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Let's say I have an array of arrays of function pointers. In other words, I might want to call a matrix transpose function like so, depending upon what dtype my matrix is:

Transp[dtype][index_dtype](A.ia, A.a, B.ia, B.a);

Functions in Transp might look like this:

void transp_i64_i8(const int64_t* ia, const int8_t* a, int64_t* ib, int8_t* b) {
  // transpose here

except varying the pointer types.

It seems to me that I should declare my function pointer array like so:

void (**Transp)(const void* ia, const void* a, const void* ib, const void* b)[DTYPES_MAX][INDEX_TYPES_MAX] = {
  {transp_i8_i8, transp_i8_i16, transp_i8_i32, /* ... */ },
  {transp_i16_i8, transp_i16_i16, /* ... */ },
  {transp_i32_i8, transp_i32_i16, /* ... */ },
  /* ... */

Unfortunately this doesn't seem to work:

error: called object ‘Transp[(int)self_m->storage->dtype][(int)((struct YALE_STORAGE *)self_m->storage)->index_dtype]’ is not a function
../../../../ext/nmatrix/nmatrix.c: In function ‘nm_complex_conjugate_bang’:
../../../../ext/nmatrix/nmatrix.c:1910:32: error: subscripted value is neither array nor pointer nor vector

I found one fairly useful reference, but I really need an example for my exact use-case to understand and apply.

So what, exactly, is the correct way to define an array of arrays of function pointers? Specifically, how is the declaration portion written?

(I realize this can be done with a typedef much more easily, but I'm writing a code generator, and would rather not use a typedef.)

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Why does a code generator preclude the use of typedefs? Just because the code is auto-generated, it doesn't mean you aren't going to want to read it from time to time. –  Oliver Charlesworth Jun 15 '12 at 21:09

3 Answers 3

up vote 3 down vote accepted

You declare it in a similar way to how you would use it, e.g.:

void (*Transp[DTYPES_MAX][INDEX_TYPES_MAX])(const int64_t*,
                                            const int64_t*,
                                            const int64_t*,
                                            const int64_t*);
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Isn't it a pointer to a pointer, since it's a 2D array? –  Dr. Johnny Mohawk Jun 18 '12 at 20:58
@mohawkjohn: No, it's an array of arrays of pointers to functions. Just because the array is two dimensional doesn't meant you need extra indirections in the array element itself. –  Charles Bailey Jun 18 '12 at 21:40

So the type of a function pointer is

ReturnType (*)(Args);

The type of an array of function pointers is

ReturnType (*[n])(Args);

So an array of arrays of function pointers would be

ReturnType (*[n][m])(Args);

Comparing this to what you have, it looks like you're declaring your array as

ReturnType (**)(Args)[n][m];

That is, a pointer to a pointer to a function that returns an array of arrays. If you remove one of the stars from your variable declaration and move the arrays inside the parentheses, I think this will resolve the problem.

Hope this helps!

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Might also be able to remove both stars, not sure.. –  Mehrdad Jun 15 '12 at 21:13
@Mehrdad- I don't think you can declare an array of functions in C or in C++. –  templatetypedef Jun 15 '12 at 21:14
Your args are in the wrong place, array of array of function pointers vs pointer to function returning an array of arrays. –  Charles Bailey Jun 15 '12 at 21:16
@CharlesBailey- I just caught that. Can you double-check this revised version is correct? –  templatetypedef Jun 15 '12 at 21:16
I think it's better now. –  Charles Bailey Jun 15 '12 at 21:18

If your function pointers all have a fixed number of parameters but different number of parameters or different parameter types, you cannot anyway portably use a single type of function pointers to represent all the function pointers.

In POSIX system you can use an array of array of void * as POSIX guarantees the representation of function pointers and void * is the same. In C actually there is no conversion between function pointers and void * but compilers usually support it.

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