the philosophy behind of the design of the STL

The concept of STL is based on a separation of data and operations. The data is managed by container classes, and the operations are defined by configurable algorithms. Iterators are the glue between these two components and they let any algorithm interact with any container.

 

 

 

//violate using the iterator as the glue between the containers and the algorithm 
template<T>
Print(List<T> & container)
{
    for(T item: container)
     {
        //...
     }
}
 
//correct
template<T>
Print(iterator<T> begin, iterator<T> end)
{
    for(;begin < end && begin != end; begin ++)
    {
        //...
    }
}

 

1. The STL concept contradicts the original idea of object-oriented programming: the STL serarates data and algorithms rather than combining them. While you can combine every kinds of container with ever kind of algorithm, so the result is a very flexible but still rather small framework.
2. The particular implementation of any container is not defined by the C++ standard library. However, the behavior and complexity secified by the standard do not leave much room for variation.
3. The STL containers provide only those special member functions that in general have "good" performance, where "good" normal means constant or logarithmic complexity. e.g., a direct element access by using operator [] is not provided for lists. This is because lists don't provide random access, and so an operator [] would have bad performance. Which is also most like why there is no resize() for array.