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The following code generates a compile error in Xcode:

template <typename T>
struct Foo
    Foo(T Value)

int main()
    Foo MyFoo(123);
    return 0;

error: missing template arguments before 'MyFoo'

Changing Foo MyFoo(123); to Foo<int> MyFoo(123); fixes the issue, but shouldn't the compiler be able to figure out the appropriate datatype?

Is this a compiler bug, or am I misunderstanding implicit template parameters?

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up vote 11 down vote accepted

The constructor could in theory infer the type of the object it is constructing, but the statement:

Foo MyFoo(123);

Is allocating temporary space for MyFoo and must know the fully-qualified type of MyFoo in order to know how much space is needed.

If you want to avoid typing (i.e. with fingers) the name of a particularly complex template, consider using a typedef:

typedef std::map<int, std::string> StringMap;

Or in C++0x you could use the auto keyword to have the compiler use type inference--though many will argue that leads to less readable and more error-prone code, myself among them. ;p

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if it could infer the type, it could infer the space. – Matthieu M. Feb 9 '11 at 16:23
It can infer the type for the call to the constructor, but not for the storage space. If you define a variable as simply Foo, can it hold both Foo<int> and Foo<std::string>? Or does it always know it's secretly a Foo<int> in its heart of hearts? If the variable were const then it could be implemented, since the value could not be reassigned, but then we'd have different lexical rules for const T vs T and great havoc would ensue. – Jonathan Grynspan Feb 9 '11 at 18:57

compiler can figure out template parameter type only for templated functions, not for classes/structs

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After all, there is a reason for the function std::make_pair<typename T, typename U>(T t, U u) even though we already have the class std::pair<typename T, typename U>. – Max Lybbert Feb 9 '11 at 16:20

It's not a but, it's non-existing feature. You have to fully specify class/structure template arguments during instantiation, always, the types are not inferred as they can be for function templates.

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Compiler can deduce the template argument such case:

template<typename T>
void fun(T param)

fun(100);    //T is deduced as int;
fun(100.0);  //T is deduced as double
fun(100.0f); //T is deduced as float

Foo<int> foo(100);
fun(foo);    //T is deduced as Foo<int>;

Foo<char> bar('A');
fun(bar);    //T is deduced as Foo<char>;

Actually template argument deduction is a huge topic. Read this article at ACCU:

The C++ Template Argument Deduction

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In C++11 you can use decltype:

int myint = 123;
Foo<decltype(myint)> MyFoo(myint);
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It makes a lot of sense it is like this, as Foo is not a class, only Foo<T> where T is a type.

In C++0x you can use auto, and you can create a function to make you a Foo, let's call it foo (lower case f). Then you would do

template<typename T> Foo<T> foo(int x)
  return Foo<T>(x);

auto myFoo = foo(55);
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Perhaps you meant: "template<typename T> Foo<T> foo(T x)"? – Eran Marom Jan 1 '15 at 0:24

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