This is a standard problem in streaming algorithms (where you have a huge (potentially infinite) stream of data) and you have to calculate some statistics from this stream, passing through this stream once.
Clearly you can approach it with hashing or sorting, but with potentially infinite stream you clearly run out of memory. So you have to do something smart here.
The majority element is the element that occurs more than half of the size of the array. This means that the majority element occurs more than all other elements combined or if you count the number of times, majority element appears, and subtract the number of all other elements, you will get a positive number.
So if you count the number of some element, and subtract the number of all other elements and get the number 0 - then your original element can't be a majority element. This if the basis for a correct algorithm:
Have two variables, counter and possible element. Iterate the stream, if the counter is 0 - your overwrite the possible element and initialize the counter, if the number is the same as possible element - increase the counter, otherwise decrease it. Python code:
counter, possible_element = 0, None
for i in arr:
if counter == 0:
possible_element, counter = i, 1
elif i == possible_element:
counter += 1
counter -= 1
It is clear to see that the algorithm is
O(n) with a very small constant before
O(n) (like 3). Also it looks like the space complexity is
O(1), because we have only three variable initialized. The problem is that one of these variables is a counter which potentially can grow up to
n (when the array consists of the same numbers). And to store the number
n you need
O(log (n)) space. So from theoretical point of view it is
O(n) time and
O(log(n)) space. From practical, you can fit 2^128 number in a longint and this number of elements in the array is unimaginably huge.
Also note that the algorithm works only if there is a majority element. If such element does not exist it will still return some number, which will surely be wrong. (it is easy to modify the algorithm to tell whether the majority element exists)
History channel: this algorithm was invented somewhere in 1982 by Boyer, Moore and called Boyer–Moore majority vote algorithm.