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I am initializing a struct called Array which consists of an array of Items and an int to keep track of the number of the Items.

  typedef struct anything{
    char text[MAXI];
    int any;

  typedef struct array{
    Item arr[0];
    int size;

To initialize the Array, I'm using malloc and returning the pointer.

Array create(){
    Array *p1 = malloc(sizeof(Array));
    p1->size = 0;
    return *p1;

The problem I have is that some functions are designed for 2 Arrays, such as intersection:

Array intersection(Array S,Array T){
    int i, j;
    Array I = create();
    for(i=0; i<(S.size); i++){
        for(j=0; j<(T.size); j++){
            if((compStructs(S.arr[i], T.arr[j])) == true)
                add(I, S.arr[i]);
    return I;

According to this code, if I were to execute create() twice, I would lose the pointer to the first array. Is there something I can do in the main program to prevent this, or what modifications can I do to the current function?

Edit: Added the add item function:

void add(Array S,Item x){

bool rep = false;
    int i = 0;
    for(i = 0; i<(S.size); i++){
        if(compStructs(x,S.arr[i]) == true)
            rep = true;
    if(rep == false){
            Item *p2 = realloc(S.arr, sizeof(Item));
            *p2 = x;
        printf("The item is already in the set.");


My main problem is that I'm not sure how to call two seperate arrays which are to be created at the user's request. The program is in it's build up but currently it looks somehitng like this:

#include "array.h"
Item x;

void arraymenu(){
    char inp;
    while((inp = getchar())!= '\n'){
        printf("a. To Create a new Array\n"
                "b. To Add a new Item\n"
                "c. To Remove an Item\n"
                "d. To Clear all contents of the Array\n"
                "e. To Get the size of the Array\n"
                "f. To Get a list of the number of elements of your choice\n"
                "g. To Check whether the array is empty\n"
                "h. To Get the union of two sets\n"
                "i. To Get the intersection of two sets\n"
                "j. To Get the difference of two sets\n"
                "k. To Check if a set is the subset of the other one\n"
                "l. To map a function to all Items of an Array\n"
                "m. To apply a function to all Items of an Array\n"
                "n. To store the Array in a File\n"
                "o. To load the Array from a File\n"   );

            case 'a' :  printf("Array A has been created.");
                        Array A = create();

            case 'b' :  printf("Enter any integer, followed by any string.");
                        scanf("%d", &x.any);
                        scanf("%s", &x.text);
                        add(A, x);

            case 'c' :  printf("Enter the integer and string you wish to remove ");
                        scanf("%d", &x.any);
                        scanf("%s", &x.text);
share|improve this question
Why do you have the size field coming after the array? And don't you want to malloc it with a larger size, rather than an array with enough space for zero elements? –  John Zwinck Dec 23 '13 at 13:22
The size field is used to know what size the Item arr[] is. I'm using malloc with 0 elements, since I'm using realloc in another function to add an item. Will edit it in if needed. –  user2035045 Dec 23 '13 at 13:30
Without wanting to sound arrogant, you might want to read up on the difference (and point of) pointers vs arrays Item arr[0] just doesn't really make sense. Also: a malloc wrapper function should, IMO return what malloc returns: a pointer –  Elias Van Ootegem Dec 23 '13 at 13:32
each time you call add you reallocate arr to sizeof(Item)...1 item...if you want more items you have to multiply the size by the number of items –  msam Dec 23 '13 at 13:46
@user2035045: You don't understand: you're not adding anything see the end of my answer: realloc needs to specify the total new size you need: realloc(void *, (current_size + add_size) * sizeof(type)); –  Elias Van Ootegem Dec 23 '13 at 13:52

2 Answers 2

up vote 1 down vote accepted

Basically, instead of a derefferenced pointer to a variable local to a given function's scope you need to return a pointer (BTW, compiling return *ptr should give a warning when compiling, add -Wall, and don't ignore what the compiler is telling you):

Array *create()
    Array *a_ptr = malloc(sizeof(*a_ptr));
    if (a_ptr == NULL) exit (EXIT_FAILURE);//failed to allocate memory
    a_ptr->size = 0;
    return a_ptr;

To be called like this:

Array *S, *T;
S = create();
T = create();

Now you have 2 arrays ready to play with. Note that you'll need to either dereference these pointers, or use the indirection operator on them always:

(*S).size = 1;
S->size += 123;

You'll also probably want to change intersection to something like:

Array *intersection(Array *S,Array *T)
    int i, j;
    Array *I = create();
    for(i=0; i<(S->size); ++i)
        for(j=0; j<(T->size); ++j)
            if(compStructs(S.arr[i], T.arr[j])) add(I, S.arr[i]);
    return I;

Of course, once you're done with all of these Array structs, you'll have to free() them, too.

As far as compStructs and add go, I expect you'll have to work on those functions, too. While you're at it, perhaps change the struct to better fit the way you're using it:

typedef struct array
    Item *arr;
    size_t size;//size_t makes more sense here

Of course, this in turn requires a bit more work when free-ing the memory, so a generic free function is advisable:

void free_array(Array **a)
{//pointer to pointer
    while((*a)->size--) free((*a)->arr+(*a)->size);
    *a = NULL;//NULL pointers are safer
//call like so:
free_array(&Array_ptr);//yes, address of pointer

And realloc calls should look something like:

realloc(a->arr, (a->size + 1)*sizeof(*(a->arr)));
a->size += 1;
share|improve this answer
typedef struct array{
    int size;
    Item arr[];

Array *create(int size){
    Array *p1 = malloc(sizeof(Array) + size*sizeof(Item));
    if(p1)p1->size = size;
    //return *p1;//memory leak
    return p1;
share|improve this answer

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