# Determine Leap Year

here is my requirements and I need to know if i did right? Determine If a Year Is a Leap Year Algorithm  If the year can be evenly divided by 4, then it is a leap year o Except when the year can be evenly divided by 100, then it is not a leap year  Except when the year can be evenly divided by 400, then it is a leap year  Otherwise, it is not a leap year

``````private static boolean isLeapYear(int userInput){
boolean leapYear= false;

if (userInput % 4 == 0 ){
leapYear = true;

if (userInput % 4 == 0 && userInput % 100 ==0) {
leapYear = false;

if(userInput % 400 == 0){
leapYear = true;
}
}
}
else {
leapYear = false;
}

return leapYear;
}
``````

`userInput % 4 == 0 && userInput % 100 ==0` is equivalent to `userInput % 400 == 0`

and `userInput % 4 == 0` then it is definitely Leap year so need not to check any other condition.

• Actually, it's equivalent to userInput % 100 == 0 – DarenW Oct 19 '12 at 4:36
• I mean to say 4 * 100 = 400, which is same as `userInput % 4 == 0 && userInput % 100 ==0` – Tribhuwan Oct 19 '12 at 4:54
• @Tribhuwan DarenW is correct. Your answer is incorrect. – David K Mar 25 '15 at 21:07

I used this one in C++.

return ((userInput % 400) || ((userInput % 4) && !(userInput % 100)));

Better use this condition for a valid leap year
`(((year%4 == 0) && (year%100 !=0)) || (year%400==0))`

Here is a similar C program to check leap year.

Correct! Simplified:

1. Remove `year % 4` from 2nd `if` bc already tested in 1st `if`
2. Remove `else` bc already set `leap = False` at top

Python:

``````def is_leap(year):
leap = False

if year % 4 == 0:
leap = True

if year % 100 == 0:
leap = False

if year % 400 == 0:
leap = True

return leap
``````

1-Line:

``````def is_leap(year):
return year % 4 == 0 and year % 100 != 0 or year % 400 == 0
``````

I used this short method:

``````private static Boolean isLeapYear(int year) {
return year % 4 == 0 ? (year % 100 == 0 ? ( year % 400 == 0 ? true : false) : true) : false ;
}
``````
``````year = int(input("Enter year to determine if it is a leap year"))

def leap_year(year):
"""This is a function to determine if a year
is a leap year"""
if year%4==0 and year%100!=0:
print("This is a Leap year")
if year%400==0:
print ("This is a Leap year")
else:
print ("This is not a leap year")

leap_year(year)
``````
• While this code may answer the question, providing additional context regarding why and/or how this code answers the question improves its long-term value. – adiga Apr 5 at 7:34

From 1700 to 1917, official calendar was the Julian calendar. Since then they we use the Gregorian calendar system. The transition from the Julian to Gregorian calendar system occurred in 1918, when the next day after January 31st was February 14th. This means that 32nd day in 1918, was the February 14th.

In both calendar systems, February is the only month with a variable amount of days, it has 29 days during a leap year, and 28 days during all other years. In the Julian calendar, leap years are divisible by 4 while in the Gregorian calendar, leap years are either of the following:

Divisible by 400.

Divisible by 4 and not divisible by 100.

So the program for leap year will be:

``````def leap_notleap(year):

yr = ''
if year <= 1917:
if year % 4 == 0:
yr = 'leap'
else:
yr = 'not leap'
elif year >= 1919:
if (year % 400 == 0) or (year % 4 == 0 and year % 100 != 0):
yr = 'leap'
else:
yr = 'not leap'
else:
yr = 'none actually, since feb had only 14 days'

return yr
``````