Whats possible in a for loop

Question

So today I went to an interview and one of the questions was the following (C# context).

//Print the output for the following code:
for (int i = 10, j = 0; j <= 10; j++, i--)
{
    if (i > j)
        Console.WriteLine(j.ToString());
}

I have never seen such a construct before and having asked my colleagues, 4 of 5 at my workplace didn't know either (Perhaps more a reflection on us but I digress). Using some basic logic, I was able to answer the question correctly but this knowledge has radically altered my understanding of how for loops can be structured.

So I guess my question boils down to this.

1. Do all C syntax based languages implement this functionality? IE: C, C++, Java, javascript etc.
2. Where does this syntax stem from?
3. Are there any other "not well known" structures that a for loop can take?
4. Is writing code like above considered bad practice given how hard it is to read?
5. Are there any good real world examples where such a structure is required?

Answer 1

for (statement1; statement2; statement3)
{
     /* body */
}

(1) First the statement1 is executed.

(2) Next statement2 is executed.

(3) If the evaluation of statement2 is true then the body is executed

(4) Then statement3 is executed.

(5) Repeat from step (2)

          |                  +<-----------------+
          |                  |                  ^
          V                  V                  |
 for (  (s1); -------->(s2 true? | false?);    (s3) )
 {                           |       |          ^
                             |       |          |
                             |       |          |
                             V       |          |
                          (body)-----|--------->+
 }                                   |
                                     |
                                     V
                                 (come out)

The structure you have shown is the same normal structure as above. The statement n could be any statement. In your example, you have separated by comma operators in statement1 and statement3. You can separate any number of statements by comma operators.

Generally for loops are used with the statement1 with initialization as it is executed only once. The statement2 is used for the loop termination condition checking, because the evaluation value of this statement is used to decide if to enter the body of break out. And the statement3 is used for update of the loop termination variable as it is executed after the body. But generally they could be used in any way.

First statement1 is i=10, j=0; this initializes the variables. Next in the statement2 is j <= 10 if this is true then the body is executed. After the body is executed, statement3 which is i--,j++ is executed. The loop will iterate 11 times 0 to 10. But will print 5 times, as at one point i and j will become same and the if (i > j) will evaluate false.

EDIT Here is an example where it might be used, not much practical but a sample use, to check for a palindrome string.

  int i, j, n, flag;
  char str[128];

  printf ("\nEnter string: ");
  scanf ("%s", &str);
  n = strlen (str);


for (flag=1, i=n-1, j=0; j<n/2; j++, i--)
{
  if (str[i] != str[j])
  {
    flag = 0;
    break;
  }
}

if (flag)
 printf ("\n\"%s\" is a palindrome");
else
 printf ("\n\"%s\" is not a palindrome");

We should always try to write code which is easy to read and which does not create confusion. This helps the code writer as well as others who read the code.

Answer 2

1. Java & C# both share this same syntax
2. The syntax probably stems from C/C++ which is the 'root' of Java & C#
3. Yes, you can also have zero initializers and end conditions for your for loop.
4. Whether or not it is bad practice really depends on how it is used. You can create quite cryptic code using this technique, however, it does not mean that when used correctly it is perfectly acceptable.
5. I doubt it!

Answer 3

In C and Java for loops you may specify an unlimited (or zero) number of comma separated initialisers (of the same data type) and end-of-loop actions.

The initializer section is really just one java statement; java variable definitions may be grouped if they are of the same type, ie:

int i = 0;
int j = 0;

is equivalent to:

int i = 0, j = 0;

You can do what you like in the end-of-loop section - any number of statements separated by commas.

Since java 5, there is also the foreach syntax, eg:

List<String> list;
for (String element : list) {
    // do something with the variable element
}

The syntax works with Iterable types, which includes arrays and Collections.

Answer 4

1. Java supports this for structure. In other languages like C, you can have any expression instead of a condition-clause. This clause doesn't have to be related and could use different variables.

   for({declaration-clause}; {condition-clause}; {expression-clause})
   

2. The syntax is just an extension of the declaration and expression notations in C.

   int i = 10, j = 0; // a declaration
   j++, i--; // an expression.
   

3. Too many to mention.

4. It may be bad practice if you cannot determine what the code means. In your case you were able to figure it out even if you wouldn't have written it that way.
5. A for loop is never required You can always replace it with a while loop so, no.

Answer 5

According to my exp and research, this type of 'condition construct' is very commonly seen in image processing, say(really, say) you need to compare pixels between two images in (say, again) opposite directions. Or even traverse neighbors in opp directions, too. Another example, under this type of 'condition construct', when you need to convert a 32-bit bmp to 24-bit or vice versa. (only that the increment would be bit diff like i=i+4, j=j+3).

Answer 6

output is: 0 9 8 7 6

---

1.almost C syntax based languages implement this functionality. 2.Where does this syntax stem from c. 3.one part, two part, three part, all may disappear.do not have any part, loop can work right. 4.it is a bad practise. 5.i do not know.

Answer 7

In response to 5, one common use is something like this (in C):

for (size_t pos = 0, end = strlen(something); pos < end; ++pos) {
    if isspace((unsigned)(something[pos])) {
        puts("contains whitespace");
        break;
    }
}

instead of:

for (size_t pos = 0; pos < strlen(something); ++pos) { ... }

strlen could be any operation that's expensive relative to the loop, such that it makes sense to hoist it. For strlen in particular maybe the optimizer could do it automatically, but in general if the compiler doesn't know what the call does, and you put it in the loop condition, it has to evaluate it every time around because it doesn't know whether it will change.

Of course, you could instead write this:

const size_t end = strlen(something);
for (size_t pos = 0; pos < end; ++pos) { ... }

So there's certainly no strict need for the extra variable to be defined in the for statement, and arguably there's a tiny advantage to making end const (or final) anyway, which you lose by defining pos and end together. Some people prefer the "loop variables" (in this case including a "loop constant") to all be defined in the for statement, though, since they "belong" to it.

Plus, before someone points it out, in my C example you don't need indexing at all:

for (const char *ptr = something; *ptr; ++ptr) { 
    if isspace((unsigned)*ptr) { ... }
}

but we can pretend we have a task where we are going to iterate using a calculated end point...