The paper introduction is misleading: the idiom is actually

```
template <typename T, T t>
```

It denotes a template which depends on a type `T`

and a value `t`

of that type. The notation is a bit heavy since in most situations the type could be deduced from the value itself.

E.g.

```
// the current definition notation
template <typename T, T t> void f() { t.f(); };
//// the proposed definition notation
//// the parameter t depends on an implicit typename parameter T
// template <using typename T, T t> void f() { t.f(); };
struct foo {
void f(){
// some computation
}
};
foo bar;
int main(){
// the current instantiation notation
f<foo,bar>();
//// the proposed instantiation notation
//// we know that bar is of type foo, so we don't need to specify it
// f<bar>();
}
```

The proposal is about introducing a bit of "syntactic sugar" to make the notation easier to write.

Also, the example given above is trivial in its description (and possibly wrong, since template parameters need to be `constexpr`

), but the paper describes several situations where the current notation can become quite hairy, reducing readability and overall ease of programming.

`template <typename T> void foo(T t);`

. Make that parameter a compile-time value:`template <typename T, T t> void bar();`

(I think you meant that instead of`class`

). Now think about how you can call`foo(5);`

for T to be an`int`

, but to do that with`bar`

, you need`bar<int, 5>();`

. Is that going in the right direction? – chris Apr 13 '13 at 3:20mighthelp me solve this problem which cannot be solved with C++11. – Nawaz Apr 13 '13 at 4:21