What does n mean in big-oh complexity?

Question

In Big-Oh notation, what does n mean? I've seen input size and length of a vector. If it's input size, does it mean memory space on the computer? I see n often interchangeably used with input size.

Examples of Big-Oh,

O(n) is linear running time
O(logn) is logarithmic running time.

A code complexity analysis example, (I'm changing input n to m)

def factorial(m):
   product = 1
   for i in range(1, m+1):
      product = product*i
   return product

This is O(n). What does n mean? Is it how much memory it takes? Maybe n mean number of elements in a vector? Then, how do you explain when n=3, a single number?

Answer 1

When somebody says O(n), the n can refer to different things depending on context. When it isn't obvious what n refers to, people ideally point it out explicitly, but several conventions exist:

1. When the name of the variable(s) used in the O-notation also exist in the code, they almost certainly refer to the value of the variable with that name (if they refer to anything else, that should be pointed out explicitly). So in your original example where you had a variable named n, O(n) would refer to that variable.
2. When the code does not contain a variable named n and n is the only variable used in the O notation, n usually refers to the total size of the input.
3. When multiple variables are used, starting with n and then continuing the alphabet (e.g. O(n*m)), n usually refers to the size of the first parameter, m the second and so on. However, in my opinion, it's often clearer to use something like | | or len( ) around the actual parameter names instead (e.g. O(|l1| * |l2|) or O(len(l1) * len(l2)) if your parameters are called l1 and l2).
4. In the context of graph problems v is usually used to refer to the number of vertices and e to the number of edges.

In all other cases (and also in some of the above cases if there is any ambiguity), it should be explicitly mentioned what the variables mean.

In your original code you had a variable named n, so the statement "This is O(n)" almost certainly referred to the value of the parameter n. If we further assume that we're only counting the number of multiplications or the number of times the loop body executes (or we measure the time and pretend that multiplication takes constant time), that statement is correct.

In your edited code, there is no longer a variable named n. So now the statement "This is O(n)" must refer to something else. Usually one would then assume that it refers to the size of the input (which would be the number of bits in m, i.e. log m). But then the statement is blatantly false (it'd be O(2^n), not O(n)), so the original statement clearly referred to the value of n and you broke it by editing the code.

Answer 2

n usually means amount of input data.

For example, take an array of 10 elements. To iterate all elements you will need ten iterations. n is 10 in this case.

In your example n is also value which describes size of input data. As you can see your factorial implementation will require n+1 iterations so the asymptotic complexity for this implementation is around O(n) (NOTE: I omitted 1 since it doesn't change picture a lot). If you will increase passed variable n to your function it will require more iteration to perform for calculating result.

Answer 3

O(1) describes an algorithm that will always execute in the same time (or space) regardless of the size of the input data set.

O(N) describes an algorithm whose performance will grow linearly and in direct proportion to the size of the input data set.

O(N2) represents an algorithm whose performance is directly proportional to the square of the size of the input data set. This is common with algorithms that involve nested iterations over the data set.

O(2N) denotes an algorithm whose growth doubles with each additon to the input data set.

and as yivo said, n means amount of input data.

I hope this helps.