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List<T> from System.Collections.Generic does everything Stack<T> does, and more -- they're based on the same underlying data structure. Under what conditions is it correct to choose Stack<T> instead?

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closed as not constructive by L.B, Chris Laplante, Tim Schmelter, Servy, Guvante Sep 17 '12 at 21:25

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One could argue Stack<T> conveys the intention more clearly when you want to use a stack. –  CodesInChaos Sep 17 '12 at 20:57
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They're two different data structures - List gives you a list of items, whereas Stack gives you a FILO (First In Last Out) queue –  Dave Zych Sep 17 '12 at 20:58
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@SimpleCoder No, but it can. There is no operation a stack can do that a list can't –  Servy Sep 17 '12 at 20:58
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@Servy I can't see Pop() and Push() in List<T>, quite useful operations for a Stack. They can be emulated, but not necessarily efficiently. –  Joachim Isaksson Sep 17 '12 at 21:01
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@JoachimIsaksson In a List it would simply be adding to and remvoing from the end. Both of those operations are O(1) and supported in the existing API –  Servy Sep 17 '12 at 21:03

5 Answers 5

You would use stack if you had a need for a Last In First Out collection of items. A list will allow you to access it's items at any index. There are a lot of other differences but I would say this is the most fundamental.

Update after your comment:

I would say that using Stack<T> makes a statement about how you want this code to be used. It's always good to plan for the future, but if you have a need for Stack<T> right now, and no compelling reason to use List<T> then I would go with Stack<T>

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Because a stack is not a list is not a stack. –  BoltClock Sep 17 '12 at 21:03
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@BillyONeal If you wanted something not in the stack API then you aren't logically representing a stack and shouldn't have used it in the first place. –  Servy Sep 17 '12 at 21:04
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I would say that using Stack<T> makes a statement about how you want this code to be used. It's always good to plan for the future, but if you have a need for Stack<T> right now, and no compelling reason to use List<T> then I would go with Stack<T> –  Abe Miessler Sep 17 '12 at 21:06
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@JeremyTodd And then what happens when the next developer comes along and doesn't know that your List list is logically a Stack and tries to add/remove/read somewhere other than the end? Additionally if you are logically representing a stack you won't need random access later, that's the point. Such situations aren't exactly rare; Stack is a useful logical data structure. –  Servy Sep 17 '12 at 21:09
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@JeremyTodd, It would make the code more complex though. A call to Stack.Pop() could be implemented for a List but it would not be nearly as clean. It would also look a little strange to someone coming across that code later. –  Abe Miessler Sep 17 '12 at 21:11

Well, you would want to use Stack if you were logically trying to represent a stack. It will convey the intention of the programmer throughout the code if you use a stack, and it will prevent in-advertant mis-use of the data structure (unintentionally adding/removing/reading somewhere other than one end).

It's certainly possible that, rather than a concrete implementation, Stack could just be an interface. You could then have something like List implement that interface. The problem there is mostly a matter of convenience. If someone needs a stack they need to pick some specific implementation and remember ("Oh yeah, List is the preferred stack implementation") rather than just newing up the concrete type.

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It's all about concept. A List is a List, and a Stack is a Stack, and they do two very different things. Their only commonality is their generic nature and their variable length.

A List is a variable-length collection of items in which any element can be accessed and overwritten by index, and to which items can be added and from which items can be removed at any such index.

A Stack is a variable-length collection of items supporting a LIFO access model; only the top element of the Stack can be accessed, and elements can be added to and removed from only that "endpoint" of the collection. The item 3 elements from the "top" can only be accessed by "popping" the two elements above it to expose it.

Use the correct tool for the job; use a List when you need "random" access to any element in the collection. Use a Stack when you want to enforce the more limited "top-only" access to elements in the array. Use a Queue when you want to enforce a FIFO "pipeline"; items go in one end, out the other.

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In this example, one only needs LIFO access today. But one might need non-LIFO access tomorrow. Consider a class which walks the filesystem, and stores directory names internally in a stack. A stack is fine because this code only needs LIFO access. But tomorrow one wants to add a ToString overload which prints the entire contents of the stack from beginning to end (e.g. to print the directory path). Now to add this overload all the code that touched the stack has to change. –  Billy ONeal Sep 17 '12 at 21:26
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Nope. Open-closed principle: derive from Stack, override ToString() and use Stack's Enumerable implementation to produce the needed string representation of all elements. Consuming code doesn't have to know it's your StringableStack and not .NET's Stack that's doing the ToStringing. –  KeithS Sep 17 '12 at 22:13

why I would artificially limit myself to using Stack in new code

There's you're answer - you should use Stack when you have a need to enforce a contractual expectation that the data structure being used can only be operated on as a stack. Of course, the times you really want to do that are limited, but it's an important tool when appropriate.

For example, supposed the data being worked with doesn't make any sense unless the stack order is enforced. In those cases, you'd be opening yourself up to trouble if you made the data available as a list. By using a Stack (or a Queue, or any other order-sensitive structure) you can specify in your code exactly how the data is supposed to be used.

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well supposed the underlying data structure can't be efficiently operated on as a list the entire point of the post is that that won't ever be the case. –  Servy Sep 17 '12 at 21:11
    
What if the data structure's a wrapper for some sort of external resource? Like I said, it's not common, but if it didn't exist in our toolbelt, there'd be inverse questions asking "Why can't I create a contract in my code that a list should only be used as a stack?" –  dimo414 Sep 17 '12 at 21:14
    
"What if the data structure's a wrapper for some sort of external resource?" If that's the case then you would have a class with an API similar to that of a stack. Note that Stack isn't an interface, it's a concrete implementation that can't be backed by some "external resource". "Why can't I create a contract in my code that a list should only be used as a stack?" I discuss that in my answer. They could have made Stack just an interface that List implemented, which would allow you to do that. You could make your own interface and an implementation of it that was backed by List. –  Servy Sep 17 '12 at 21:20
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@BillyONeal Queue is implemented as a circular array (based on what's in the MSDN page anyway), not as a deque. It's rather unfortunate that .NET has no deque implementation in System.Collection. –  Servy Sep 17 '12 at 21:24
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@BillyONeal - In fact what Servy said is exactly what MSDN said. A Queue uses a contiguous array of fixed size, and when that array is full and another item must be added, the object copies the existing array into one twice as large. This array-based internal structure is common to most objects of System.Collections; the differences are in the available access (and in collections like HashSet/Dictionary, the number of layers of these arrays). –  KeithS Sep 17 '12 at 21:39

System.Collections.Generic.Stack<T> is a LIFO (Last-In, First-Out) data structure aka a stack.

Despite its name, SCG.List<T> is not the abstract data type known as a [linked] list: it is, in fact, a variable-length array.

Two very different creatures.

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System.Collections.Generic.Stack is a vector, just as System.Collections.Generic.List is. (That is my whole point in this question) –  Billy ONeal Sep 17 '12 at 21:05

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