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I am looking into how to use binary search in the c language.

I will begin with,

i have a struct

struct keyval{
unsigned short key[2];
unsigned short val[2];
};

as you can see this is a struct with 2 arrays of shorts which can hold 2 short values.

i then memory allocate to these structs. this enables me to store many of this type of struct in memory.

struct keyval *codes1 = malloc(sizeof(struct keyval)*(0x1000000));
struct keyval *codes2 = malloc(sizeof(struct keyval)*(0x1000000));

I go through some loops and populate codes1 with struct keyval's. and then in another loop i populate codes2 with struct keyval's also

this data will have been populated on the basis of an iterating key. so basically it will be automatically sorted by key value.

i then sort my data on the val value . using the c qsort function and my own compare function if the short in location 0 of the val array of one is less than the short in the same position of the other struct then return -1 and so on.

qsort(codes1,SIZE_OF_CODES1, sizeof(struct keyval), compare);
qsort(codes2,SIZE_OF_CODES2, sizeof(struct keyval), compare);

int compare(const void *a, const void *b){
    struct keyval *ia = (struct keyval *)a;
    struct keyval *ib = (struct keyval *)b;

    if(ia->val[0] > ib->val[0]){
        return 1;
    }else if (ia->val[0] < ib->val[0]){
        return -1;
    }else{
        return (ia->val[1] - ib->val[1]);
    }

}

now this is where i am stuck

i need to be able to binary search for every value in codes1 against the values in codes2. and when codes1[i].val == codes2[i].val i can print out the values of codes1[i].key and then codes2.[i].key

my attempt is as such

while(e <= SIZE_OF_CODES1){

    struct keyval *found = (struct keyval*) bsearch(&codes1[e],codes2,SIZE_OF_CODES2,sizeof(struct keyval),compare );

    if(found){
        printf("\n found key = %08x %04x value = %04x %04x", found -> key, found -> key[1],found->val[0],found ->val[1] );
    }

    e++;
}

the above code will not find if the data matches as, i am certain there are places in the code where it matches

//added edit


just did a debug, and i found that when the bsearch calls the compare function,everytime it is called all the values associated with ia are zero but ib is correct.

the sort method is correct


could someone point me in the right direction on how to implement a binary search , i am getting very stuck

my old compare function

int compare(const void *a, const void *b){
struct keyval *ia = (struct keyval *)a;
struct keyval *ib = (struct keyval *)b;

if(ia->val[0] > ib->val[0]){

    return 1;
}else if(ia->val[0] < ib->val[0]){
    return -1;
}else{
    if(ia->val[1] > ib->val[1]){
        return 1;
    }else if(ia->val[1] < ib->val[1]){
        return -1;
    }else{
        return 0;
        }
}

}

share|improve this question
    
Does codes1Counter == SIZE_OF_CODES2? (You're using codes1Counter in your second qsort.) I'd start by putting breakpoints in compare once you get to the bsearch and watching what it's doing. –  Rup Dec 8 '10 at 18:07
    
yes i changed the code there to match –  molleman Dec 8 '10 at 18:10
    
just did a debug, and i found that when compare is called in the binary search the values of ia [0] and [1] are always zero, but when i do it with the qsort the values are correct. but ib is correct –  molleman Dec 8 '10 at 18:28
    
In bsearch the first argument of compare is the one you're searching in the array. So if it's always zero (in "compare") for the first bsearch call only it's ok, otherwise you're probably passing always the same element to search. –  digEmAll Dec 8 '10 at 18:52
1  
Anyway, the C bsearch is fine, and should work. If it doesn't work, your problem is elsewhere. (P.S. while(e <= SIZE_OF_CODES1) is wrong, actually should be < not <=) –  digEmAll Dec 9 '10 at 9:00
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1 Answer

up vote 1 down vote accepted

to compare the lists as you describe, step through codes1, then do a bsearch() on codes2 for each entry in codes1. You can reuse compare. I am not sure if SIZE_OF_CODES1 and 2 are variables or defines, I am assuming they reflect the count of elements in each array.

struct keyval *src=codes1;
struct keyval *dest=code2;
struct keyval *p
int i=0;
while(i< SIZE_OF_CODES1)
{
    if( (p=(struct keyval *)bsearch(src, dest, SIZE_OF_CODES2, sizeof(struct keyval), compare))!=NULL)
        printf("duplicate codes1: %d %d  codes2: %d %d\n", src->key,src->val, p->key, p->val);
    i++
}
share|improve this answer
    
Which yields nlogn complexity. Is this really the best we can do? I doubt, since this is the also possible when only one of arrays is sorted. My gut tells me that having both of them sorted could give better complexity. –  Kos Dec 8 '10 at 19:09
    
any ideas on @Kos's post –  molleman Dec 8 '10 at 19:33
    
@Kos: yes it's possible in O(2(m+n)) for example, as implemented in cpp stl set_intersection cplusplus.com/reference/algorithm/set_intersection. Anyway, if I undestood correctly, the problem is not how to find the best method, but rather find why the current OP method don't work. –  digEmAll Dec 8 '10 at 19:58
    
The question was: how to implement a binary search. The best algorithm is to sort lists into one array, maintaining a source indicator, then make a single pass thru the array to find duplicates. But that was not what was asked. And I assumed codes2 was sorted or a binary search would not be feasible. –  jim mcnamara Dec 9 '10 at 10:15
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