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What is the difference between ArrayList and List<> in C#?

Is it only that List<> has a type while ArrayList doesn't?

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possible duplicate of ArrayList vs List<object> –  John Saunders Nov 22 '10 at 23:21

6 Answers 6

up vote 119 down vote accepted

Yes, pretty much. List<T> is a generic class. It supports storing values of a specific type without casting to or from object (which would have incurred boxing/unboxing overhead when T is a value type in the ArrayList case). ArrayList simply stores object references. As a generic collection, it implements the generic IEnumerable<T> interface and can be used easily in LINQ (without requiring any Cast or OfType call).

ArrayList belongs to the days that C# didn't have generics. It's deprecated in favor of List<T>. You shouldn't use ArrayList in new code that targets .NET >= 2.0 unless you have to interface with an old API that uses it.

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Another point worth mentioning is that a generic list eliminates boxing for value types. –  Joe Feb 22 '10 at 8:43
@Joe: Yeah, I mentioned that in my third sentence. –  Mehrdad Afshari Feb 22 '10 at 8:45
@herrow: This is wrong. It doesn't do unboxing because it doesn't require to. As I mentioned in my second sentence. Basically, a specialized instance of that class is generated by JIT for value types and it's used. It doesn't store things as Object under the hood. That's one of the differences between Java generics and .NET ones. –  Mehrdad Afshari Dec 17 '10 at 0:44
Would you mind explaining why you used "boxing" and not "casting"? What boxing happens here? Are objects allocated/deallocated? –  Benjamin Gruenbaum Nov 7 '13 at 19:54
@BenjaminGruenbaum You are correct that casting would be more general. That said, the real difference at runtime is when you're dealing with value types (which is what I assumed when I wrote "boxing"). For reference types, the behavior is effectively the same as ArrayList at runtime. Statically though, it'll require a cast with ArrayList. –  Mehrdad Afshari Nov 8 '13 at 8:40

Using "List" you can prevent casting errors. It is very useful to avoid a runtime casting error.


Here (using ArrayList) you can compile this code but you will see an execution error later.

ArrayList array1 = new ArrayList();
array1.Add("Pony"); //No error at compile process
int total = 0;
foreach (int num in array1)
 total += num; //-->Runtime Error

If you use List you avoid this errors:

List<int> list1 = new List<int>();
//list1.Add("Pony"); //<-- Error at compile process
int total = 0;
foreach (int num in list1 )
 total += num;

Reference: MSDN

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thanks for the example... –  mmhasannn Feb 18 '13 at 4:00
You can check the type when you pull from the ArrayList to prevent casting errors. Now days people use object, making ArrayList no longer needed. –  DeleteMyAccount Mar 26 '13 at 12:30
i +1 to the justification but you still can do if(num is int){} to your array list to avoid errors –  Mina Gabriel Feb 23 at 2:56

To add to the above points. Using ArrayList in 64bit operating system takes 2x memory than using in the 32bit operating system. Meanwhile, generic list List<T> will use much low memory than the ArrayList.

for example if we use a ArrayList of 19MB in 32-bit it would take 39MB in the 64-bit. But if you have a generic list List<int> of 8MB in 32-bit it would take only 8.1MB in 64-bit, which is a whooping 481% difference when compared to ArrayList.

Source: ArrayList’s vs. generic List for primitive types and 64-bits

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ArrayList is the collections of different types data rather List<> is the collections of similar types of its own depedencties.

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It is not only difference. ArrayList members can be accessed via index like ordinary arrays and also ArrayList members can easily sorted in direct and reverse order and two ArrayList can be easily merged, which is not the case with simple List. See more on


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List<T> has same properties - it's basically the same as C++ vector<T>. –  DarkWanderer Nov 14 '13 at 9:12

You can use ArrayLis instead of List <>

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You can, but you never should. –  Servy Jul 29 at 16:11

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