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if (std::is_same<T, float>::value)
        float a;

The above code is from a template, which accept a pointer x that can be a pointer of some primitive data type (e.g. x being double *, float * or int *), and somefunc_float is from a lib, can only accept one specific data type of x (float * in the above example), the compiler always give me error, telling me the input data type (x) is incorrect, as if the expressionstd::is_same<T, float>::value doest work at all?

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What is the exact error message? – Oliver Charlesworth Jan 13 '13 at 23:37
It doesn't work the way you think it works. Type traits should be used in a static setting, i.e. in specializations and overloads. – Kerrek SB Jan 13 '13 at 23:38
@OliCharlesworth: How about "x cannot be converted to type float"? – Kerrek SB Jan 13 '13 at 23:38
@Kerrek SB Are there any other ways that I can do the above job with template, thanks? – user0002128 Jan 13 '13 at 23:40
@user0002128: Yes: Specializations and overloading. – Kerrek SB Jan 13 '13 at 23:42

2 Answers 2

up vote 1 down vote accepted

The description of the problem is not completely clear, but I think I understand what you are trying to do: You are enclosing a block of code inside the template function with a test that can be performed at compile time, and expect that the compiler will discard that block and not compile it.

Templates don't work like that. When a template is instantiated, the whole template is checked and compiled and the code must be correct before the optimizer can discard blocks of code (which it probably would in this case).

The common approach to obtain that behavior is providing multiple implementations of the template (or non-template overloads) that are called with different types. The compiler will dispatch at the place of call to the appropriate implementation and will then ignore the rest.

There are proposals for static if functionality in a future version of C++ (probably C++17) that would support what you are trying to do.

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Yes, I know the overload/multiple template ways, I want to save a bit of time, but it seems that it never work, thanks for clarify things anyway. – user0002128 Jan 13 '13 at 23:46
@user0002128: Depending on what you want to do, you could just factor that condition into a function, and provide an overload for float and a templated version that is a no-op. Whether that is a sensible design or not, depends on a lot of information that is not present in your question. – David Rodríguez - dribeas Jan 13 '13 at 23:48

Types are determined statically, and all template code that is instantiated must compile, i.e. make sense. The content of an if statement must make sense even if the condition is false.

Try something like this:

template <typename T> execute_if_float(T) { }

execute_if_float(float x) { somefunc_float(x); }

template <typename T> void myCode(T x)
    // ...


    // ...
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