# How do I calculate relative time?

Given a specific `DateTime` value, how do I display relative time, like:

• 2 hours ago
• 3 days ago
• a month ago

Et cetera?

-
What if you want to calculate a relative time from now to Future? –  Jhonny D. Cano -Leftware- Mar 26 '09 at 20:42
I wish you could drop this approach at StackOverflow. I often see several similar answers that were posted "1 hour ago", and I just want to upvote the first one (the rest are duplicates that should be removed). –  Jørn E. Angeltveit Jul 1 '10 at 13:54
@Jørn if you hover your mouse over the "1 hour ago," the title-text will give you the exact time. I think this is a great combination of ease-of-use (you see quickly how old things are) and advanced features (you can see the exact date easily as well) –  NickAldwin Jul 1 '10 at 14:06
Common, yes. Keep in mind that if it is really useful information then users of touch screen devices (smartphones, tablets) can't get at it because they can't hover a pointer. –  Drew Noakes Oct 18 '10 at 0:30
@configurator, @NickAldwin: I've seen this on a several sites now and has accepted that as an way to get additional information. But now we have a new problem. How can I hover on my iPad... ;-) –  Jørn E. Angeltveit May 1 '11 at 15:09
show 6 more comments

## 31 Answers

Jeff, your code is nice but could be clearer with constants (as suggested in Code Complete).

``````const int SECOND = 1;
const int MINUTE = 60 * SECOND;
const int HOUR = 60 * MINUTE;
const int DAY = 24 * HOUR;
const int MONTH = 30 * DAY;

if (delta < 0)
{
return "not yet";
}
if (delta < 1 * MINUTE)
{
return ts.Seconds == 1 ? "one second ago" : ts.Seconds + " seconds ago";
}
if (delta < 2 * MINUTE)
{
return "a minute ago";
}
if (delta < 45 * MINUTE)
{
return ts.Minutes + " minutes ago";
}
if (delta < 90 * MINUTE)
{
return "an hour ago";
}
if (delta < 24 * HOUR)
{
return ts.Hours + " hours ago";
}
if (delta < 48 * HOUR)
{
return "yesterday";
}
if (delta < 30 * DAY)
{
return ts.Days + " days ago";
}
if (delta < 12 * MONTH)
{
int months = Convert.ToInt32(Math.Floor((double)ts.Days / 30));
return months <= 1 ? "one month ago" : months + " months ago";
}
else
{
int years = Convert.ToInt32(Math.Floor((double)ts.Days / 365));
return years <= 1 ? "one year ago" : years + " years ago";
}
``````
-
I hate such constants with a passion. Does this look wrong to anyone? `Thread.Sleep(1 * MINUTE)`? Because it's wrong by a factor of 1000. –  romkyns Aug 17 '10 at 17:06
Beware of editing the times here since ts.Minutes, ts.Hours, etc... gives the component of the timespan, not the total minutes or hours. For example if you wanted to describe everything less than 48 hours in terms of hours, you'd need to change ts.Hours to Convert.ToInt32(ts.TotalHours) to get output of "38 hours ago". I wanted to do this since my application predicts a future time like "38 hours left". Tomorrow doesn't sound good here IMO. –  crizCraig Nov 2 '10 at 21:37
`const int SECOND = 1;` So weird a second is one second. –  seriousdev Jun 17 '11 at 22:46
This type of code is nearly impossible to localize. If your app only needs to remain in English, then fine. But if you make the jump to other languages, you will hate yourself for doing logic like this. Just so y'all know... –  Nik Reiman May 23 '12 at 14:31
I think if the constants were renamed to accurately describe the value that is in them, it'd be easier to understand. So SecondsPerMinute = 60; MinutesPerHour = 60; SecondsPerHour = MinutesPerHour * SecondsPerHour; etc. Just calling it MINUTE=60 doesn't allow the reader to determine what the value is. –  slolife Aug 29 '12 at 16:21
show 7 more comments

## jquery.timeago plugin

Jeff, because Stack Overflow uses jQuery extensively, I recommend the jquery.timeago plugin.

Benefits:

• Avoid timestamps dated "1 minute ago" even though the page was opened 10 minutes ago; timeago refreshes automatically.
• You can take full advantage of page and/or fragment caching in your web applications, because the timestamps aren't calculated on the server.
• You get to use microformats like the cool kids.

Just attach it to your timestamps on DOM ready:

``````jQuery(document).ready(function() {
jQuery('abbr.timeago').timeago();
});
``````

This will turn all `abbr` elements with a class of timeago and an ISO 8601 timestamp in the title:

``````<abbr class="timeago" title="2008-07-17T09:24:17Z">July 17, 2008</abbr>
``````

into something like this:

``````<abbr class="timeago" title="July 17, 2008">4 months ago</abbr>
``````

which yields: 4 months ago. As time passes, the timestamps will automatically update.

Disclaimer: I wrote this plugin, so I'm biased.

-
Seb, If you have Javascript disabled, then the string you originally put between the abbr tags is displayed. Typically, this is just a date or time in any format you wish. Timeago degrades gracefully. It doesn't get much simpler. –  Ryan McGeary Mar 24 '09 at 4:40
Ryan, I suggested that SO use timeago a while ago. Jeff's response made me cry, i suggest you sit down: stackoverflow.uservoice.com/pages/1722-general/suggestions/… –  Rob Fonseca-Ensor Dec 26 '09 at 7:26
Heh, Thanks Rob. That's okay. It's barely noticeable, especially when only one number changes during the transition, though SO pages have a lot of timestamps. I would have thought he would have at least appreciated the benefits of page caching though, even if he chooses to avoid auto-updates. I'm sure Jeff could have provided feedback to improve the plugin too. I take solace knowing sites like arstechnica.com use it. –  Ryan McGeary Dec 26 '09 at 13:56
@Rob Fonseca-Ensor - now it's making me cry too. How is an update once per minute, to show accurate information, in any way related to text blinking once a second? –  Daniel Earwicker Apr 20 '10 at 0:23
An option to disable the auto-updating shouldn't be that hard, would it? If it doesn't already exist, that is... Just update the timestamps once on pageload and be done with it. –  Dean Harding Apr 21 '10 at 6:43
show 8 more comments

Well, here's how we do it on Stack Overflow.

``````var ts = new TimeSpan(DateTime.UtcNow.Ticks - dt.Ticks);
double delta = Math.Abs(ts.TotalSeconds);

if (delta < 60)
{
return ts.Seconds == 1 ? "one second ago" : ts.Seconds + " seconds ago";
}
if (delta < 120)
{
return "a minute ago";
}
if (delta < 2700) // 45 * 60
{
return ts.Minutes + " minutes ago";
}
if (delta < 5400) // 90 * 60
{
return "an hour ago";
}
if (delta < 86400) // 24 * 60 * 60
{
return ts.Hours + " hours ago";
}
if (delta < 172800) // 48 * 60 * 60
{
return "yesterday";
}
if (delta < 2592000) // 30 * 24 * 60 * 60
{
return ts.Days + " days ago";
}
if (delta < 31104000) // 12 * 30 * 24 * 60 * 60
{
int months = Convert.ToInt32(Math.Floor((double)ts.Days / 30));
return months <= 1 ? "one month ago" : months + " months ago";
}
int years = Convert.ToInt32(Math.Floor((double)ts.Days / 365));
return years <= 1 ? "one year ago" : years + " years ago";
``````

Suggestions? Comments? Ways to improve this algorithm?

-
"< 48*60*60s" is a rather unconventional definition for "yesterday". If it's 9am on Wednesday, would you really think of 9:01am on Monday as "yesterday". I'd have thought an algorithm for yesterday or "n days ago" should consider before/after midnight. –  Joe Feb 1 '09 at 19:33
Compilers are usually pretty good at pre-calculating constant expressions, like 24 * 60 * 60, so you can directly use those instead of calculating it yourself to be 86400 and putting the original expression in comments –  zvolkov Jun 11 '09 at 12:50
noticed that this function excludes weeks –  jray Jan 26 '10 at 21:03
@jray So go implement them. :) –  bzlm Oct 15 '10 at 17:46
@bzlm I think I did for a project I was working on. My motivation here was to alert others that weeks were omitted from this code sample. As to how to do that, it seemed pretty straight forward to me. –  jray Nov 9 '10 at 23:38
show 11 more comments
``````   public static string RelativeDate(DateTime theDate) {
Dictionary<long, string> thresholds = new Dictionary<long, string>();
int minute = 60;
int hour = 60 * minute;
int day = 24 * hour;
thresholds.Add(60, "{0} seconds ago");
thresholds.Add(minute * 2, "a minute ago");
thresholds.Add(45 * minute, "{0} minutes ago");
thresholds.Add(120 * minute, "an hour ago");
thresholds.Add(day, "{0} hours ago");
thresholds.Add(day * 2, "yesterday");
thresholds.Add(day * 30, "{0} days ago");
thresholds.Add(day * 365, "{0} months ago");
thresholds.Add(long.MaxValue, "{0} years ago");

long since = (DateTime.Now.Ticks - theDate.Ticks) / 10000000;
foreach (long threshold in thresholds.Keys) {
if (since < threshold) {
TimeSpan t = new TimeSpan((DateTime.Now.Ticks - theDate.Ticks));
return string.Format(thresholds[threshold], (t.Days > 365 ? t.Days / 365 : (t.Days > 0 ? t.Days : (t.Hours > 0 ? t.Hours : (t.Minutes > 0 ? t.Minutes : (t.Seconds > 0 ? t.Seconds : 0))))).ToString());
}
}
return "";
}
``````

I prefer this version for its conciseness, and ability to add in new tick points. This could be encapsulated with a Latest() extension to Timespan instead of that long 1 liner, but for the sake of brevity in posting, this will do. This fixes the an hour ago, 1 hours ago, by providing an hour until 2 hours have elapsed

-
Hmm, while this code may work it is incorrect and invalid to assume that the order of the keys in the Dictionary will be in a specific order. The Dictionary uses the Object.GetHashCode() which does not return a long but an int!. If you want these to be sorted then you should use a SortedList<long, string>. What is wrong with the thresholds being evaluated in a set of if/else if/.../else ? You get the same number of comparisons. FYI the hash for long.MaxValue turns out to be the same as int.MinValue! –  CodeMonkeyKing Nov 9 '11 at 4:47
show 4 more comments

Here a rewrite from Jeffs Script for PHP:

``````define("SECOND", 1);
define("MINUTE", 60 * SECOND);
define("HOUR", 60 * MINUTE);
define("DAY", 24 * HOUR);
define("MONTH", 30 * DAY);
function relativeTime(\$time)
{
\$delta = time() - \$time;

if (\$delta < 1 * MINUTE)
{
return \$delta == 1 ? "one second ago" : \$delta . " seconds ago";
}
if (\$delta < 2 * MINUTE)
{
return "a minute ago";
}
if (\$delta < 45 * MINUTE)
{
return floor(\$delta / MINUTE) . " minutes ago";
}
if (\$delta < 90 * MINUTE)
{
return "an hour ago";
}
if (\$delta < 24 * HOUR)
{
return floor(\$delta / HOUR) . " hours ago";
}
if (\$delta < 48 * HOUR)
{
return "yesterday";
}
if (\$delta < 30 * DAY)
{
return floor(\$delta / DAY) . " days ago";
}
if (\$delta < 12 * MONTH)
{
\$months = floor(\$delta / DAY / 30);
return \$months <= 1 ? "one month ago" : \$months . " months ago";
}
else
{
\$years = floor(\$delta / DAY / 365);
return \$years <= 1 ? "one year ago" : \$years . " years ago";
}
}
``````
-
show 3 more comments
``````public static string ToRelativeDate(DateTime input)
{
TimeSpan oSpan = DateTime.Now.Subtract(input);
double TotalMinutes = oSpan.TotalMinutes;
string Suffix = " ago";

if (TotalMinutes < 0.0)
{
TotalMinutes = Math.Abs(TotalMinutes);
Suffix = " from now";
}

var aValue = new SortedList<double, Func<string>>();
aValue.Add(0.75, () => "less than a minute");
aValue.Add(1.5, () => "about a minute");
aValue.Add(45, () => string.Format("{0} minutes", Math.Round(TotalMinutes)));
aValue.Add(90, () => "about an hour");
aValue.Add(1440, () => string.Format("about {0} hours", Math.Round(Math.Abs(oSpan.TotalHours)))); // 60 * 24
aValue.Add(2880, () => "a day"); // 60 * 48
aValue.Add(43200, () => string.Format("{0} days", Math.Floor(Math.Abs(oSpan.TotalDays)))); // 60 * 24 * 30
aValue.Add(86400, () => "about a month"); // 60 * 24 * 60
aValue.Add(525600, () => string.Format("{0} months", Math.Floor(Math.Abs(oSpan.TotalDays / 30)))); // 60 * 24 * 365
aValue.Add(1051200, () => "about a year"); // 60 * 24 * 365 * 2
aValue.Add(double.MaxValue, () => string.Format("{0} years", Math.Floor(Math.Abs(oSpan.TotalDays / 365))));

return aValue.First(n => TotalMinutes < n.Key).Value.Invoke() + Suffix;
}
``````

http://refactormycode.com/codes/493-twitter-esque-relative-dates

-
You'd probably want to pull that dictionary out into a field so that you reduce instantiation and GC churn. You'd have to change `Func<string>` to `Func<double>`. –  Drew Noakes Aug 23 '10 at 10:34
Since the documentation on `Dictionary` states that "The order in which the items are returned is undefined," (msdn.microsoft.com/en-us/library/xfhwa508.aspx) perhaps that's not the best data structure to use when you don't care about lookup times as much as having things stay in order. –  StriplingWarrior May 31 '11 at 16:01
show 4 more comments

Here's an implementation I added as an extension method to the DateTime class that handles both future and past dates and provides an approximation option that allows you to specify the level of detail you're looking for ("3 hour ago" vs "3 hours, 23 minutes, 12 seconds ago"):

``````using System.Text;

/// <summary>
/// Compares a supplied date to the current date and generates a friendly English
/// comparison ("5 days ago", "5 days from now")
/// </summary>
/// <param name="date">The date to convert</param>
/// <param name="approximate">When off, calculate timespan down to the second.
/// When on, approximate to the largest round unit of time.</param>
/// <returns></returns>
public static string ToRelativeDateString(this DateTime value, bool approximate)
{
StringBuilder sb = new StringBuilder();

string suffix = (value > DateTime.Now) ? " from now" : " ago";

TimeSpan timeSpan = new TimeSpan(Math.Abs(DateTime.Now.Subtract(value).Ticks));

if (timeSpan.Days > 0)
{
sb.AppendFormat("{0} {1}", timeSpan.Days,
(timeSpan.Days > 1) ? "days" : "day");
if (approximate) return sb.ToString() + suffix;
}
if (timeSpan.Hours > 0)
{
sb.AppendFormat("{0}{1} {2}", (sb.Length > 0) ? ", " : string.Empty,
timeSpan.Hours, (timeSpan.Hours > 1) ? "hours" : "hour");
if (approximate) return sb.ToString() + suffix;
}
if (timeSpan.Minutes > 0)
{
sb.AppendFormat("{0}{1} {2}", (sb.Length > 0) ? ", " : string.Empty,
timeSpan.Minutes, (timeSpan.Minutes > 1) ? "minutes" : "minute");
if (approximate) return sb.ToString() + suffix;
}
if (timeSpan.Seconds > 0)
{
sb.AppendFormat("{0}{1} {2}", (sb.Length > 0) ? ", " : string.Empty,
timeSpan.Seconds, (timeSpan.Seconds > 1) ? "seconds" : "second");
if (approximate) return sb.ToString() + suffix;
}
if (sb.Length == 0) return "right now";

sb.Append(suffix);
return sb.ToString();
}
``````
-
+1 Much prefer using the `TimeSpan` properties rather than switching based on a huge number of ticks. Clarity is king. –  Kirk Broadhurst Aug 23 '11 at 2:29
add comment

I would recommend computing this on the client side too. Less work for the server.

The following is the version that I use (from Zach Leatherman)

``````/*
* Javascript Humane Dates
* Copyright (c) 2008 Dean Landolt (deanlandolt.com)
* Re-write by Zach Leatherman (zachleat.com)
*
* Adopted from the John Resig's pretty.js
* at http://ejohn.org/blog/javascript-pretty-date
* and henrah's proposed modification
* at http://ejohn.org/blog/javascript-pretty-date/#comment-297458
*
* Licensed under the MIT license.
*/

function humane_date(date_str){
var time_formats = [
[60, 'just now'],
[90, '1 minute'], // 60*1.5
[3600, 'minutes', 60], // 60*60, 60
[5400, '1 hour'], // 60*60*1.5
[86400, 'hours', 3600], // 60*60*24, 60*60
[129600, '1 day'], // 60*60*24*1.5
[604800, 'days', 86400], // 60*60*24*7, 60*60*24
[907200, '1 week'], // 60*60*24*7*1.5
[2628000, 'weeks', 604800], // 60*60*24*(365/12), 60*60*24*7
[3942000, '1 month'], // 60*60*24*(365/12)*1.5
[31536000, 'months', 2628000], // 60*60*24*365, 60*60*24*(365/12)
[47304000, '1 year'], // 60*60*24*365*1.5
[3153600000, 'years', 31536000], // 60*60*24*365*100, 60*60*24*365
[4730400000, '1 century'] // 60*60*24*365*100*1.5
];

var time = ('' + date_str).replace(/-/g,"/").replace(/[TZ]/g," "),
dt = new Date,
seconds = ((dt - new Date(time) + (dt.getTimezoneOffset() * 60000)) / 1000),
token = ' ago',
i = 0,
format;

if (seconds < 0) {
seconds = Math.abs(seconds);
token = '';
}

while (format = time_formats[i++]) {
if (seconds < format[0]) {
if (format.length == 2) {
return format[1] + (i > 1 ? token : ''); // Conditional so we don't return Just Now Ago
} else {
return Math.round(seconds / format[2]) + ' ' + format[1] + (i > 1 ? token : '');
}
}
}

// overflow for centuries
if(seconds > 4730400000)
return Math.round(seconds / 4730400000) + ' centuries' + token;

return date_str;
};

if(typeof jQuery != 'undefined') {
jQuery.fn.humane_dates = function(){
return this.each(function(){
var date = humane_date(this.title);
if(date && jQuery(this).text() != date) // don't modify the dom if we don't have to
jQuery(this).text(date);
});
};
}
``````
-
Love the function name `humane`! :) –  El Ronnoco Dec 13 '10 at 22:48
I can't wait to see something from 1 century ago ;) –  dplante May 23 '12 at 17:59
add comment

@jeff

IMHO yours seems a little long. However it does seem a little more robust with support for "yesterday" and "years". But in my experience when this is used the person is most likely to view the content in the first 30 days. It is only the really hardcore people that come after that. So that is why I usually elect to keep this short and simple.

This is the method I am currently using on one of my websites. This only returns a relative day, hour, time. And then the user has to slap on "ago" in the output.

``public static string ToLongString(this TimeSpan time){    string output = String.Empty;    if (time.Days > 0)        output += time.Days + " days ";    if ((time.Days == 0 || time.Days == 1) && time.Hours > 0)        output += time.Hours + " hr ";    if (time.Days == 0 && time.Minutes > 0)        output += time.Minutes + " min ";    if (output.Length == 0)        output += time.Seconds + " sec";    return output.Trim();}``
-
Currently looking at this page - asked 2 years ago :) –  tim Sep 16 '10 at 11:49
add comment

A couple of years late to the party, but I had a requirement to do this for both past and future dates, so I combined Jeff's and Vincent's into this. It's a ternarytastic extravaganza! :)

``````public static class DateTimeHelper
{
private const int SECOND = 1;
private const int MINUTE = 60 * SECOND;
private const int HOUR = 60 * MINUTE;
private const int DAY = 24 * HOUR;
private const int MONTH = 30 * DAY;

/// <summary>
/// Returns a friendly version of the provided DateTime, relative to now. E.g.: "2 days ago", or "in 6 months".
/// </summary>
/// <param name="dateTime">The DateTime to compare to Now</param>
/// <returns>A friendly string</returns>
public static string GetFriendlyRelativeTime(DateTime dateTime)
{
if (DateTime.UtcNow.Ticks == dateTime.Ticks)
{
return "Right now!";
}

bool isFuture = (DateTime.UtcNow.Ticks < dateTime.Ticks);
var ts = DateTime.UtcNow.Ticks < dateTime.Ticks ? new TimeSpan(dateTime.Ticks - DateTime.UtcNow.Ticks) : new TimeSpan(DateTime.UtcNow.Ticks - dateTime.Ticks);

double delta = ts.TotalSeconds;

if (delta < 1 * MINUTE)
{
return isFuture ? "in " + (ts.Seconds == 1 ? "one second" : ts.Seconds + " seconds") : ts.Seconds == 1 ? "one second ago" : ts.Seconds + " seconds ago";
}
if (delta < 2 * MINUTE)
{
return isFuture ? "in a minute" : "a minute ago";
}
if (delta < 45 * MINUTE)
{
return isFuture ? "in " + ts.Minutes + " minutes" : ts.Minutes + " minutes ago";
}
if (delta < 90 * MINUTE)
{
return isFuture ? "in an hour" : "an hour ago";
}
if (delta < 24 * HOUR)
{
return isFuture ? "in " + ts.Hours + " hours" : ts.Hours + " hours ago";
}
if (delta < 48 * HOUR)
{
return isFuture ? "tomorrow" : "yesterday";
}
if (delta < 30 * DAY)
{
return isFuture ? "in " + ts.Days + " days" : ts.Days + " days ago";
}
if (delta < 12 * MONTH)
{
int months = Convert.ToInt32(Math.Floor((double)ts.Days / 30));
return isFuture ? "in " + (months <= 1 ? "one month" : months + " months") : months <= 1 ? "one month ago" : months + " months ago";
}
else
{
int years = Convert.ToInt32(Math.Floor((double)ts.Days / 365));
return isFuture ? "in " + (years <= 1 ? "one year" : years + " years") : years <= 1 ? "one year ago" : years + " years ago";
}
}
}
``````
-
show 3 more comments

## iPhone obj-c Version

``````+ (NSString *)timeAgoString:(NSDate *)date {
int delta = -(int)[date timeIntervalSinceNow];

if (delta < 60)
{
return delta == 1 ? @"one second ago" : [NSString stringWithFormat:@"%i seconds ago", delta];
}
if (delta < 120)
{
return @"a minute ago";
}
if (delta < 2700)
{
return [NSString stringWithFormat:@"%i minutes ago", delta/60];
}
if (delta < 5400)
{
return @"an hour ago";
}
if (delta < 24 * 3600)
{
return [NSString stringWithFormat:@"%i hours ago", delta/3600];
}
if (delta < 48 * 3600)
{
return @"yesterday";
}
if (delta < 30 * 24 * 3600)
{
return [NSString stringWithFormat:@"%i days ago", delta/(24*3600)];
}
if (delta < 12 * 30 * 24 * 3600)
{
int months = delta/(30*24*3600);
return months <= 1 ? @"one month ago" : [NSString stringWithFormat:@"%i months ago", months];
}
else
{
int years = delta/(12*30*24*3600);
return years <= 1 ? @"one year ago" : [NSString stringWithFormat:@"%i years ago", years];
}
``````

}

-
add comment

Is there an easy way to do this in Java? The `java.util.Date` class seems rather limited.

Here is my quick and dirty Java solution:

``````import java.util.Date;
import javax.management.timer.Timer;

String getRelativeDate(Date date) {
long delta = new Date().getTime() - date.getTime();
if (delta < 1L * Timer.ONE_MINUTE) {
return toSeconds(delta) == 1 ? "one second ago" : toSeconds(delta) + " seconds ago";
}
if (delta < 2L * Timer.ONE_MINUTE) {
return "a minute ago";
}
if (delta < 45L * Timer.ONE_MINUTE) {
return toMinutes(delta) + " minutes ago";
}
if (delta < 90L * Timer.ONE_MINUTE) {
return "an hour ago";
}
if (delta < 24L * Timer.ONE_HOUR) {
return toHours(delta) + " hours ago";
}
if (delta < 48L * Timer.ONE_HOUR) {
return "yesterday";
}
if (delta < 30L * Timer.ONE_DAY) {
return toDays(delta) + " days ago";
}
if (delta < 12L * 4L * Timer.ONE_WEEK) { // a month
long months = toMonths(delta);
return months <= 1 ? "one month ago" : months + " months ago";
}
else {
long years = toYears(delta);
return years <= 1 ? "one year ago" : years + " years ago";
}
}

private long toSeconds(long date) {
return date / 1000L;
}

private long toMinutes(long date) {
return toSeconds(date) / 60L;
}

private long toHours(long date) {
return toMinutes(date) / 60L;
}

private long toDays(long date) {
return toHours(date) / 24L;
}

private long toMonths(long date) {
return toDays(date) / 30L;
}

private long toYears(long date) {
return toMonths(date) / 365L;
}
``````
-
add comment

Given the world and her husband appear to be posting code samples, here is what I wrote a while ago, based on a couple of these answers.

I had a specific need for this code to be localisable. So I have two classes — `Grammar`, which specifies the localisable terms, and `FuzzyDateExtensions`, which holds a bunch of extension methods. I had no need to deal with future datetimes, so no attempt is made to handle them with this code.

I've left some of the XMLdoc in the source, but removed most (where they'd be obvious) for brevity's sake. I've also not included every class member here:

``````public class Grammar
{
/// <summary> Gets or sets the term for "just now". </summary>
public string JustNow { get; set; }
/// <summary> Gets or sets the term for "X minutes ago". </summary>
/// <remarks>
///     This is a <see cref="String.Format"/> pattern, where <c>{0}</c>
///     is the number of minutes.
/// </remarks>
public string MinutesAgo { get; set; }
public string OneHourAgo { get; set; }
public string HoursAgo { get; set; }
public string Yesterday { get; set; }
public string DaysAgo { get; set; }
public string LastMonth { get; set; }
public string MonthsAgo { get; set; }
public string LastYear { get; set; }
public string YearsAgo { get; set; }
/// <summary> Gets or sets the term for "ages ago". </summary>
public string AgesAgo { get; set; }

/// <summary>
///     Gets or sets the threshold beyond which the fuzzy date should be
///     considered "ages ago".
/// </summary>
public TimeSpan AgesAgoThreshold { get; set; }

/// <summary>
///     Initialises a new <see cref="Grammar"/> instance with the
///     specified properties.
/// </summary>
private void Initialise(string justNow, string minutesAgo,
string oneHourAgo, string hoursAgo, string yesterday, string daysAgo,
string lastMonth, string monthsAgo, string lastYear, string yearsAgo,
string agesAgo, TimeSpan agesAgoThreshold)
{ ... }
}
``````

The `FuzzyDateString` class contains:

``````public static class FuzzyDateExtensions
{
public static string ToFuzzyDateString(this TimeSpan timespan)
{
return timespan.ToFuzzyDateString(new Grammar());
}

public static string ToFuzzyDateString(this TimeSpan timespan,
Grammar grammar)
{
return GetFuzzyDateString(timespan, grammar);
}

public static string ToFuzzyDateString(this DateTime datetime)
{
return (DateTime.Now - datetime).ToFuzzyDateString();
}

public static string ToFuzzyDateString(this DateTime datetime,
Grammar grammar)
{
return (DateTime.Now - datetime).ToFuzzyDateString(grammar);
}

private static string GetFuzzyDateString(TimeSpan timespan,
Grammar grammar)
{
timespan = timespan.Duration();

if (timespan >= grammar.AgesAgoThreshold)
{
return grammar.AgesAgo;
}

if (timespan < new TimeSpan(0, 2, 0))    // 2 minutes
{
return grammar.JustNow;
}

if (timespan < new TimeSpan(1, 0, 0))    // 1 hour
{
return String.Format(grammar.MinutesAgo, timespan.Minutes);
}

if (timespan < new TimeSpan(1, 55, 0))    // 1 hour 55 minutes
{
return grammar.OneHourAgo;
}

if (timespan < new TimeSpan(12, 0, 0)    // 12 hours
&& (DateTime.Now - timespan).IsToday())
{
return String.Format(grammar.HoursAgo, timespan.RoundedHours());
}

if ((DateTime.Now.AddDays(1) - timespan).IsToday())
{
return grammar.Yesterday;
}

if (timespan < new TimeSpan(32, 0, 0, 0)    // 32 days
&& (DateTime.Now - timespan).IsThisMonth())
{
return String.Format(grammar.DaysAgo, timespan.RoundedDays());
}

if ((DateTime.Now.AddMonths(1) - timespan).IsThisMonth())
{
return grammar.LastMonth;
}

if (timespan < new TimeSpan(365, 0, 0, 0, 0)    // 365 days
&& (DateTime.Now - timespan).IsThisYear())
{
return String.Format(grammar.MonthsAgo, timespan.RoundedMonths());
}

if ((DateTime.Now - timespan).AddYears(1).IsThisYear())
{
return grammar.LastYear;
}

return String.Format(grammar.YearsAgo, timespan.RoundedYears());
}
}
``````

One of the key things I wanted to achieve, as well as localisation, was that "today" would only mean "this calendar day", so the `IsToday`, `IsThisMonth`, `IsThisYear` methods look like this:

``````    public static bool IsToday(this DateTime date)
{
return date.DayOfYear == DateTime.Now.DayOfYear && date.IsThisYear();
}
``````

and the rounding methods are like this (I've included `RoundedMonths`, as that's a bit different):

``````    public static int RoundedDays(this TimeSpan timespan)
{
return (timespan.Hours > 12) ? timespan.Days + 1 : timespan.Days;
}

public static int RoundedMonths(this TimeSpan timespan)
{
DateTime then = DateTime.Now - timespan;

// Number of partial months elapsed since 1 Jan, AD 1 (DateTime.MinValue)
int nowMonthYears = DateTime.Now.Year * 12 + DateTime.Now.Month;
int thenMonthYears = then.Year * 12 + then.Month;

return nowMonthYears - thenMonthYears;
}
``````

I hope people find this useful and/or interesting :o)

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using Fluent DateTime https://github.com/FluentDateTime

``````        var dateTime1 = 2.Hours().Ago();
var dateTime2 = 3.Days().Ago();
var dateTime3 = 1.Months().Ago();
var dateTime4 = 5.Hours().FromNow();
var dateTime5 = 2.Weeks().FromNow();
var dateTime6 = 40.Seconds().FromNow();
``````
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In PHP, I do it this way:

``````<?php
function timesince(\$original) {
// array of time period chunks
\$chunks = array(
array(60 * 60 * 24 * 365 , 'year'),
array(60 * 60 * 24 * 30 , 'month'),
array(60 * 60 * 24 * 7, 'week'),
array(60 * 60 * 24 , 'day'),
array(60 * 60 , 'hour'),
array(60 , 'minute'),
);

\$today = time(); /* Current unix time  */
\$since = \$today - \$original;

if(\$since > 604800) {
\$print = date("M jS", \$original);

if(\$since > 31536000) {
\$print .= ", " . date("Y", \$original);
}

return \$print;
}

// \$j saves performing the count function each time around the loop
for (\$i = 0, \$j = count(\$chunks); \$i < \$j; \$i++) {

\$seconds = \$chunks[\$i][0];
\$name = \$chunks[\$i][1];

// finding the biggest chunk (if the chunk fits, break)
if ((\$count = floor(\$since / \$seconds)) != 0) {
break;
}
}

\$print = (\$count == 1) ? '1 '.\$name : "\$count {\$name}s";

return \$print . " ago";

} ?>
``````
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I thought I'd give this a shot using classes and polymorphism. I had a previous iteration which used sub-classing which ended up having way too much overhead. I've switched to a more flexible delegate / public property object model which is significantly better. My code is very slightly more accurate, I wish I could come up with a better way to generate "months ago" that didn't seem too over-engineered.

I think I'd still stick with Jeff's if-then cascade because it's less code and it's simpler (it's definitely easier to ensure it'll work as expected).

For the below code PrintRelativeTime.GetRelativeTimeMessage(TimeSpan ago) returns the relative time message (e.g. "yesterday").

``public class RelativeTimeRange : IComparable{    public TimeSpan UpperBound { get; set; }    public delegate string RelativeTimeTextDelegate(TimeSpan timeDelta);    public RelativeTimeTextDelegate MessageCreator { get; set; }    public int CompareTo(object obj)    {        if (!(obj is RelativeTimeRange))        {            return 1;        }        // note that this sorts in reverse order to the way you'd expect,         // this saves having to reverse a list later        return (obj as RelativeTimeRange).UpperBound.CompareTo(UpperBound);    }}public class PrintRelativeTime{    private static List<RelativeTimeRange> timeRanges;    static PrintRelativeTime()    {        timeRanges = new List<RelativeTimeRange>{            new RelativeTimeRange            {                UpperBound = TimeSpan.FromSeconds(1),                MessageCreator = (delta) =>                 { return "one second ago"; }            },             new RelativeTimeRange            {                UpperBound = TimeSpan.FromSeconds(60),                MessageCreator = (delta) =>                 { return delta.Seconds + " seconds ago"; }            },             new RelativeTimeRange            {                UpperBound = TimeSpan.FromMinutes(2),                MessageCreator = (delta) =>                 { return "one minute ago"; }            },             new RelativeTimeRange            {                UpperBound = TimeSpan.FromMinutes(60),                MessageCreator = (delta) =>                 { return delta.Minutes + " minutes ago"; }            },             new RelativeTimeRange            {                UpperBound = TimeSpan.FromHours(2),                MessageCreator = (delta) =>                 { return "one hour ago"; }            },             new RelativeTimeRange            {                UpperBound = TimeSpan.FromHours(24),                MessageCreator = (delta) =>                 { return delta.Hours + " hours ago"; }            },             new RelativeTimeRange            {                UpperBound = TimeSpan.FromDays(2),                MessageCreator = (delta) =>                 { return "yesterday"; }            },             new RelativeTimeRange            {                UpperBound = DateTime.Now.Subtract(DateTime.Now.AddMonths(-1)),                MessageCreator = (delta) =>                 { return delta.Days + " days ago"; }            },             new RelativeTimeRange            {                UpperBound = DateTime.Now.Subtract(DateTime.Now.AddMonths(-2)),                MessageCreator = (delta) =>                 { return "one month ago"; }            },             new RelativeTimeRange            {                UpperBound = DateTime.Now.Subtract(DateTime.Now.AddYears(-1)),                MessageCreator = (delta) =>                 { return (int)Math.Floor(delta.TotalDays / 30) + " months ago"; }            },             new RelativeTimeRange            {                UpperBound = DateTime.Now.Subtract(DateTime.Now.AddYears(-2)),                MessageCreator = (delta) =>                 { return "one year ago"; }            },             new RelativeTimeRange            {                UpperBound = TimeSpan.MaxValue,                MessageCreator = (delta) =>                 { return (int)Math.Floor(delta.TotalDays / 365.24D) + " years ago"; }            }        };        timeRanges.Sort();    }    public static string GetRelativeTimeMessage(TimeSpan ago)    {        RelativeTimeRange postRelativeDateRange = timeRanges[0];        foreach (var timeRange in timeRanges)        {            if (ago.CompareTo(timeRange.UpperBound) <= 0)            {                postRelativeDateRange = timeRange;            }        }        return postRelativeDateRange.MessageCreator(ago);    }}``
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When you know the viewer's time zone, it might be clearer to use calendar days at the day scale. I'm not familiar with the .NET libraries so I don't know how you'd do that in C#, unfortunately.

On consumer sites, you could also be hand-wavier under a minute. "Less than a minute ago" or "just now" could be good enough.

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``````using System;
using System.Collections.Generic;
using System.Linq;

public static class RelativeDateHelper
{
private static Dictionary<double, Func<double, string>> sm_Dict = null;

private static Dictionary<double, Func<double, string>> DictionarySetup()
{
var dict = new Dictionary<double, Func<double, string>>();
dict.Add(0.75, (mins) => "less than a minute");
dict.Add(1.5, (mins) => "about a minute");
dict.Add(45, (mins) => string.Format("{0} minutes", Math.Round(mins)));
dict.Add(90, (mins) => "about an hour");
dict.Add(1440, (mins) => string.Format("about {0} hours", Math.Round(Math.Abs(mins / 60)))); // 60 * 24
dict.Add(2880, (mins) => "a day"); // 60 * 48
dict.Add(43200, (mins) => string.Format("{0} days", Math.Floor(Math.Abs(mins / 1440)))); // 60 * 24 * 30
dict.Add(86400, (mins) => "about a month"); // 60 * 24 * 60
dict.Add(525600, (mins) => string.Format("{0} months", Math.Floor(Math.Abs(mins / 43200)))); // 60 * 24 * 365
dict.Add(1051200, (mins) => "about a year"); // 60 * 24 * 365 * 2
dict.Add(double.MaxValue, (mins) => string.Format("{0} years", Math.Floor(Math.Abs(mins / 525600))));

return dict;
}

public static string ToRelativeDate(this DateTime input)
{
TimeSpan oSpan = DateTime.Now.Subtract(input);
double TotalMinutes = oSpan.TotalMinutes;
string Suffix = " ago";

if (TotalMinutes < 0.0)
{
TotalMinutes = Math.Abs(TotalMinutes);
Suffix = " from now";
}

if (null == sm_Dict)
sm_Dict = DictionarySetup();

return sm_Dict.First(n => TotalMinutes < n.Key).Value.Invoke(TotalMinutes) + Suffix;
}
}
``````

The same as another answer to this question but as an extension method with a static dictionary.

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Java for client-side gwt usage:

``````import java.util.Date;

public class RelativeDateFormat {

private static final long ONE_MINUTE = 60000L;
private static final long ONE_HOUR = 3600000L;
private static final long ONE_DAY = 86400000L;
private static final long ONE_WEEK = 604800000L;

public static String format(Date date) {

long delta = new Date().getTime() - date.getTime();
if (delta < 1L * ONE_MINUTE) {
return toSeconds(delta) == 1 ? "one second ago" : toSeconds(delta)
+ " seconds ago";
}
if (delta < 2L * ONE_MINUTE) {
return "one minute ago";
}
if (delta < 45L * ONE_MINUTE) {
return toMinutes(delta) + " minutes ago";
}
if (delta < 90L * ONE_MINUTE) {
return "one hour ago";
}
if (delta < 24L * ONE_HOUR) {
return toHours(delta) + " hours ago";
}
if (delta < 48L * ONE_HOUR) {
return "yesterday";
}
if (delta < 30L * ONE_DAY) {
return toDays(delta) + " days ago";
}
if (delta < 12L * 4L * ONE_WEEK) {
long months = toMonths(delta);
return months <= 1 ? "one month ago" : months + " months ago";
} else {
long years = toYears(delta);
return years <= 1 ? "one year ago" : years + " years ago";
}
}

private static long toSeconds(long date) {
return date / 1000L;
}

private static long toMinutes(long date) {
return toSeconds(date) / 60L;
}

private static long toHours(long date) {
return toMinutes(date) / 60L;
}

private static long toDays(long date) {
return toHours(date) / 24L;
}

private static long toMonths(long date) {
return toDays(date) / 30L;
}

private static long toYears(long date) {
return toMonths(date) / 365L;
}

}
``````
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You can reduce the server-side load by performing this logic client-side. View source on some Digg pages for reference. They have the server emit an epoch time value that gets processed by Javascript. This way you don't need to manage the end user's time zone. The new server-side code would be something like:

``````  public string GetRelativeTime(DateTime timeStamp)
{
return string.Format("<script>printdate({0});</script>", timeStamp.ToFileTimeUtc());
}
``````

You could even add a NOSCRIPT block there and just perform a ToString().

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you can try this.I think it will work correctly.

``````long delta = new Date().getTime() - date.getTime();
const int SECOND = 1;
const int MINUTE = 60 * SECOND;
const int HOUR = 60 * MINUTE;
const int DAY = 24 * HOUR;
const int MONTH = 30 * DAY;

if (delta < 0L)
{
return "not yet";
}
if (delta < 1L * MINUTE)
{
return ts.Seconds == 1 ? "one second ago" : ts.Seconds + " seconds ago";
}
if (delta < 2L * MINUTE)
{
return "a minute ago";
}
if (delta < 45L * MINUTE)
{
return ts.Minutes + " minutes ago";
}
if (delta < 90L * MINUTE)
{
return "an hour ago";
}
if (delta < 24L * HOUR)
{
return ts.Hours + " hours ago";
}
if (delta < 48L * HOUR)
{
return "yesterday";
}
if (delta < 30L * DAY)
{
return ts.Days + " days ago";
}
if (delta < 12L * MONTH)
{
int months = Convert.ToInt32(Math.Floor((double)ts.Days / 30));
return months <= 1 ? "one month ago" : months + " months ago";
}
else
{
int years = Convert.ToInt32(Math.Floor((double)ts.Days / 365));
return years <= 1 ? "one year ago" : years + " years ago";
}
``````
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Here's the algorithm stackoverflow uses but rewritten more concisely in perlish pseudocode with a bug fix (no "one hours ago"). The function takes a (positive) number of seconds ago and returns a human-friendly string like "3 hours ago" or "yesterday".

``````agoify(\$delta)
local(\$y, \$mo, \$d, \$h, \$m, \$s);
\$s = floor(\$delta);
if(\$s<=1)            return "a second ago";
if(\$s<60)            return "\$s seconds ago";
\$m = floor(\$s/60);
if(\$m==1)            return "a minute ago";
if(\$m<45)            return "\$m minutes ago";
\$h = floor(\$m/60);
if(\$h==1)            return "an hour ago";
if(\$h<24)            return "\$h hours ago";
\$d = floor(\$h/24);
if(\$d<2)             return "yesterday";
if(\$d<30)            return "\$d days ago";
\$mo = floor(\$d/30);
if(\$mo<=1)           return "a month ago";
\$y = floor(\$mo/12);
if(\$y<1)             return "\$mo months ago";
if(\$y==1)            return "a year ago";
return "\$y years ago";
``````
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``````var ts = new TimeSpan(DateTime.Now.Ticks - dt.Ticks);
``````
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@Jeff

var ts = new TimeSpan(DateTime.UtcNow.Ticks - dt.Ticks);

Doing a subtraction on `DateTime` returns a `TimeSpan` anyway.

So you can just do

``````(DateTime.UtcNow - dt).TotalSeconds
``````

I'm also surprised to see the constants multiplied-out by hand and then comments added with the multiplications in. Was that some misguided optimisation?

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There are also a package called Humanizer on Nuget and it actually works really well

``````DateTime.UtcNow.AddHours(-30).Humanize() => "yesterday"
DateTime.UtcNow.AddHours(-2).Humanize() => "2 hours ago"

DateTime.UtcNow.AddHours(30).Humanize() => "tomorrow"
DateTime.UtcNow.AddHours(2).Humanize() => "2 hours from now"

TimeSpan.FromMilliseconds(1299630020).Humanize() => "2 weeks"
TimeSpan.FromMilliseconds(1299630020).Humanize(3) => "2 weeks, 1 day, 1 hour"
``````

Scott Hanselman has a writeup on it on his blog

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Surely an easy fix to get rid of the '1 hours ago' problem would be to increase the window that 'an hour ago' is valid for. Change

``````if (delta < 5400) // 90 * 60
{
return "an hour ago";
}
``````

into

``````if (delta < 7200) // 120 * 60
{
return "an hour ago";
}
``````

This means that something that occurred 110 minutes ago will read as 'an hour ago' - this may not be perfect, but I'd say it is better than the current situation of '1 hours ago'.

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This, I got from one of Bill Gates' blog (no lie). I need to find it on my browser history and I'll give you the link.

The Javascript code to do the same thing (as requested):

``````function posted(t) {
var now = new Date();
var diff = parseInt((now.getTime() - Date.parse(t)) / 1000);
if (diff < 60) { return 'less than a minute ago'; }
else if (diff < 120) { return 'about a minute ago'; }
else if (diff < (2700)) { return (parseInt(diff / 60)).toString() + ' minutes ago'; }
else if (diff < (5400)) { return 'about an hour ago'; }
else if (diff < (86400)) { return 'about ' + (parseInt(diff / 3600)).toString() + ' hours ago'; }
else if (diff < (172800)) { return '1 day ago'; }
else {return (parseInt(diff / 86400)).toString() + ' days ago'; }
}
``````

Basically, you work in terms of seconds...

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I would provide some handy extensions methods for this and make the code more readable. First, couple of extension methods for `Int32`.

``````public static class TimeSpanExtensions {

public static TimeSpan Days(this int value) {

return new TimeSpan(value, 0, 0, 0);
}

public static TimeSpan Hours(this int value) {

return new TimeSpan(0, value, 0, 0);
}

public static TimeSpan Minutes(this int value) {

return new TimeSpan(0, 0, value, 0);
}

public static TimeSpan Seconds(this int value) {

return new TimeSpan(0, 0, 0, value);
}

public static TimeSpan Milliseconds(this int value) {

return new TimeSpan(0, 0, 0, 0, value);
}

public static DateTime Ago(this TimeSpan value) {

return DateTime.Now - value;
}
}
``````

Then, one for `DateTime`.

``````public static class DateTimeExtensions {

public static DateTime Ago(this DateTime dateTime, TimeSpan delta) {

return dateTime - delta;
}
}
``````

Now, you can do something like below:

``````var date = DateTime.Now;
date.Ago(2.Days()); // 2 days ago
date.Ago(7.Hours()); // 7 hours ago
date.Ago(567.Milliseconds()); // 567 milliseconds ago
``````
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``````public string getRelativeDateTime(DateTime date)
{
TimeSpan ts = DateTime.Now - date;
if (ts.TotalMinutes < 1)//seconds ago
return "just now";
if (ts.TotalHours < 1)//min ago
return (int)ts.TotalMinutes == 1 ? "1 Minute ago" : (int)ts.TotalMinutes + " Minutes ago";
if (ts.TotalDays < 1)//hours ago
return (int)ts.TotalHours == 1 ? "1 Hour ago" : (int)ts.TotalHours + " Hours ago";
if (ts.TotalDays < 7)//days ago
return (int)ts.TotalDays == 1 ? "1 Day ago" : (int)ts.TotalDays + " Days ago";
if (ts.TotalDays < 30.4368)//weeks ago
return (int)(ts.TotalDays / 7) == 1 ? "1 Week ago" : (int)(ts.TotalDays / 7) + " Weeks ago";
if (ts.TotalDays < 365.242)//months ago
return (int)(ts.TotalDays / 30.4368) == 1 ? "1 Month ago" : (int)(ts.TotalDays / 30.4368) + " Months ago";
//years ago
return (int)(ts.TotalDays / 365.242) == 1 ? "1 Year ago" : (int)(ts.TotalDays / 365.242) + " Years ago";
}
``````

Conversion values for days in a month and year were taken from Google.

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You can try using Period from Joda-time

``````String stdate = "01/01/2014 09:30:30";
String endate = "09/11/2015 11:30:30";
SimpleDateFormat df = new SimpleDateFormat("dd/MM/yyyy hh:mm:ss");
Date d1 = df.parse(stdate);
Date d2 = df.parse(endate);;

DateTime startTime = new DateTime(d1), endTime = new DateTime(d2);
Period p = new Period(startTime, endTime);
System.out.printf("%-8s %d %n","years:",p.getYears());
System.out.printf("%-8s %d %n","months:",p.getMonths());
System.out.printf("%-8s %d %n","weeks:",p.getWeeks());
System.out.printf("%-8s %d %n","days:",p.getDays());
System.out.printf("%-8s %d %n","hours:",p.getHours());
System.out.printf("%-8s %d %n","minutes:",p.getMinutes());
System.out.printf("%-8s %d %n","second:",p.getSeconds());
``````

Output:

``````years:   1
months:  10
weeks:   1
days:    1
hours:   2
minutes: 0
second:  0
``````

Update:

To answer your original question: Just like you are subtracting days that already belongs to `year` from `diff` to calculate months, you need to subtract

• sum of days used on `year` and `month` to calculate `weeks`
• sum of days which already belong to year, month, week if you want to calculate `days`

so your code can look like

``````long diffYear = diff / year;
long diffMonth = (diff - (diffYear * year)) / month;
//long diffWeeks= ((diff % month)) / weeks;
long diffWeeks = (diff - (diffYear * year + diffMonth * month)) / weeks;
//long diffDays = ((diff % weeks)) / days;
long diffDays = (diff - (diffYear * year + diffMonth * month + diffWeeks*weeks)) / days;//((diff % weeks)) / days;
``````

WARNING: This way of calculating days or weeks will treat each month as 30 days, which is not always true, because there can be also 28,29,30,31 day months. That is why instead of `1` day you will see `5`.

WARNING 2: Instead of `1000*60*60*24*365l` which for larger numbers can cause integer overflow (first numbers used are integers) you should use `1000L*60*60*24*365`. So

• change `l` to `L` because `l` looks like `1` so it can be confusing,
• start multiplying with `long`.

To make things easier you can even write it as

``````long seconds = 1000L;
long minutes = seconds * 60;
long hours = minutes * 60;
long days = hours * 24;
long weeks = days * 7;
long month = days * 30;
long year = days * 365;
``````
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## protected by Tim Post♦Feb 16 '11 at 13:14

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