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hashmap.c
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hashmap.c
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/*
* Generic map implementation.
*/
#include "flags.h"
#include <stdlib.h>
#include <stdio.h>
#include <string.h>
#include "hashmap.h"
#include "crc32.h"
#define INITIAL_SIZE (256)
/* We need to keep keys and values */
typedef struct _hashmap_element{
char* key;
int in_use;
any_t data;
struct _hashmap_element *next;
} hashmap_element;
/* A hashmap has some maximum size and current size,
* as well as the data to hold. */
typedef struct _hashmap_map{
int table_size;
int size;
hashmap_element *data;
int iterator;
int iterator_lower;
} hashmap_map;
/*
* Return an empty hashmap, or NULL on failure.
*/
map_t hashmap_new(void) {
hashmap_map* m = (hashmap_map*) calloc(sizeof(hashmap_map), 1);
if (!m)
goto err;
m->data = (hashmap_element*) calloc(INITIAL_SIZE, sizeof(hashmap_element));
if (!m->data)
goto err;
m->table_size = INITIAL_SIZE;
m->size = 0;
return m;
err:
if (m)
hashmap_free(m);
return NULL;
}
/*
* Hashing function for a string
*/
unsigned int hashmap_hash_int(hashmap_map * m, char* keystring) {
unsigned long key = crc32((unsigned char*)(keystring), (unsigned int)strlen(keystring));
/* Robert Jenkins' 32 bit Mix Function */
key += (key << 12);
key ^= (key >> 22);
key += (key << 4);
key ^= (key >> 9);
key += (key << 10);
key ^= (key >> 2);
key += (key << 7);
key ^= (key >> 12);
/* Knuth's Multiplicative Method */
key = (key >> 3) * 2654435761U;
return key % m->table_size;
}
/*
* Return the pointer to the element to use for the key, or NULL to request
* a larger table.
*/
hashmap_element* hashmap_hash(map_t in, char* key) {
int hash;
hashmap_element *e, *p = NULL;
/* Cast the hashmap */
hashmap_map* m = (hashmap_map *) in;
/* If full, return immediately */
if (m->size >= (m->table_size/2))
return NULL;
/* Find the best index */
hash = hashmap_hash_int(m, key);
e = &m->data[hash];
if (e->in_use == 0)
return e;
/* Linear probing - check if the key exists */
while (e != NULL) {
if (strcmp(e->key,key)==0)
return e;
p = e;
e = e->next;
}
p->next = calloc(1, sizeof(hashmap_element));
p->next->next = NULL;
return p->next;
}
/*
* Doubles the size of the hashmap, and rehashes all the elements
*/
int hashmap_rehash(map_t in) {
int i;
int old_size;
hashmap_element* curr;
hashmap_element *e, *p;
/* Setup the new elements */
hashmap_map *m = (hashmap_map *) in;
hashmap_element* temp = (hashmap_element *) calloc(2 * m->table_size, sizeof(hashmap_element));
if (!temp)
return MAP_OMEM;
/* Update the array */
curr = m->data;
m->data = temp;
/* Update the size */
old_size = m->table_size;
m->table_size = 2 * m->table_size;
m->size = 0;
/* Rehash the elements */
for (i = 0; i < old_size; i++) {
int first = 1;
if (curr[i].in_use == 0)
continue;
e = &curr[i];
while (e != NULL) {
int status;
status = hashmap_put(m, e->key, e->data);
if (status != MAP_OK)
return status;
p = e;
e = e->next;
if (first == 0)
free(p);
first = 0;
}
}
free(curr);
return MAP_OK;
}
/*
* Add a pointer to the hashmap with some key
*/
int hashmap_put(map_t in, char* key, any_t value) {
hashmap_element *e;
hashmap_map* m;
/* Cast the hashmap */
m = (hashmap_map *) in;
/* Find a place to put our value */
e = hashmap_hash(in, key);
while (e == NULL) {
if (hashmap_rehash(in) == MAP_OMEM) {
return MAP_OMEM;
}
e = hashmap_hash(in, key);
}
/* Set the data */
e->data = value;
e->key = key;
e->in_use = 1;
m->size++;
return MAP_OK;
}
/*
* Get your pointer out of the hashmap with a key
*/
int hashmap_get(map_t in, char* key, any_t *arg) {
int curr;
hashmap_map* m;
hashmap_element *e;
/* Cast the hashmap */
m = (hashmap_map *) in;
/* Find data location */
curr = hashmap_hash_int(m, key);
if (arg != NULL)
*arg = NULL;
e = &m->data[curr];
if (e->in_use == 0)
return MAP_MISSING;
/* Linear probing, if necessary */
while (e != NULL) {
if (strcmp(e->key,key)==0) {
if (arg != NULL)
*arg = e->data;
return MAP_OK;
}
e = e->next;
}
/* Not found */
return MAP_MISSING;
}
any_t hashmap_begin_iteration(map_t in) {
int i;
/* Cast the hashmap */
hashmap_map* m = (hashmap_map*) in;
/* On empty hashmap, return immediately */
if (hashmap_length(m) <= 0)
return NULL;
/* Linear probing */
for (i = 0; i< m->table_size; i++) {
if (m->data[i].in_use != 0) {
m->iterator = i;
m->iterator_lower = 1;
return m->data[i].data;
}
}
return NULL;
}
any_t hashmap_next_iteration(map_t in) {
hashmap_element* e;
int i,j;
/* Cast the hashmap */
hashmap_map* m = (hashmap_map*) in;
/* Linear probing */
for (i = m->iterator; i< m->table_size; i++) {
e = &m->data[i];
if (e->in_use == 0)
continue;
for (j = 0; j < m->iterator_lower; j++)
e = e->next;
if (e == NULL) {
m->iterator_lower = 0;
continue;
}
m->iterator = i;
m->iterator_lower++;
return e->data;
}
return NULL;
}
/*
* Remove an element with that key from the map
*/
int hashmap_remove(map_t in, char* key) {
int curr;
hashmap_map* m;
hashmap_element *e, *p;
/* Cast the hashmap */
m = (hashmap_map *) in;
/* Find key */
curr = hashmap_hash_int(m, key);
e = &m->data[curr];
if (e->in_use == 0)
return MAP_MISSING;
/* Linear probing, if necessary */
p = NULL;
while (e != NULL) {
if (strcmp(e->key,key)==0) {
/* Blank out the fields */
e->in_use = 0;
e->data = NULL;
e->key = NULL;
if (p != NULL) {
p->next = e->next;
free(e);
}
else {
/* Located in the big array, not floating memory */
if (e->next != NULL) {
hashmap_element *tmp = e->next;
memcpy(e, e->next, sizeof(hashmap_element));
free(tmp);
}
}
/* Reduce the size */
m->size--;
return MAP_OK;
}
p = e;
e = e->next;
}
/* Data not found */
return MAP_MISSING;
}
/* Deallocate the hashmap */
void hashmap_free(map_t in) {
hashmap_map* m = (hashmap_map*) in;
hashmap_element *e, *p;
int i;
for (i = 0; i < m->table_size; i++) {
int first = 1;
e = &m->data[i];
if (e->in_use == 0)
continue;
while (e != NULL) {
p = e;
e = e->next;
if (first == 0)
free(p);
first = 0;
}
}
free(m->data);
free(m);
}
/* free all elements */
void hashmap_free_all_elements(map_t in) {
any_t *e;
e = hashmap_begin_iteration(in);
while (e != NULL) {
free(e);
e = hashmap_next_iteration(in);
}
}
/* Return the length of the hashmap */
int hashmap_length(map_t in) {
hashmap_map* m = (hashmap_map *) in;
if (m != NULL)
return m->size;
else
return 0;
}