Gets a "yyyy MMM dd, HH:mm:ss.SSS" representation of a Date
/*
* Copyright (C) 2005 Luca Veltri - University of Parma - Italy
*
* This file is part of MjSip (http://www.mjsip.org)
*
* MjSip is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* MjSip is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with MjSip; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*
* Author(s):
* Luca Veltri (luca.veltri@unipr.it)
*/
//package org.zoolu.tools;
import java.util.Calendar;
import java.util.Date;
import java.util.Vector;
/**
* Class DateFormat replaces the format method of java.text.DateFormat.
*/
public class DateFormat {
/** Months */
private static final String[] MONTHS = { "Jan", "Feb", "Mar", "Apr", "May",
"Jun", "Jul", "Aug", "Sep", "Oct", "Nov", "Dec" };
/** Days of the week */
private static final String[] WEEKDAYS = { "Sun", "Mon", "Tue", "Wed",
"Thu", "Fri", "Sat" };
/** Gets a "HH:mm:ss.SSS EEE dd MMM yyyy" representation of a Date */
public static String formatHHMMSS(Date date) { // DateFormat df=new
// SimpleDateFormat("HH:mm:ss.SSS
// EEE dd MMM
// yyyy",Locale.US);
// return df.format(date);
/*
* String str=date.toString(); // dow mon dd hh:mm:ss zzz yyyy int
* len=str.length(); String weekday=str.substring(0,3); String
* month=str.substring(4,7); String day=str.substring(8,10); String
* time=str.substring(11,19); String
* millisec=Integer.toString((int)(date.getTime()%1000)); if
* (millisec.length()==1) millisec="00"+millisec; else if
* (millisec.length()==2) millisec="0"+millisec; String
* year=str.substring(len-4,len);
*
* return time+"."+millisec+" "+weekday+" "+day+" "+month+" "+year;
*/
Calendar cal = Calendar.getInstance();
cal.setTime(date);
String weekday = WEEKDAYS[cal.get(Calendar.DAY_OF_WEEK) - 1];
String month = MONTHS[cal.get(Calendar.MONTH)];
String year = Integer.toString(cal.get(Calendar.YEAR));
String day = Integer.toString(cal.get(Calendar.DAY_OF_MONTH));
String hour = Integer.toString(cal.get(Calendar.HOUR_OF_DAY));
String min = Integer.toString(cal.get(Calendar.MINUTE));
String sec = Integer.toString(cal.get(Calendar.SECOND));
String millisec = Integer.toString(cal.get(Calendar.MILLISECOND));
if (day.length() == 1)
day = "0" + day;
if (hour.length() == 1)
hour = "0" + hour;
if (min.length() == 1)
min = "0" + min;
if (sec.length() == 1)
sec = "0" + sec;
if (millisec.length() == 1)
millisec = "00" + millisec;
else if (millisec.length() == 2)
millisec = "0" + millisec;
return hour + ":" + min + ":" + sec + "." + millisec + " " + weekday
+ " " + day + " " + month + " " + year;
}
/** Gets a "yyyy MMM dd, HH:mm:ss.SSS" representation of a Date */
public static String formatYYYYMMDD(Date date) {
Calendar cal = Calendar.getInstance();
cal.setTime(date);
// String month=MONTHS[cal.get(Calendar.MONTH)];
String year = Integer.toString(cal.get(Calendar.YEAR));
String day = Integer.toString(cal.get(Calendar.DAY_OF_MONTH));
String hour = Integer.toString(cal.get(Calendar.HOUR_OF_DAY));
String min = Integer.toString(cal.get(Calendar.MINUTE));
String sec = Integer.toString(cal.get(Calendar.SECOND));
String millisec = Integer.toString(cal.get(Calendar.MILLISECOND));
if (day.length() == 1)
day = "0" + day;
if (hour.length() == 1)
hour = "0" + hour;
if (min.length() == 1)
min = "0" + min;
if (sec.length() == 1)
sec = "0" + sec;
if (millisec.length() == 1)
millisec = "00" + millisec;
else if (millisec.length() == 2)
millisec = "0" + millisec;
String month = Integer.toString(cal.get(Calendar.MONTH) + 1);
if (month.length() == 1)
month = "0" + month;
return year + "-" + month + "-" + day + " " + hour + ":" + min + ":"
+ sec + "." + millisec;
}
/** Gets a "EEE, dd MMM yyyy hh:mm:ss 'GMT'" representation of a Date */
public static String formatEEEddMMM(Date date) { // DateFormat df=new
// SimpleDateFormat("EEE,
// dd MMM yyyy hh:mm:ss
// 'GMT'",Locale.US);
// return df.format(date);
/*
* String str=date.toString(); // dow mon dd hh:mm:ss zzz yyyy int
* len=str.length(); String weekday=str.substring(0,3); String
* month=str.substring(4,7); String day=str.substring(8,10); String
* time=str.substring(11,19); String year=str.substring(len-4,len);
* return weekday+", "+day+" "+month+" "+year+" "+time+" GMT";
*/
Calendar cal = Calendar.getInstance();
cal.setTime(date);
String weekday = WEEKDAYS[cal.get(Calendar.DAY_OF_WEEK) - 1];
String month = MONTHS[cal.get(Calendar.MONTH)];
String year = Integer.toString(cal.get(Calendar.YEAR));
String day = Integer.toString(cal.get(Calendar.DAY_OF_MONTH));
String hour = Integer.toString(cal.get(Calendar.HOUR_OF_DAY));
String min = Integer.toString(cal.get(Calendar.MINUTE));
String sec = Integer.toString(cal.get(Calendar.SECOND));
if (day.length() == 1)
day = "0" + day;
if (hour.length() == 1)
hour = "0" + hour;
if (min.length() == 1)
min = "0" + min;
if (sec.length() == 1)
sec = "0" + sec;
return weekday + ", " + day + " " + month + " " + year + " " + hour
+ ":" + min + ":" + sec + " GMT";
}
/** Parses a String for a "EEE, dd MMM yyyy hh:mm:ss 'GMT'" formatted Date */
public static Date parseEEEddMMM(String str, int index) { // DateFormat
// df=new
// SimpleDateFormat("EEE,
// dd MMM yyyy
// hh:mm:ss
// 'GMT'",Locale.US);
// return df.format(date);
Calendar cal = Calendar.getInstance();
char[] delim = { ' ', ',', ':' };
Parser par = new Parser(str, index);
int day = par.getInt(); // day of the month
String MMM = par.getString(); // month
int month = 0;
for (; month < 12; month++)
if (MMM.equalsIgnoreCase(MONTHS[month]))
break;
if (month == 12)
return null; // ERROR..
// else
int year = par.getInt();
int hour = Integer.parseInt(par.getWord(delim));
int min = Integer.parseInt(par.getWord(delim));
int sec = Integer.parseInt(par.getWord(delim));
cal.set(Calendar.YEAR, year);
cal.set(Calendar.MONTH, month);
cal.set(Calendar.DAY_OF_MONTH, day);
cal.set(Calendar.HOUR_OF_DAY, hour);
cal.set(Calendar.MINUTE, min);
cal.set(Calendar.SECOND, sec);
return cal.getTime();
}
}
/**
* Class Parser allows the parsing of String objects. <BR>
* An object Parser is costructed from a String object and provides various
* methods for parsing the String in a stream oriented manner. The class Parser
* also collects different <b>static</b> methods for parsing non-pre-associated
* strings.<BR>
* Parser uses the following definitions:
*
* <PRE>
* <BR>
* <i>string</i> = any string of chars included between ' ' and '˜'
* <BR>
* <i>word</i> = any string of chars without separators
* <BR>
* <i>separators</i> = a vector of chars; e.g. ( ) < > @ , ; : \ " / | [ ] ? = { } HT SP
* <BR>
* <i>alpha</i> = a-z, A-Z
* <BR>
* <i>digit</i> = 0-9
* <BR>
* <i>integer</i> = any <i>digit word</i> parsed by {@link java.lang.Integer Integer.parseInt(String)}
* </PRE>
*/
class Parser {
/** The string that is being parsed. */
protected String str;
/** The the current pointer to the next char within the string. */
protected int index;
/**
* Creates the Parser from the String <i>s</i> and point to the beginning of
* the string.
*/
public Parser(String s) {
if (s == null)
throw (new RuntimeException(
"Tried to costruct a new Parser with a null String"));
str = s;
index = 0;
}
/**
* Creates the Parser from the String <i>s</i> and point to the position
* <i>i</i>.
*/
public Parser(String s, int i) {
if (s == null)
throw (new RuntimeException(
"Tried to costruct a new Parser with a null String"));
str = s;
index = i;
}
/**
* Creates the Parser from the StringBuffer <i>sb</i> and point to the
* beginning of the string.
*/
public Parser(StringBuffer sb) {
if (sb == null)
throw (new RuntimeException(
"Tried to costruct a new Parser with a null StringBuffer"));
str = sb.toString();
index = 0;
}
/**
* Creates the Parser from the StringBuffer <i>sb</i> and point to the
* position <i>i</i>.
*/
public Parser(StringBuffer sb, int i) {
if (sb == null)
throw (new RuntimeException(
"Tried to costruct a new Parser with a null StringBuffer"));
str = sb.toString();
index = i;
}
/** Gets the current index position. */
public int getPos() {
return index;
}
/** Gets the entire string */
public String getWholeString() {
return str;
}
/** Gets the rest of the (unparsed) string. */
public String getRemainingString() {
return str.substring(index);
}
/**
* Returns a new the Parser of <i>len</i> chars statirng from the current
* position.
*/
public Parser subParser(int len) {
return new Parser(str.substring(index, index + len));
}
/** Length of unparsed string. */
public int length() {
return (str.length() - index);
}
/** Whether there are more chars to parse. */
public boolean hasMore() {
return length() > 0;
}
/** Gets the next char and go over */
public char getChar() {
return str.charAt(index++);
}
/** Gets the char at distance <i>n</i> WITHOUT going over */
public char charAt(int n) {
return str.charAt(index + n);
}
/** Gets the next char WITHOUT going over */
public char nextChar() {
return charAt(0);
}
/** Goes to position <i>i</i> */
public Parser setPos(int i) {
index = i;
return this;
}
/** Goes to the next occurence of <i>char c</i> */
public Parser goTo(char c) {
index = str.indexOf(c, index);
if (index < 0)
index = str.length();
return this;
}
/** Goes to the next occurence of any char of array <i>cc</i> */
public Parser goTo(char[] cc) {
index = indexOf(cc);
if (index < 0)
index = str.length();
return this;
}
/** Goes to the next occurence of <i>String s</i> */
public Parser goTo(String s) {
index = str.indexOf(s, index);
if (index < 0)
index = str.length();
return this;
}
/** Goes to the next occurence of any string of array <i>ss</i> */
public Parser goTo(String[] ss) {
index = indexOf(ss);
if (index < 0)
index = str.length();
return this;
}
/** Goes to the next occurence of <i>String s</i> */
public Parser goToIgnoreCase(String s) {
index = indexOfIgnoreCase(s);
if (index < 0)
index = str.length();
return this;
}
/** Goes to the next occurence of any string of array <i>ss</i> */
public Parser goToIgnoreCase(String[] ss) {
index = indexOfIgnoreCase(ss);
if (index < 0)
index = str.length();
return this;
}
/** Goes to the begin of the new line */
public Parser goToNextLine() {
while (index < str.length() && !isCRLF(str.charAt(index)))
index++;
// skip the end of the line (i.e. '\r' OR '\n' OR '\r\n')
if (index < str.length()) {
if (str.startsWith("\r\n", index))
index += 2;
else
index++;
}
return this;
}
/** Characters space (SP) and tab (HT). */
public static char[] WSP = { ' ', '\t' };
/** The same as WSP (for legacy) */
public static char[] SPACE = WSP;
/** Characters CR and LF. */
public static char[] CRLF = { '\r', '\n' };
/** Characters white-space, tab, CR, and LF. */
public static char[] WSPCRLF = { ' ', '\t', '\r', '\n' };
/** True if char <i>ch</i> is any char of array <i>ca</i> */
public static boolean isAnyOf(char[] ca, char ch) {
boolean found = false;
for (int i = 0; i < ca.length; i++)
if (ca[i] == ch) {
found = true;
break;
}
return found;
}
/** Up alpha */
public static boolean isUpAlpha(char c) {
return (c >= 'A' && c <= 'Z');
}
/** Low alpha */
public static boolean isLowAlpha(char c) {
return (c >= 'a' && c <= 'z');
}
/** Alpha */
public static boolean isAlpha(char c) {
return (isUpAlpha(c) || isLowAlpha(c));
}
/** Alphanum */
public static boolean isAlphanum(char c) {
return (isAlpha(c) || isDigit(c));
}
/** Digit */
public static boolean isDigit(char c) {
return (c >= '0' && c <= '9');
}
/** Valid ASCII char */
public static boolean isChar(char c) {
return (c > ' ' && c <= '~');
}
/** CR */
public static boolean isCR(char c) {
return (c == '\r');
}
/** LF */
public static boolean isLF(char c) {
return (c == '\n');
}
/** CR or LF */
public static boolean isCRLF(char c) {
return isAnyOf(CRLF, c);
}
/** HT */
public static boolean isHT(char c) {
return (c == '\t');
}
/** SP */
public static boolean isSP(char c) {
return (c == ' ');
}
/** SP or tab */
public static boolean isWSP(char c) {
return isAnyOf(WSP, c);
}
/** SP, tab, CR, or LF */
public static boolean isWSPCRLF(char c) {
return isAnyOf(WSPCRLF, c);
}
/** Compares two chars ignoring case */
public static int compareIgnoreCase(char c1, char c2) {
if (isUpAlpha(c1))
c1 += 32;
if (isUpAlpha(c2))
c2 += 32;
return c1 - c2;
}
/*
* private boolean isUpAlpha(int i) { return isUpAlpha(str.charAt(i)); }
* private boolean isLowAlpha(int i) { return isLowAlpha(str.charAt(i)); }
* private boolean isAlpha(int i) { return isAlpha(str.charAt(i)); } private
* boolean isDigit(int i) { return isDigit(str.charAt(i)); } private boolean
* isChar(int i) { return isChar(str.charAt(i)); } private boolean isCR(int
* i) { return isCR(str.charAt(i)); } private boolean isLF(int i) { return
* isLF(str.charAt(i)); } private boolean isHT(int i) { return
* isHT(str.charAt(i)); } private boolean isSP(int i) { return
* isSP(str.charAt(i)); } private boolean isCRLF(int i) { return
* (isCR(str.charAt(i)) && isLF(str.charAt(i+1))); } private boolean
* isSeparator(int i) { return isSeparator(str.charAt(i)); }
*/
// ************************ Indexes ************************
/** Gets the index of the first occurence of char <i>c</i> */
public int indexOf(char c) {
return str.indexOf(c, index);
}
/**
* Gets the index of the first occurence of any char of array <i>cc</i>
* within string <i>str</i> starting form <i>begin</i>; return -1 if no
* occurence is found
*/
public int indexOf(char[] cc) {
boolean found = false;
int begin = index;
while (begin < str.length() && !found) {
for (int i = 0; i < cc.length; i++)
if (str.charAt(begin) == cc[i]) {
found = true;
break;
}
begin++;
}
return (found) ? (begin - 1) : -1;
}
/** Gets the index of the first occurence of String <i>s</i> */
public int indexOf(String s) {
return str.indexOf(s, index);
}
/**
* Gets the index of the first occurence of any string of array <i>ss</i>
* within string <i>str</i>; return -1 if no occurence is found.
*/
public int indexOf(String[] ss) {
boolean found = false;
int begin = index;
while (begin < str.length() && !found) {
for (int i = 0; i < ss.length; i++)
if (str.startsWith(ss[i], begin)) {
found = true;
break;
}
begin++;
}
return (found) ? (begin - 1) : -1;
}
/** Gets the index of the first occurence of String <i>s</i> ignoring case. */
public int indexOfIgnoreCase(String s) {
Parser par = new Parser(str, index);
while (par.hasMore()) {
if (par.startsWithIgnoreCase(s))
return par.getPos();
else
par.skipChar();
}
return -1;
}
/**
* Gets the index of the first occurence of any string of array <i>ss</i>
* ignoring case.
*/
public int indexOfIgnoreCase(String[] ss) {
Parser par = new Parser(str, index);
while (par.hasMore()) {
if (par.startsWithIgnoreCase(ss))
return par.getPos();
else
par.skipChar();
}
return -1;
}
/** Gets the begin of next line */
public int indexOfNextLine() {
Parser par = new Parser(str, index);
par.goToNextLine();
int i = par.getPos();
return (i < str.length()) ? i : -1;
}
// ********************* Starts with *********************
/** Whether next chars equal to a specific String <i>s</i>. */
public boolean startsWith(String s) {
return str.startsWith(s, index);
}
/** Whether next chars equal to any string of array <i>ss</i>. */
public boolean startsWith(String[] ss) {
for (int i = 0; i < ss.length; i++)
if (str.startsWith(ss[i], index))
return true;
return false;
}
/** Whether next chars equal to a specific String <i>s</i> ignoring case. */
public boolean startsWithIgnoreCase(String s) {
for (int k = 0; k < s.length() && (index + k) < str.length(); k++) {
if (compareIgnoreCase(s.charAt(k), str.charAt(index + k)) != 0)
return false;
}
return true;
}
/** Whether next chars equal to any string of array <i>ss</i> ignoring case. */
public boolean startsWithIgnoreCase(String[] ss) {
for (int i = 0; i < ss.length; i++) {
boolean equal = true;
for (int k = 0; k < ss[i].length() && (index + k) < str.length(); k++) {
if (!(equal = (compareIgnoreCase(ss[i].charAt(k),
str.charAt(index + k)) == 0)))
break;
}
if (equal)
return true;
}
return false;
}
// ************************ Skips ************************
/** Skips one char */
public Parser skipChar() {
if (index < str.length())
index++;
return this;
}
/** Skips N chars */
public Parser skipN(int n) {
index += n;
if (index > str.length())
index = str.length();
return this;
}
/** Skips all spaces */
public Parser skipWSP() {
while (index < str.length() && isSP(str.charAt(index)))
index++;
return this;
}
/** The same as skipWSP() (for legacy) */
/*
* public Parser skipSP() { return skipWSP(); }
*/
/** Skips return lines */
public Parser skipCRLF() {
while (index < str.length() && isCRLF(str.charAt(index)))
index++;
return this;
}
/** Skips white spaces or return lines */
public Parser skipWSPCRLF() {
while (index < str.length() && isWSPCRLF(str.charAt(index)))
index++;
return this;
}
/** Skips any selected chars */
public Parser skipChars(char[] cc) {
while (index < str.length() && isAnyOf(cc, nextChar()))
index++;
return this;
}
/** Skips a continuous string of char and go to the next "blank" char */
public Parser skipString() {
getString();
return this;
}
// ************************ Gets ************************
/** Gets a continuous string of char and go to the next char */
public String getString() {
int begin = index;
while (begin < str.length() && !isChar(str.charAt(begin)))
begin++;
int end = begin;
while (end < str.length() && isChar(str.charAt(end)))
end++;
index = end;
return str.substring(begin, end);
}
/** Gets a string of length <i>len</i> and move over. */
public String getString(int len) {
int start = index;
index = start + len;
return str.substring(start, index);
}
/** Gets a string of chars separated by any of chars of <i>separators</i> */
public String getWord(char[] separators) {
int begin = index;
while (begin < str.length() && isAnyOf(separators, str.charAt(begin)))
begin++;
int end = begin;
while (end < str.length() && !isAnyOf(separators, str.charAt(end)))
end++;
index = end;
return str.substring(begin, end);
}
/** Gets an integer and point to the next char */
public int getInt() {
return Integer.parseInt(this.getString());
}
/** Gets a double and point to the next char */
public double getDouble() {
return Double.parseDouble(this.getString());
}
/**
* Gets all chars until the end of the line (or the end of the parser) and
* go to the next line.
*/
public String getLine() {
int end = index;
while (end < str.length() && !isCRLF(str.charAt(end)))
end++;
String line = str.substring(index, end);
index = end;
// skip the end of the line (i.e. '\r' OR '\n' OR '\r\n')
if (index < str.length()) {
if (str.startsWith("\r\n", index))
index += 2;
else
index++;
}
return line;
}
// ********************** Vectors/arrays **********************
/**
* Gets all string of chars separated by any char belonging to
* <i>separators</i>
*/
public Vector<String> getWordVector(char[] separators) {
Vector<String> list = new Vector<String>();
do {
list.addElement(getWord(separators));
} while (hasMore());
return list;
}
/**
* Gets all string of chars separated by any char belonging to
* <i>separators</i>
*/
public String[] getWordArray(char[] separators) {
Vector<String> list = getWordVector(separators);
String[] array = new String[list.size()];
for (int i = 0; i < list.size(); i++)
array[i] = (String) list.elementAt(i);
return array;
}
/** Gets all strings */
public Vector<String> getStringVector() {
Vector<String> list = new Vector<String>();
do {
list.addElement(getString());
} while (hasMore());
return list;
}
/** Gets all string */
public String[] getStringArray() {
Vector<String> list = getStringVector();
String[] array = new String[list.size()];
for (int i = 0; i < list.size(); i++)
array[i] = (String) list.elementAt(i);
return array;
}
// ********************** Quoted Strings **********************
/**
* Gets a string of chars separated by any of chars in <i>separators</i> ,
* skipping any separator inside possible quoted texts.
*/
public String getWordSkippingQuoted(char[] separators) {
int begin = index;
while (begin < str.length() && isAnyOf(separators, str.charAt(begin)))
begin++;
boolean inside_quoted_string = false;
int end = begin;
while (end < str.length()
&& (!isAnyOf(separators, str.charAt(end)) || inside_quoted_string)) {
if (str.charAt(end) == '"')
inside_quoted_string = !inside_quoted_string;
end++;
}
index = end;
return str.substring(begin, end);
}
/**
* Gets the first quatable string, that is a normal string, or text in
* quotes. <br>
* In the latter case, quotes are dropped.
*/
public String getStringUnquoted() { // jump possible "non-chars"
while (index < str.length() && !isChar(str.charAt(index)))
index++;
if (index == str.length())
return str.substring(index, index);
// check whether is a quoted string
int next_qmark;
if (str.charAt(index) == '"'
&& (next_qmark = str.indexOf("\"", index + 1)) > 0) { // is
// quoted
// text
String qtext = str.substring(index + 1, next_qmark);
index = next_qmark + 1;
return qtext;
} else { // is not a quoted text
return getString();
}
}
/** Points to the next occurence of <i>char c</i> not in quotes. */
public Parser goToSkippingQuoted(char c) {
boolean inside_quotes = false;
try {
while (index < str.length()
&& (!(nextChar() == c) || inside_quotes)) {
if (nextChar() == '"')
inside_quotes = !inside_quotes;
index++;
}
} catch (RuntimeException e) {
System.out.println("len= " + str.length());
System.out.println("index= " + index);
throw e;
}
return this;
}
// ************************* toString *************************
/** convert the rest of the unparsed chars into a string */
public String toString() {
return getRemainingString();
}
}
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