10

Starting in C++11, one can write something like

#include <vector>
#include <string>

struct S
{

    S(int x, const std::string& s)
        : x(x)
        , s(s)
    {
    }

    int x;
    std::string s;

};

// ...

std::vector<S> v;

// add new object to the vector v
// only parameters of added object's constructor are passed to the function
v.emplace_back(1, "t");

Is there any C# analogue of C++ functions like emplace or emplace_back for container classes (System.Collections.Generic.List)?

Update: In C# similar code might be written as list.EmplaceBack(1, "t"); instead of list.Add(new S(1, "t"));. It would be nice not to remember a class name and write new ClassName in such situations every time.

  • 1
    Aren't all C# objects always dynamically allocated, basically always pointer-held? What would such an emplace functionality bring? – Reinstate Monica Mar 14 '16 at 11:10
  • 1
    @Angew For struct data types it would be marginally faster. For big struct data types it would be probably faster. But struct data types shouldn't be big, so it would be a solution looking for a problem :-) – xanatos Mar 14 '16 at 11:11
  • 2
    @Angew To reduce the code size. With emplace you don't need to write v.insert(S(1, "t")); in C++. In C# it might be written like list.EmplaceBack(1, "t"); instead of list.Add(new S(1, "t"));. – Constructor Mar 14 '16 at 11:14
  • 2
    It would be better if you write C# implementation and state what is wrong with it. – Sinatr Mar 14 '16 at 11:17
  • 1
    If you feel that it is a valuable feature for C# you can always add a feature request at connect.microsoft.com. However I'd be very, very surprised if it makes it to the final list of implemented features. There's already a way to do it, very few has complained about having to type the class name in the 17 years of C#'s existence, and it serves no practical purpose in C# (unlike C++). Plus the amount of design, testing and documentation, likely far outweigh the perceived benefit. Get used to typing class names... – D Stanley Mar 14 '16 at 12:54
3

You can a bit improve @Boo variant with extenstion.
You can create object instance with Activator.CreateInstance so it make solution more generic.

public static class ListExtension
{
    public static void Emplace<S>(this IList<S> list, params object[] parameters)
    {
        list.Add((S)Activator.CreateInstance(typeof(S), parameters));
    }
}

Note: not checked type and count parameters, so if you do something wrong, you get errors just in run-time

5

In general there is nothing similar in C#, and its need is much less than in C++.

In C# when you have a List<SomeReferenceType> what you really have is a List<ReferenceToSomeType>, so a list of references, with the size of each element of 4 or 8 bytes (see How big is an object reference in .NET?). Copying a reference doesn't cause the underlying object to be duplicated, so it is very fast (you are copying around 4 or 8 bytes, and the processor is optimized for this operation, because that is the size of the native pointer of the processor). So when you someList.Add(someReference) what you are doing is adding a reference to your List<>.

In C++ when you have a std::vector<SomeType> what you have is a vector of SomeType, with the size of each element equal to sizeof(SomeType). Inserting a new element in std::vector<> will cause the element you are inserting to be duplicated (cloned, copied... choose a verb you like). This is an expensive operation.

Quite often the pattern you use is that you create an object just to insert it into a std::vector<>. To optimize this operation in C++11 they added two ways to do it: the std::vector<>::emplace method and support by the std::vector<> of the move semantic. The difference is that the move semantic must be supported by the SomeType type (you need a move constructor with the noexcept specifier), while every type supports the emplace (that in the end simply used placement constructor).

  • It's necessary to reduce code size: with hypothetical EmplaceBack you don't need to write new ClassName in Add statement every time. – Constructor Mar 14 '16 at 11:31
  • 4
    @Constructor: If all it did in C++ was save you a little typing, it wouldn't exist, because that certainly is not one of the motivations for it. – Benjamin Lindley Mar 14 '16 at 11:33
  • 1
    @BenjaminLindley Of course, you are right. But it is so good not to write ClassName (C++) or new ClassName (C#) in such situations every time. – Constructor Mar 14 '16 at 11:40
  • 1
    @Constructor There is at least another reason why in C# it would be less usefull... In C++ if you try to put a DerivedType object inside a std::vector<BaseType> very bad things happens, and no one wants these bad things. In C# it is perfectly ok to put a reference to DerivedType in a BaseType variable/container (and it is a common pattern). So having in a List<BaseType> an Emplace() that can only build BaseType would be less useful. – xanatos Mar 14 '16 at 11:45
  • @xanatos Yes, you are right. But at least in 95% of cases you add to the list objects of the same type you have specified at the list's declaration, so such function might be useful enough. – Constructor Mar 14 '16 at 11:48
-1

in c# you can use extension method to achive what you want

public static class ListExtension
{
    public static void Emplace(this IList<S> list, int x, string s)
    {
        list.Add(new S(x, s));
    }
}

then use it like this

myList.Emplace(1,"t");
  • And write such method for all overloads of all constructors of all classes I want to be members of collections? I'm too lazy... – Constructor Mar 14 '16 at 11:27
  • @Constructor, you can create object instance with reflection so it make solution more generic – Grundy Mar 14 '16 at 13:16
  • @Grundy How is it possible? – Constructor Mar 14 '16 at 13:19
  • 1
    @Constructor, something like public static void Emplace<S>(this IList<S> list, params object[] parameters){ list.Add((S)Activator.CreateInstance(typeof(S), parameters))} – Grundy Mar 14 '16 at 13:24
  • 1
    @Constructor, added – Grundy Mar 14 '16 at 15:14
-1

It seems you have following problems:

  1. It's longer to type by "new S". But "add" is shorter than "emplace". Type is added for you by intellisense (simply press Enter after typing "new "):


  1. You are afraid to write a wrong type. Well you can't with List<T>. Intellisense will help you to type and compiler will not allow wrong type to be added at compile time anyway.

  2. Performance: see @Xanatos answer.

list.Add(new S(1, "t")); is perfectly fine to use.

Conclusion: we don't need emplace in C#.

  • A simple question: why do I need to type anything that can be added by intellicence (a program, not a human)? It is not a programmer's job to do things that can be automated at IDE/compiler level. – Constructor Mar 14 '16 at 12:33
  • I don't understand you comment. Can you give an example explaining what you mean please? Intellisense is not a human, so it can only offer assistance at certain points (e.g. typing . will show list of accessible members of what is to the left). It might be possible to automate emplace (using pre-processor, e.g. VS extension, not sure here), but I don't see a single valid point why would I want it. – Sinatr Mar 14 '16 at 12:49
  • You wrote: "Type is added for you by intellisense." If intellisense is smart enough to add a type why should I do it myself? It can be simply done at a compiler level. – Constructor Mar 14 '16 at 13:01
  • I see your point now. I would rather prefer add + new myself even if there would be emplace mechanics. The wrong/boring things are getting constantly addressed (see C# 6.0). Would that very minor thing you want ever get into the list? I doubt. – Sinatr Mar 14 '16 at 13:20

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