# what does this will do in C programing: ++group[ (int) (value[i]+0.5)/10]

Following code is example of how to confirm if number entered is in specific range or not.

For example if I enter number say N then I want increment counter which says if it is in range of:

1-10 11-20 ... 91-100

``````Here is the code snip from one of the text book:

#define MAXVAL 50
#define COUNTER 11
main ()
{
float value[MAXVAL];
int i, low, high;
static group[COUNTER] = {0,0,0,0,0,0,0,0,0,0,0}

for(i=0; i<MAXVAL; i++)
{

scanf("%f", &value[i]);

/* COUNTING FREQUENCY OF GROUPS */

++group[ (int) (value[i]+0.5)/10]  <<< I would like to understand how this will find if number is in specific ranges?

/* PRINTING OF FREQUENCY TABLE */

printf("\n");
printf(" GROUP RANGE FREQUENCY\N\N");

for(i=0; i< COUNTER; i++)
{
low = i*10;
if (i==10)
high =100;
else
high=low + 9;
printf( " %2d %3dto%3d %d)\n", i+1, low,high,group[i]);

}

}
``````

What does this will do in above C program: ++group[ (int) (value[i]+0.5)/10]

Thanks

-
and what if the number is 10.5? Your ranges have gaps in them. –  Alnitak Oct 29 '12 at 17:00
You should vote on the answers, on no one will reply to future answers. –  Richard Schneider Oct 29 '12 at 17:14

Lets break it down for understanding it.

read `++group[ (int) (value[i]+0.5)/10]` as: I want to increment the index of group array by 1. Which index? It somehow depends on the value entered by user (value[i]) Why add 0.5 to it? To round a floating number. more specifically to take the ceil() of that number Why divide by 10? Because your groups are of size 10.

Example: User enters 11. value[i] = 11 (float) 11 + 0.5 = 11.5 (float) 11.5 / 10 = 1.15 (float) typecast 1.15 to int = 1 (int) ++group[1], increments group[1] by 1 and shows that 11 falls in group 1 i.e. 10 - 19

Another example: User enters 9. value[i] = 9 (float) 9 + 0.5 = 9.5 (float) 9.5 / 10 = 0.95 (float) typecast 0.95 to int = 0 (int) ++group[0], increments group[0] by 1 and shows that 9 falls in group 0 i.e. 0 - 9

Another example: User enters 9.1. value[i] = 9.1 (float) 9.1 + 0.5 = 9.6 (float) 9.6 / 10 = 0.96 (float) typecast 0.95 to int = 1 (int) ++group[1], increments group[1] by 1 and shows that 9.1 falls in group 1 i.e. 10 - 19

Note: According to the code, your groups are 0-9, 10 - 19 ... and not 1 - 10, 11 - 20

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so ++group[1] is actually incrementing the value stored in location 1 of array? then only this should be possible to achieve? –  devnp Oct 29 '12 at 17:38
yes it `++group[1]` increments the value stored at location 1 of array. This is not the only option. If you break down the solution, see how that 1 in group[1] was calculated? It was done so because the input given by user was such. If the input is say 57, the steps would be (57 + 0.5) / 10 = 5.75 => typecast to int gives 5, so ++group[5] will come into effect. i.e. group 50-59 –  aakash Oct 29 '12 at 17:50
I hope I answered your question. If you have more questions, please feel free to type it down here. –  aakash Oct 29 '12 at 17:52
In your case ++group[num] is same as group[num]++ or group[num] = group[num] + 1 –  aakash Oct 29 '12 at 18:07
Yeah looks like I got the logic. Thanks all for help. However one last thing Can I use (int) any where in any key word to make sure output is converted to integer? –  devnp Oct 29 '12 at 19:43

Examine the index of the group array:

``````[(int) (value[i]+0.5)/10]
``````

This effectively takes the value scanned in from console input, adds .50, divide the sum by 10, then convert to an int. The better question is why do this at all?

The addition of 0.50 is to account for rounding. If `value[i]` is at or above a marign of 0.50 (such as `1.51, 2.50, 3.99`, etc) this forces it to the next whole number (`2.01, 3.00, 4.49`).

Next, the division by 10. This apparently assumes the values being input are between 0.00 and exclusively less than 109.50. Dividing by 10 ensures these values will be between 0.00 and 10.00. This will, of course not work as soon as the console input is greater than 109.50.

Then the cast to (int). Straight forward enough. Kill the fraction off the float and manufacture your int.

Finally, assuming the input was in fact between 0.00 and exclusively less than 109.50, the counter matching the requisite range in the group[] array will be incremented by one.

Bottom line, it is a poor mechanism for trying to cluster input values into groups and updating counters within he appropriate range, and it will choke as soon as the input value is > 109.50.

-
so what could be the best way to do it? I have to define various ranges and compare them one by one to put them in to appropriate ranges? –  devnp Oct 29 '12 at 17:05
@user1504633 The entire thing can be made to work as written so long as the input values of values[] are range checked for what they're about to be used for (indexes into a known-fixed array). Boundary check them prior to using them. –  WhozCraig Oct 29 '12 at 17:07
Yeah, comparing upto some arrays will okay but if ranges will increase then there will be issue. –  devnp Oct 29 '12 at 17:10
actually I think I got the point of usage or may be similar logic, here I have initialized array to count if value in specific range or not... for example if value is in 0 to 10 range then 9+0.5 = 9.5/10 = 0.95 rounds up to 0 or 1 which will increment by ++group... same way if value is 19 then 19+0.5=19.5/10 is 1.9 which is rounded to 1 and have that position of array value incremented. so when I will check which number is in 0-10 or 11-20 then I will be checking value at group array location 0 and 1... does it sounds appropriate? –  devnp Oct 29 '12 at 17:17
@user1504633 It sounds like you probably get it now. the ranges are [0.00, 9.50), [9.50, 19.50), [19.50, 29.50), etc... though [99.50, 109.50). Note that all the tail values on those ranges are exclusive, while all the head values of those ranges are inclusive. –  WhozCraig Oct 29 '12 at 17:21

um something like this:

Assuming `group[0] = 0->10, group[1] = 11->20, group[2] = 21->30..` take an example float: `10.3`

Applying the formula there, `10.8/10 ~= 1`. Hence its in the range 10->20.

Take another example: 22.4

Applying the formula there, `(22.4 + 0.5)/10 ~= 22.9/10 = 2`. Hence its in the range `20->30`. And so on. It will work for `high = 100` and `low = 0`.

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what is use of (int) in ++group[ (int) (value[i]+0.5)/10]? conversion to integer? –  devnp Oct 29 '12 at 17:01
also what is ++group does? –  devnp Oct 29 '12 at 17:02
@user1504633 converts a double to integer. arrays dont accept double/float values as subscript –  Aniket Oct 29 '12 at 17:02
that one increments the value at group[i] –  Aniket Oct 29 '12 at 17:03

`++group[ (int) (value[i]+0.5)/10]` is

• taking the float input value `value[i]`,
• rounding it to an int `(int) (value[i]+0.5)`
• then dividing it by 10 to get a group index, and then
• adding 1 `++group[...]` to the group it belongs to.

In other words it is computing the number of values that fall between 0..9, 10..19, 20..29, ... 100..109, 110..119

This code is completely unsafe. If the input value is greater that than COUNTER * 10 or negative, then random bytes of memory will be written. Throw this code away or place some safety checks into it.

EDIT

Safety check, ignore input values that are out of range.

``````int g = (int) (value[i]+0.5) /10]
if (0 <= g && g < COUNT)
++group[g];
``````
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any suggestion on improvement or logic? –  devnp Oct 29 '12 at 17:20
Yes, ignore any values that are out of range. See my edit. –  Richard Schneider Oct 29 '12 at 17:23