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Currently working on an assignment that will ask the user for number of students, then calculate how many sections are required such that the fewest sections are required (each section has 35 students).

I'm stuck on figuring out how to use modulus to perform one of the calculations (we are supplied a sample run of the required program).

Here is what I have, I know it isn't much but even just a general idea would be helpful.

if (stdnt % std == 0) {
        sec = stdnt / std;

# of students  # of sections  standard section  last section 
 351             11              32               31

This is only part of the program.

My problem:

I can't figure out how to do the calculation so that if there is a remainder the section size shrinks to fit all the students in it.

For Example User enters 350, there are 35 spots max per section, therefore there are 10 sections. I can't figure out how to get 351 as shown in the table above.

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closed as not a real question by Tim, jonsca, Tichodroma, SingerOfTheFall, Sergey K. Sep 26 '12 at 7:23

It's difficult to tell what is being asked here. This question is ambiguous, vague, incomplete, overly broad, or rhetorical and cannot be reasonably answered in its current form. For help clarifying this question so that it can be reopened, visit the help center.If this question can be reworded to fit the rules in the help center, please edit the question.

So what is your problem, exactly? –  Dai Sep 25 '12 at 22:59
If number of students doesn't divide evenly with number of students per section, then you need one more section for the remainder. sec = stdnt / std; if (stdnt % std != 0) ++sec; –  jrok Sep 25 '12 at 23:03
a side note, if you are going to / and % in the same function, then save yourself some effort and use div. cplusplus.com/reference/clibrary/cstdlib/div –  Josh Petitt Sep 26 '12 at 3:11

4 Answers 4

up vote 0 down vote accepted

There are MAX_PER_SECTION (35 here) students per section maximally. Then, write

number_of_students = q * MAX_PER_SECTION + r

with 0 <= r < MAX_PER_SECTION. If r == 0, then q sections are enough, otherwise we need q+1. You can obtain that number simply per

number_of_sections = (number_of_students - 1) / MAX_PER_SECTION + 1;

Now it remains to determine the best distribution of students among the sections, so that the difference between the number of students in the largest and the smallest sections is minimised. (You can always make that difference 0 or 1.) Again, use division with remainder to write

number_of_students = s * number_of_sections + t

with 0 <= t < number_of_sections. Then we need t sections with s+1 students, and the remaining number_of_sections - t sections will take s students.

In the example

351 = 10 * 35 + 1, number_of_sections = (351 - 1) / 35 + 1

so we need 11 sections, and

351 = 31 * 11 + 10,

hence we need 10 sections with 32 students and one section with 31.

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what do r, q, s and t represent? I don't understand. –  Luca Tenuta Sep 25 '12 at 23:27
q is the quotient of the division number_of_students/MAX_PER_SECTION, and r is the remainder of that division. Similarly for s and t. So q <= number_of_students/MAX_PER_SECTION < q+1, and we need either q or q+1 sections to accommodate all students (depending on whether r == 0 or not). And each section contains either s = floor(number_of_students/number_of_sections) students or s+1. How many sections must have s+1 is what t tells us. –  Daniel Fischer Sep 25 '12 at 23:33
I don't understand what you said here:number_of_students = q * MAX_PER_SECTION + r with 0 <= r < MAX_PER_SECTION. I don't understand what q and r are holding as a value. I can initialize them to 0 but after that what is replacing that value? –  Luca Tenuta Sep 25 '12 at 23:47
q = number_of_students / MAX_PER_SECTION and r = number_of_students % MAX_PER_SECTION. Similar for s and t. –  Daniel Fischer Sep 26 '12 at 0:09
I figure that out, I still don't understand s and t though. lol. here is what i have now q = number_students / MAX_SEC; r = number_students % MAX_SEC; if (0 <= r < MAX_SEC) { number_sections = (number_students - 1) / MAX_SEC + 1; } –  Luca Tenuta Sep 26 '12 at 0:19

Well the modulus gives you the remainder, if the remainder is greater than zero you need another section for the remaining students. So for example taking your 351 students and dividing it by the number of students per section (35) will give you 10 sections, then using the modulus operator: 351%35 will return a remainder of 1 so you need an additional section to accommodate that one student.

Therefore psuedo code for the number of sections required is:

number_of_sections = 351/35
if( 351%1 > 0 ) number_of_sections += 1
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int numOfSections = numOfStudent / sizeOfSection;

Basically this will give you the number of sections if there is no remainder then you want to make an if statement to check if there is a remainder. If so add 1 to numOfSection.

if(numOfStudent % sizeOfSection != 0)
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Modulo operation computes a remainder after division. Remember the formula

x = (x DIV n) + (x MOD n)

Where "x" and "n" are integers, "DIV" means whole number division and "MOD" means modulo operation. From that, you can get a C code:

int of_students       = 351;
int standard_section  = 35;

int last_section      = of_students % standard_section;
int of_sections       = of_students / standard_section;
if(last_section != 0) ++of_sections;
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Rather than only post a block of code, please explain why this code solves the problem posed. Without an explanation, this is not an answer. –  Martijn Pieters Sep 25 '12 at 23:16

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