I'm having trouble determining the Big-O running time for the following type of code:
typedef map<string, vector<string> >::iterator MapIter;
while(!myMap.empty()) {
for(MapIter it = myMap.begin(); it != myMap.end(); it++) {
// if it->first is the key for the pairing I want to remove
// then erase it
break;
}
}
The code here really isn't super important, my complete code works fine, I'm just trying to determine the Big-O analysis. What particularly confuses me is that I'm iterating through the map n
times, then n-1
times, and so on until the map is empty. Would this take O(n!)
time?
it->first
as claimed by the comment, then you can use themap::find
function instead and reduce to time to O(nlog2n)....map::find
wasO(n log n)
.map::find
is O(log2N) where N is the current containersize()
, but calling it for every element ends up a smidge better than O(Nlog2N) (because N is reducing as it goes). Calling it O(Nlog2N) is sanest though, IMHO.