5

Am i right in thinking the only way to create a list which grows during run time in C, is to use a linked list?

0
4

Linked list is one way. It has O(1) insertion (assuming you're already at the insertion point) and deletion, but O(n) n'th element lookup.

Resizing a dynamically allocated array with malloc is another. It has O(1) n'th element lookup but O(n) insertion (due to having to copy all later elements after the insertion point, and possibly all elements on realloc) and deletion.

If you're really worried about performance for both these operations, I would go with some sort of self-balancing tree structure. You can surely attain O(log n)for lookup, insertion, and deletion. And for all practical purposes if objects are in main memory, log n is bounded by 32 or 64 and O(log n) might as well be O(1).

2
  • Im only really doing insertion at the end and then traversal, no insertions in the middle and no deletions. – Tom Oct 31 '10 at 17:47
  • Then a simple linked list should be perfect. – R.. GitHub STOP HELPING ICE Oct 31 '10 at 19:23
6

You could use a combination of malloc and realloc. To first initialize a C array (malloc) and to grow it (realloc). However, you won't want to grow it by 1 element at a time if you are doing a lot of inserts. It's best to come up with a scheme to make the list grow as you need it (ie add 10 elements each time the list size reaches the allocated size).

1

I've made a list using malloc and realloc that can grow dynamically. I don't have the most recent code available at this moment, but here is some (incomplete, but functional) code that I wrote a while back to manage dynamic, generic, lists in C.

#include<stdbool.h>

struct empty_list_key{
    int offest;
    struct empty_list_key* next;
};

typedef struct list_t{
    int CURRENT_POSITION; //position of the array cursor.
    int BLOCK_SIZE; //size of data type
    int SIZE;
    void** data;
    struct empty_list_key* empty_keys;
}list_t;

list_t* init_list(int size, int blocksize){
    if(size < 0){
        return NULL;
    }
    list_t *list = malloc(sizeof(list_t));
    if(list == NULL){
        return NULL;
    }
    list->CURRENT_POSITION = 0;
    list->BLOCK_SIZE = blocksize;
    list->SIZE = size;
    list->data = malloc(sizeof(void*) * size);
    if(list->data == NULL){
        free(list);
        return NULL;
    }
    if(size > 0){
        int i;
        struct empty_list_key* empty_key;
        empty_key = malloc(sizeof(struct empty_list_key));
        //TODO: Check for NULL. If NULL, cleanup everything and return.
        empty_key->offest = 0;
        if(size > 1){
            for(i = 1; i < size; i++){
                empty_key->next = malloc(sizeof(struct empty_list_key));
                //TODO: Check for NULL. If NULL, cleanup everything and return.
                empty_key = empty_key->next;
                empty_key->offest = i;
            }
        }
    }else{
        list->empty_keys = NULL;
    }
    return list;
}

void delete_list(list_t* list){
    free(list->data);
    free(list);
}

bool list_set(list_t* list, int pos, void* value){
    if(pos < list->SIZE && pos >= 0){
        list->data[pos] = value;
        return true;
    }else{
        return false;
    }
}
bool list_unset(list_t* list, int pos){
    if(pos < list->SIZE && pos >= 0){
        free(list->data[sizeof(void*) * pos]);
        list->data[pos] = NULL;
        struct empty_list_key* empty_key = malloc(sizeof(struct empty_list_key));
        if(empty_key == NULL){
            return false;
        }

        //insert empty key at beginning of empty keys linked list.
        empty_key->offest = pos;
        empty_key->next = list->empty_keys;
        list->empty_keys = empty_key;
        return true;
    }else{
        return false;
    }
}

void* list_get(list_t* list, int pos){
    if(pos < list->SIZE && pos >= 0){
        return list->data[pos];
    }else{
        return NULL;
    }
}

bool list_push(list_t* list,void* value){
    void** tmp = realloc(list->data,(sizeof(void*) * list->SIZE) + sizeof(void*));
    if(tmp == NULL){
        return false;
    }else{
        list->data = tmp;
        list->SIZE ++;
        list_set(list,list->SIZE-1,value);
        return true;
    }
}

void* list_pop(list_t* list){
    void* value = list_get(list,list->SIZE-1);
    void** tmp = realloc(list->data,(sizeof(void*) * (list->SIZE ) ));
    if(tmp == NULL){
        return NULL;
    }else{
        list->SIZE --;
        list->data = tmp;
        return value;
    }
}

int list_size(list_t* list){
    return list->SIZE;
}

bool list_add(list_t* list, void* value){
    if(list->empty_keys == NULL){
        return list_push(list,value);
    }else{
        int offset = list->empty_keys->offest;
        struct empty_list_key* empty_key = list->empty_keys->next;
        free(list->empty_keys);
        list->empty_keys = empty_key;
        return list_set(list,offset,value);
    }
}

bool list_remove(list_t* list, int pos){
    struct empty_list_key* empty_key = malloc(sizeof(struct empty_list_key));
    if(empty_key == NULL)   return false;

    if(list_unset(list,pos)){
        empty_key->offest = pos;
        empty_key->next = list->empty_keys;
        list->empty_keys = empty_key;
        return true;
    }else{
        return false;
    }
}
1

take a look at utlist and utarray. utlist is basically a linked list and utarray is malloc/realloc macro. You can easily make them as inline func.

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