typedef vector<double>::size_type vec_sz;
vec_sz size = homework.size();

The first line creates an alias of the The second line should be pretty selfexplanatory after that. 


They are example lines that your teacher gave to you test if you understood the basics of STL containers. 


typedef def**ines a **type so you can use this new name instead of the longer old one, at least in this example. Then a variable size is defined, and it's type is of the just defined kind. At last the value of this size variable is set the the size of the homework object, probably also a vector. 


Typedef'ing it further to
is equivalent to:
which is equivalent to whatever integral type is used for size, for example



The class vector publishes a 


Ok, inside vector<>'s declaration you'll find this: typedef unsigned int size_type; (it's actually dependant on your implementation, so it could be other than unsigned int). So now you have a size_type type inside vector. "typedef vector::size_type vec_sz;" would now be the same as saying: typedef unsigned int vec_sz; Now "vector::size_type" is synonym for "unsigned int", remember that size_type is a type, not a variable. vec_sz size = homework.size(); Is equal to: vector::size_type size = homework.size(); Wich is equal to: unsigned int size = homework.size(); Hope it's clear :P 

