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I'm trying to implement a hashtable with linked list and there is one thing not working properly. First i made the linked list code and made sure it worked just as it is supposed to, so I figured out it got to be something with the hashtable implementation or the interaction between them both.

What happens is i can add several objects and find them again with no problem. But if two or more objects are hashed with the same key they are supposed to create a linked list but for some reason i can only find the latest added object in the linked list.

The previously added object is there though because i can successfully delete the object that i cannot find with my "lookup_string" function, so therefor i know the object is stored at that spot.

So the function "lookup_string" is supposed to deliver the object i search for in the hash table and the "Search" function is the one i used when I only implemented the linked list. Worth mentioning is that the "Search" function is used in the delete-process but not in the process where i just want to find an object, I'm not sure if this matters because i believe the "lookup_string" should be able to find an object without the "Search" function.

So to make this simple, I store two objects:

Object 1:

name(key) = bcd
telephone number = 123

Object 2:

name(key) = ace
telephone number = 910

Now both object 1 and 2 will get the same hash-key value and therefor they will be stored in the same slot in the hash-table. They are supposed to create a linked list but when i search for the objects (choice number 3 in the menu) i can only find the latest added object, which is Object 2. But i can still delete Object 1 and it will tell me that Object 1 was deleted successfully.

Code:

struct post
{   
    char name[30];          
    int tel;                
    struct post *next;      
};

typedef struct post Post;

Post *head = NULL;  
Post *current;  

struct hash_table
{
    Post **table;
    int size;
};

typedef struct hash_table Post_table;

unsigned int Hash(Post_table *hash_table, char tempname[30])
{
    int i;
    int sum;
    int key;
    for(i = 0; i < strlen(tempname); i++)
    {
        sum += (int)tempname[i];
    }

    key = sum % hash_table->size;
    return key;
}

Post_table *create_hash_table(int size)
{
    int i;
    Post_table *new_table;

    if (size < 1)
    {
        return NULL;
    }

    //attempt to allocate memory for the table structure
    if ((new_table = malloc(sizeof(Post_table))) == NULL)
    {
        return NULL;
    }

    //attempt to allocate memory for the table itself
    if ((new_table->table = malloc(sizeof(Post *) * size)) == NULL)
    {
        return NULL;
    }

    //Initialize the elements of the table
    for(i = 0; i < size; i++)
    {
        new_table->table[i] = NULL;
        new_table->size = size;
    }
    return new_table;
}

Post *lookup_string(Post_table *hash_table, char tempname[30])
{
    Post *list;
    unsigned int hashkey = Hash(hash_table, tempname);

    for(list = hash_table->table[hashkey]; list != NULL; list = list->next)
    {
        if (strcmp(tempname, list->name) == 0)
        {
            return list;
        }
    }
    return NULL;
}

int add_string(Post_table *hash_table, char tempname[30], int temptel)
{
    Post *new_list;
    Post *current_list;
    unsigned int hashkey = Hash(hash_table, tempname);

    /* Attempt to allocate memory for list */
    if ((new_list = malloc(sizeof(Post))) == NULL)
    {
        return 1;
    }

    /* Does item already exist? */
    current_list = lookup_string(hash_table, tempname);
    /* item already exists, don't insert it again. */
    if (current_list != NULL)
    {
        return 2;
    }
    /* Insert into list */

    printf("\nHash-key: %d\n", hashkey); 
    hash_table->table[hashkey] = AddList(tempname, temptel);

    return 0;
}

Post* CreateList(char tempname[30], int temptel)
{   
    Post *ptr = (Post*)malloc(sizeof(Post));

    strcpy(ptr->name, tempname);    
    ptr->tel = temptel;
    ptr->next = NULL;

    printf("\n creating list with headnode as [%s]\n",tempname);

    head = current = ptr;
    return ptr;
}

Post* AddList(char tempname[30], int temptel)
{
    if (NULL == head)
    {
        return (CreateList(tempname, temptel));
    }

    printf("\n Adding node to end of list with value [%s]\n",tempname);
    Post *ptr = (Post*)malloc(sizeof(Post));

    strcpy(ptr->name, tempname);
    ptr->tel = temptel;
    ptr->next = NULL;

    current->next = ptr;
    current = ptr;
    return ptr;
}

void skrivMeny(void)
{
    printf("\n1: Register name and telephone number\n");
    printf("2: Remove name and telephone number\n");
    printf("3: Search for name\n");
    printf("5: Exit\n");
}

Post* Search(char tempname[30], Post **prev)
{
    Post *ptr = head;
    Post *tmp = NULL;
    int found = 0;
    char structname[sizeof(tempname)];

    printf("\n Searching the list for value [%s] \n",tempname);

    while(ptr != NULL)
    {   
        if (strcmp(ptr->name, tempname) == 0)
        {
            found = 1;
            break;
        }
        else
        {
            tmp = ptr;
            ptr = ptr->next;
        }
    }

    if(found == 1)
    {
        if(prev)
        {
            *prev = tmp;
        }
        return ptr;
    }
    else
    {
        return NULL;
    }
}

void free_entry(Post_table *hash_table, char tempname[30])
{
    Post *del_list;
    Post *temp;
    int ret = 0;

    unsigned int hashkey = Hash(hash_table, tempname);
    del_list = lookup_string(hash_table, tempname);

    ret = Delete(tempname);

    if(ret != 0)
    {
        printf("\n delete [name = %s] failed, no such element found\n",tempname);
    }
    else
    {
        printf("\n delete [name = %s]  passed \n",tempname);
    }
}

int Delete(char tempname[30])
{
    Post *prev = NULL;
    Post *del = NULL;

    printf("\n Deleting value [%s] from list\n",tempname);
    del = Search(tempname,&prev);

    if(del == NULL)
    {
        return -1;
    }
    else
    {
        if(prev != NULL)
        {
            prev->next = del->next;
        }
        if(del == current && del != head)
        {
            current = prev;
        }
        else if(del == head)
        {
            head = del->next;
        }
    }

    free(del);
    del = NULL;
    return 0;
}


int main()
{
    printf("\nHej och välkommen till hashlistan\n\n");
    int menyval = 1;
    char tempname[30];
    int temptel;
    int key;

    Post * ptr;

    Post_table *hash_table;
    int table_size = 10;
    hash_table = create_hash_table(table_size);

while (menyval > 0 && menyval <= 5)
{
    skrivMeny();
    scanf("%d", &menyval);

        if (menyval == 1)
        {
            printf("[Name] [Number] = ");
            scanf("%s %d", &tempname[0], &temptel);//inmatning
            add_string(hash_table, tempname, temptel);
        }

        if (menyval == 2)
        {
            printf("[Name] = ");
            scanf("%s", &tempname[0]);
            free_entry(hash_table, tempname);
        }

        if (menyval == 3)
        {
            printf("[Name] = ");
            scanf("%s", &tempname[0]);
            ptr = lookup_string(hash_table, tempname);

            if(ptr == NULL)
            {
                printf("\n Search [name = %s] failed, no such element found\n",tempname);
            }
            else
            {
                printf("\n Search passed [name = %s tel = %d]\n",ptr->name, ptr->tel);
            }
        }
        if (menyval == 5)
        {
            break;
        }

    }
    return 0;
}

I appreciate all help or tips toward solving my problem!

EDIT: This is how my code looks like right now, I divided my file into two files; hash.c and lista.h where i included the header file in the c-file.

lista.h:

struct post
{   
    char name[30];          
    int tel;                
    struct post *next;      
};
typedef struct post Post;

struct list
{
    Post *head = NULL;  
    Post *current;
};
typedef struct list List;

Post* CreateList(char tempname[30], int temptel)
{   
    Post *ptr = (Post*)malloc(sizeof(Post));

    strcpy(ptr->name, tempname);    
    ptr->tel = temptel;
    ptr->next = NULL;

    printf("\n creating list with headnode as [%s]\n",tempname);

    return ptr;
}

Post* AddList(char tempname[30], int temptel, int emptyElement)
{
    if (emptyElement == 1)
    {
        return (CreateList(tempname, temptel));
    }

    printf("\n Adding node to end of list with value [%s]\n",tempname);
    Post *ptr = (Post*)malloc(sizeof(Post));

    strcpy(ptr->name, tempname);
    ptr->tel = temptel;
    ptr->next = NULL;

    return ptr;
}

int Delete(Post_table *hash_table, char tempname[30])
{
    Post *prev = NULL;
    Post *del = NULL;

    printf("\n Deleting value [%s] from list\n",tempname);
    del = Search(tempname,&prev);

    if(del == NULL)
    {
        return -1;
    }
    else
    {
        if(prev != NULL)
        {
            prev->next = del->next;
        }
        if(del == hash_table->table[hashkey].current && del != hash_table->table[hashkey].head)
        {
            hash_table->table[hashkey].current = prev;
        }
        else if(del == hash_table->table[hashkey].head)
        {
            hash_table->table[hashkey].head = del->next;
        }
    }

    free(del);
    del = NULL;
    return 0;
}

hash.c:

struct hash_table
{
    List *table;
    int size;
};

typedef struct hash_table Post_table;

unsigned int Hash(Post_table *hash_table, char tempname[30])
{
    int i;
    int sum;
    int key;
    for(i = 0; i < strlen(tempname); i++)
    {
        sum += (int)tempname[i];
    }

    key = sum % hash_table->size;
    return key;
}

Post_table *create_hash_table(int size)
{
    int i;
    Post_table *new_table;

    if (size < 1)
    {
        return NULL;
    }

    //attempt to allocate memory for the table structure
    if ((new_table = malloc(sizeof(Post_table))) == NULL)
    {
        return NULL;
    }

    //attempt to allocate memory for the table itself
    if ((new_table->table = malloc(sizeof(Post *) * size)) == NULL)
    {
        return NULL;
    }

    //Initialize the elements of the table
    for(i = 0; i < size; i++)
    {
        new_table->table[i] = NULL;
        new_table->size = size;
    }
    return new_table;
}

Post *lookup_string(Post_table *hash_table, char tempname[30])
{
    Post *list;
    unsigned int hashkey = Hash(hash_table, tempname);

    for(list = hash_table->table[hashkey]; list != NULL; list = list->next)
    {
        if (strcmp(tempname, list->name) == 0)
        {
            return list;
        }
    }
    return NULL;
}

int add_string(Post_table *hash_table, char tempname[30], int temptel)
{
    int emptyElement = 0;        
    Post *new_list;
    Post *current_list;
    unsigned int hashkey = Hash(hash_table, tempname);

    /* Attempt to allocate memory for list */
    if ((new_list = malloc(sizeof(Post))) == NULL)
    {
        return 1;
    }

    /* Does item already exist? */
    current_list = lookup_string(hash_table, tempname);
    /* item already exists, don't insert it again. */
    if (current_list != NULL)
    {
        return 2;
    }
    /* Insert into list */
    if (hash_table->table[hashkey] == NULL)
    {
        emptyElement = 1;
    }

    printf("\nHash-key: %d\n", hashkey); 
    hash_table->table[hashkey] = AddList(tempname, temptel);

    if (emptyElement == 1)
    {
            hash_table->table[hashkey].head = hash_table->table[hashkey];
            hash_table->table[hashkey].current = hash_table->table[hashkey];
    }

    if (emptyElement == 0)
    {
            hash_table->table[hashkey].current = hash_table->table[hashkey];
    }

    return 0;
}

void free_entry(Post_table *hash_table, char tempname[30])
{
    Post *del_list;
    Post *temp;
    int ret = 0;

    unsigned int hashkey = Hash(hash_table, tempname);
    del_list = lookup_string(hash_table, tempname);

    ret = Delete(tempname);

    if(ret != 0)
    {
        printf("\n delete [name = %s] failed, no such element found\n",tempname);
    }
    else
    {
        printf("\n delete [name = %s]  passed \n",tempname);
    }
}

void skrivMeny(void)
{
    printf("\n1: Register name and telephone number\n");
    printf("2: Remove name and telephone number\n");
    printf("3: Search for name\n");
    printf("5: Exit\n");
}

Post* Search(char tempname[30], Post **prev)
{
    Post *ptr = head;
    Post *tmp = NULL;
    int found = 0;
    char structname[sizeof(tempname)];

    printf("\n Searching the list for value [%s] \n",tempname);

    while(ptr != NULL)
    {   
        if (strcmp(ptr->name, tempname) == 0)
        {
            found = 1;
            break;
        }
        else
        {
            tmp = ptr;
            ptr = ptr->next;
        }
    }

    if(found == 1)
    {
        if(prev)
        {
            *prev = tmp;
        }
        return ptr;
    }
    else
    {
        return NULL;
    }
}

int main()
{
    printf("\nHej och välkommen till hashlistan\n\n");
    int menyval = 1;
    char tempname[30];
    int temptel;
    int key;

    Post * ptr;

    Post_table *hash_table;
    int table_size = 10;
    hash_table = create_hash_table(table_size);

while (menyval > 0 && menyval <= 5)
{
    skrivMeny();
    scanf("%d", &menyval);

        if (menyval == 1)
        {
            printf("[Name] [Number] = ");
            scanf("%s %d", &tempname[0], &temptel);//inmatning
            add_string(hash_table, tempname, temptel);
        }

        if (menyval == 2)
        {
            printf("[Name] = ");
            scanf("%s", &tempname[0]);
            free_entry(hash_table, tempname);
        }

        if (menyval == 3)
        {
            printf("[Name] = ");
            scanf("%s", &tempname[0]);
            ptr = lookup_string(hash_table, tempname);

            if(ptr == NULL)
            {
                printf("\n Search [name = %s] failed, no such element found\n",tempname);
            }
            else
            {
                printf("\n Search passed [name = %s tel = %d]\n",ptr->name, ptr->tel);
            }
        }
        if (menyval == 5)
        {
            break;
        }

    }
    return 0;
}

But as I said there seems to be something wrong with this part:

struct list
{
    Post *head = NULL;  
    Post *current;
};

And since this is not correct it causes several other errors so I'm trying to see what is wrong with this part first.

share|improve this question
    
Have you tried stepping through your lookup function, one line at a time, with a debugger? What OS are you using? What compiler? –  PP. Jul 23 '13 at 9:09
    
Oh I forgot to mentioned that this is C language and the OS is the latest Ubuntu. It's compiled with gcc, i don't remember which version. But I don't have access to my computer right now and i don't have a compiler on this computer I'm on, which is very limited so I can't install a compiler either. –  AznBenny Jul 23 '13 at 9:15
    
My eyes, my eyes! That's a lot of code. –  doctorlove Jul 23 '13 at 9:16
    
Yeah i noticed! I did use intends when writing my post which would have made the code much easier to read, but somehow the intends didn't apply to the final post.... –  AznBenny Jul 23 '13 at 9:24
    
actually if you use firefox the intends are showing up correctly. And also I updated my code and divided it into one c-file and one header-file where the header-file is included in the c-file. Still the same amount of code, but maybe easier to look through. –  AznBenny Jul 24 '13 at 16:18

5 Answers 5

up vote 0 down vote accepted

OK here are some imporvements on your code: I've marked them with my Tag 'Leo'

In list.c:

struct post                 // structure of node
{   
    char name[30];          // stored data
    int tel;                // stored data
    struct post *next;      // reference to next node
};

typedef struct post Post;   // Post = struct post

struct list
{
    Post *head;         
    Post *current;              
};

typedef struct list List;

struct hash_table
{
    List *table;
    int size;
};

typedef struct hash_table Post_table;

Post* CreateList(char tempname[30], int temptel);
Post* AddList(char tempname[30], int temptel, int emptyElement, Post *current);
void skrivMeny(void);
void PrintList(void);
int Delete(Post_table *hash_table, char tempname[30], unsigned int hashkey);
Post* Search(Post_table *hash_table, unsigned int hashkey, char tempname[30], Post **prev);

Post* CreateList(char tempname[30], int temptel)
{   
    Post *ptr = (Post*)malloc(sizeof(Post));

    strcpy(ptr->name, tempname);    
    ptr->tel = temptel;
    ptr->next = NULL;

    printf("\n creating list with headnode as [%s]\n",tempname);

    return ptr;
}

// Leo: emptyElement isn't neccessary, we use current==null 
Post* AddList(char tempname[30], int temptel, Post *current)
{
    if( current == null )
    {
        return (CreateList(tempname, temptel));
    }

    printf("\n Adding node to end of list with value [%s]\n",tempname);
    Post *ptr = (Post*)malloc(sizeof(Post));

    strcpy(ptr->name, tempname);
    ptr->tel = temptel;
    ptr->next = NULL;

    // Leo: we must append the new element to current
    current->next = ptr;

    return ptr;
}

and in hash.c

unsigned int Hash(Post_table *hash_table, char tempname[30])
{
    int i;
    int sum;
    int key;
    for(i = 0; i < strlen(tempname); i++)
    {
        sum += (int)tempname[i];
    }

    key = sum % hash_table->size;
    return key;
}

Post_table *create_hash_table(int size)
{
    int i;
    Post_table *new_table;

    if (size < 1)
    {
        return NULL;
    }

    //attempt to allocate memory for the table structure
    if ((new_table = malloc(sizeof(Post_table))) == NULL)
    {
        return NULL;
    }

    //attempt to allocate memory for the table itself
    // Leo: replaced malloc() by calloc() so all head and current are initialized with NULL
    if ((new_table->table = calloc(size, sizeof(List *) )) == NULL)
    {
        return NULL;
    }

    //Initialize the elements of the table
    /* Leo: What's that loop for ?
    for(i = 0; i < size; i++)
    {
        new_table->table[i];        // Leo: that line doen't do anything
        new_table->size = size;     // Leo: once is enough, let's have it otside the loop
    }
    */
    new_table->size = size;       // Leo: once is enough, let's have it otside the loop
    return new_table;
}

Post *lookup_string(Post_table *hash_table, char tempname[30])
{
    Post *list;
    unsigned int hashkey = Hash(hash_table, tempname);

    /* Go to the correct list based on the hash value and see if str is
    * in the list.  If it is, return return a pointer to the list element.
    * If it isn't, the item isn't in the table, so return NULL.
    */
    // Leo: we must start with head instead of current
    for(list = hash_table->table[hashkey].head; list != NULL; list = list->next)
    {
        if (strcmp(tempname, list->name) == 0)
        {
            return list;
        }
    }
    return NULL;
}

int add_string(Post_table *hash_table, char tempname[30], int temptel)
{
    //Leo: emptyElement is not used any more (see AddList()
    //int emptyElement = 0;
    //Leo: new_list is never used
    //Post *new_list;
    Post *current_list;
    unsigned int hashkey = Hash(hash_table, tempname);

    /* Attempt to allocate memory for list */
    /* Leo: new_list is never used
    if ((new_list = malloc(sizeof(Post))) == NULL)
    {
        return 1;
    }
    */

    /* Does item already exist? */
    current_list = lookup_string(hash_table, tempname);
    /* item already exists, don't insert it again. */
    if (current_list != NULL)
    {
        return 2;
    }
    /* Insert into list */
    /* Leo: emptyElement isn't used any more 
    if (hash_table->table[hashkey].head == NULL)
    {
        emptyElement = 1;
    }
    */

    printf("\nHash-key: %d\n", hashkey);
    //This line of code under used to store my element in the hash-table but gives now an error 
    //  hash_table->table[hashkey] = AddList(tempname, temptel, emptyElement, hash_table->table[hashkey].current);

    /* Leo: in case of emptyElement == 1 you have called AddList() twice and so created two new list elemens, we replace all of this by the code below
    if (emptyElement == 1)
    {
        hash_table->table[hashkey].head = AddList(tempname, temptel, emptyElement, hash_table->table[hashkey].current);
        hash_table->table[hashkey].current = AddList(tempname, temptel, emptyElement, hash_table->table[hashkey].current);
    }

    if (emptyElement == 0)
    {
        hash_table->table[hashkey].current = AddList(tempname, temptel, emptyElement, hash_table->table[hashkey].current);
    }
    */

    // Leo: Note: if the list for hashKey has not been created yet then both head and current are NULL, otherwise both are != NULL
    hash_table->table[hashkey].current = AddList(tempname, temptel, hash_table->table[hashkey].current);
    // Leo: if the list has been created just now, then both head and current must point to the only list element
    if( hash_table->table[hashkey].head == NULL )
         hash_table->table[hashkey].head = hash_table->table[hashkey].current;

    return 0;
}

void free_entry(Post_table *hash_table, char tempname[30])
{
    Post *del_list;
    Post *temp;
    int ret = 0;

    unsigned int hashkey = Hash(hash_table, tempname);
    del_list = lookup_string(hash_table, tempname);

    ret = Delete(hash_table, tempname, hashkey);

    if(ret != 0)
    {
        printf("\n delete [name = %s] failed, no such element found\n",tempname);
    }
    else
    {
        printf("\n delete [name = %s]  passed \n",tempname);
    }
}

void skrivMeny(void)
{
    printf("\n1: Register name and telephone number\n");
    printf("2: Remove name and telephone number\n");
    printf("3: Search for name\n");
    printf("5: Exit\n");
}

Post* Search(Post_table *hash_table, unsigned int hashkey, char tempname[30], Post **prev)
{
    Post *ptr = hash_table->table[hashkey].head;
    Post *tmp = NULL;
    int found = 0;
    char structname[sizeof(tempname)];

    printf("\n Searching the list for value [%s] \n",tempname);

    while(ptr != NULL)
    {   
        if (strcmp(ptr->name, tempname) == 0)
        {
            found = 1;
            break;
        }
        else
        {
            tmp = ptr;
            ptr = ptr->next;
        }
    }

    if(found == 1)
    {
        if(prev)
        {
            *prev = tmp;
        }
    return ptr;
    }
    else
    {
        return NULL;
    }
}


int main()
{
    printf("\nHej och välkommen till hashlistan\n\n");
    int menyval = 1;
    char tempname[30];
    int temptel;
    int key;

    Post * ptr;

    Post_table *hash_table;
    int table_size = 10;
    hash_table = create_hash_table(table_size);

    while (menyval > 0 && menyval <= 5)
    {
        skrivMeny();
        scanf("%d", &menyval);

        if (menyval == 1)
        {
            printf("[Name] [Number] = ");
            scanf("%s %d", &tempname[0], &temptel);//inmatning
            add_string(hash_table, tempname, temptel);
        }

        if (menyval == 2)
        {
            printf("[Name] = ");
            scanf("%s", &tempname[0]);
            free_entry(hash_table, tempname);
        }

        if (menyval == 3)
        {
            printf("[Name] = ");
            scanf("%s", &tempname[0]);
            ptr = lookup_string(hash_table, tempname);

            if(ptr == NULL)
            {
                printf("\n Search [name = %s] failed, no such element found\n",tempname);
            }
            else
            {
                printf("\n Search passed [name = %s tel = %d]\n",ptr->name, ptr->tel);
            }
        }

        if (menyval == 5)
        {
            break;
        }

    }
    return 0;
}


int Delete(Post_table *hash_table, char tempname[30], unsigned int hashkey)
{
    Post *prev = NULL;
    Post *del = NULL;

    printf("\n Deleting value [%s] from list\n",tempname);
    del = Search(hash_table, hashkey, tempname, &prev);

    if(del == NULL)
    {
        return -1;
    }

    else
    {
        if(prev != NULL)
        {
            prev->next = del->next;
        }

        if(del == hash_table->table[hashkey].current && del != hash_table->table[hashkey].head)
        {
            hash_table->table[hashkey].current = prev;
        }

        else if(del == hash_table->table[hashkey].head)
        {
            hash_table->table[hashkey].head = del->next;
        }
    }

    free(del);
    del = NULL;
    return 0;
}

I have not compiled it, so now there may be some syntax errors, but I hope its clear how the whole thing should work. If you have some more questions, feel free to ask.

share|improve this answer
    
The only syntax-error which appeared that I was unsure of was: hash.c:42:5: error: too few arguments to function ‘calloc’ which points to this line if ((new_table->table = calloc(sizeof(List *) * size)) == NULL) And I replaced it with if ((new_table->table = calloc(0,sizeof(List *) * size)) == NULL) But now I get a segmentation fault whenever I try to search the list and it crashes. 2 times out of 10 i didn't get a segmentation fault but then I still couldn't find the element with the search function. –  AznBenny Aug 1 '13 at 21:38
    
Ouch, calloc() should be calloc( size, sizeof(List *) ). The parameters are 'number of elements' and 'size of element' (look at the man page). The way you called it, it allocated 0 * ( sizeof(List *) * size ) thus nothing at all. I've corrected the error in the answer. –  Ingo Leonhardt Aug 2 '13 at 10:25
    
Okay i see! Now I got it running properly and I can store things in the table and it seems like it's creating lists since it says adding node to end of list. But it still fails to find the stored elements, I will look through the searching-logics and see if I can find the problem. –  AznBenny Aug 2 '13 at 22:04
    
Hi again! Just wanted to tell you that I finally got the code to work as it should. It can now store, find and delete elements from the hash table. Thank you so much for your patience and effort Ingo Leonhardt, this was a huge break through for me and I wouldn't have made it without your help! So thanks again! –  AznBenny Aug 5 '13 at 22:12
    
@AznBenny Great! –  Ingo Leonhardt Aug 7 '13 at 9:01

Hey sorry if I got it wrong but as far as I can tell your lookup_string() function traverses to the last element of the hash table(the one most recently added). Try traversing it the other way round or use a doubly linked list.

P.S: Y dont you use your search function with a lil bit of customization? Y this redundancy of lookup and search?

Happy Coding!

share|improve this answer
    
Hi! Do you mean that my lookup_string() only looks at the last element and skips all the elements before that? Yes it is a bit redundancy because of the way I approached it by implementing the Linked-list first and then the hash-table but the redundancy will be fixed when i got the logic to work. Thanks –  AznBenny Jul 23 '13 at 9:21

I think the problem results in mixing one linked list and the hash table. The list is not sorted, so the hash table cannot point to a list position where all elements with a given key can be found. And furthermore AddList() returns the new list element which is appended to the end and that is stored in hash_table->table[hashkey]. That's why you only find tha last element (as Mudassir Razvi has already pointed out). So you should either create one list per hash key (the simplest solution I suppose) or sort your list per hash key and assign hash_table->table[hashkey] only when you add the first element with that key (==> if( hash_table->table[hashkey] == NULL ))

EDIT: If you want to create separate lists for each key, of course you can't have global variables head and current anymore but one pair per key. So you can define:

struct list {
    Post *head;
    Post *current;
}

and let hash_table->table be an attray of struct list instead of Post. CreateList() already returns head so you can directly assign it to table[key].head and table[key].current. Now everything else you have to do is pass the actual current to AddList() and then set table[key].current to AddList()'s return value. That's a kind of road map, I think you will come along.

share|improve this answer
    
Okay i think i understood most of what you said. I should only assign 'hash_table->table[hashkey]' when i add the first element, all the other elements with the same hash key should just be pointed at through the previous elements' "next-pointer"? Altough i don't understand why I need to have the list sorted. If I don't have many elements in each list i can just let the search go through the unsorted list until it finds the correct element. I just need to tell which list it should look in, which i believe is done by 'list = hash_table->table[hashkey];' –  AznBenny Jul 23 '13 at 11:10
    
Well at the moment there is only one common list for all hash keys defined by the global variables head and current where every new element is appended to, and that list isn't sorted. So your hash table might tell you where you find the first element with a given key, but from that point on you might have to search to the end of the list to find a given name. If you had one list per key or a sorted list you had to examine at most as many elements as you have to that key. –  Ingo Leonhardt Jul 23 '13 at 11:31
    
Oh now I see the problem. 'head' is global and that's why creating a linked list will only occur for the first element. I guess i should put 'head' and 'current' in the CreateList() function and check as you said ( 'if(hash_table->table[hashkey] == NULL) ') to know when to trigger the CreateList() function. The problem when 'head' and current' becomes local is that I think the pointers lose their target value. Every list will have their own "head" and "current" but they will get lost as the CreateList() function ends. –  AznBenny Jul 23 '13 at 12:00
    
I'v edited ny answer to give you some hints –  Ingo Leonhardt Jul 23 '13 at 12:18
    
I followed your suggestions and put the Post *head and Post *current in a struct and then I intepreted your sentence "and let hash_table->table be an attray of struct list instead of Post" as changing the Post **table; to struct list **table in the struct hash_table. But the compiler complained about an error at the Post *head; with the message: error: expected ':', ',', ';', '}' or '__attribute__' before '=' token. Im sorry if I misinterpeted your tips but im really out of my comfort-zone of programming right now. –  AznBenny Jul 23 '13 at 21:02

I decided to post a new answer regarding the current code, because I find otherwise it would be even more unreadable to another person than it is now

The syntax error in your current code is here:

struct list 
{
    Post *head = NULL;  
    Post *current;
};

This is not a variable definition but only a declaration of a struct. Thus you cannot do any assignments (= NULL) here because there is simply no variable to assign it to. Instead you could either initialize hash_table->table[i].head in a loop after allocating the array or just call calloc() instead of malloc() which initializes the allocated buffer with '\0'.

I guess there are more errors in your code, at least I found

if ((new_table->table = malloc(sizeof(Post *) * size)) == NULL)

that should be

if ((new_table->table = malloc(sizeof(list stuct) * size)) == NULL) // or calloc() 

But I can't review everything by now. Hope that gives you enough to continue,

share|improve this answer
    
Thank you so much! I succeded to continue by quite alot and solved several of other bugs. Now I only have bugs caused by what seems like the same kind of error. It seems like all of the problems now have to do with using hash_table->table[hashkey] which is of type List in operations of assigning values with another type. For instance in "lookup_string i have a for-loop which assigns it's value to list which is of type struct Post* and in the "add_string" I assign the return value from AddList which is of type struct Post* to hash_table->table[hashkey].head which is of type List –  AznBenny Jul 24 '13 at 19:16
    
Also it seems lika i can't compare it or assign it with NULL either. –  AznBenny Jul 24 '13 at 19:17
    
not` table[i]` itself, because it's not a pointer array, but table[i].head and table[i].current can be assigned with and compared to NULL –  Ingo Leonhardt Jul 25 '13 at 9:34
    
Okay but how do i store the return value from AddList into the hashtable slot? hash_table->table[hashkey] = AddList(tempname, temptel); was suppose to return the element into the hash table but it gives error because AddList returns a struct Post* and the table is a struct list –  AznBenny Jul 25 '13 at 13:50
    
just hash_table->table[hashkey].current = AddList(tempname, temptel, hash_table->table[hashkey].current ); You pass the previous list current (which may be NULL) and receive the new current (which you must also copy to hash_table->table[hashkey].head if head has been NULL. Note that either both head and current should be NULL or none. –  Ingo Leonhardt Jul 25 '13 at 14:43

Okay so here is how my current code looks like. Somehow I can't find an element that I've stored in the hashtable with separetaly linked lists.

This is the header-file "lista.h" which is included in the c-file:

struct post                 // structure of node
{   
    char name[30];          // stored data
    int tel;                // stored data
    struct post *next;      // reference to next node
};

typedef struct post Post;   // Post = struct post

struct list
{
    Post *head;         
    Post *current;              
};

typedef struct list List;

struct hash_table
{
    List *table;
    int size;
};

typedef struct hash_table Post_table;

Post* CreateList(char tempname[30], int temptel);
Post* AddList(char tempname[30], int temptel, int emptyElement, Post *current);
void skrivMeny(void);
void PrintList(void);
int Delete(Post_table *hash_table, char tempname[30], unsigned int hashkey);
Post* Search(Post_table *hash_table, unsigned int hashkey, char tempname[30], Post **prev);

Post* CreateList(char tempname[30], int temptel)
{   
    Post *ptr = (Post*)malloc(sizeof(Post));

    strcpy(ptr->name, tempname);    
    ptr->tel = temptel;
    ptr->next = NULL;

    printf("\n creating list with headnode as [%s]\n",tempname);

    return ptr;
}

Post* AddList(char tempname[30], int temptel, int emptyElement, Post *current)
{
    if (emptyElement == 1)
    {
        return (CreateList(tempname, temptel));
    }

    printf("\n Adding node to end of list with value [%s]\n",tempname);
    Post *ptr = (Post*)malloc(sizeof(Post));

    strcpy(ptr->name, tempname);
    ptr->tel = temptel;
    ptr->next = NULL;

    return ptr;
}


int Delete(Post_table *hash_table, char tempname[30], unsigned int hashkey)
{
    Post *prev = NULL;
    Post *del = NULL;

    printf("\n Deleting value [%s] from list\n",tempname);
    del = Search(hash_table, hashkey, tempname, &prev);

    if(del == NULL)
    {
        return -1;
    }

    else
    {
        if(prev != NULL)
        {
            prev->next = del->next;
        }

        if(del == hash_table->table[hashkey].current && del != hash_table->table[hashkey].head)
        {
            hash_table->table[hashkey].current = prev;
        }

        else if(del == hash_table->table[hashkey].head)
        {
            hash_table->table[hashkey].head = del->next;
        }
    }

    free(del);
    del = NULL;
    return 0;
}

This is the c-file "hash.c":

unsigned int Hash(Post_table *hash_table, char tempname[30])
{
    int i;
    int sum;
    int key;
    for(i = 0; i < strlen(tempname); i++)
    {
        sum += (int)tempname[i];
    }

    key = sum % hash_table->size;
    return key;
}

Post_table *create_hash_table(int size)
{
    int i;
    Post_table *new_table;

    if (size < 1)
    {
        return NULL;
    }

    //attempt to allocate memory for the table structure
    if ((new_table = malloc(sizeof(Post_table))) == NULL)
    {
        return NULL;
    }

    //attempt to allocate memory for the table itself
    if ((new_table->table = malloc(sizeof(List *) * size)) == NULL)
    {
        return NULL;
    }

    //Initialize the elements of the table
    for(i = 0; i < size; i++)
    {
        new_table->table[i];
        new_table->size = size;
    }
    return new_table;
}

Post *lookup_string(Post_table *hash_table, char tempname[30])
{
    Post *list;
    unsigned int hashkey = Hash(hash_table, tempname);

    /* Go to the correct list based on the hash value and see if str is
    * in the list.  If it is, return return a pointer to the list element.
    * If it isn't, the item isn't in the table, so return NULL.
    */
    for(list = hash_table->table[hashkey].current; list != NULL; list = list->next)
    {
        if (strcmp(tempname, list->name) == 0)
        {
            return list;
        }
    }
    return NULL;
}

int add_string(Post_table *hash_table, char tempname[30], int temptel)
{
    int emptyElement = 0;
    Post *new_list;
    Post *current_list;
    unsigned int hashkey = Hash(hash_table, tempname);

    /* Attempt to allocate memory for list */
    if ((new_list = malloc(sizeof(Post))) == NULL)
    {
        return 1;
    }

    /* Does item already exist? */
    current_list = lookup_string(hash_table, tempname);
    /* item already exists, don't insert it again. */
    if (current_list != NULL)
    {
        return 2;
    }
    /* Insert into list */
    if (hash_table->table[hashkey].head == NULL)
    {
        emptyElement = 1;
    }

    printf("\nHash-key: %d\n", hashkey);
    //This line of code under used to store my element in the hash-table but gives now an error 
    //  hash_table->table[hashkey] = AddList(tempname, temptel, emptyElement, hash_table->table[hashkey].current);

    if (emptyElement == 1)
    {
        hash_table->table[hashkey].head = AddList(tempname, temptel, emptyElement, hash_table->table[hashkey].current);
        hash_table->table[hashkey].current = AddList(tempname, temptel, emptyElement, hash_table->table[hashkey].current);
    }

    if (emptyElement == 0)
    {
        hash_table->table[hashkey].current = AddList(tempname, temptel, emptyElement, hash_table->table[hashkey].current);
    }

    return 0;
}

void free_entry(Post_table *hash_table, char tempname[30])
{
    Post *del_list;
    Post *temp;
    int ret = 0;

    unsigned int hashkey = Hash(hash_table, tempname);
    del_list = lookup_string(hash_table, tempname);

    ret = Delete(hash_table, tempname, hashkey);

    if(ret != 0)
    {
        printf("\n delete [name = %s] failed, no such element found\n",tempname);
    }
    else
    {
        printf("\n delete [name = %s]  passed \n",tempname);
    }
}

void skrivMeny(void)
{
    printf("\n1: Register name and telephone number\n");
    printf("2: Remove name and telephone number\n");
    printf("3: Search for name\n");
    printf("5: Exit\n");
}

Post* Search(Post_table *hash_table, unsigned int hashkey, char tempname[30], Post **prev)
{
    Post *ptr = hash_table->table[hashkey].head;
    Post *tmp = NULL;
    int found = 0;
    char structname[sizeof(tempname)];

    printf("\n Searching the list for value [%s] \n",tempname);

    while(ptr != NULL)
    {   
        if (strcmp(ptr->name, tempname) == 0)
        {
            found = 1;
            break;
        }
        else
        {
            tmp = ptr;
            ptr = ptr->next;
        }
    }

    if(found == 1)
    {
        if(prev)
        {
            *prev = tmp;
        }
    return ptr;
    }
    else
    {
        return NULL;
    }
}


int main()
{
    printf("\nHej och välkommen till hashlistan\n\n");
    int menyval = 1;
    char tempname[30];
    int temptel;
    int key;

    Post * ptr;

    Post_table *hash_table;
    int table_size = 10;
    hash_table = create_hash_table(table_size);

    while (menyval > 0 && menyval <= 5)
    {
        skrivMeny();
        scanf("%d", &menyval);

        if (menyval == 1)
        {
            printf("[Name] [Number] = ");
            scanf("%s %d", &tempname[0], &temptel);//inmatning
            add_string(hash_table, tempname, temptel);
        }

        if (menyval == 2)
        {
            printf("[Name] = ");
            scanf("%s", &tempname[0]);
            free_entry(hash_table, tempname);
        }

        if (menyval == 3)
        {
            printf("[Name] = ");
            scanf("%s", &tempname[0]);
            ptr = lookup_string(hash_table, tempname);

            if(ptr == NULL)
            {
                printf("\n Search [name = %s] failed, no such element found\n",tempname);
            }
            else
            {
                printf("\n Search passed [name = %s tel = %d]\n",ptr->name, ptr->tel);
            }
        }

        if (menyval == 5)
        {
            break;
        }

    }
    return 0;
}
share|improve this answer
    
Hi, have you already noticed my new answer? –  Ingo Leonhardt Aug 1 '13 at 14:19
    
Yes, I will try to compilate it now before I go to sleep and I will post the result tomorrow morning. –  AznBenny Aug 1 '13 at 21:02

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