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This question is inspired by this question, which features the following code snippet.

int s;
if((s = foo()) == ERROR)
    print_error();

I find this style hard to read and prone to error (as the original question demonstrates -- it was prompted by missing parentheses around the assignment). I would instead write the following, which is actually shorter in terms of characters.

int s = foo();
if(s == ERROR)
    print_error();

This is not the first time I've seen this idiom though, and I'm guessing there are reasons (perhaps historical) for it being so often used. What are those reasons?

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3  
The former style makes a lot more sense when used with while instead of if, for example while ((c = getchar()) != EOF) putchar(c); –  FredOverflow May 23 '10 at 14:15
2  
@FredOverflow, isn't that what for is for? :) –  avakar May 23 '10 at 14:44
1  
No, not at all. There is no initialization and no increment in the above example that could be utilized in a for loop. How exactly would you propose to beautify this code with for? –  FredOverflow May 23 '10 at 15:21
    
@FredOverflow, read Alok's answer. –  avakar May 23 '10 at 15:26
1  
Ah, writing it twice. The whole point of my example is to not have to repeat yourself :) –  FredOverflow May 23 '10 at 16:19

8 Answers 8

up vote 13 down vote accepted

When you are writing a loop, it is sometimes desirable to use the first form, as in this famous example from K&R:

int c;

while ((c = getchar()) != EOF) {
    /* stuff */
}

There is no elegant "second-form" way of writing this without a repetition:

int c = getchar();

while (c != EOF) {
    /* stuff */
    c = getchar();
}

Or:

int c;

for (c = getchar(); c != EOF; c = getchar()) {
    /* stuff */
}

Now that the assignment to c is repeated, the code is more error-prone, because one has to keep both the statements in sync.

So one has to be able to learn to read and write the first form easily. And given that, it seems logical to use the same form in if conditions as well.

I tend to use the first form mostly because I find it easy to read—as someone else said, it couples the function call and the return value test much more closely.

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1  
Thank you for answering. I personally would write the loop as for(;;){int c = getchar(); if (c == EOF) break; /*stuff*/}, which has no redundancy and still maintains one operation per line. –  avakar May 23 '10 at 14:57
    
@avakar: Good point. But, I tend to avoid "infinite" loops with break in them unless necessary. I am not sure of this about the for loop you presented. Of course, you think it is clearer, or you wouldn't write your loop that way :-). So, while ((c = getchar) != EOF) is still the best form for me. –  Alok Singhal May 23 '10 at 15:06
    
basically what it comes down to is that we need to do something (pre-statements), check the loop condition, then do something more (post-statements) -- and we have no corresponding loop construct for that. Thanks to the nature of C and C++ grammar, you can put the pre-statements into the condition itself, but you'll find it less readable as you increase their complexity. The break approach avoids this, but of course there are opponents of breaks (and other goto-like constructs). Indeed it is a very subjective matter :) –  avakar May 23 '10 at 15:35
    
+1 - these loops tend to occur less often than if statements. so, even though I prefer the 2nd form for if, I've often used this idiom for while to avoid duplicate expressions. –  mdma May 23 '10 at 15:36
    
@avakar: I agree - style is a personal preference, and there are good arguments for both the styles in this case. As I said, I tend to use the first form, because I am more comfortable with it, and because in loops it seems to be the most natural construct to me. But if the first form results in something that's "too complicated" (for my tastes obviously), then I use the second form. So, my rule is to make sure I like it and it is easy for me to understand, preferring the first form in case of a tie! :-) –  Alok Singhal May 23 '10 at 17:48

I think it's for hysterical reasons, that early compilers were not so smart at optimizing. By putting it on one line as a single expression, it gives the compiler a hint that the same value fetched from foo() can be tested rather than specifically loading the value from s.

I prefer the clarity of your second example, with the assignment and test done later. A modern compiler will have no trouble optimizing this into registers, avoiding unnecessary loads from memory store.

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10  
+1 for "hysterical reasons" ;-) –  Péter Török May 23 '10 at 13:59
    
+1 I'll me too that. –  JeremyP May 23 '10 at 14:30
5  
A lot of people thing that "the shorter my code is, the less code will be generated, and the faster it'll execute". Often, a better rule of thumb is that "the more readable my code is, the better the compiler will be able to understand it, and the faster it'll execute". But try convincing people of that one. ;) –  jalf May 23 '10 at 15:17
    
"hysterical reasons" Either a typo, or something that is brilliantly witty. –  msemack May 24 '10 at 0:19
    
It was deliberate! :) –  mdma May 9 at 19:13

I make a conscious attempt at combining the two whenever possible. The "penalty" in size isn't enough to overcome the advantage in clarity, IMO.

The advantage in clarity comes from one fact: for a function like this, you should always think of calling the function and testing the return value as a single action that cannot be broken into two parts ("atomic", if you will). You should never call such a function without immediately testing its return value.

Separating the two (at all) leads to a much greater likelihood that you'll sometimes skip checking the return value completely. Other times, you'll accidentally insert some code between the call and the test of the return value that actually depends on that function having succeeded. If you always combine it all into a single statement, it (nearly) eliminates any possibility of falling into these traps.

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Interesting point of view. I agree that it is advantageous to think about the assignment/error check as an atomic unit. (Personally, I make the three lines a separate paragraph.) –  avakar May 23 '10 at 14:43
    
Better yet, use exceptions. –  John Dibling May 24 '10 at 15:24
    
@John: Exceptions aren't always suitable. For one obvious example, while ((ch=getc())!=EOF). –  Jerry Coffin May 24 '10 at 15:32
    
@Jerry: You could also say that return codes aren't always suitable. Nothing is always suitable. –  John Dibling May 24 '10 at 15:41
    
@John: while it's true that nothing is always suitable, there are a lot of times that you need something like this, and an exception isn't suitable. –  Jerry Coffin May 24 '10 at 15:58

I would always go for the second. It's easier to read, there's no danger of omitting the parentheses around the assignment and it is easier to step through with a debugger.

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1  
+1 for ease of debugging in the second example. –  Paul Stephenson May 23 '10 at 14:51

I often find the separation of the assignment out into a different line makes debugger watch or "locals" windows behave better vis-a-vis the presence and correct value of "s", at least in non-optimized builds.

It also allows the use of step-over separately on the assignment and test lines (again, in non-optimized builds), which can be helpful if you don't want to go mucking around in disassembly or mixed view.

YMMV per compiler and debugger and for optimized builds, of course.

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I personally prefer for assignments and tests to be on different lines. It is less syntactically complicated, less error prone, and more easily understood. It also allows the compiler to give you more precise error/warning locations and often makes debugging easier.

It also allows me to more easily do things like:

int rc = function();

DEBUG_PRINT(rc);

if (rc == ERROR) {
    recover_from_error();
} else {
    keep_on_going(rc);
}

I prefer this style so much that in the case of loops I would rather:

while (1) {
    int rc = function();
    if (rc == ERROR) {
        break;
    }
    keep_on_going(rc);
}

than do the assignment in the while conditional. I really don't like for my tests to have side-effects.

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I'd rather have my teeth extracted with a chisel than have a loop exit condition in the loop block. But that leaves me with a dilemma in that I either have to run the bit of code that generates the loop exit twice (once before the loop and once at the end) or put an assignment in the loop condition. I guess your example is OK because the exit condition is at least directly below the while. –  JeremyP May 24 '10 at 8:07

I often prefer the first form. I couldn't say exactly why, but it has something to do with the semantic involved.

The second style feels to me more like 2 separate operations. Call the function and then do something with the result, 2 different things. In the first style it's one logical unit. Call the function, save the temprary result and eventually handle the error case.

I know it's pretty vague and far from being completely rational, so I will use one or the other depending on the importance of the saved variable or the test case.

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It is two separate operations. An assignment and a comparison. Shouldn't it feel that way? –  John Dibling May 24 '10 at 15:21
    
Yes, but the importance of the operation is depending.If the assignment is only there, to hold a temporary (for cleaning up for example), it's not an essential part of the algorithm. If the purpose of the operation is this assignment, then I will write it in separate statements. It's the relative importance that makes the difference. –  tristopia May 24 '10 at 18:15

I believe that clarity should always prime over optimizations or "simplifications" based only on the amount of characters typed. This belief has stopped me from making many silly mistakes.

Separating the assignement and the comparison makes both clearer and so less error-prone, even if the duplication of the comparison might introduce a mistake once in a while. Among other things, parentheses become quickly hard to distinguish and keeping everything on one line introduces more parentheses. Also, splitting it up limits statements to doing only one of either fetching a value or assigning one.

However, if you expect people who will read your code to be more comfortable using the one-line idiom, then it is wide-spread enough not to cause any problems for most programmers. C programmers will definately be aware of it, even those that might find it awkward.

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