If the size of the list is computable, it's really just a matter of how much memory you have available, how long it's supposed to take and how simple the algorithm is supposed to be.
Basically, you can just add everything up and divide by the size.
If you don't have enough memory, dividing first might work (Note that you will probably lose some precision that way).
Another approach would be to recursively split the list into 2 halves and calculating the mean of the sublists' means. Your recursion termination condition is a list size of 1, in which case the mean is simply the only element of the list. If you encounter a list of odd size, make either the first or second sublist longer, this is pretty much arbitrary and doesn't even have to be consistent.
If, however, you list is so giant that its size can't be computed, there's no way to split it into 2 sublists. In that case, the recursive approach works pretty much the other way around. Instead of splitting into 2 lists with
n/2 elements, you split into
n/2 lists with 2 elements (or rather, calculate their mean immediately). So basically, you calculate the mean of elements 1 and 2, that becomes you new element 1. the mean of 3 and 4 is your new second element, and so on. Then apply the same algorithm to the new list until only 1 element remains. If you encounter a list of odd size, either add an element at the end or ignore the last one. If you add one, you should try to get as close as possible to your expected mean.
While this won't calculate the mean mathematically exactly, for lists of that size, it will be sufficiently close. This is pretty much a
mean of means approach. You could also go the
median of medians route, in which case you select the median of sublists recursively. The same principles apply, but you will generally want to get an odd number.
You could even combine the approaches and calculate the mean if your list is of even size and the median if it's of odd size. Doing this over many recursion steps will generate a pretty accurate result.