terminator or id separator.
*/
private void skipLanguage() {
if (haveExperimentalLanguagePrefix()) {
index = 2;
}
skipUntilTerminatorOrIDSeparator();
}
/**
* Advance index past script, and accumulate normalized script in buffer.
* Index must be immediately after the language.
* If the item at this position is not a script (is not four characters
* long) leave index and buffer unchanged. Otherwise index is left at
* a terminator or id separator. Returns the start of the script code
* in the buffer (this may be equal to the buffer length, if there is no
* script).
*/
private int parseScript() {
if (!atTerminator()) {
int oldIndex = index; // save original index
++index;
int oldBlen = buffer.length(); // get before append hyphen, if we truncate everything is undone
char c;
boolean firstPass = true;
while(!isTerminatorOrIDSeparator(c = next()) && AsciiUtil.isAlpha(c)) {
if (firstPass) {
addSeparator();
append(AsciiUtil.toUpper(c));
firstPass = false;
} else {
append(AsciiUtil.toLower(c));
}
}
--index; // unget
/* If it's not exactly 4 characters long, then it's not a script. */
if (index - oldIndex != 5) { // +1 to account for separator
index = oldIndex;
buffer.delete(oldBlen, buffer.length());
} else {
oldBlen++; // index past hyphen, for clients who want to extract just the script
}
return oldBlen;
}
return buffer.length();
}
/**
* Advance index past script.
* Index must be immediately after the language and IDSeparator.
* If the item at this position is not a script (is not four characters
* long) leave index. Otherwise index is left at a terminator or
* id separator.
*/
private void skipScript() {
if (!atTerminator()) {
int oldIndex = index;
++index;
char c;
while (!isTerminatorOrIDSeparator(c = next()) && AsciiUtil.isAlpha(c));
--index;
if (index - oldIndex != 5) { // +1 to account for separator
index = oldIndex;
}
}
}
/**
* Advance index past country, and accumulate normalized country in buffer.
* Index must be immediately after the script (if there is one, else language)
* and IDSeparator. Return the start of the country code in the buffer.
*/
private int parseCountry() {
if (!atTerminator()) {
int oldIndex = index;
++index;
int oldBlen = buffer.length();
char c;
boolean firstPass = true;
while (!isTerminatorOrIDSeparator(c = next())) {
if (firstPass) { // first, add hyphen
hadCountry = true; // we have a country, let variant parsing know
addSeparator();
++oldBlen; // increment past hyphen
firstPass = false;
}
append(AsciiUtil.toUpper(c));
}
--index; // unget
int charsAppended = buffer.length() - oldBlen;
if (charsAppended == 0) {
// Do nothing.
}
else if (charsAppended < 2 || charsAppended > 3) {
// It's not a country, so return index and blen to
// their previous values.
index = oldIndex;
--oldBlen;
buffer.delete(oldBlen, buffer.length());
hadCountry = false;
}
else if (charsAppended == 3) {
String region = LocaleIDs.threeToTwoLetterRegion(getString(oldBlen));
if (region != null) {
set(oldBlen, region);
}
}
return oldBlen;
}
return buffer.length();
}
/**
* Advance index past country.
* Index must be immediately after the script (if there is one, else language)
* and IDSeparator.
*/
private void skipCountry() {
if (!atTerminator()) {
if (id[index] == UNDERSCORE || id[index] == HYPHEN) {
++index;
}
/*
* Save the index point after the separator, since the format
* requires two separators if the country is not present.
*/
int oldIndex = index;
skipUntilTerminatorOrIDSeparator();
int charsSkipped = index - oldIndex;
if (charsSkipped < 2 || charsSkipped > 3) {
index = oldIndex;
}
}
}
/**
* Advance index past variant, and accumulate normalized variant in buffer. This ignores
* the codepage information from POSIX ids. Index must be immediately after the country
* or script. Index is left at the keyword separator or at the end of the text. Return
* the start of the variant code in the buffer.
*
* In standard form, we can have the following forms:
* ll__VVVV
* ll_CC_VVVV
* ll_Ssss_VVVV
* ll_Ssss_CC_VVVV
*
* This also handles POSIX ids, which can have the following forms (pppp is code page id):
* ll_CC.pppp --> ll_CC
* ll_CC.pppp@VVVV --> ll_CC_VVVV
* ll_CC@VVVV --> ll_CC_VVVV
*
* We identify this use of '@' in POSIX ids by looking for an '=' following
* the '@'. If there is one, we consider '@' to start a keyword list, instead of
* being part of a POSIX id.
*
* Note: since it was decided that we want an option to not handle POSIX ids, this
* becomes a bit more complex.
*/
private int parseVariant() {
int oldBlen = buffer.length();
boolean start = true;
boolean needSeparator = true;
boolean skipping = false;
char c;
boolean firstPass = true;
while ((c = next()) != DONE) {
if (c == DOT) {
start = false;
skipping = true;
} else if (c == KEYWORD_SEPARATOR) {
if (haveKeywordAssign()) {
break;
}
skipping = false;
start = false;
needSeparator = true; // add another underscore if we have more text
} else if (start) {
start = false;
if (c != UNDERSCORE && c != HYPHEN) {
index--;
}
} else if (!skipping) {
if (needSeparator) {
needSeparator = false;
if (firstPass && !hadCountry) { // no country, we'll need two
addSeparator();
++oldBlen; // for sure
}
addSeparator();
if (firstPass) { // only for the first separator
++oldBlen;
firstPass = false;
}
}
c = AsciiUtil.toUpper(c);
if (c == HYPHEN || c == COMMA) {
c = UNDERSCORE;
}
append(c);
}
}
--index; // unget
return oldBlen;
}
// no need for skipvariant, to get the keywords we'll just scan directly for
// the keyword separator
/**
* Returns the normalized language id, or the empty string.
*/
public String getLanguage() {
reset();
return getString(parseLanguage());
}
/**
* Returns the normalized script id, or the empty string.
*/
public String getScript() {
reset();
skipLanguage();
return getString(parseScript());
}
/**
* return the normalized country id, or the empty string.
*/
public String getCountry() {
reset();
skipLanguage();
skipScript();
return getString(parseCountry());
}
/**
* Returns the normalized variant id, or the empty string.
*/
public String getVariant() {
reset();
skipLanguage();
skipScript();
skipCountry();
return getString(parseVariant());
}
/**
* Returns the language, script, country, and variant as separate strings.
*/
public String[] getLanguageScriptCountryVariant() {
reset();
return new String[] {
getString(parseLanguage()),
getString(parseScript()),
getString(parseCountry()),
getString(parseVariant())
};
}
public void setBaseName(String baseName) {
this.baseName = baseName;
}
public void parseBaseName() {
if (baseName != null) {
set(0, baseName);
} else {
reset();
parseLanguage();
parseScript();
parseCountry();
parseVariant();
// catch unwanted trailing underscore after country if there was no variant
int len = buffer.length();
if (len > 0 && buffer.charAt(len - 1) == UNDERSCORE) {
buffer.deleteCharAt(len - 1);
}
}
}
/**
* Returns the normalized base form of the locale id. The base
* form does not include keywords.
*/
public String getBaseName() {
if (baseName != null) {
return baseName;
}
parseBaseName();
return getString(0);
}
/**
* Returns the normalized full form of the locale id. The full
* form includes keywords if they are present.
*/
public String getName() {
parseBaseName();
parseKeywords();
return getString(0);
}
// keyword utilities
/**
* If we have keywords, advance index to the start of the keywords and return true,
* otherwise return false.
*/
private boolean setToKeywordStart() {
for (int i = index; i < id.length; ++i) {
if (id[i] == KEYWORD_SEPARATOR) {
if (canonicalize) {
for (int j = ++i; j < id.length; ++j) { // increment i past separator for return
if (id[j] == KEYWORD_ASSIGN) {
index = i;
return true;
}
}
} else {
if (++i < id.length) {
index = i;
return true;
}
}
break;
}
}
return false;
}
private static boolean isDoneOrKeywordAssign(char c) {
return c == DONE || c == KEYWORD_ASSIGN;
}
private static boolean isDoneOrItemSeparator(char c) {
return c == DONE || c == ITEM_SEPARATOR;
}
private String getKeyword() {
int start = index;
while (!isDoneOrKeywordAssign(next())) {
}
--index;
return AsciiUtil.toLowerString(new String(id, start, index-start).trim());
}
private String getValue() {
int start = index;
while (!isDoneOrItemSeparator(next())) {
}
--index;
return new String(id, start, index-start).trim(); // leave case alone
}
private Comparator getKeyComparator() {
final Comparator comp = new Comparator() {
public int compare(String lhs, String rhs) {
return lhs.compareTo(rhs);
}
};
return comp;
}
/**
* Returns a map of the keywords and values, or null if there are none.
*/
public Map getKeywordMap() {
if (keywords == null) {
TreeMap m = null;
if (setToKeywordStart()) {
// trim spaces and convert to lower case, both keywords and values.
do {
String key = getKeyword();
if (key.length() == 0) {
break;
}
char c = next();
if (c != KEYWORD_ASSIGN) {
// throw new IllegalArgumentException("key '" + key + "' missing a value.");
if (c == DONE) {
break;
} else {
continue;
}
}
String value = getValue();
if (value.length() == 0) {
// throw new IllegalArgumentException("key '" + key + "' missing a value.");
continue;
}
if (m == null) {
m = new TreeMap(getKeyComparator());
} else if (m.containsKey(key)) {
// throw new IllegalArgumentException("key '" + key + "' already has a value.");
continue;
}
m.put(key, value);
} while (next() == ITEM_SEPARATOR);
}
keywords = m != null ? m : Collections.emptyMap();
}
return keywords;
}
/**
* Parse the keywords and return start of the string in the buffer.
*/
private int parseKeywords() {
int oldBlen = buffer.length();
Map m = getKeywordMap();
if (!m.isEmpty()) {
boolean first = true;
for (Map.Entry e : m.entrySet()) {
append(first ? KEYWORD_SEPARATOR : ITEM_SEPARATOR);
first = false;
append(e.getKey());
append(KEYWORD_ASSIGN);
append(e.getValue());
}
if (first == false) {
++oldBlen;
}
}
return oldBlen;
}
/**
* Returns an iterator over the keywords, or null if we have an empty map.
*/
public Iterator getKeywords() {
Map m = getKeywordMap();
return m.isEmpty() ? null : m.keySet().iterator();
}
/**
* Returns the value for the named keyword, or null if the keyword is not
* present.
*/
public String getKeywordValue(String keywordName) {
Map m = getKeywordMap();
return m.isEmpty() ? null : m.get(AsciiUtil.toLowerString(keywordName.trim()));
}
/**
* Set the keyword value only if it is not already set to something else.
*/
public void defaultKeywordValue(String keywordName, String value) {
setKeywordValue(keywordName, value, false);
}
/**
* Set the value for the named keyword, or unset it if value is null. If
* keywordName itself is null, unset all keywords. If keywordName is not null,
* value must not be null.
*/
public void setKeywordValue(String keywordName, String value) {
setKeywordValue(keywordName, value, true);
}
/**
* Set the value for the named keyword, or unset it if value is null. If
* keywordName itself is null, unset all keywords. If keywordName is not null,
* value must not be null. If reset is true, ignore any previous value for
* the keyword, otherwise do not change the keyword (including removal of
* one or all keywords).
*/
private void setKeywordValue(String keywordName, String value, boolean reset) {
if (keywordName == null) {
if (reset) {
// force new map, ignore value
keywords = Collections.emptyMap();
}
} else {
keywordName = AsciiUtil.toLowerString(keywordName.trim());
if (keywordName.length() == 0) {
throw new IllegalArgumentException("keyword must not be empty");
}
if (value != null) {
value = value.trim();
if (value.length() == 0) {
throw new IllegalArgumentException("value must not be empty");
}
}
Map m = getKeywordMap();
if (m.isEmpty()) { // it is EMPTY_MAP
if (value != null) {
// force new map
keywords = new TreeMap(getKeyComparator());
keywords.put(keywordName, value.trim());
}
} else {
if (reset || !m.containsKey(keywordName)) {
if (value != null) {
m.put(keywordName, value);
} else {
m.remove(keywordName);
if (m.isEmpty()) {
// force new map
keywords = Collections.emptyMap();
}
}
}
}
}
}
}