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I would like to write a macro in c++ which would give the value 0 to every element of a table. For instance, having declared i thus: int i[10];, the macro fill_with_zeros(i) would produce this effect:

i[0] = 0;

i[1] = 0; and so on.

This is its code:

#define fill_with_zeros(xyz) \
    for(int l = 0 ; l < sizeof(xyz) / sizeof(int) ; l++) \
        xyz[l] = 0;

The problem is that I want it to work with tables of multiple types: char, int, double etc. And for this, I need a function that would determine the type of xyz, so that instead of sizeof(int) I could use something like sizeof(typeof(xyz)).

Similar threads exist but people usually want to print the type name whereas I need to use the name within sizeof(). Is there any way to do it?

Thanks in advance

share|improve this question
Just a question. Why not int i[10] = { 0 }; ? Or even memset ? – Kretab Chabawenizc Jul 16 '11 at 23:27
@vpprof: While there are times and places where a macro is appropriate, this is not one of them. Especially since solutions like memset() does what you want but better. It's best to avoid using macros in C++ unless they are really needed. – In silico Jul 16 '11 at 23:31
That's true, you can't do anything smarter (and faster for tables) than memset. Also when dealing with heap allocated tables you still need to know the exact size as sizeof won't help you. – tomasz Jul 16 '11 at 23:34

Why do you think you need a macro for that? This should work:

// Beware, brain-compiled code ahead!
template< typename T, std::size_t sz >
inline void init(T (&array)[sz])
  std::fill( array, array+sz, T() );

I'd expect my std lib implementation to optimize std::fill() to call std::memset() (or something similar) on its own if T allows it.

Note that this does not actually zero the elements, but uses a default-constructed object for initialization. This achieves the same for all types that can be zeroed, plus works with many types that cannot.

share|improve this answer
very good for brain compiled, personally I find the brain compiler to be a little slow sometimes and has erroneous parsing methods :P – Jesus Ramos Jul 17 '11 at 0:31
Much better solution than memset, which is almost always the wrong answer, stomping all over our nice abstractions... I think you mean sz instead of idx in your call. Of course, this begs the question "why not use a std::vector and be done with it" – Nemo Jul 17 '11 at 1:24
@Jesus: To be fair, the code is an adapted version of this one. But you know as it is, such seemingly simple and innocent adaptations usually introduce a glaringly obvious error which only the one who changed the code cannot see. And Nemo proved that to be true once again... – sbi Jul 17 '11 at 8:11
@Nemo: Indeed, thanks. And, yes, your question is right. – sbi Jul 19 '11 at 12:41

Why not just use memset(xyz, 0, sizeof(xyz));?

All-bits 0 = zero for all built-in types (integer and float).

share|improve this answer
What if xyz is an array of double? TTBOMK it's not guaranteed that you can legally zero a floating point value. – sbi Jul 16 '11 at 23:58

The length of an array can be determined as sizeof(xyz) / sizeof(xyz[0]). However, there are already ZeroMemory and memset functions that do what you want.

share|improve this answer
#define fill_with_zeroes(arr) \
    for (int l = 0; l < sizeof(arr) / sizeof(arr[0]); l++) \
        arr[l] = 0;

Alternatively just call memset(arr, 0, sizeof(arr));

I would suggest using memset instead or int i[10] = { 0 };

share|improve this answer

Why not just use std::memset from <cstring>? This is what it was designed for and will in most cases work a lot faster.

int i[10];
memset (i, 0, sizeof (i));
share|improve this answer

You should use memset as others have suggested, but if you really want to go the macro route:

#define fill_with_zeros(xyz) \
for(size_t l = 0 ; l < sizeof(xyz) / sizeof(xyz[0]) ; l++) \
    xyz[l] = 0;
share|improve this answer
+1 for size_t :) – Jesus Ramos Jul 16 '11 at 23:49

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