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One of the things which I miss while writing programs in C is a dictionary data structure. What's the most convenient way to implement one in C? I am not looking for performance, but ease of coding it from scratch. I don't want it to be generic either -- something like string->int will do. But I do want it to be able to store an arbitrary number of items.

This is intended more as an exercise. I know that there are 3rd party libraries available which one can use. But consider for a moment, that they don't exist. In such a situation what's the quickest way you can implement a dictionary satisfying the above requirements.

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If you miss having it provided for you, then why do you want to make it from scratch, instead of using a third-party implementation? – Karl Knechtel Dec 8 '10 at 5:12
Yes, that alternative always exists. I posed this question more as an exercise. – Rohit Dec 8 '10 at 5:16
Writing a hashtable in C is a fun exercise -- every serious C programmer should do it at least once. – Lee Dec 8 '10 at 5:24
I think of a dictionary being a datatype rather than a datastructure, since it could be implemented lots of ways -- a list, a hashtable, a tree, a self-balancing tree, etc. Are you asking for a dictionary, or a hashtable? – Paul Hankin Apr 21 '13 at 7:54
up vote 54 down vote accepted

Section 6.6 of The C Programming Language presents a simple dictionary (hashtable) data structure. I don't think a useful dictionary implementation could get any simpler than this. For your convenience, I reproduce the code here.

struct nlist { /* table entry: */
    struct nlist *next; /* next entry in chain */
    char *name; /* defined name */
    char *defn; /* replacement text */

#define HASHSIZE 101
static struct nlist *hashtab[HASHSIZE]; /* pointer table */

/* hash: form hash value for string s */
unsigned hash(char *s)
    unsigned hashval;
    for (hashval = 0; *s != '\0'; s++)
      hashval = *s + 31 * hashval;
    return hashval % HASHSIZE;

/* lookup: look for s in hashtab */
struct nlist *lookup(char *s)
    struct nlist *np;
    for (np = hashtab[hash(s)]; np != NULL; np = np->next)
        if (strcmp(s, np->name) == 0)
          return np; /* found */
    return NULL; /* not found */

char *strdup(char *);
/* install: put (name, defn) in hashtab */
struct nlist *install(char *name, char *defn)
    struct nlist *np;
    unsigned hashval;
    if ((np = lookup(name)) == NULL) { /* not found */
        np = (struct nlist *) malloc(sizeof(*np));
        if (np == NULL || (np->name = strdup(name)) == NULL)
          return NULL;
        hashval = hash(name);
        np->next = hashtab[hashval];
        hashtab[hashval] = np;
    } else /* already there */
        free((void *) np->defn); /*free previous defn */
    if ((np->defn = strdup(defn)) == NULL)
       return NULL;
    return np;

char *strdup(char *s) /* make a duplicate of s */
    char *p;
    p = (char *) malloc(strlen(s)+1); /* +1 for ’\0’ */
    if (p != NULL)
       strcpy(p, s);
    return p;

Note that if the hashes of two strings collide, it may lead to an O(n) lookup time. You can reduce the likelihood of collisions by increasing the value of HASHSIZE. For a complete discussion of the data structure, please consult the book.

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If it's from the C book, I wonder if there can be a more compact implementation. – Rohit Dec 8 '10 at 5:33
@Rohit, for a piece of useful C code, it doesn't get much more compact than that. I suppose you could always remove some whitespace... – Ryan Calhoun Dec 8 '10 at 5:40
why is here hashval = *s + 31 * hashval; exactly 31 and not anything else? – アレックス Sep 25 '14 at 8:50
31 is prime. Primes are often used in hash functions to reduce probability of collisions. It has something to do with integer factorization (i.e. you cannot factor a prime). – jnovacho Oct 4 '14 at 11:08
@アレックス 31 performed well on test data. Choosing a prime has its benefits, but would not be necessary if the size of the hash table itself was prime. – G. Bach Apr 3 at 16:43

The quickest way would be to use an already-existing implementation, like Sunrise or, at a slightly lower level, uthash.

And, if you really want to code it yourself, the algorithms from uthash can be examined and re-used. It's BSD-licensed so, other than the requirement to convey the copyright notice, you're pretty well unlimited in what you can do with it.

share|improve this answer
As I said, I am looking for "ease of coding it from scratch." – Rohit Dec 8 '10 at 5:13
@Rohit: ... and as he said "if you really want to code it yourself, the algorithms from uthash..." – Thomas Browne Sep 16 '15 at 0:57

Create a simple hash function and some linked lists of structures , depending on the hash , assign which linked list to insert the value in . Use the hash for retrieving it as well .

I did a simple implementation some time back :

#define K 16 // chaining coefficient

struct dict
    char *name; /* name of key */
    int val;   /*  value */
    struct dict *next; /* link field */

typedef struct dict dict;
dict *table[K];
int initialized = 0;

void  putval ( char *,int);

void init_dict()
    initialized = 1;
    int i;  
    for(i=0;iname = (char *) malloc (strlen(key_name)+1);
    ptr->val = sval;
    strcpy (ptr->name,key_name);

    ptr->next = (struct dict *)table[hsh];
    table[hsh] = ptr;


int getval ( char *key_name )
    int hsh = hash(key_name);   
    dict *ptr;
    for (ptr = table[hsh]; ptr != (dict *) 0;
        ptr = (dict *)ptr->next)
    if (strcmp (ptr->name,key_name) == 0)
        return ptr->val;
    return -1;
share|improve this answer
Aren't you missing half the code? where is "hash()" and "putval()"? – swdev Sep 20 '15 at 22:12

here is a quick implement, i used it to get a 'Matrix'(sruct) from a string. you can have a bigger array and change its values on the run also:

typedef struct  { int** lines; int isDefined; }mat;
mat matA, matB, matC, matD, matE, matF;

/* an auxilary struct to be used in a dictionary */
typedef struct  { char* str; mat *matrix; }stringToMat;

/* creating a 'dictionary' for a mat name to its mat. lower case only! */
stringToMat matCases [] =
    { "mat_a", &matA },
    { "mat_b", &matB },
    { "mat_c", &matC },
    { "mat_d", &matD },
    { "mat_e", &matE },
    { "mat_f", &matF },

mat* getMat(char * str)
    stringToMat* pCase;
    mat * selected = NULL;
    if (str != NULL)
        /* runing on the dictionary to get the mat selected */
        for(pCase = matCases; pCase != matCases + sizeof(matCases) / sizeof(matCases[0]); pCase++ )
            if(!strcmp( pCase->str, str))
                selected = (pCase->matrix);
        if (selected == NULL)
            printf("%s is not a valid matrix name\n", str);
        printf("expected matrix name, got NULL\n");
    return selected;
share|improve this answer

A hashtable is the traditional implementation of a simple "Dictionary". If you don't care about speed or size, just google for it. There are many freely available implementations.

here's the first one I saw -- at a glance, it looks ok to me. (it's pretty basic. If you really want it to hold an unlimited amount of data, then you'll need to add some logic to "realloc" the table memory as it grows.)

good luck!

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For ease of implementation, it's hard to beat naively searching through an array. Aside from some error checking, this is a complete implementation (untested).

typedef struct dict_entry_s {
    const char *key;
    int value;
} dict_entry_s;

typedef struct dict_s {
    int len;
    int cap;
    dict_entry_s *entry;
} dict_s, *dict_t;

int dict_find_index(dict_t dict, const char *key) {
    for (int i = 0; i < dict->len; i++) {
        if (!strcmp(dict->entry[i], key)) {
            return i;
    return -1;

int dict_find(dict_t dict, const char *key, int def) {
    int idx = dict_find_index(dict, key);
    return idx == -1 ? def : dict->entry[idx].value;

void dict_add(dict_t dict, const char *key, int value) {
   int idx = dict_find_index(dict, key);
   if (idx != -1) {
       dict->entry[idx].value = value;
   if (dict->len == dict->cap) {
       dict->cap *= 2;
       dict->entry = realloc(dict->entry, dict->cap * sizeof(dict_entry_s));
   dict->entry[dict->len].key = strdup(key);
   dict->entry[dict->len].value = value;

dict_t dict_new(void) {
    dict_s proto = {0, 10, malloc(10 * sizeof(dict_entry_s))};
    dict_t d = malloc(sizeof(dict_s));
    *d = proto;
    return d;

void dict_free(dict_t dict) {
    for (int i = 0; i < dict->len; i++) {
share|improve this answer
"For ease of implementation": You're exactly right: this is the easiest. Plus it implements the OP's request "I do want it to be able to store an arbitrary number of items" - the highest voted answer doesn't do that (unless you believe that picking a compile time constant satisfies "arbitrary"...) – davidbak Jun 5 '15 at 4:23

Hashing is the key. I think use lookup table and hashing key for this. You can find many hashing function online.

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The quickest method would be using binary tree. Its worst case is also only O(logn).

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This is incorrect. Worst case lookup for a binary tree is O(n) (degenerate case due to bad insertion order, resulting in a link list, basically) when it is unbalanced. – Randy Howard Apr 21 '13 at 8:13

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