You first have to think of your collision strategy:

- Will you have multiple hash functions?
- Or will you have to use containers inside of the hashtable?

We'll pick 1.

Then you have to choose a nicely distributed hash function. For the example, we'll pick

```
int hash_fun(int key, int try, int max) {
return (key + try) % max;
}
```

If you need something better, maybe have a look at the middle-squared method.

Then, you'll have to decide, what a hash table is.

```
struct hash_table {
int max;
int number_of_elements;
struct my_struct **elements;
};
```

Then, we'll have to define how to insert and to retrieve.

```
int hash_insert(struct my_struct *data, struct hash_table *hash_table) {
int try, hash;
if(hash_table->number_of_elements >= hash_table->max) {
return 0; // FULL
}
for(try = 0; true; try++) {
hash = hash_fun(data->key, try, hash_table->max);
if(hash_table->elements[hash] == 0) { // empty cell
hash_table->elements[hash] = data;
hash_table->number_of_elements++;
return 1;
}
}
return 0;
}
struct my_struct *hash_retrieve(int key, struct hash_table *hash_table) {
int try, hash;
for(try = 0; true; try++) {
hash = hash_fun(key, try, hash_table->max);
if(hash_table->elements[hash] == 0) {
return 0; // Nothing found
}
if(hash_table->elements[hash]->key == key) {
return hash_table->elements[hash];
}
}
return 0;
}
```

And least a method to remove:

```
int hash_delete(int key, struct hash_table *hash_table) {
int try, hash;
for(try = 0; true; try++) {
hash = hash_fun(key, try, hash_table->max);
if(hash_table->elements[hash] == 0) {
return 0; // Nothing found
}
if(hash_table->elements[hash]->key == key) {
hash_table->number_of_elements--;
hash_table->elements[hash] = 0;
return 1; // Success
}
}
return 0;
}
```

`key`

to a valid value in the array, and then you just append your value to the linked-list that exists there. Like any other hash implementation, this will perform efficiently so long as your hash function distributes keys relatively evenly within the array. – aroth Jul 27 '11 at 13:10