public String DayOfWeek()
//Im using the guassian algorithm for finding day of the week
cc = year/100;
yy = year - ((year/100)*100);
c = (cc/4) - 2*cc-1;
y = 5*yy/4;
m = 26*(month+1)/10;
d = day;
dayofweek = (c+y+m+d)%7;
case 0: dayString = "Sunday";
case 1: dayString = "Monday";
case 2: dayString = "Tuesday";
case 3: dayString = "Wednesday";
case 4: dayString = "Thursday";
case 5: dayString = "Friday";
case 6: dayString = "Saturday";
default: dayString = "Sorry Could not compute month :(";
The code above is written in Java
not sure why it works but i found that algorithm deep in the bowels of a Google search and quickly jumped on it for my project. what you see above is a method i had to write for a project i was doing in my java class in college, so it was written by me, but the algorithm is not my own.
this method is guaranteed to work 100% if the time, i've tried multiple days throughout history and looked them up to confirm the correct answer was the one that was found by this method.
Let the date be DD/MM/CCYY (european format), where DD is the day of
the month, MM is the month, CC the century-digits and YY the year
within the century. So Wilma's birthday was 23/06/1994. Starting with
the century CC-digits, calculate CC/4 - 2*CC-1 and remember the
result. With all divisions in this exercise, discard any remainder and
just keep the whole part. So, in our example, this is 19/4=4 minus
2*19=38 minus 1, giving minus 35.
Now, using the year YY,
calculate 5*YY/4. In this example that's 5*94 = 470/4 = 117,
discarding the remainder. Adding this to our existing result gives
117-35 = 82.
Using the month MM, calculate 26*(MM+1)/10. In
our example this is 26*7 = 182 / 10 = 18, again discarding the
remainder. Add this to our running total giving 82+18 = 100.
Finally just add the day DD. Here 100 + 23 = 123.
the result by 7, just keeping the remainder; here 123(mod 7) = 4.
Counting Sunday as zero, Monday = 1 etc, we get 4 = Thursday. Easy,
when you know how :-)
The algorithm is attributed to Gauss.
Yes, I do know that Jews and Muslims etc have different calenders and
I do know about the various calender reforms, so this only applies to
the modern Christian-based standardised dates, don't go using it to
check the day of Christ's crucifixion (-fiction?) or even Chaucer's
If you can't do this as mental arithmetic (thus
winning beers in the pub) feel free to use pencil and paper (or a