In my script I need to perform a set of actions through range of dates, given a start and end date.
Please provide me guidance to achieve this using Java.for ( currentDate = starDate; currentDate < endDate; currentDate++) {
}
I know the above code is simply impossible, b开发者_Python百科ut I do it in order to show you what I'd like to achieve.
Well, you could do something like this using Java 8's time-API, for this problem specifically java.time.LocalDate
(or the equivalent Joda Time classes for Java 7 and older)
for (LocalDate date = startDate; date.isBefore(endDate); date = date.plusDays(1))
{
...
}
I would thoroughly recommend using java.time
(or Joda Time) over the built-in Date
/Calendar
classes.
JodaTime is nice, however, for the sake of completeness and/or if you prefer API-provided facilities, here are the standard API approaches.
When starting off with java.util.Date
instances like below:
SimpleDateFormat formatter = new SimpleDateFormat("yyyy-MM-dd");
Date startDate = formatter.parse("2010-12-20");
Date endDate = formatter.parse("2010-12-26");
Here's the legacy java.util.Calendar
approach in case you aren't on Java8 yet:
Calendar start = Calendar.getInstance();
start.setTime(startDate);
Calendar end = Calendar.getInstance();
end.setTime(endDate);
for (Date date = start.getTime(); start.before(end); start.add(Calendar.DATE, 1), date = start.getTime()) {
// Do your job here with `date`.
System.out.println(date);
}
And here's Java8's java.time.LocalDate
approach, basically exactly the JodaTime approach:
LocalDate start = startDate.toInstant().atZone(ZoneId.systemDefault()).toLocalDate();
LocalDate end = endDate.toInstant().atZone(ZoneId.systemDefault()).toLocalDate();
for (LocalDate date = start; date.isBefore(end); date = date.plusDays(1)) {
// Do your job here with `date`.
System.out.println(date);
}
If you'd like to iterate inclusive the end date, then use !start.after(end)
and !date.isAfter(end)
respectively.
Java 8 style, using the java.time classes:
// Monday, February 29 is a leap day in 2016 (otherwise, February only has 28 days)
LocalDate start = LocalDate.parse("2016-02-28"),
end = LocalDate.parse("2016-03-02");
// 4 days between (end is inclusive in this example)
Stream.iterate(start, date -> date.plusDays(1))
.limit(ChronoUnit.DAYS.between(start, end) + 1)
.forEach(System.out::println);
Output:
2016-02-28
2016-02-29
2016-03-01
2016-03-02
Alternative:
LocalDate next = start.minusDays(1);
while ((next = next.plusDays(1)).isBefore(end.plusDays(1))) {
System.out.println(next);
}
Java 9 added the datesUntil() method:
start.datesUntil(end.plusDays(1)).forEach(System.out::println);
This is essentially the same answer BalusC gave, but a bit more readable with a while loop in place of a for loop:
Calendar start = Calendar.getInstance();
start.setTime(startDate);
Calendar end = Calendar.getInstance();
end.setTime(endDate);
while( !start.after(end)){
Date targetDay = start.getTime();
// Do Work Here
start.add(Calendar.DATE, 1);
}
Apache Commons
for (Date dateIter = fromDate; !dateIter.after(toDate); dateIter = DateUtils.addDays(dateIter, 1)) {
// ...
}
private static void iterateBetweenDates(Date startDate, Date endDate) {
Calendar startCalender = Calendar.getInstance();
startCalender.setTime(startDate);
Calendar endCalendar = Calendar.getInstance();
endCalendar.setTime(endDate);
for(; startCalender.compareTo(endCalendar)<=0;
startCalender.add(Calendar.DATE, 1)) {
// write your main logic here
}
}
We can migrate the logic to various methods foe Java 7, Java 8 and Java 9:
public static List<Date> getDatesRangeJava7(Date startDate, Date endDate) {
List<Date> datesInRange = new ArrayList<>();
Calendar startCalendar = new GregorianCalendar();
startCalendar.setTime(startDate);
Calendar endCalendar = new GregorianCalendar();
endCalendar.setTime(endDate);
while (startCalendar.before(endCalendar)) {
Date result = startCalendar.getTime();
datesInRange.add(result);
startCalendar.add(Calendar.DATE, 1);
}
return datesInRange;
}
public static List<LocalDate> getDatesRangeJava8(LocalDate startDate, LocalDate endDate) {
int numOfDays = (int) ChronoUnit.DAYS.between(startDate, endDate);
return IntStream.range(0, numOfDays)
.mapToObj(startDate::plusDays)
.collect(Collectors.toList());
}
public static List<LocalDate> getDatesRangeJava9(LocalDate startDate, LocalDate endDate) {
return startDate.datesUntil(endDate).collect(Collectors.toList());
}
Then we can invoke these methods as:
SimpleDateFormat formatter = new SimpleDateFormat("yyyy-MM-dd");
Date startDate = formatter.parse("2010-12-20");
Date endDate = formatter.parse("2010-12-26");
List<Date> dateRangeList = getDatesRangeJava7(startDate, endDate);
System.out.println(dateRangeList);
LocalDate startLocalDate = startDate.toInstant().atZone(ZoneId.systemDefault()).toLocalDate();
LocalDate endLocalDate = endDate.toInstant().atZone(ZoneId.systemDefault()).toLocalDate();
List<LocalDate> dateRangeList8 = getDatesRangeJava8(startLocalDate, endLocalDate);
System.out.println(dateRangeList8);
List<LocalDate> dateRangeList9 = getDatesRangeJava8(startLocalDate, endLocalDate);
System.out.println(dateRangeList9);
The output would be:
[Mon Dec 20 00:00:00 IST 2010, Tue Dec 21 00:00:00 IST 2010, Wed Dec 22 00:00:00 IST 2010, Thu Dec 23 00:00:00 IST 2010, Fri Dec 24 00:00:00 IST 2010, Sat Dec 25 00:00:00 IST 2010]
[2010-12-20, 2010-12-21, 2010-12-22, 2010-12-23, 2010-12-24, 2010-12-25]
[2010-12-20, 2010-12-21, 2010-12-22, 2010-12-23, 2010-12-24, 2010-12-25]
It’s built in: LocalDate.datesUntil() since Java 9
It seems that the answers until now have only been considering Java 8 and earlier. The Java 9+ way is:
LocalDate startDate = LocalDate.of(2021, Month.JUNE, 29);
LocalDate endDate = LocalDate.of(2021, Month.JULY, 3);
startDate.datesUntil(endDate).forEach(System.out::println);
Output from this example is:
2021-06-29 2021-06-30 2021-07-01 2021-07-02
While the start date is inclusive, the end date is exclusive, as in your question the way I read it. If someone wants the end date to be included, it’s easy, just add a day to it:
startDate.datesUntil(endDate.plusDays(1)).forEach(System.out::println);
2021-06-29 2021-06-30 2021-07-01 2021-07-02 2021-07-03
You can obviously iterate several years in this way, just as you can put a lengthier lambda where I just put the method reference System.out::println
for demonstration.
Links
- Oracle tutorial: Date Time explaining how to use java.time.
- Documentation of
LocalDate.datesUntil(LocalDate)
—
public static final void generateRange(final Date dateFrom, final Date dateTo)
{
final Calendar current = Calendar.getInstance();
current.setTime(dateFrom);
while (!current.getTime().after(dateTo))
{
// TODO
current.add(Calendar.DATE, 1);
}
}
Here is Java 8 code. I think this code will solve your problem.Happy Coding
LocalDate start = LocalDate.now();
LocalDate end = LocalDate.of(2016, 9, 1);//JAVA 9 release date
Long duration = start.until(end, ChronoUnit.DAYS);
System.out.println(duration);
// Do Any stuff Here there after
IntStream.iterate(0, i -> i + 1)
.limit(duration)
.forEach((i) -> {});
//old way of iteration
for (int i = 0; i < duration; i++)
System.out.print("" + i);// Do Any stuff Here
Why not use epoch and loop through easily.
long startDateEpoch = new java.text.SimpleDateFormat("dd/MM/yyyy").parse(startDate).getTime() / 1000;
long endDateEpoch = new java.text.SimpleDateFormat("dd/MM/yyyy").parse(endDate).getTime() / 1000;
long i;
for(i=startDateEpoch ; i<=endDateEpoch; i+=86400){
System.out.println(i);
}
You can write a class like it(implementing iterator interface) and iterate over it .
public class DateIterator implements Iterator<Date>, Iterable<Date>
{
private Calendar end = Calendar.getInstance();
private Calendar current = Calendar.getInstance();
public DateIterator(Date start, Date end)
{
this.end.setTime(end);
this.end.add(Calendar.DATE, -1);
this.current.setTime(start);
this.current.add(Calendar.DATE, -1);
}
@Override
public boolean hasNext()
{
return !current.after(end);
}
@Override
public Date next()
{
current.add(Calendar.DATE, 1);
return current.getTime();
}
@Override
public void remove()
{
throw new UnsupportedOperationException(
"Cannot remove");
}
@Override
public Iterator<Date> iterator()
{
return this;
}
}
and use it like :
Iterator<Date> dateIterator = new DateIterator(startDate, endDate);
while(dateIterator.hasNext()){
Date selectedDate = dateIterator .next();
}
You can try this:
OffsetDateTime currentDateTime = OffsetDateTime.now();
for (OffsetDateTime date = currentDateTime; date.isAfter(currentDateTime.minusYears(YEARS)); date = date.minusWeeks(1))
{
...
}
This will help you start 30 days back and loop through until today's date. you can easily change range of dates and direction.
private void iterateThroughDates() throws Exception {
Calendar start = Calendar.getInstance();
start.add(Calendar.DATE, -30);
Calendar end = Calendar.getInstance();
for (Calendar date = start; date.before(end); date.add(Calendar.DATE, 1))
{
System.out.println(date.getTime());
}
}
The following snippet (uses java.time.format of Java 8) maybe used to iterate over a date range :
DateTimeFormatter formatter = DateTimeFormatter.ofPattern("yyyy-MM-dd");
// Any chosen date format maybe taken
LocalDate startDate = LocalDate.parse(startDateString,formatter);
LocalDate endDate = LocalDate.parse(endDateString,formatter);
if(endDate.isBefore(startDate))
{
//error
}
LocalDate itr = null;
for (itr = startDate; itr.isBefore(endDate)||itr.isEqual(itr); itr = itr.plusDays(1))
{
//Processing goes here
}
The plusMonths()/plusYears() maybe chosen for time unit increment. Increment by a single day is being done in above illustration.
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