I would do

```
template<typename T>
T const pi = std::acos(-T(1));
```

or

```
template<typename T>
T const pi = std::arg(-std::log(T(2)));
```

I would **not** *typing in π to the precision you need*. What is that even supposed to mean? The *precision you need* is the precision of `T`

, but we know nothing about `T`

.

You might say: *What are you talking about? *`T`

will be `float`

, `double`

or `long double`

. So, just type in the precision of `long double`

, i.e.

```
template<typename T>
T const pi = static_cast<T>(/* long double precision π */);
```

But do you really know that there won't be a new floating point type in the standard in the future with an even higher precision than `long double`

? You don't.

And that's why the first solution is beautiful. You can be quite sure that the standard would overload the trigonometric functions for a new type.

And please, don't say that the evaluation of a trigonometric function at initialization is a performance penalty.

`3.14`

,`3.141592`

and`atan(1) * 4`

? – Nikola Malešević Sep 6 '12 at 16:09