135

.NET offers a generic list container whose performance is almost identical (see Performance of Arrays vs. Lists question). However they are quite different in initialization.

Arrays are very easy to initialize with a default value, and by definition they already have certain size:

string[] Ar = new string[10];

Which allows one to safely assign random items, say:

Ar[5]="hello";

with list things are more tricky. I can see two ways of doing the same initialization, neither of which is what you would call elegant:

List<string> L = new List<string>(10);
for (int i=0;i<10;i++) L.Add(null);

or

string[] Ar = new string[10];
List<string> L = new List<string>(Ar);

What would be a cleaner way?

EDIT: The answers so far refer to capacity, which is something else than pre-populating a list. For example, on a list just created with a capacity of 10, one cannot do L[2]="somevalue"

EDIT 2: People wonder why I want to use lists this way, as it is not the way they are intended to be used. I can see two reasons:

  1. One could quite convincingly argue that lists are the "next generation" arrays, adding flexibility with almost no penalty. Therefore one should use them by default. I'm pointing out they might not be as easy to initialize.

  2. What I'm currently writing is a base class offering default functionality as part of a bigger framework. In the default functionality I offer, the size of the List is known in advanced and therefore I could have used an array. However, I want to offer any base class the chance to dynamically extend it and therefore I opt for a list.

13
  • 1
    "EDIT: The answers so far refer to capacity, which is some else than pre-populating a list. For example, on a list just created with a capacity 10, one can not do L[2]="somevalue"" Given this modification, perhaps you should reword the Question Title... Jan 21 '09 at 21:03
  • But, what's the use of pre-populating a list with empty values, cause that's what the topicstarter is trying to do ? Jan 21 '09 at 21:04
  • 1
    If positional mapping is that crucial, wouldn't it make more sense to use a Dictionary<int, string>?
    – Greg D
    Jan 23 '09 at 13:28
  • 7
    List is not a replacement for Array. They solve distinctly separate problems. If you want a fixed size, you want an Array. If you use a List, you are Doing It Wrong.
    – Zenexer
    Nov 29 '13 at 10:26
  • 7
    I always find answers that tries to hammer in arguments like "I can't see why I would ever need ..." aggravating. It only means just that: you couldn't see it. It doesn't necessarily mean anything else. I respect that people want to suggest better approaches to a problem, but it should be phrased more humbly, e.g. "Are you sure you need a list? Perhaps if you told us more about your problem...". This way it becomes pleasant, engaging, and encourages the OP to improve their question. Be a winner - be humble.
    – AnorZaken
    Jun 18 '17 at 17:48

16 Answers 16

158
List<string> L = new List<string> ( new string[10] );
5
  • 3
    personally I think this is the cleanest way - although it was mentioned in the question body as potentially clumsy - don't know why Sep 3 '13 at 12:14
  • 4
    +1: Just hit a situation where I needed a variable size list to be initialised with a fixed set of nulls before populating via an index (and adding extras afterwards, so an array was unsuitable). This answer gets my vote for being practical and simple. Feb 26 '14 at 11:53
  • Fabulous answer. @GoneCoding I was just wondering whether internally the newly initialized list L will simply reuse the memory of string[10] as is (backing store of an lists is also an array) or it will allocate a new memory of its own and then copy the contents of string[10]? string[10] will get garbage collected automatically if L selects the later route.
    – RBT
    Mar 25 '17 at 4:30
  • 3
    @RBT That is the only downside to this approach: The array will not be reused, so you will momentarily have two copies of the array (List uses arrays internally as you seem to be aware of). In rare cases that might be a problem if you have a huge number of elements, or memory constraints. And yes the extra array will be eligible for garbage collection as soon as the List constructor is done (it would have been a horrible memory leak otherwise). Note that eligible does not mean "collected right away", but rather the next time garbage collection runs.
    – AnorZaken
    Jun 18 '17 at 17:30
  • 4
    This answer allocates 10 new strings - then iterates over them copying them as required. If you're working with large arrays; then don't even consider this as it needs twice the memory than the accepted answer.
    – UKMonkey
    Jun 4 '19 at 15:08
93

I can't say I need this very often - could you give more details as to why you want this? I'd probably put it as a static method in a helper class:

public static class Lists
{
    public static List<T> RepeatedDefault<T>(int count)
    {
        return Repeated(default(T), count);
    }

    public static List<T> Repeated<T>(T value, int count)
    {
        List<T> ret = new List<T>(count);
        ret.AddRange(Enumerable.Repeat(value, count));
        return ret;
    }
}

You could use Enumerable.Repeat(default(T), count).ToList() but that would be inefficient due to buffer resizing.

Note that if T is a reference type, it will store count copies of the reference passed for the value parameter - so they will all refer to the same object. That may or may not be what you want, depending on your use case.

EDIT: As noted in comments, you could make Repeated use a loop to populate the list if you wanted to. That would be slightly faster too. Personally I find the code using Repeat more descriptive, and suspect that in the real world the performance difference would be irrelevant, but your mileage may vary.

15
  • 1
    I realize this is an old post, but I am curious. Enumerable.Repeat fares much worse compared to a for loop, as per the last portion of the link (dotnetperls.com/initialize-array). Also AddRange() has O(n) complexity as per msdn. Isn't it a bit counter productive to use the given solution instead of a simple loop?
    – Jimmy
    Jan 23 '14 at 11:16
  • 1
    @Jimmy: Both approaches will be O(n), and I find this approach to be more descriptive of what I'm trying to achieve. If you prefer a loop, feel free to use it.
    – Jon Skeet
    Jan 23 '14 at 11:18
  • 1
    @Jimmy: Also note that the benchmark there is using Enumerable.Repeat(...).ToArray(), which is not how I'm using it.
    – Jon Skeet
    Jan 23 '14 at 11:20
  • 2
    I've used the Enumerable.Repeat() in the following way (implemented Pair just like the C++ equivalent): Enumerable.Repeat( new Pair<int,int>(int.MaxValue,-1), costs.Count) noticing the side effect, that the List was full of referenced copies to a single object. Changing an element like myList[i].First = 1 changed every single element in the whole List. It took me hours to find this bug. Do you guys know any solution to this issue (except for just using a common loop and use .Add(new Pair...)?
    – 00zetti
    Aug 21 '17 at 9:52
  • 1
    @Pac0, I just added an answer below. The edits can be disapproved. Jul 25 '19 at 14:53
22

Use the constructor which takes an int ("capacity") as an argument:

List<string> = new List<string>(10);

EDIT: I should add that I agree with Frederik. You are using the List in a way that goes against the entire reasoning behind using it in the first place.

EDIT2:

EDIT 2: What I'm currently writing is a base class offering default functionality as part of a bigger framework. In the default functionality I offer, the size of the List is known in advanced and therefore I could have used an array. However, I want to offer any base class the chance to dynamically extend it and therefore I opt for a list.

Why would anyone need to know the size of a List with all null values? If there are no real values in the list, I would expect the length to be 0. Anyhow, the fact that this is cludgy demonstrates that it is going against the intended use of the class.

4
  • 53
    This answer does not allocate 10 null entries in the list (which was the requirement), it simply allocates space for 10 entries before a resize of the list is required (i.e. capacity), so this does nothing different to new List<string>() as far as the problem goes. Well done on getting so many up-votes though :) Feb 26 '14 at 11:47
  • 2
    that overloaded constructor is the "initial capacity" value not the "size" or "length", and it doesn't initialise the items either
    – Matt Wilko
    Nov 27 '14 at 12:07
  • 1
    To answer "why would someone need this": I need this right now for deep cloning tree data structures. A node might or might not populate its children, yet my base node class needs to be able to clone itself with all it's child nodes. Blah, blah it's even more complicated. But I need both to populate my still empty list via list[index] = obj; and to use some other list capabilities.
    – Bitterblue
    Feb 4 '15 at 10:14
  • 3
    @Bitterblue: Also, any sort of pre-allocated mapping where you may not have all of the values up front. There are certainly uses; I wrote this answer in my less experienced days.
    – Ed S.
    Feb 4 '15 at 19:29
11

Create an array with the number of items you want first and then convert the array in to a List.

int[] fakeArray = new int[10];

List<int> list = fakeArray.ToList();
0
7

Why are you using a List if you want to initialize it with a fixed value ? I can understand that -for the sake of performance- you want to give it an initial capacity, but isn't one of the advantages of a list over a regular array that it can grow when needed ?

When you do this:

List<int> = new List<int>(100);

You create a list whose capacity is 100 integers. This means that your List won't need to 'grow' until you add the 101th item. The underlying array of the list will be initialized with a length of 100.

3
  • 1
    "Why are you using a List if you want to initialize it with a fixed value" A good point.
    – Ed S.
    Jan 21 '09 at 20:58
  • 8
    He asked for a list in which each element was initialized and the list had a size, not just a capacity. This answer is incorrect as it stands now.
    – Nic Foster
    Sep 18 '15 at 5:56
  • The question requires an answer, not criticism of being asked. Sometimes there is a reason to do it this way, as opposed to using an array. If interested in why this might be the case, one can ask a Stack Overflow question for it.
    – Dino Dini
    Apr 21 '20 at 13:57
7

If you want to initialize the list with N elements of some fixed value:

public List<T> InitList<T>(int count, T initValue)
{
  return Enumerable.Repeat(initValue, count).ToList();
}
1
  • 1
    See John Skeet's answer for concern over buffer resizing by this technique.
    – Amy B
    Jan 21 '09 at 21:26
5

You seem to be emphasizing the need for a positional association with your data, so wouldn't an associative array be more fitting?

Dictionary<int, string> foo = new Dictionary<int, string>();
foo[2] = "string";
1
  • This is answering a different question to the one being asked.
    – Dino Dini
    Apr 21 '20 at 13:58
4

Initializing the contents of a list like that isn't really what lists are for. Lists are designed to hold objects. If you want to map particular numbers to particular objects, consider using a key-value pair structure like a hash table or dictionary instead of a list.

1
  • 1
    This does not answer the question, but merely gives a reason for it not to be asked.
    – Dino Dini
    Apr 21 '20 at 13:58
2

The accepted answer (the one with the green check mark) has an issue.

The problem:

var result = Lists.Repeated(new MyType(), sizeOfList);
// each item in the list references the same MyType() object
// if you edit item 1 in the list, you are also editing item 2 in the list

I recommend changing the line above to perform a copy of the object. There are many different articles about that:

If you want to initialize every item in your list with the default constructor, rather than NULL, then add the following method:

public static List<T> RepeatedDefaultInstance<T>(int count)
    {
        List<T> ret = new List<T>(count);
        for (var i = 0; i < count; i++)
        {
            ret.Add((T)Activator.CreateInstance(typeof(T)));
        }
        return ret;
    }
3
  • 1
    It's not an "issue" - it's the normal behavior of copying references. Without knowing the situation, you can't know whether it's suitable to copy the object. The question isn't about whether or not lists should be populated with copies - it's about initializing a list with a capacity. I'll clarify my answer in terms of the behavior it does have, but I really don't think it counts as a problem in the context of this question.
    – Jon Skeet
    Jul 25 '19 at 15:50
  • @JonSkeet, I was replying to the static helper, which is okay for primitive types but not reference types. A scenario where a list is initialized with the same referenced item doesn't seem right. In that scenario why even have the list if every item in it points to the same object on the heap. Jul 25 '19 at 16:16
  • Sample scenario: you want to populate a list of strings, initially with an entry of "Unknown" for every element, then you modify the list for specific elements. In that case it's entirely reasonable for all the "Unknown" values to be references to the same string. It would be pointless to clone the string each time. Populating a string with multiple references to the same object isn't "right" or "wrong" in a general sense. So long as readers know what the behavior is, it's up to them to decide whether it meets their specific use case.
    – Jon Skeet
    Jul 25 '19 at 17:28
1

You can use Linq to cleverly initialize your list with a default value. (Similar to David B's answer.)

var defaultStrings = (new int[10]).Select(x => "my value").ToList();

Go one step farther and initialize each string with distinct values "string 1", "string 2", "string 3", etc:

int x = 1;
var numberedStrings = (new int[10]).Select(x => "string " + x++).ToList();
1
string [] temp = new string[] {"1","2","3"};
List<string> temp2 = temp.ToList();
3
  • How about List<string> temp2 = new List<string>(temp); Like the OP already suggested.
    – Ed S.
    Jan 21 '09 at 21:07
  • Ed - this one actually does answer the question - which is not about capacity.
    – Boaz
    Jan 21 '09 at 21:11
  • But the OP already stated that he did not like this solution.
    – Ed S.
    Jan 21 '09 at 21:43
0

A notice about IList: MSDN IList Remarks: "IList implementations fall into three categories: read-only, fixed-size, and variable-size. (...). For the generic version of this interface, see System.Collections.Generic.IList<T>."

IList<T> does NOT inherits from IList (but List<T> does implement both IList<T> and IList), but is always variable-size. Since .NET 4.5, we have also IReadOnlyList<T> but AFAIK, there is no fixed-size generic List which would be what you are looking for.

0

This is a sample I used for my unit test. I created a list of class object. Then I used forloop to add 'X' number of objects that I am expecting from the service. This way you can add/initialize a List for any given size.

public void TestMethod1()
    {
        var expected = new List<DotaViewer.Interface.DotaHero>();
        for (int i = 0; i < 22; i++)//You add empty initialization here
        {
            var temp = new DotaViewer.Interface.DotaHero();
            expected.Add(temp);
        }
        var nw = new DotaHeroCsvService();
        var items = nw.GetHero();

        CollectionAssert.AreEqual(expected,items);


    }

Hope I was of help to you guys.

0

If I understand correctly, you want the List<T> version of new T[size], without the overhead of adding values to it.

If you are not afraid the implementation of List<T> will change dramatically in the future (and in this case I believe the probability is close to 0), you can use reflection:

    public static List<T> NewOfSize<T>(int size) {
        var list = new List<T>(size);
        var sizeField = list.GetType().GetField("_size",BindingFlags.Instance|BindingFlags.NonPublic);
        sizeField.SetValue(list, size);
        return list;
    }

Note that this takes into account the default functionality of the underlying array to prefill with the default value of the item type. All int arrays will have values of 0 and all reference type arrays will have values of null. Also note that for a list of reference types, only the space for the pointer to each item is created.

If you, for some reason, decide on not using reflection, I would have liked to offer an option of AddRange with a generator method, but underneath List<T> just calls Insert a zillion times, which doesn't serve.

I would also like to point out that the Array class has a static method called ResizeArray, if you want to go the other way around and start from Array.

To end, I really hate when I ask a question and everybody points out that it's the wrong question. Maybe it is, and thanks for the info, but I would still like an answer, because you have no idea why I am asking it. That being said, if you want to create a framework that has an optimal use of resources, List<T> is a pretty inefficient class for anything than holding and adding stuff to the end of a collection.

0

This is an old question, but I have two solutions. One is fast and dirty reflection; the other is a solution that actually answers the question (set the size not the capacity) while still being performant, which none of the answers here do.


Reflection

This is quick and dirty, and should be pretty obvious what the code does. If you want to speed it up, cache the result of GetField, or create a DynamicMethod to do it:

public static void SetSize<T>(this List<T> l, int newSize) =>
    l.GetType().GetField("_size", BindingFlags.NonPublic | BindingFlags.Instance).SetValue(l, 10);

Obviously a lot of people will be hesitant to put such code into production.


ICollection<T>

This solution is based around the fact that the constructor List(IEnumerable<T> collection) optimizes for ICollection<T> and immediately adjusts the size to the correct amount, without iterating it. It then calls the collections CopyTo to do the copy.

The code is as follows:

public List(IEnumerable<T> collection) {
....
    ICollection<T> c = collection as ICollection<T>;
    if (collection is ICollection<T> c)
    {
        int count = c.Count;
        if (count == 0)
        {
            _items = s_emptyArray;
        }
        else {
            _items = new T[count];
            c.CopyTo(_items, 0);
            _size = count;
        }
    }    

So we can completely optimally pre-initialize the List to the correct size, without any extra copying.

How so? By creating an ICollection<T> object that does nothing other than return a Count. Specifically, we will not implement anything in CopyTo which is the only other function called.

private class SizeCollection<T> : ICollection<T>
{
    public SizeCollection(int size) =>
        Count = size;

    public void Add(T i){}
    public void Clear(){}
    public bool Contains(T i)=>true;
    public void CopyTo(T[]a, int i){}
    public bool Remove(T i)=>true;
    public int Count {get;}
    public bool IsReadOnly=>true;
    public IEnumerator<T> GetEnumerator()=>null;
    IEnumerator IEnumerable.GetEnumerator()=>null;
}

public List<T> InitializedList<T>(int size) =>
    new List<T>(new SizeCollection<T>(size));

We could in theory do the same thing for AddRange/InsertRange for an existing array, which also accounts for ICollection<T>, but the code there creates a new array for the supposed items, then copies them in. In such case, it would be faster to just empty-loop Add:

public void SetSize<T>(this List<T> l, int size)
{
    if(size < l.Count)
        l.RemoveRange(size, l.Count - size);
    else
        for(size -= l.Count; size > 0; size--)
            l.Add(default(T));
}
0
-1

A bit late but first solution you proposed seems far cleaner to me : you dont allocate memory twice. Even List constrcutor needs to loop through array in order to copy it; it doesn't even know by advance there is only null elements inside.

1. - allocate N - loop N Cost: 1 * allocate(N) + N * loop_iteration

2. - allocate N - allocate N + loop () Cost : 2 * allocate(N) + N * loop_iteration

However List's allocation an loops might be faster since List is a built-in class, but C# is jit-compiled sooo...

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