# Split down a number in seconds to days, hours, minutes, and seconds?

I've heard that it's possible to accomplish this using the modulus `%` operator present in most programming languages. The real question is, how? I'm unfamiliar with how modulus works, so I've had difficulties using it in the past. Given the present time here in seconds since 1970, `1307758473.484`, how can I calculate how many years that is, days that is, hours that is, and minutes that is using modulus?

I'm essentially looking to format it like this: "5 years, 10 days, 12 hours, 7 minutes, and 18.56 seconds". How would I do this? I'm really interested in learning the logic behind this and not interested in a simple drop-in solution.

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When you do integer division, you get quotient and remainder. For example,

``````5 divided by 3 is quotient 1 with remainder 2.
``````

In programming languages, this is usually expressed as:

``````5 / 3   # => 1
5 % 3   # => 2
``````

The conversion you want is just a repeatation of this. It's easier to to start from the lower unit and go higher on.

First, you have

• `1307758473.484 seconds`

Since 60 seconds is 1 minute, and

``````1307758473.484 / 60 = 21795974  (intended to be integer division)
1307758473.484 % 60 = 33.484,
``````

it is the same as

• `21795974 minutes 33.484 seconds`

Since 60 minutes is 1 hour, and

``````21795974 / 60 = 363266
21795974 % 60 = 14
``````

it is further the same as

• `363266 hours 14 minutes 33.484 seconds`

Now, there is a little bit of difficulty. Most days are 24 hours. When there is a leap second, it is not. If you ignore leap seconds and assume 1 day is 24 hours, then, by doing the calculation,

``````363266 / 24 = 15136
363266 % 24 = 2
``````

it is further the same as

• `15136 days 2 hours 14 minutes 33.484 seconds`.

Similarly, Most years are 365 days. When there is a leap day (year), it is not. If you ignore leap days and assume that 1 year is 365 days, then by doing the calculation,

``````15136 / 365 = 41
15136 % 365 = 171
``````

it is further the same as

• `41 years 171 days 2 hours 14 minutes 33.483 seconds`
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Modulus returns the remainder when performing integer division.

I think its easiest to understand how to use Mod by working backwards through a problem first.

Lets start simple with hours, minutes and seconds - 1 hour, 10 minutes and 30 seconds to be precise.

First, you have 30 seconds. This is easy - it's just 30. No brainer. Now add minutes - to determine minutes as seconds you multiply them times 60. Thus 10 minutes and 30 seconds = 630 seconds.

Now we see how mod works - because if you divide 630 by 60 you get 10.5 but if you ignore the fraction (whole integer division) you get 10. The remainder is the seconds.

So if you MOD 630 by 60 you get 30 - the remainder left over when dividing 630 by 30.

So to determine minutes and seconds, divide by 60 for the minutes, and mod by 60 for the seconds.

Now add an hour. One hour = 60 minutes and 60 minutes is 60*60 seconds so 1 hour = 3600 seconds. 3600 + 600 + 30 = 4230 seconds.

4230 / 3600 (1 hour) = 1 - so we have one hour

4230 % (mod) 3600 = 630 - grab this and now we process for minutes.

So if you flesh this out further and add a day - 1 day = 24 hours = 24*3600 = 86400 86400+3600+600+30 = 90630

90630 / 86400 = 1 -> 1 day

90630 % 86400 = 4230 -> seconds left over

4230 / 3600 = 1 -> 1 hour

and repeat the above logic.

Hope that helps clear it up - you keep repeating that iteration further and you can do weeks and years, but months are special since they're irregular, and so are leap years.

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Good answer. @TK, compare this with making change and converting a number from base x to base y. There's a common pattern here. –  Charlie Martin Jun 11 '11 at 2:40