how many times are the following functions called?

I have the following exercise program from a book. The book states that for values x=10 and y=100, functions; min, max, incr and square are called 1, 91, 90 and 90 respectively. However, to me it looks like they are being called the following number of times, 1, 1, 1 and 0. Can someone explain to me the book numbers. Thanks.

``````#include <stdio.h>

int min(int x, int y){
return x < y ? x : y;
}

int max(int x, int y){
return x > y ? y : x;
}

void incr(int *xp, int v) {
*xp += v;
}

int square (int x){
return x*x;
}

int main(void){
int i;
int x = 10;
int y = 100;
int t = 0;

for (i = min(x, y); i < max(x, y); incr(&i, 1)){
t += square(i);
printf("test %i", t);
}
}
``````
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What is your understanding of the for loop? Have you tried to run this program? –  Captain Giraffe Sep 10 '11 at 23:41
If the code above is exactly from the book, it looks like there is a book typo in the max() function, because if x > y it will return y (clearly not the max). The book's answers would be correct if the max() function was semantically correct. –  donnyton Sep 10 '11 at 23:46
Thanks donnyton. It was actually my mistake. The actual max function is "return x < y" –  Gene Sep 10 '11 at 23:59
It is difficult question for me. Why doesn't anybody take in account compiler optimizations? Of course, without them function 'max(x,y)' value will be evaluated 91 time. But 'max(x,y)' return value doesn't depend on inner loop variables! So it doesn't make sense to calculate it more than once! –  George Gaál Sep 11 '11 at 0:15

Well the loop is really (as x and y don't change):

``````for (i = 10; i < 100; incr(&i, 1))
``````

The the first statement executes only once - that's why min is executed 1 time. The stop condition is executed once at the beginning and then after each iteration - so 91 times. The third statemnt is executed at the end of each iteration - so 90 times.

So the book is correct.

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this is what I'm seeing Petar for (i=10; i<10; incr(&i, 1)). What am I missing? –  Gene Sep 10 '11 at 23:51
max(10, 100) = 100 as far as I remember :D –  Petar Ivanov Sep 10 '11 at 23:53
max returns y if x > y, otherwise it returns 10. Am I wrong? –  Gene Sep 10 '11 at 23:55
oh you are right - that's probably a typo in the max function implementation - to me max returns the larger number of the two –  Petar Ivanov Sep 10 '11 at 23:57
Thanks Petar, but it was user error on my end =( –  Gene Sep 10 '11 at 23:59

It really depends on the compiler and optimisation settings.

Compiling this program (after fixing the `max()` function to return the maximum) with -O3 shows that none of the functions are actually called. The compiler can see that the loop goes from 10 to 100, and that the variable is incremented by 1.

Never assume that a function is called. You tell the compiler what you want the program to do, but the compiler can choose to do it any way it wants to.

By the way, without fixing `max()`, the compiler could see that this is an empty loop, and produced a `main()` function that simply returned without setting any variable or doing anything (again, with -O3).

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Feels like homework so I don't want to provide a full solution, but here's a hint... The key lies in understanding that max is evaluated (called) at the end of each loop iteration because the result of max can change after each loop iteration.

The loop will continue as long as i is less than max(x, y) for a given loop iteration.

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In a for loop, there are 3 parts, initialization, continue condition, increment.

``````for(initialization; continue condition; increment) {
body;
}
``````

The loop does this:

1. Do initialization part
2. Check continue condition (exit if true)
3. Execute code in body of for loop
4. Execute increment condition
5. Go back to 2

So if we walk through it, min is called once (initialization), and until the condition is met, max is called each time (continue condition). This will happen from i = 10 to i = y, which is 91 times (once at the beginning, and once at each iteration).

The increment part is called exactly once for each iteration, but not called initially, so it would get called 90 times (100 - 10).

The square function will happen the same number of times that increment is called (because it is called before increment, but once per iteration).

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Note that using `continue` inside the loop jumps to the increment expression, not the continue condition. Also note that you can put anything for the last expression; it need not be an increment. –  Billy ONeal Sep 10 '11 at 23:48
True, good point. Also, I didn't know that continue ignored the continue condition... I thought it just ignored the rest of the code in the body of the loop and went to #2 –  tjameson Sep 10 '11 at 23:54

The second two expressions in a `for` loop are evaluated every time through the loop. The second expression is run every time to check if the loop should continue, and the last expression is intended to change the state of the loop. For example:

``````for (int x = 0; x < 100; ++x) { /* ... */ }
``````

The x < 100 expression has to be evaluated each time through the loop to see if you changed it. The `++x` needs to be evaluated every time because it's what's incrementing `x`.

The `for (expression 1; expression 2; expression 3)` loop is really just a shortcut for the common pattern:

``````{
expression 1;
if (expression 2)
{
do //Do-while + if to demonstrate how `break` and `continue` affect things
{
//loop body
expression 3;
}
while(expression 2)
}
}
``````
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