# C#: decrementing a clock using modulus math

Trying to emulate the rollover of a 24 hour clock by hand (with math vs. using the timespan classes). The incrementing part was easy to figure out how to roll over from 23:00 to 0:00 and from, but getting it to go the other way is turning out to be really confusing. Here's what I have so far:

``````static void IncrementMinute(int min, int incr)
{
int newMin = min + incr,
hourIncrement = newMin / 60;

//increment or decrement the hour
if((double)newMin % 60 < 0 && (double)newMin % 60 > -1)
hourIncrement = -1;

Console.WriteLine("Hour increment is {0}: ", hourIncrement);
}
``````

The problem that im finding is when going backwards, if the the modulus of is between numbers, it will not decrement correctly. Example: it is 12:00 and you subtract 61 minutes, we know the time would be 10:59 as the hour should roll back 1 hour for going from 12:00 to 11:59, then back again for going from 11:00 to 10:59. Unfortunately the way im calculating it: newMin % 60 in this case, only grabs the first hour rollback, but since the second rollback is technically -1.0166 as a remainder, and since mod only returns a whole number, its rounding off. Im sure im missing some basic math here, but could someone help me out?

EDIT: I've written this a number of ways long and short. Some are closer than others, but I know this is simpler than it seems. I know this one seems kinda "wtf was he doing", but you should be able to see basically what Im trying to do. Incrementing a clock and having it rollover from 23:59 to 0:00 is easy. Going backwards has proven to be not so easy.

OK, here's the incrementMinute with the rollover. Simple. But try to go backwards. Doesn't work.

``````static void IncrementMinute(int min, int incr)

{
int newMin = min + incr,
hourIncrement = newMin / 60;

min = newMin % 60;

Console.WriteLine("The new minute is {0} and the hour has incremented by {1}", min, hourIncrement);
}
``````
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Could you add a little bit more details to this, in particular a usage example and expected state of the global variable? –  steinar Nov 21 '10 at 0:33
What values do `min` and `incr` have? –  ChrisF Nov 21 '10 at 0:36
I believe i did give those examples. Basically, how do i code the decrement to have 12:00 - 0:61 = 10:59 and have it work for increments as well. –  Sinaesthetic Nov 21 '10 at 0:36
What's with the comma after incr in 3rd line? –  gligoran Nov 21 '10 at 0:37
What about just simple addition/subtraction; Worked for my clock. –  anon271334 Nov 21 '10 at 0:38

I'd go for something a bit simpler

``````public class Clock
{
public const int HourPerDay = 24;
public const int MinutesPerHour = 60;
public const int MinutesPerDay = MinutesPerHour * HourPerDay;

private int totalMinutes;

public int Minute
{
get { return this.totalMinutes % MinutesPerHour; }
}

public int Hour
{
get { return this.totalMinutes / MinutesPerHour; }
}

{
this.totalMinutes += minutes;
this.totalMinutes %= MinutesPerDay;
if (this.totalMinutes < 0)
this.totalMinutes += MinutesPerDay;
}

{
}

public override string ToString()
{
return string.Format("{0:00}:{1:00}", this.Hour, this.Minute);
}
}
``````

Sample usage :

``````new Clock().AddMinutes(-1);    // 23:59
``````
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In your AddMinutes function: s/if/while/, in case the user adds more than one day's worth of negative minutes. –  jtdubs Nov 22 '10 at 1:43
@jtdubs, `this.totalMinutes %= MinutesPerDay;` takes care of that ;) –  Diadistis Nov 22 '10 at 9:37
@Sinaesthetic, if you're going to use this class, keep in mind that it's not thread safe. –  Diadistis Nov 22 '10 at 10:02

You might try calculating both minute and hour increments first, then handling cases where the new minutes crosses an hour boundary, something like this:

``````int hourIncrement = incr / 60;
int minIncrement = incr % 60;

int newMin = min + minIncrement;

if (newMin < 0)
{
newMin += 60;
hourIncrement--;
}
else if (newMin > 60)
{
newMin -= 60;
hourIncrement++;
}
``````

Edit

I like @Ben Voigts answer, but was wondering if there would be any difference in performance. I ran the console application below to time them both, and was a little surprised by the results.

• 40 ms for the code above
• 2876 ms for Ben's answer

This was done in a release build. Can anyone else run this and confirm? Am I making any mistakes in the way I time them?

``````using System;
using System.Diagnostics;

namespace ConsoleApplication1
{
class Program
{
static void Main(string[] args)
{
Stopwatch sw = new Stopwatch();

int max = 100000000;

sw.Start();
for (int i = 0; i < max; i++)
IncrementMinute1(0, -61);
sw.Stop();

Console.WriteLine("IncrementMinute1: {0} ms", sw.ElapsedMilliseconds);

sw.Reset();

sw.Start();
for (int i = 0; i < max; i++)
IncrementMinute2(0, -61);
sw.Stop();

Console.WriteLine("IncrementMinute2: {0} ms", sw.ElapsedMilliseconds);

}

static void IncrementMinute1(int min, int incr)
{
int hourIncrement = incr / 60;
int minIncrement = incr % 60;

int newMin = min + minIncrement;

if (newMin < 0)
{
newMin += 60;
hourIncrement--;
}
else if (newMin > 60)
{
newMin -= 60;
hourIncrement++;
}
}

static void IncrementMinute2(int min, int incr)
{
min += incr;
int hourIncrement = (int)Math.Floor(min / 60.0);
min -= hourIncrement * 60;
}
}
}
``````
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at first glance, this wouldnt work if you went more than one hour backwards. This is kind of where i was at about an hour ago :( –  Sinaesthetic Nov 21 '10 at 0:57
@Sinaesthetic, maybe I'm misunderstanding, but if I start with `min == 0` and `incr = -121`, I get `newMin == 59`, and `hourIncrement == -3`. Is that incorrect? –  adrift Nov 21 '10 at 1:06
@adrift: It looks to me like it should work, but it's more complicated than necessary. –  Ben Voigt Nov 21 '10 at 1:16
AH! i missed part of this, this seems to work correctly! Standby... –  Sinaesthetic Nov 21 '10 at 1:25
for max = 1000000 : IncrementMinute1: 1345 ms, IncrementMinute2: 1767 ms –  Diadistis Nov 21 '10 at 5:04

Modular mathematics is only defined for the integers. If you are attempting to mix modular arithmetic with real numbers you will not succeed. You need to figure out a different mathematical approach.

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the real number casting was just to enter the control structure. I was trying to make sure that it would subtract at least 1 hour, but I found out that it would cause problems with next decrement if it was less than 1 full hour. confusing... –  Sinaesthetic Nov 21 '10 at 0:43
yes, but conceptually you want that remainder. It isn't going to happen using modular arithmetic unless you separate the hours and minutes before applying modulus. –  Jeremy Petzold Nov 21 '10 at 0:55
the hours and minutes are separated before applying the modulus. –  Sinaesthetic Nov 21 '10 at 1:00

Try

``````        int newMin = min + incr,
hourIncrement = (int)Math.Floor(newMin / 60.0);

min -= hourIncrement * 60;
``````

The essential problem was that you want `hourIncrement` to round down, but integer division rounds toward zero. They're the same with positive numbers, but not for negative...

EDIT (getting rid of useless extra variable):

``````    min += incr;
int hourIncrement = (int)Math.Floor(min / 60.0);
min -= hourIncrement * 60;
``````

EDIT2 (avoid floating-point arithmetic):

``````    min += incr;
int hourIncrement = min / 60;
min -= hourIncrement * 60;
if (min < 0) { min += 60; --hourIncrement; }
``````
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ok Math.Floor is what I was looking for. Doesn't solve the minute rollback, but it got the part that i was struggling on the most. I THINK i can get it from here thanks. –  Sinaesthetic Nov 21 '10 at 1:06
I provided code to take care of the minute rollback, but got mixed up by the fact you weren't actually putting the new minute in `newMin`. See ideone.com/i3Yom –  Ben Voigt Nov 21 '10 at 1:13

Why to complicate things

``````public System.Timers.Timer timer = new System.Timers.Timer(1000);
public DateTime d;

public void init()
{
timer.Elapsed += new System.Timers.ElapsedEventHandler(timer_Elapsed);

d = new DateTime(2011, 11, 11, 23, 59, 50);
Console.Writeline(d);
Console.Writeline(d);
timer.Enabled = true;
}
void timer_Elapsed(object sender, System.Timers.ElapsedEventArgs e)
{
this.Dispatcher.Invoke(DispatcherPriority.Normal, (Action)(() =>
{
MoveClockHands();
Console.WriteLine(d);

}));
}

void MoveClockHands()  //12 hours clock
(
s=d.Second * 6;
m=d.Minute * 6;
h=0.5 * ((d.Hour % 12) * 60 + d.Minute)
}
``````
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