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Using GCC and C99 mode, I have a function declared as:

void func(float *X);

When I call the function, I use a volatile array Y:

volatile float Y[2];
int main()
    return 0;

When compiling (with -Wall), I get the following warning:

warning: passing argument 1 of ‘func’ discards qualifiers from pointer target type
blah.c:4: note: expected ‘float *’ but argument is of type ‘volatile float *’

I can eliminate it with an explicit (float *) type cast, but this repeats in many places in the code.

Is there a way to eliminate this specific warning, with an option or a pragma (or something equivalent)?

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What does this have to do with printf? –  Keith Randall Aug 28 '12 at 17:05
@KeithRandall - you're right, the actual function was printf, I just made the question more general. –  ysap Aug 28 '12 at 17:12

1 Answer 1

up vote 4 down vote accepted

No, you can't turn that warning off. It's telling you you're violating the type system. If you want to call func you either need to pass it pointers to non-volatile data or change the function signature to accept pointers to volatile data.

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Thanks. This is actually interesting (and arguable, in a way). I don't really change the type of the variable. The volatile qualifier is a signal for the optimizer. So I wonder why it is regarded as a violation of the type system?! –  ysap Aug 28 '12 at 17:16
In the same way as passing a const int* to a function func(int*) is a violation of the type system. –  Jonathan Wakely Aug 28 '12 at 17:18
@ysap volatile, just like const, is part of the type. –  rubenvb Aug 28 '12 at 17:19
@rubenvb, Jonathan - While accepting your comments, I do see a difference between the const and the volatile qualifiers. The way I understand it, const qualifier gives compile time (as opposed to optimize time) information about the object. For example, it should prevent me from assigning a value to that object, and I should get a diagnostics if I try to do that. With volatiles, there is no such problem (that I can imagine right now). –  ysap Aug 28 '12 at 17:48
... but, when you come to think about it, the point may be that the compiler guards from case where a volatile object is passed to a non-volatile function, and that function, having non-volatile arguments, is being over-optimized to teh point where the result, per the volatile object, is incorrect! –  ysap Aug 28 '12 at 17:50

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