When to Use Generic Collections
Using generic collections is generally recommended, because you gain the immediate benefit of type safety without having to derive from a base collection type and implement type-specific members. Generic collection types also generally perform better than the corresponding nongeneric collection types (and better than types that are derived from nongeneric base collection types) when the collection elements are value types, because with generics there is no need to box the elements.
The following generic types correspond to existing collection types:
Dictionary<TKey, TValue> is the generic class that corresponds to Hashtable.
Collection<T> is the generic class that corresponds to CollectionBase. Collection<T> can be used as a base class, but unlike CollectionBase, it is not abstract. This makes it much easier to use.
ReadOnlyCollection<T> is the generic class that corresponds to ReadOnlyCollectionBase. ReadOnlyCollection<T> is not abstract, and has a constructor that makes it easy to expose an existing List<T> as a read-only collection.
The Queue<T>, Stack<T>, and SortedList<TKey, TValue> generic classes correspond to the respective nongeneric classes with the same names.
Additional Types
There are several generic collection types that do not have nongeneric counterparts:
LinkedList<T> is a general-purpose linked list that provides O(1) insertion and removal operations.
SortedDictionary<TKey, TValue> is a sorted dictionary with O(log n) insertion and retrieval operations, which makes it a useful alternative to SortedList<TKey, TValue>.
KeyedCollection<TKey, TItem> is a hybrid between a list and a dictionary, which provides a way to store objects that contain their own keys.
LINQ to Objects
The LINQ to Objects feature allows you to use LINQ queries to access in-memory objects as long as the object type implements IEnumerable or IEnumerable<T>. LINQ queries provide a common pattern for accessing data; are typically more concise and readable than standard foreach loops; and provide filtering, ordering and grouping capabilities. LINQ queries can also improve performance. For more information, see LINQ to Objects.
Additional Functionality
Some of the generic types have functionality that is not found in the nongeneric collection types. For example, the List<T> class, which corresponds to the nongeneric ArrayList class, has a number of methods that accept generic delegates, such as the Predicate<T> delegate that allows you to specify methods for searching the list, the Action<T> delegate that represents methods that act on each element of the list, and the Converter<TInput, TOutput> delegate that lets you define conversions between types.
The List<T> class allows you to specify your own IComparer<T> generic interface implementations for sorting and searching the list. The SortedDictionary<TKey, TValue> and SortedList<TKey, TValue> classes also have this capability, and in addition allow the comparers to be specified when the collection is created. In similar fashion, the Dictionary<TKey, TValue> and KeyedCollection<TKey, TItem> classes allow you to specify your own equality comparers.
See Also
Concepts
Overview of Generics in the .NET Framework