In C# I can write something like this:

    class AnyThing<T>
        static public T Default = default(T);

    static void Main ()
        int i = AnyThing<int>.Default;
        Console.WriteLine (i==0);
        string s = AnyThing<string>.Default;
        Console.WriteLine (s == null);


I intend to write a dictionary like template class in C++, I'd like the dict to return the default value (zero out) of the generic TVal type if the given key not be found. In C# the default(T) construct comes to rescue, while in C++ I'm not sure what is the appropriate way to do the same thing.

I've tried T obj = {} and T* obj = {} with gcc4.7, it works well. I'm just not so sure if it is the syntax defined by the language specification, if this kinda code will be portable cross compilers and platforms. Please help me with my doudt! Thanks in advance!



To make sure the template get the default(zero out) value of ANY type, even of those that don't have callable default ctor, I employed following mechanism (inspired by avakar's answer):

template<class T>
struct AnyThing
    static const T& Default ;
    static const char temp[sizeof(T)];

template<class T> const char AnyThing<T>::temp[] = {};
template<class T> const T& AnyThing<T>::Default =  *(T*)temp;

struct st
    double data;

int main()
    cout << (int)AnyThing<char*>::Default<<endl;    //0
    cout << AnyThing<int>::Default<<endl;       //0
    cout <<AnyThing<st>::Default.data<<endl;        //0

It looks ugly, but shouldn't cause any trouble, after all a zeroed out object is just a chunk of blank memory. Am I wrong?


In C++ there is no something like default keyword in C#. Since initialization by default constructor of value of class-type will be failed, if default constructor is private. In C#, if default constructor is private, value of class-type will be initialized to null, since class-type is reference-type.

Initialition by {} is defined by language specification. It's C++11. In C++03 you should use

T obj = T();

As pointed by bames53 in comment, when you want to initialize T* you should use

before C++11.

T* obj = 0;


T* obj = NULL;

in C++11.

T* obj = {};


T* obj = nullptr;
  • Does this also work for pointer types? – Need4Steed Sep 27 '12 at 6:44
  • 4
    double* obj = double() does not work. – Jesse Good Sep 27 '12 at 6:49
  • 1
    @Need4Steed, it works for pointer types if by "works" you mean that the default value of the pointer being null. "Works" is a short way of saying "meets my expectations"; like the longer phrase, it fails to reveal what the expected outcome actually is. But at least it's short, – rici Sep 27 '12 at 6:50
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    @JesseGood T *t = T*(); works fine though. T t = T(); also works fine when T is a pointer type. – bames53 Sep 27 '12 at 6:54
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    Note that T must be copyable here. There's a way to do this without the need for the copy constructor, see my answer. – avakar Sep 27 '12 at 7:14

Taken literaly from "The C++ Programming Language, Third Edition by Bjarne Stroustrup":


4.9.5 Initialization [dcl.init]

If an initializer is specified for an object, that initializer determines the initial value of an object. If no initializer is specified, a global (§4.9.4), namespace (§8.2), or local static object (§7.1.2, §10.2.4) (collectively called static objects) is initialized to 0 of the appropriate type. For example:

int a;  // means int a=0;
double d; // meands d=0;

Local variables (sometimes called automatic objects) and objects created on the free store (sometimes called dynamic objects or heap objects) are not initialized by default. For example:

void f()
   int x;   // x does not have a well-defined value
   // . . . 

Members of arrays and structures are default initialized or not depending on whether the array or structure is static. User-defined types may have default initialization defined (§10.4.2).

More complicated objects require more than one value as an initializer. This is handled by initializer lists delimited by { and } for C-style initialization of arrays (§5.2.1) and structures (§5.7).

For user-defined types with constructors, function-style argument lists are used (§2.5.2, §10.2.3). Note that an empty pair of parentheses () in a declaration always means ‘‘function’’ (§7.1). For example:

int a[] = {1,2};    // array initializer
Point z(1,2);       // function-style initializer (initialization by constructor)
int f();            // function declaration


So, you can get the default value of any type form a static object of that type:

static T defaultT; // `defaultT' has de default value of type T
  • But I just found out that the T() solution stops working if I deleted the defaut ctor of T, or declared it as private, but in C# default(T) works anyway, so it doesn't literally work for ANY type! What a setback1 – Need4Steed Sep 27 '12 at 7:19
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    @Need4Steed Yes, since C# has reference types and value types. All class-types are reference-types and can be initialized by null, C++ has no such thing. – ForEveR Sep 27 '12 at 7:30
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    Best answer, directly from the inventor of C++. Why the heck does this answer have so few votes? For shame! Thanks, roy. – kayleeFrye_onDeck Feb 24 '15 at 3:26

ForEveR's answer will not work if T doesn't have a copy constructor. In C++03, there is no way to zero-initialize a variable that is both generic and elegant. All that's left is the following trick.

T temp[1] = {};
T & obj = temp[0];

Here, temp[0] is zero-initialized and then bound to obj. No copy constructors are needed.


Create your own default keyword:

class default_t
  template<typename T>
  operator T() const { return T(); }

default_t const default = default_t();

Use it like:

int myInt = default;
vector<string> myVector = default;
shared_ptr<string> myPtr = default;

Or with a slight semantic variation:

default_t const empty = default_t();

vector<Persons> fetchPersons()
  if (Database::isConnected())
    return Database::fetchPersons();

  return empty;
  • Interesting style. I'll have to play with this some. Thanks. – Jesse Chisholm Jan 17 at 19:55

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