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I read on a website that the declaration

template <int x>
int func() {
  return x;
} 

is valid while the following is not

template <double x>
double func() {
  return x;
}

Why is the first a legal declaration for a template function while the second is not?

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1  
A link to the website would be helpful. – Mark Ransom Aug 4 '12 at 5:13
    
Its just an mcq where there were 3 options out of which these were first two,third one was a template declaration involving typename and had to pick up invalid one and the answer is one with double.. – Dhatri Aug 4 '12 at 5:15
5  
I think it basically comes down to it being difficult to specify what floating point equality means in a way that can work reasonably well across different compilers and floating point representations. – Vaughn Cato Aug 4 '12 at 5:19
    
    
BTW: If you are looking for a way around this restriction. Create a class that has an inline static method that returns the value you want, and pass the class as the template parameter instead. – Vaughn Cato Aug 4 '12 at 5:34
up vote 3 down vote accepted

It is not valid because it is not an integral type. There are certain restrictions on nontype template parameters and this is one of them, which says ...

Floating-point numbers and class-type objects are not allowed as nontype template parameters.

template <double VAT>       // ERROR: floating-point values are not
double process(double v) { // allowed as template parameters
    return v * VAT;
}

template <std::string name> // ERROR: class-type objects are not
class MyClass {             // allowed as template parameters
  /* ... */
};

The above is quoted from C++ Templates. I take no credits for it.

The reason why they are not valid for template initialization, as per my understanding, is because types like float and double don't have a defined implementation in C++. So when a template like

template <double VAT> double process(double v);

is initialized with two different double values as

template <(double) 2/3> double process(2.3)

template <(double) 1/3> double process(2.4);

they might not have same bit representation because of double nontype, which confuses the compiler.

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1  
The question is why floating point types are not valid non-type template parameters. – Praetorian Aug 4 '12 at 5:33
    
@Prætorian- Added the reason, as per my understanding. Please correct if wrong. – vidit Aug 4 '12 at 6:25

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