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This is a very simple template issue (simple for C++ gurus I think), involving making generic math functions. I have a simple Epsilon function, like this:

template<class T>
static T Epsilon()
    return std::numeric_limits<T>::Min();

and I want to assign it to some variable, like this:

float epsilon = Math::Epsilon();

, alas, I get a compilation error:

error C2783: 'T Math::Epsilon(void)' : could not deduce template argument for 'T'

I can assign it like this, without error:

float epsilon = Math::Epsilon<float>();

I thought the template engine would be able to see that my T is "float", but apparently it cannot. What have I failed to understand here?

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template argument deduction needs argument :) –  billz Oct 17 '13 at 11:28
There is already a epsilon defined in numeric limits. –  RedX Oct 17 '13 at 12:07
This wasn't that specifically. I just used it as an example. –  Robinson Oct 17 '13 at 12:57

4 Answers 4

up vote 7 down vote accepted

The issue is that C++ does not feature a full Hindley-Milner deduction algorithm. Instead, it deduces the template arguments from the function arguments.

Your function has no argument, hence no template parameter can be deduced.

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OK, I see now. Thank you. –  Robinson Oct 17 '13 at 11:20

Template argument deduction only works on function arguments, not on the return type. This is similar in that you cannot overload functions on their return type (for the simple reason that you are allowed not to use the returned value, and the compiler couldn't deduce the appropriate function in that case).

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In general, function template parameters are only deduced based on the types in the arguments. No arguments, no deduction. To work around this, you need to get the compiler to deduce a conversion. Something like this, for example:

struct Epsilon
    template <typename T>
    operator T() const
        return std::numeric_limits<T>::min();

In this case, the call to Epsilon in fact creates an object, which is implicitly convertible to the target type; the deduction will take place when the compiler looks for the conversion, not when it tries to call the "function".

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That's interesting. Thanks for the tip. –  Robinson Oct 17 '13 at 13:47

There is a fundamental problem with your approach.

The return value is not part of the function signature. That means there can only be one function with that return value.

To understand, try to compile

float epsilon = Math::Epsilon<float>();
int epsilon = Math::Epsilon<int>();

It will not work, because the functions would have the same signature.

Take a look at std::numeric_limits in C++11 to make a working template. The template argument can not be deduced though, because it first has to be evaluated and then can be assigned.

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Actually the above does work (assuming you scope them). –  Robinson Oct 17 '13 at 11:38

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