panda.lang.time.DurationFormats Maven / Gradle / Ivy
package panda.lang.time;
import java.util.ArrayList;
import java.util.Calendar;
import java.util.Date;
import java.util.GregorianCalendar;
import java.util.TimeZone;
import panda.lang.Strings;
/**
* Duration formatting utilities and constants. The following table describes the tokens
* used in the pattern language for formatting.
*
* character duration element
* y years
* M months
* d days
* H hours
* m minutes
* s seconds
* S milliseconds
*
*
*/
public class DurationFormats {
/**
*
* DurationFormatUtils instances should NOT be constructed in standard programming.
*
*
* This constructor is public to permit tools that require a JavaBean instance to operate.
*
*/
public DurationFormats() {
super();
}
/**
*
* Pattern used with FastDateFormat
and SimpleDateFormat
for the
* ISO8601 period format used in durations.
*
*
* @see java.text.SimpleDateFormat
*/
public static final String ISO_EXTENDED_FORMAT_PATTERN = "'P'yyyy'Y'M'M'd'DT'H'H'm'M's.S'S'";
// -----------------------------------------------------------------------
/**
*
* Formats the time gap as a string.
*
*
* The format used is: HH:mm:ss.SSS.
*
*
* @param durationMillis the duration to format
* @return the formatted duration, not null
*/
public static String formatDurationHMS(final long durationMillis) {
return formatDuration(durationMillis, "HH:mm:ss.SSS");
}
/**
*
* Formats the time gap as a string.
*
*
* The format used is the ISO8601 period format.
*
*
* This method formats durations using the days and lower fields of the ISO format pattern, such
* as P7D6TH5M4.321S.
*
*
* @param durationMillis the duration to format
* @return the formatted duration, not null
*/
public static String formatDurationISO(final long durationMillis) {
return formatDuration(durationMillis, ISO_EXTENDED_FORMAT_PATTERN, false);
}
/**
*
* Formats the time gap as a string, using the specified format, and padding with zeros and
* using the default timezone.
*
*
* This method formats durations using the days and lower fields of the format pattern. Months
* and larger are not used.
*
*
* @param durationMillis the duration to format
* @param format the way in which to format the duration, not null
* @return the formatted duration, not null
*/
public static String formatDuration(final long durationMillis, final String format) {
return formatDuration(durationMillis, format, true);
}
/**
*
* Formats the time gap as a string, using the specified format. Padding the left hand side of
* numbers with zeroes is optional and the timezone may be specified.
*
*
* This method formats durations using the days and lower fields of the format pattern. Months
* and larger are not used.
*
*
* @param durationMillis the duration to format
* @param format the way in which to format the duration, not null
* @param padWithZeros whether to pad the left hand side of numbers with 0's
* @return the formatted duration, not null
*/
public static String formatDuration(long durationMillis, final String format, final boolean padWithZeros) {
final Token[] tokens = lexx(format);
int days = 0;
int hours = 0;
int minutes = 0;
int seconds = 0;
int milliseconds = 0;
if (Token.containsTokenWithValue(tokens, d)) {
days = (int)(durationMillis / DateTimes.MS_DAY);
durationMillis = durationMillis - (days * DateTimes.MS_DAY);
}
if (Token.containsTokenWithValue(tokens, H)) {
hours = (int)(durationMillis / DateTimes.MS_HOUR);
durationMillis = durationMillis - (hours * DateTimes.MS_HOUR);
}
if (Token.containsTokenWithValue(tokens, m)) {
minutes = (int)(durationMillis / DateTimes.MS_MINUTE);
durationMillis = durationMillis - (minutes * DateTimes.MS_MINUTE);
}
if (Token.containsTokenWithValue(tokens, s)) {
seconds = (int)(durationMillis / DateTimes.MS_SECOND);
durationMillis = durationMillis - (seconds * DateTimes.MS_SECOND);
}
if (Token.containsTokenWithValue(tokens, S)) {
milliseconds = (int)durationMillis;
}
return format(tokens, 0, 0, days, hours, minutes, seconds, milliseconds, padWithZeros);
}
/**
*
* Formats an elapsed time into a plurialization correct string.
*
*
* This method formats durations using the days and lower fields of the format pattern. Months
* and larger are not used.
*
*
* @param durationMillis the elapsed time to report in milliseconds
* @param suppressLeadingZeroElements suppresses leading 0 elements
* @param suppressTrailingZeroElements suppresses trailing 0 elements
* @return the formatted text in days/hours/minutes/seconds, not null
*/
public static String formatDurationWords(final long durationMillis, final boolean suppressLeadingZeroElements,
final boolean suppressTrailingZeroElements) {
// This method is generally replacable by the format method, but
// there are a series of tweaks and special cases that require
// trickery to replicate.
String duration = formatDuration(durationMillis,
"d' days 'H' hours 'm' minutes 's' seconds'");
if (suppressLeadingZeroElements) {
// this is a temporary marker on the front. Like ^ in regexp.
duration = " " + duration;
String tmp = Strings.replaceOnce(duration, " 0 days", "");
if (tmp.length() != duration.length()) {
duration = tmp;
tmp = Strings.replaceOnce(duration, " 0 hours", "");
if (tmp.length() != duration.length()) {
duration = tmp;
tmp = Strings.replaceOnce(duration, " 0 minutes", "");
duration = tmp;
if (tmp.length() != duration.length()) {
duration = Strings.replaceOnce(tmp, " 0 seconds", "");
}
}
}
if (duration.length() != 0) {
// strip the space off again
duration = duration.substring(1);
}
}
if (suppressTrailingZeroElements) {
String tmp = Strings.replaceOnce(duration, " 0 seconds", "");
if (tmp.length() != duration.length()) {
duration = tmp;
tmp = Strings.replaceOnce(duration, " 0 minutes", "");
if (tmp.length() != duration.length()) {
duration = tmp;
tmp = Strings.replaceOnce(duration, " 0 hours", "");
if (tmp.length() != duration.length()) {
duration = Strings.replaceOnce(tmp, " 0 days", "");
}
}
}
}
// handle plurals
duration = " " + duration;
duration = Strings.replaceOnce(duration, " 1 seconds", " 1 second");
duration = Strings.replaceOnce(duration, " 1 minutes", " 1 minute");
duration = Strings.replaceOnce(duration, " 1 hours", " 1 hour");
duration = Strings.replaceOnce(duration, " 1 days", " 1 day");
return duration.trim();
}
// -----------------------------------------------------------------------
/**
*
* Formats the time gap as a string.
*
*
* The format used is the ISO8601 period format.
*
*
* @param startMillis the start of the duration to format
* @param endMillis the end of the duration to format
* @return the formatted duration, not null
*/
public static String formatPeriodISO(final long startMillis, final long endMillis) {
return formatPeriod(startMillis, endMillis, ISO_EXTENDED_FORMAT_PATTERN, false,
TimeZone.getDefault());
}
/**
*
* Formats the time gap as a string, using the specified format. Padding the left hand side of
* numbers with zeroes is optional.
*
* @param startMillis the start of the duration
* @param endMillis the end of the duration
* @param format the way in which to format the duration, not null
* @return the formatted duration, not null
*/
public static String formatPeriod(final long startMillis, final long endMillis, final String format) {
return formatPeriod(startMillis, endMillis, format, true, TimeZone.getDefault());
}
/**
*
* Formats the time gap as a string, using the specified format. Padding the left hand side of
* numbers with zeroes is optional and the timezone may be specified.
*
*
* When calculating the difference between months/days, it chooses to calculate months first. So
* when working out the number of months and days between January 15th and March 10th, it choose
* 1 month and 23 days gained by choosing January->February = 1 month and then calculating days
* forwards, and not the 1 month and 26 days gained by choosing March -> February = 1 month and
* then calculating days backwards.
*
*
* For more control, the Joda-Time library is
* recommended.
*
*
* @param startMillis the start of the duration
* @param endMillis the end of the duration
* @param format the way in which to format the duration, not null
* @param padWithZeros whether to pad the left hand side of numbers with 0's
* @param timezone the millis are defined in
* @return the formatted duration, not null
*/
public static String formatPeriod(final long startMillis, final long endMillis, final String format,
final boolean padWithZeros, final TimeZone timezone) {
// Used to optimise for differences under 28 days and
// called formatDuration(millis, format); however this did not work
// over leap years.
// TODO: Compare performance to see if anything was lost by
// losing this optimisation.
final Token[] tokens = lexx(format);
// timezones get funky around 0, so normalizing everything to GMT
// stops the hours being off
final Calendar start = Calendar.getInstance(timezone);
start.setTime(new Date(startMillis));
final Calendar end = Calendar.getInstance(timezone);
end.setTime(new Date(endMillis));
// initial estimates
int milliseconds = end.get(Calendar.MILLISECOND) - start.get(Calendar.MILLISECOND);
int seconds = end.get(Calendar.SECOND) - start.get(Calendar.SECOND);
int minutes = end.get(Calendar.MINUTE) - start.get(Calendar.MINUTE);
int hours = end.get(Calendar.HOUR_OF_DAY) - start.get(Calendar.HOUR_OF_DAY);
int days = end.get(Calendar.DAY_OF_MONTH) - start.get(Calendar.DAY_OF_MONTH);
int months = end.get(Calendar.MONTH) - start.get(Calendar.MONTH);
int years = end.get(Calendar.YEAR) - start.get(Calendar.YEAR);
// each initial estimate is adjusted in case it is under 0
while (milliseconds < 0) {
milliseconds += 1000;
seconds -= 1;
}
while (seconds < 0) {
seconds += 60;
minutes -= 1;
}
while (minutes < 0) {
minutes += 60;
hours -= 1;
}
while (hours < 0) {
hours += 24;
days -= 1;
}
if (Token.containsTokenWithValue(tokens, M)) {
while (days < 0) {
days += start.getActualMaximum(Calendar.DAY_OF_MONTH);
months -= 1;
start.add(Calendar.MONTH, 1);
}
while (months < 0) {
months += 12;
years -= 1;
}
if (!Token.containsTokenWithValue(tokens, y) && years != 0) {
while (years != 0) {
months += 12 * years;
years = 0;
}
}
}
else {
// there are no M's in the format string
if (!Token.containsTokenWithValue(tokens, y)) {
int target = end.get(Calendar.YEAR);
if (months < 0) {
// target is end-year -1
target -= 1;
}
while ((start.get(Calendar.YEAR) != target)) {
days += start.getActualMaximum(Calendar.DAY_OF_YEAR)
- start.get(Calendar.DAY_OF_YEAR);
// Not sure I grok why this is needed, but the brutal tests show it is
if (start instanceof GregorianCalendar
&& start.get(Calendar.MONTH) == Calendar.FEBRUARY
&& start.get(Calendar.DAY_OF_MONTH) == 29) {
days += 1;
}
start.add(Calendar.YEAR, 1);
days += start.get(Calendar.DAY_OF_YEAR);
}
years = 0;
}
while (start.get(Calendar.MONTH) != end.get(Calendar.MONTH)) {
days += start.getActualMaximum(Calendar.DAY_OF_MONTH);
start.add(Calendar.MONTH, 1);
}
months = 0;
while (days < 0) {
days += start.getActualMaximum(Calendar.DAY_OF_MONTH);
months -= 1;
start.add(Calendar.MONTH, 1);
}
}
// The rest of this code adds in values that
// aren't requested. This allows the user to ask for the
// number of months and get the real count and not just 0->11.
if (!Token.containsTokenWithValue(tokens, d)) {
hours += 24 * days;
days = 0;
}
if (!Token.containsTokenWithValue(tokens, H)) {
minutes += 60 * hours;
hours = 0;
}
if (!Token.containsTokenWithValue(tokens, m)) {
seconds += 60 * minutes;
minutes = 0;
}
if (!Token.containsTokenWithValue(tokens, s)) {
milliseconds += 1000L * seconds;
seconds = 0;
}
return format(tokens, years, months, days, hours, minutes, seconds, milliseconds,
padWithZeros);
}
// -----------------------------------------------------------------------
/**
*
* The internal method to do the formatting.
*
*
* @param tokens the tokens
* @param years the number of years
* @param months the number of months
* @param days the number of days
* @param hours the number of hours
* @param minutes the number of minutes
* @param seconds the number of seconds
* @param milliseconds the number of millis
* @param padWithZeros whether to pad
* @return the formatted string
*/
static String format(final Token[] tokens, final int years, final int months, final int days, final int hours,
final int minutes, final int seconds, int milliseconds, final boolean padWithZeros) {
final StringBuilder buffer = new StringBuilder();
boolean lastOutputSeconds = false;
final int sz = tokens.length;
for (int i = 0; i < sz; i++) {
final Token token = tokens[i];
final Object value = token.getValue();
final int count = token.getCount();
if (value instanceof StringBuilder) {
buffer.append(value.toString());
}
else {
if (value == y) {
buffer.append(padWithZeros ? Strings.leftPad(Integer.toString(years), count,
'0') : Integer.toString(years));
lastOutputSeconds = false;
}
else if (value == M) {
buffer.append(padWithZeros ? Strings.leftPad(Integer.toString(months), count,
'0') : Integer.toString(months));
lastOutputSeconds = false;
}
else if (value == d) {
buffer
.append(padWithZeros ? Strings.leftPad(Integer.toString(days), count, '0') : Integer
.toString(days));
lastOutputSeconds = false;
}
else if (value == H) {
buffer.append(padWithZeros ? Strings.leftPad(Integer.toString(hours), count,
'0') : Integer.toString(hours));
lastOutputSeconds = false;
}
else if (value == m) {
buffer.append(padWithZeros ? Strings.leftPad(Integer.toString(minutes), count,
'0') : Integer.toString(minutes));
lastOutputSeconds = false;
}
else if (value == s) {
buffer.append(padWithZeros ? Strings.leftPad(Integer.toString(seconds), count,
'0') : Integer.toString(seconds));
lastOutputSeconds = true;
}
else if (value == S) {
if (lastOutputSeconds) {
milliseconds += 1000;
String str = padWithZeros ? Strings.leftPad(Integer.toString(milliseconds),
count, '0') : Integer.toString(milliseconds);
buffer.append(str.substring(1));
}
else {
buffer.append(padWithZeros ? Strings.leftPad(
Integer.toString(milliseconds), count, '0') : Integer
.toString(milliseconds));
}
lastOutputSeconds = false;
}
}
}
return buffer.toString();
}
static final Object y = "y";
static final Object M = "M";
static final Object d = "d";
static final Object H = "H";
static final Object m = "m";
static final Object s = "s";
static final Object S = "S";
/**
* Parses a classic date format string into Tokens
*
* @param format the format to parse, not null
* @return array of Token[]
*/
static Token[] lexx(final String format) {
final char[] array = format.toCharArray();
final ArrayList list = new ArrayList(array.length);
boolean inLiteral = false;
StringBuilder buffer = null;
Token previous = null;
final int sz = array.length;
for (int i = 0; i < sz; i++) {
final char ch = array[i];
if (inLiteral && ch != '\'') {
buffer.append(ch); // buffer can't be null if inLiteral is true
continue;
}
Object value = null;
switch (ch) {
// TODO: Need to handle escaping of '
case '\'':
if (inLiteral) {
buffer = null;
inLiteral = false;
}
else {
buffer = new StringBuilder();
list.add(new Token(buffer));
inLiteral = true;
}
break;
case 'y':
value = y;
break;
case 'M':
value = M;
break;
case 'd':
value = d;
break;
case 'H':
value = H;
break;
case 'm':
value = m;
break;
case 's':
value = s;
break;
case 'S':
value = S;
break;
default:
if (buffer == null) {
buffer = new StringBuilder();
list.add(new Token(buffer));
}
buffer.append(ch);
}
if (value != null) {
if (previous != null && previous.getValue() == value) {
previous.increment();
}
else {
final Token token = new Token(value);
list.add(token);
previous = token;
}
buffer = null;
}
}
return list.toArray(new Token[list.size()]);
}
// -----------------------------------------------------------------------
/**
* Element that is parsed from the format pattern.
*/
static class Token {
/**
* Helper method to determine if a set of tokens contain a value
*
* @param tokens set to look in
* @param value to look for
* @return boolean true
if contained
*/
static boolean containsTokenWithValue(final Token[] tokens, final Object value) {
final int sz = tokens.length;
for (int i = 0; i < sz; i++) {
if (tokens[i].getValue() == value) {
return true;
}
}
return false;
}
private final Object value;
private int count;
/**
* Wraps a token around a value. A value would be something like a 'Y'.
*
* @param value to wrap
*/
Token(final Object value) {
this.value = value;
this.count = 1;
}
/**
* Wraps a token around a repeated number of a value, for example it would store 'yyyy' as a
* value for y and a count of 4.
*
* @param value to wrap
* @param count to wrap
*/
Token(final Object value, final int count) {
this.value = value;
this.count = count;
}
/**
* Adds another one of the value
*/
void increment() {
count++;
}
/**
* Gets the current number of values represented
*
* @return int number of values represented
*/
int getCount() {
return count;
}
/**
* Gets the particular value this token represents.
*
* @return Object value
*/
Object getValue() {
return value;
}
/**
* Supports equality of this Token to another Token.
*
* @param obj2 Object to consider equality of
* @return boolean true
if equal
*/
@Override
public boolean equals(final Object obj2) {
if (obj2 instanceof Token) {
final Token tok2 = (Token)obj2;
if (this.value.getClass() != tok2.value.getClass()) {
return false;
}
if (this.count != tok2.count) {
return false;
}
if (this.value instanceof StringBuilder) {
return this.value.toString().equals(tok2.value.toString());
}
else if (this.value instanceof Number) {
return this.value.equals(tok2.value);
}
else {
return this.value == tok2.value;
}
}
return false;
}
/**
* Returns a hash code for the token equal to the hash code for the token's value. Thus 'TT'
* and 'TTTT' will have the same hash code.
*
* @return The hash code for the token
*/
@Override
public int hashCode() {
return this.value.hashCode();
}
/**
* Represents this token as a String.
*
* @return String representation of the token
*/
@Override
public String toString() {
return Strings.repeat(this.value.toString(), this.count);
}
}
}