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how can i define a general map operation on an array in C?

ideally I want something like python's map(function,array) ~~ but as a macro. I believe this would be something like C++'s std::transform, but would be in C, and not use iterators..

(this would be unary operation) I was thinking something like:

template <class T*, class U*,size_t N>
T* map(T (*func)(U), U* arr,size_t N)
   T* tmp = (T*)malloc(sizeof(T) * N);
   size_t i;
       *(tmp+i) = *func(*(arr+i));

... but of course templates are in C++.. so how can I 1) do the latter and 2) if you could, could you fix the above code snippet.


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marked as duplicate by billz, Puppy, Rapptz, 0x499602D2, nneonneo Feb 8 '13 at 23:44

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

What you've shown is not C, and it is not good C++. Use std::map in C++. –  Josh Petitt Feb 8 '13 at 23:30
lol std::map has nothing to do with that kind of map. –  Puppy Feb 8 '13 at 23:34

2 Answers 2

up vote 1 down vote accepted

For a template like this, there is a fairly straightforward translation to macros; the major syntactic wrinkle is that you can't return the result array, the variable to write it to has to be another parameter.

#define map(func_, input_, output_, type_, n_) do { \
    output_ = xmalloc(sizeof(type_) * (n_));        \
    size_t i_;                                      \
    for (i_ = 0; i_ < (n_); i_++)                   \
        output_[i_] = func_(input_[i_]);            \
  } while (0)

This is not as type-unsafe as it looks, provided you pay attention to your compiler warnings. However, it is not particularly safe if any of the actual arguments to a use of this macro isn't a simple identifier. Most importantly, catastrophic things will happen if any of the actual arguments has side effects.

This can be cured, as can the inability to return the result array, but only if you're willing to use GNU extensions...

#define gnumap(func_, input_, type_, n_) ({                    \
    __typeof(func_)   func__   = (func_);                      \
    __typeof(input_)  input__  = (input_),                     \
                      output__ = xmalloc(sizeof(type_) * n__); \
    __typeof(n_)      n__      = (n_),                         \
                      i__;                                     \
    for (i__ = 0; i__ < n__; i__++)                            \
        output__[i__] = func__(input__[i__]);                  \
    /* return */ output__;                                     \

Would I do either of these in real life? Probably not, but sometimes it really is the least bad available option. Think of it as one step shy of rewriting that critical inner loop in assembly language.

(xmalloc, in case you're unfamiliar with it, is the conventional name for a user-written wrapper around malloc that either succeeds or crashes the entire program. I use it here to dodge the question of how to cope with malloc failing.)

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If you're going to use GNU extensions, may as well just infer type_ with typeof(input_[0]). –  nneonneo Feb 8 '13 at 23:46
@nneonneo Good point, I always forget that that works. –  Zack Feb 9 '13 at 1:48

So, you could write a function that takes a function pointer and a void * (or char *) to the data, and a data-size.

I certainly wouldn't use only macros to do this, but you may have a macro that doe something like:

 #define MAP(func, type, arr, size) map(func, sizeof(type), arr, size)

and map is the function I describe above.

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.... describe where? –  Eiyrioü von Kauyf Feb 9 '13 at 1:05
In the first sentence of the answer. –  Mats Petersson Feb 9 '13 at 1:06
also is it possible to have a for(<init>;<condition>;<action>){} INSIDE a define <name> do {... code ... } section? –  Eiyrioü von Kauyf Feb 9 '13 at 1:55

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