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Is Capacity property more useful in a List than in the other collections such as Stack and Queue? Or is there another way to get the capacity of a Stack or a Queue?

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  • The Queue<T> and Stack<T> both have Count properties which are similar to the capacity, no idea why they haven't included the capacity property though. msdn.microsoft.com/en-us/library/fy0wwyz4.aspx
    – JayH
    Jun 27, 2013 at 8:39
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    @JamieHennerley: Count and Capacity is not the same. Count is the amount of items you stored in the structure. Capacity is the amount of items the internal array can store. Capacity is never smaller than Count. Normally, it is bigger than Count. If it equals Count and you want to add another item, the internal array gets copied into a new array with a bigger capacity. Jun 27, 2013 at 8:41

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I think that the reason that List has a Capacity property and Stack and Queue do not is that the normal usage of those types is different.

For a List it is fairly common to populate it with a large set of values, even some time after it has been created. Providing the Capacity property (and constructor argument) helps to mitigate the number of reallocations that would be done when adding a large number of items to the list.

Stack and Queue on the other hand do not tend to have large numbers of items added to them at once after they've been created.

Presumably Microsoft decided that it wasn't worth adding the Capacity property because it wouldn't be used very much.

However, do note that Queue does have a constructor that allows you to specify an initial capacity, and so does Stack.

Also note that both classes also have a TrimExcess() method, as mentioned by @drch below.

So Microsoft thought it would be useful at construction time, but not useful later on - so they only added the capacity functionality to the constructors.

(Incidentally I've just had a quick check through our code base, and it seems that the only time we use a capacity for List is in fact at construction time. So maybe if Microsoft were designing List now, they might also omit the Capacity property for List...)

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    There's also TrimExcess() which sets the capacity to the current count if the internal array is not at least 90% full.
    – drch
    Jun 27, 2013 at 8:57
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Stack and Queue are LIFO and FIFO structures respectively.

In both cases, you (as a consumer of the API) generally only need to know how to put data into the structure, and how to get data out again. You aren't concerned with the length of the data structure, only with push and pop.

If you need to get the capacity for any reason (a bounded stack/queue perhaps?) then it'd probably be better to hide that detail from the end user and implement your own stack/queue structure.

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    But Stack and Queue both have Count properties... The Capacity property exists only for optimization purposes (which would presumably also apply to Stack and Queue as well as List). Jun 27, 2013 at 8:44
  • That's a weird one. Both stacks and queues are commonly implemented using linked lists (where a capacity wouldn't help), but that's an example of an implementation detail leaking out. Perhaps that's the point, if Capacity was defined that would give a big clue on the underlying implementation. Jun 27, 2013 at 9:23
  • Well, you can set the initial capacity of List and Queue by using the right constructor. The parameter name is even capacity... Jun 27, 2013 at 9:30
  • List is a concrete type that hints at the underlying implementation ("Represents a strongly typed list of objects that can be accessed by index") so that seems fine to have a capacity. LinkedList on the other hand, doesn't provide such a constructor. Jun 27, 2013 at 9:43
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    Indeed, but the point is that Stack and Queue do allow you to specify a capacity. Jun 27, 2013 at 10:15
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This information is not exposed by Stack<T> or Queue<T>. This information isn't even stored explicitly in those classes, only implicitly in form of the length of the internal array.

Your only option to get that would be to use reflection to access the array and get it's length.

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