What's the C# equivalent of C++ vector?
I am searching for this feature:
To have a dynamic array of contiguously stored memory that has no performance penalty for access vs. standard arrays.
I was searching and they say .NET equivalent to the vector in C++ is the ArrayList, so:
Do ArrayList have that contiguous memory feature?
You could use a List<T> and when T is a value type it will be allocated in contiguous memory which would not be the case if T is a reference type.
Example:
List<int> integers = new List<int>();
integers.Add(1);
integers.Add(4);
integers.Add(7);
int someElement = integers[1];
T is a reference type you'll still have contiguous memory. It's basically an array of pointers...
Commented
Aug 10, 2013 at 10:01
T[] ... the OP asked for "no performance penalty for access vs. standard arrays", and List<T> provides that. And if T is a reference type, that is analogous to T* in C++, so you get just as much contiguousness as in C++. If one wants the objects themselves to be contiguous, then of course one needs value types ... in both languages. The difference, of course, is that in C++ any type can be used as either value or ref, whereas in C# it's a property of the type via the class/struct distinction.
Commented
Jul 28, 2015 at 2:36
List<T> is always implemented as a linked list internally. So how does it expand dynamically then when we call Add()? Something like VB6's Redim Preserve which used to copy the entire array to a new location?
List<T> creates a small array T[]. The items internally are added to the array. Once the size of the array is completed, a new array is created double size of the previous. The data is copied to the new larger array, the smaller is destroyed, and so on. A developer can give a hint to .NET to create a large enough internal array before filling the List via constructor: new List<T>(expected_array_size).
use List<T>. Internally it uses arrays and arrays do use contiguous memory.
private T[] _items; that's used for backend storage, reference type or not.
C# has a lot of reference types. Even if a container stores the references contiguously, the objects themselves may be scattered through the heap
First of all, stay away from Arraylist or Hashtable. Those classes are to be considered deprecated, in favor of generics. They are still in the language for legacy purposes.
Now, what you are looking for is the List<T> class. Note that if T is a value type you will have contiguos memory, but not if T is a reference type, for obvious reasons.
