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I have an array of Structs and I am passing that to a function. I then check an index of that array to see if it is NULL, which it should be at this point. The thing is that comparing it to NULL does not evaluate to true.

This is where I declare the struct and create the array.

typedef struct ListStruct {
    NodePtr first;
    NodePtr last;
    NodePtr current;
    int numNodes;
} ListStruct;

typedef struct ListStruct* ListHndl

ListHndl* newHash(int size){
    ListHndl* arr = malloc ( size*sizeof( ListHndl ));
    for(int y = 0; y<size; y++){
        arr[y] = NULL;
    }
    return arr;
}

Then I pass it to a function like this

function(ListHndl* HashTable)

and compare an index to null

if(HashTable[index] == NULL) {
    //stuff that doesn't happen but should
}

This shows some of the function which uses the array.

void insert(int ID, char* title, int size, ListHndl* HashTable){
    int index = hash(title, size);
    if(HashTable == NULL ){
        printf("can't insert hash table is null");
        return;
    }
    //If the 'bucket' at the hashed index is empty, create a new list and initialize it appropriately
    if(HashTable[index] == NULL){
        //Do stuff, this doesn't get called even though it should
    }else{
        //do other stuff, this shouldn't be done when the function is called the first time but does in this case  
    }

This is the test program. It crashes on the first insert.

#include <stdio.h>
#include <stdlib.h>
#include <stdbool.h>
#include "list.h"
#include "hash.h"

int main(){

    ListHndl temp = newHash(5);
    printf("new hash created!\n");
    insert(1, "munches", 5, temp);
    printf("insertion has occurred! :)\n");
    insert(2, "aids", 5, temp);
    insert(3, "loki", 5, temp);
    insert(4, "kelp", 5, temp);
    insert(5, "kelp", 5, temp);
    printf("insertion has occured!\n");
    lookup(&temp, "munches", 5);
    lookup(&temp, "aids", 5);
    lookup(&temp, "loki", 5);
    lookup(&temp, "kelp", 5);
    printf("WE LIVE!\n");
    return 0;
}

This is the hash function used to get an index for the Hash table.

int hash (const char* word, int size)
{
    unsigned int hash = 0;
    for (int i = 0 ; word[i] != '\0' ; i++)
    {
        hash = 31*hash + word[i];
    }
    return hash % size;
}
share|improve this question
    
How big is size and index ? Are you using an index which is greater than or equal to size? –  Baldrick May 23 '14 at 6:01
    
In the test we did, size is 5 and the hashing function returns a number which was modulo the size so it should be less than size. –  Raulito28 May 23 '14 at 6:03
    
OK. Can you post a small self-contained complete program which demonstrates the problem? There might be an issue in the code that we can't see! –  Baldrick May 23 '14 at 6:05
    
Edited post to show more code –  Raulito28 May 23 '14 at 6:07
    
Can you maybe post the code that calls newHash then invokes function? –  Baldrick May 23 '14 at 6:09

1 Answer 1

up vote 2 down vote accepted

Your code contains a number of obvious errors, which are most likely causing your issues. Function newHash is declared as returning ListHndl* value

ListHndl* newHash(int size)

Yet in main you use it as if it returns a ListHndl value

ListHndl temp = newHash(5);

This does not make any sense and will certainly produce diagnostic messages from the compiler (something about pointer type mismatch). You apparently ignored these diagnostic messages and ran the program anyway.

Later in the code you again pass that temp value (of type ListHndl) to functions that probably expect ListHndl * arguments. This also surely generated diagnostic messages from the compiler, and you ignored them too.

Don't ignore diagnostic messages. Fix the problems (errors and warnings) you have in your code. Proceed from there. What you have now is rather meaningless specifically because of such errors.

share|improve this answer
    
The thing is that it compiles fine like this and changing it to ListHndl* gave us errors. Maybe that fixed it and uncovered more errors? I didn't look at the errors. –  Raulito28 May 23 '14 at 6:44
    
@Raulito28: The only reason it can "compile fine" is if you are calling functions without declaring them first (classic C allows that). Without seeing the function declarations the compiler cannot catch type mismatches, as the one I described above. Firstly, declare functions with prototypes before calling them. Secondly, get rid of type mismatches. I don't know how you could possibly get errors after changing to ListHndl *. Maybe your code has more issues that we can't see in what you posted so far. –  AnT May 23 '14 at 6:45
    
OK, I changed ListHndl to ListHndl*, I was getting errors because I was passing the address of the ListHndl to the function, but now I have the same problem I had before. It does HashTable[index] == NULL but that doesn't evaluate to true even though in newHash() mallocs the appropriate amount of memory and then loops through it to make it NULL. I don't know what the problem could be. –  Raulito28 May 23 '14 at 15:41
    
@Raulito28: Well, there's no way to say what it could be without seeing the actual code you are working with. –  AnT May 23 '14 at 16:29
    
Turns out that the comparison to NULL wasn't causing a problem, there was another problem causing a seg fault so it wasn't calling the print statements I used to test the if statement and made it look like it didn't take the if branch. Now, I have the problem that I set the void * data field of a linked list to the address of an int and the int at that address gets overwritten when I pass the LinkedList to a function. It gets overwritten with another int that is also being passed into the function. Any ideas? Thanks for your help so far! –  Raulito28 May 23 '14 at 17:30

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