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Out of pure curiosity, I started playing with array's in ways that I have never used before. I tried making a data structure array, and set it equal to another:

typedef struct _test {
   float value;
} test;

Simple enough struct, so I tried this:

test struct1[10];
test struct2[20];
struct1 = struct2;

I didn't think this would work, and it didn't even compile. But, this interests me a lot. Is it possible to take an array of 10 and increase the size to 20, while copying the data?

Objective-C

I am actually doing this with Objective-C, so I'd like to hear from the Objective-C people as well. I want to see if it is possible to change the size of struct1 in this file.

@interface Object : NSObject {
    test struct1;
}

Remember: This is only out of curiosity, so everything is open to discussion.

share|improve this question

Something else that is not exactly pertinent to your question but is interesting nonetheless, is that although arrays cannot be assigned to, structs containing arrays can be assigned to:

struct test
{
    float someArray[100];
};


struct test s1 = { /* initialise with some data*/ };
struct test s2 = { /* initialise with some other data */ };

s1 = s2; /* s1's array now contains contents of s2's array */

This also makes it possible to return fixed-length arrays of data from functions (since returning plain arrays is not allowed):

struct test FunctionThatGenerates100Floats(void)
{
    struct test result;
    for (int i = 0; i < 100; i++)
        result.someArray[i] = randomfloat();

    return result;
}
share|improve this answer
    
That is another superb approach to using structs. Thanks for sharing! – Justin Nov 9 '11 at 18:02

As others have said, arrays allocated like that are static, and can not be resized. You have to use pointers (allocating the array with malloc or calloc) to have a resizable array, and then you can use realloc. You must use free to get rid of it (else you'll leak memory). In C99, your array size can be calculated at runtime when its allocated (in C89, its size had to be calculated at compile time), but can't be changed after allocation. In C++, you should use std::vector. I suspect Objective-C has something like C++'s vector.

But if you want to copy data between one array and another in C, use memcpy:

/* void *memcpy(void *dest, const void *src, size_t n)
   note that the arrays must not overlap; use memmove if they do */
memcpy(&struct1, &struct2, sizeof(struct1));

That'll only copy the first ten elements, of course, since struct1 is only ten elements long. You could copy the last ten (for example) by changing &struct2 to struct2+10 or &(struct2[10]). In C, of course, not running off the end of the array is your responsibility: memcpy does not check.

You can also you the obvious for loop, but memcpy will often be faster (and should never be slower). This is because the compiler can take advantage of every trick it knows (e.g., it may know how to copy your data 16 bytes at a time, even if each element is only 1 byte wide)

share|improve this answer
    
Interesting approach. I have never heard of this before, but it makes a lot of sense to me. I am assuming that the sizeof() should not just be a numeric constant? – Justin Nov 8 '11 at 22:38
    
@Justin: sizeof is effectively a numeric constant, it just lets the compiler do the math for you. It also knows how the compiler decided to lay out your data (e.g., any padding it may have added). – derobert Nov 8 '11 at 22:41
    
I did not know that. That is a very nice way to do this. – Justin Nov 8 '11 at 22:44
    
Objective-C the language doesn't have a resizable array type, but the Foundation Kit framework (which is what most Objective-C programmers use) has NSMutableArray. – dreamlax Nov 9 '11 at 19:41

In C, I believe that's a good place to use the realloc function. However, it will only work with dynamically allocated arrays. There's no way to change the memory allocated to struct1 by the declaration test struct1[10];.

share|improve this answer
    
realloc works on dynamically allocated pointers, not on arrays (which are allocated by the compiler). – zmbq Nov 8 '11 at 22:18
    
Um, yes. I believe that's what I said. – Ted Hopp Nov 8 '11 at 22:20
    
So if I used the malloc function, realloc would be a good option? – Justin Nov 8 '11 at 22:39
    
@Justin - Yes. Take a look at the man page for realloc for how to use it. (Don't forget to free the memory at the end.) – Ted Hopp Nov 8 '11 at 22:44

In C arrays are constants, you can't change their value (that is, their address) at all, and you can't resize them.

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That may be the case, but it is still interesting to think about it, and find a way around that issue. – Justin Nov 8 '11 at 22:38

Clearly if you declare your array with a fixed size, test struct1[10] then it cannot be resized. What you need to do is to declare it as a pointer:

test *struct1;

Then you must use malloc to allocate the array and can use realloc to resize it whilst preserving the contents of the original array.

struct1 = malloc(10*sizeof(*struct1));
//initialize struct1 ...
test *struct2 = realloc(struct1, 20*sizeof(*struct1));
share|improve this answer
    
It is important to note that most people then put free() in there. Would that still be a good idea if one wanted to use the array variable later? – Justin Nov 8 '11 at 22:41
    
What would you free? You presumably want to use struct2. Obviously you can't use something after free. – David Heffernan Nov 8 '11 at 22:44
    
Good point, but I am just sating that if, for instance, struct2 was only used as a way to increase the size of struct1, it should be freed. Am I correct, or is that the explanation for a lot errors? – Justin Nov 8 '11 at 22:46
    
No you've got that wrong. When realloc succeeds, struct1 is invalid and you can only refer to struct2. – David Heffernan Nov 8 '11 at 22:55

You can't do this in C with static arrays, but you can do it with dynamically allocated arrays. E.g.,

float *struct1, *struct2, *struct3;
if(!(struct1 = malloc(10 * sizeof(float))) { 
  // there was an error, handle it here
}
if(!(struct2 = realloc(struct1, 20 * sizeof(float))) {
  // there was an error, handle it here
  // struct1 will still be valid
}
if(!(struct3 = reallocf(struct2, 40 * sizeof(float))) {
  // there was an error, handle it here
  // struct2 has been free'd
}
share|improve this answer
    
Quite interesting. If tried this way, wouldn't it then be possible to to make a nearly limitless sized array based on other variables? For intense, if I made void setSize(int size), it could be placed at the maximum size (whatever that is)z – Justin Nov 8 '11 at 22:43
    
Good question: you need to check that malloc and realloc could actually alloc the amount of space you asked for -- they return NULL is there was an error. I've edited the above post to reflect this. – Anthony Blake Nov 8 '11 at 22:45
    
Thanks for the info! I can see how this could help in the future. – Justin Nov 8 '11 at 22:48
    
Another small point to note: if realloc fails to reallocate the array, the input pointer (in this case, struct1) is still valid. The reallocf variant will free the input pointer if the allocation fails. – Anthony Blake Nov 8 '11 at 22:50

If you're using Objective C, you know you can just use NSMutableArray, which automatically does the realloc trick to reallocate itself to store however many objects you put in it, up the limit of your memory.

But you're trying to do this with struct? What would that even mean? Suppose you increase the amount of memory available to struct1 in Object. It's still a struct with one member, and doesn't do anything more.

Is the idea to make Object be able to contain an expanded struct?

typedef struct _test2 {
    float value;
    NSObject *reference;
} test2;

But then you still can't access reference normally, because it's not a known part of Object.

Object *object2;
...
NSLog(@"%@", object2.struct1.reference); // does not compile

If you knew you had one of your modified objects, you could do

Object *object2;
...
NSLog(@"%@", ((test2)(object2.struct1)).reference);

And also you could still presumably pass object2 to anything that expects an Object. It only has any chance of working if struct1 is the last member of Object, and don't mess with subclassing Object either.

Some variety of realloc trick might then work, but I don't think realloc in particular, because that's intended to be used on objects that are allocated with malloc, and the details of what C function is used to allocate objects in not exposed in Objective C, so you shouldn't assume it's malloc. If you override alloc then you might be able to make sure malloc is used.

Also you have to watch out for the fact that it's common in Objective C for more than one pointer to an object to exist. realloc might move an object, which won't be semantically correct unless you correct all the pointers.

share|improve this answer
    
Another interesting approach. I am not sure that you can put an object in a struct, but I'll check it out. I am using a struct so I can do something like struct1.value = 1 instead of [[Object struct1] setValue:1]. It is sooo much better to look at and edit. – Justin Nov 9 '11 at 2:37
    
Yes, you can put a pointer to an object in a struct, but that was just an example. – morningstar Nov 9 '11 at 4:48
    
I think you need to get more familiar with Objective C syntax. You don't need to do anything that verbose to set an object's field. From within the object you can just say value = 1. Outside the object you can't do struct1.value = 1 either. But you can set up a @property and then you can access value by dot notation. In any case I don't understand what a resizable struct has to do with that purpose. What you are trying to do can only be done so hackishly that it's definitely not worth it for the purpose of making your code prettier. In any case Objective C supports pretty code already. – morningstar Nov 9 '11 at 4:51
    
Still, I have already said that I am doing this out of curiosity. By the way, you can actually do that from outside the object, you just have to be creative. In addition to all of this, the actual struct is in use in many different classes, so it makes sense to have slightly more efficient, small way to store normal floats than using an NSValue, NSNumber, or formatted NSString for performance reasons. Still, your logic is undeniable. – Justin Nov 9 '11 at 18:00
    
You're not required to use NSValue or NSNumber in Objective C. You can have a direct float member of an object. Just @interface Object : NSObject { float value; } – morningstar Nov 9 '11 at 18:33

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