In C++, you can create a map "container" with std::map
.
In my case, the keys are strings, and the elements are integers. (std::map<string, int>
)
What I want to know is how the maps retrieve their element through using the []
operator
with a string.
Does the map just compare the inputted string with ALL of its existing set of string key to elements I declared? If that's the case, then it would certainly seem slow if I need an optimal way of retrieving the element I need out of a long list of strings.
A faster way of indexing by string would be to use a linked-list of 256 same type linked-lists for every character in the string. Meaning that in order for me to retrieve my element, all I have to do is say [char 1]->[char 2]->...[char n]->element.
There the speed would be determined by the length of the string, or, however many times you point to the next character.
EDIT: This process I just described is known as a Trie, and it isn't what std::map uses.
If std::map<string, element_type>
doesn't use this method, then how does it work? And is it worth using if I happened to add a large number of keys?
If my question seems unclear, please tell me so that I may change it. I simply need to know whether the amount of keys in a map will slow down the accessing process or not, and how maps match their elements.