# Counting how many times an integer is equal to itself, then calculating the percentage

I have an array and I have integers in the array. I'm trying to count the number of times the integers in the array repeat themselves. After that I want to print the percentage. This is what I have so far.

``````for(i = 2; i < 8; i++){
mmblk[i] = (num[i] / bsize);   //mmblk[i] =0,0,1,9,0,1
if(mmblk[i] == mmblk[i]){
count ++;
p = count/num[0];
percent = (p * 100);
}
}
printf("Highest possible hit rate = %d/%d = %d %\n", count, num[0], percent);//num[0]=6
``````

For the output I get: Highest possible hit rate = 0/6 = 0

The output should look like: Highest possible hit rate = 3/6 = 50 %

I know there is something way wrong going on but I can't figure out what it is. Any help will be greatly appreciated.

-
what is num[i]? why iterating from 2 to 8? what is the size of mmblk array? –  Jeeva Mar 29 '12 at 4:11
`if(mmblk[i] == mmblk[i]){` oh my oh my oh my –  suddnely_me Mar 29 '12 at 4:12
@Jeeva num[i] is another array that has characters from lines that come from a text file. It starts at 2 and goes to 8 because those are the only lines I wanted to use from the file. mmblk has a size of 32. –  oldbutnew Mar 29 '12 at 4:16
@suddnely_me I figured that was wrong as I was typing it here, but I can't think of any other way to check it. –  oldbutnew Mar 29 '12 at 4:18
What are you trying to check? You need to check if it is equal to some number(say 0), of course its always going to equal itself.... –  jzworkman Mar 29 '12 at 4:19

So if I understand correctly, you are looking for the maximum number of repeated values in the array.

``````func( {1,2,3} ) = 0
func( {1,1,3} ) = 2
func( {1,1,1} ) = 3
``````

To get the percentage, you simply divide this result by the length of the array.

The problem is your function is way too simple, and not really at all the solution.

The solution I'm coming up with on first approach, is to have another array called counts. This is the same length as your source array. It ends up being the number of times each number in the source array appears.

For each item in the source array, you count how many times that number appears, and store that result in counts. Then you find the maximum of the counts array, and you have a) the max repeats value you're looking for, and b) the index of the corresponding maximum-repeated-value from the source array.

For the example {0,0,1,9,0,1} :

``````src    counts
0       3        Max
0       3
1       2
9       1
0       3
1       2
``````

One optimization to this, is while you are counting, if you encounter the same number earlier in the array, you can stop, because you already have counted repeats for that value.

With that in place, your result is:

``````src    counts
0       3        Max
0       0
1       2
9       1
0       0
1       0
``````

Another optimization is to only start counting from your current index in the array. This works for the same reason as the other optimization.

Results:

``````src    counts
0       3        Max
0       2
1       2
9       1
0       1
1       1
``````
-
so if the numbers in the source array change will this still work? –  oldbutnew Mar 29 '12 at 5:07
Yes why wouldn't it? I didn't give any code because I think you need to understand what it is you're trying to do, not just plop some code in and hope it works. That's how we end up with software like Windows. –  Jonathon Reinhart Mar 29 '12 at 5:09
lol. I was just checking. I didn't mention that the numbers would be changing earlier. I haven't written code since 2003. I have a question. If I don't know what the number is going to be that I'm trying to keep count of, how do I compare it? –  oldbutnew Mar 29 '12 at 5:18
You have two nested loops. The outer one is going through each element of the array. The inner loop takes the value at that index, and then goes through the whole array again, testing each element for equality against the current value. If they equal, you increment the count for that value. Then go on to the next element in the array. –  Jonathon Reinhart Mar 29 '12 at 5:22
I mean come on, you have all the values you want to test, just go through them all, and see how many of each of them there are. Do it manually on a piece of paper; the algorithm will come to you. –  Jonathon Reinhart Mar 29 '12 at 5:26

if you have only small integers, you can use an array in which you count number of occurences of the integers

``````const int MAX_INT = 1024;
const int FIRST   = 2;
const int LAST    = 7;

unsigned int count[MAX_INT];
int i;

for (i = 0; i < MAX_INT; i++)
count[i] = 0;

for (i = FIRST; i <= LAST; i++) {
if (numbers[i] >= MAX_INT) {
fprintf(stderr, "Too large number");
exit 1;
}
count[numbers[i]] += 1;
}

for (i = 0; i < MAX_INT; i++)
if (count[i] > 0)
If you have large integers occurring, so large that you cannot make your array `count` large enough you'll need something more sophisticated I guess; sorting your numbers first could be an option.