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Why doesn't the following produce a compiler error?

template<typename T>
const T testFunc()
    return T();

float* ptr = testFunc<float*>(); // ptr is not const - should be a compiler error!

In this example, testFunc() should be returning a constant float*, so shouldn't there be a compiler error when I try to assign it to a non-const float* ?

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up vote 4 down vote accepted

You are wrong on your expectations, the returned pointer will be const, not the object pointed. The specialization is equivalent to:

float * const testFunc<float*>();

Rather than:

float const * testFunc<float*>();

In your example, the code at the call side is copying from a const pointer to a non-const pointer, which is fine.

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Then how do I make the templated function return a constant pointer? – jlanisdev Aug 29 '12 at 2:26
@jlanisdev: It depends, the simplest thing that you can consider is rewriting the template as: template <typename T> T const * testFunc();. The call site would pass float: float const * ptr = testFunc<float>();. Note, const T* and T const * are equivalent, but the later is more consistent to parse for humans --i.e. if you always add const to the right, it becomes obvious in the question that the original template did not return a pointer to const: template <typename T> T const testFunc() with T == float* ==> float* const testFunc() – David Rodríguez - dribeas Aug 29 '12 at 2:29
However, in the original example, I did not add const to the right. I added it to the left, so if you simply replace "T" with "float*" you get: "const float*". I sort of understand what you are trying to say, but to me it just makes more sense how I interpreted it than what the compiler is actually doing. – jlanisdev Aug 29 '12 at 3:00
@jlanisdev: No, that is where you are wrong. The const is applied to T, const T and T const are exact equivalents. In the comment I was recommending that you write the const to the right, as that makes things less confusing. const T and T const are the same, and with T == float* they mean float* const. My suggestion is that, if you get used to writing the const to the right, then the parsing that the compiler does of the expression is closer to textual substitution and is thus easier for you to understand (note neither the T nor a typedef are textual substitution) – David Rodríguez - dribeas Aug 29 '12 at 3:20
That seems so incredibly unintuitive. I suppose I'll have to keep this in mind in the future (I think I've always assumed textual substitution, which is my problem). – jlanisdev Aug 29 '12 at 4:04

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