I am addicted to "braceless" ifs, like this:

if (a) b++, c++, d = e; 

But one annoying thing is that return cannot be a part of the last part. Intuitively I feel why is that, but can anyone explain in programming language terms why this will not compile?

main() {
    int a, b, c, d, e;
    if (a) b = c, d = e, return;

If you care, please also explain why is that designed like that, it seems like a flaw to me. I can understand in C but in C++ it could have been redesigned without major compatibility loss with the existing C code.

Just for comparison: these will compile and do exactly what expected:

while (a < 10) a++, b--, c += 2;

while (a < 10) if (a == 5) half = a, save();
  • 32
    You are on Santa's naughty list. – ScarletAmaranth Dec 24 '13 at 18:04
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    return b = c, d = e; doesn't float your boat? It doesn't float mine, but neither do those commas for braceless ifs. – chris Dec 24 '13 at 18:04
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    This is just evil - I would not hire you if you write code like this. – Paul R Dec 24 '13 at 18:04
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    Because the designers thought that if (a) [&]{ b = c, d = e; return; }(); provides sufficient functionality (warning: read with care :)). Alternatively you can write if (a) return b = c, d = e, void(); – Johannes Schaub - litb Dec 24 '13 at 18:07
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    @DeadMG I think it is pretty obvious I'm talking about the actual sign braces {} not some metaphorical concept. – this Dec 24 '13 at 18:44

The "comma" operator is exactly that, an operator. It's left and right sides must be expressions, and return is not an expression.

To elaborate, the comma operator evaluates its left-hand side first, and discards the value. Then, it evaluates its right-hand side, and the whole comma expression evaluates to the right-hand side's value.

It's similar to this:

template <typename T, typename U>
U operator,(T t, U u)
    return u;

Therefore, you cannot put anything in a comma expression that is not an expression itself.

If you're looking to simultaneously execute a series of statements and group them together, that's exactly what ; and {} are for. There is no reason to duplicate that behavior in the comma operator.

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    @DeadMG: This answers perfectly well and clearly "why" the statement does not compile, which is the primary question. – Benjamin Lindley Dec 24 '13 at 18:47
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    @exebook I believe that the semicolon ; fills that role pretty well. Semicolon separates expressions, and braces {} connect them. – Apples Dec 24 '13 at 18:47
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    Saying "The statement does not compile because the language is designed that way" doesn't really explain why the language is designed that way. – Puppy Dec 24 '13 at 18:50
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    @DeadMG: First, nobody said that. Second, "Why the language is designed that way" is a secondary question. The primary question is about why it will not compile. This question answers that, and it doesn't say anything remotely equivalent to "The statement does not compile because the language is designed that way". – Benjamin Lindley Dec 24 '13 at 18:55
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    @DeadMG After reading your answer to the question, I'm not sure what you're trying to say here. My answer may be, "Because the language is not designed that way," but your answer is, "Because nobody wants the language to be designed that way." I fail to see any real difference between our answers. – Apples Dec 24 '13 at 19:30

It can be done the following way

if (a) return ( b = c, d = e, 0 );

Oe if there is no return expression

if (a) return ( b = c, d = e, ( void )0 );

It may be open to question whether this answers the question the OP was really asking, but in case anybody cares about why the comma operator was designed the way it was, I think it goes back to BCPL.

In BCPL, you could combine a series of assignments like:

L1 := R1
L2 := R2

...into a single statement (command) like:

L1, L2 := R1, R2

Much like in C and C++, these were executed in order from left to right. Unlike C and C++, this "comma operator" didn't produce a single expression (at least as C uses the term).

BCPL also had a resultis that let you make a block of statements into something almost like a function.

At least to me, it looks like in C, Dennis1 decided decided to sort of combine these two concepts into a single one that was rather simpler: a comma operator that would allow evaluation of a number of expressions in succession, and yield a single result.

Reference: BCPL Reference Manual

  1. I suppose in fairness I should mention the possibility that this decision was actually made by Ken Thomson in the design of B. Little enough documentation on B has survived that it's almost impossible to even guess about that.

As already stated return is not an expression, it's a keyword. However, b = c, d = e is an expression. Therefore your intent is probably this:

if (a) return (b = c, d = e, 0);

b = c, d = e, return doesn't really make any sense, as it would be inconsistent with how the comma operator works in other contexts. Imagine if you could do this:

for (int i = 0, j = 0, return; ...

That would make absolutely no sense. It would also be redundant if return meant something in this context as the comma operator already returns its last operand. There would also be no point because the comma operator already evaluates its operands, how would return something be beneficial in this case?

Someone looking at your code might glance over it and say, "this should be: if (a) (b = c, d = e); return 0;", which is a trap because of the lack of braces. What they would really mean is if (a) { (b = c, d = e); return 0; }, but this problem would be avoided if you use the syntax mentioned at the top of this answer. It simply isn't readable as it makes no semantic sense.

Regardless, this would only make sense if b and d were global variables, for example something like errno, allowing you to assign to the variable and return in one statement.


Why exactly this will not compile if (a) b = c, d = e, return;?

This is because a comma (,) operator must have its left and right operands to be expressions. The return statement is not an expression. See the syntax defined for , operator by the C and C++ standard:

C11: 6.5.17 Comma operator

             expression , assignment-expression

The same syntax is defined by C++ standard

C++: 5.18 Comma operator [expr.comma]

The comma operator groups left-to-right.

             expression , assignment-expression  

A pair of expressions1 separated by a comma is evaluated left-to-right;

Note that the standard says about expressions and return is not an expression.

1.Emphasis is mine

  • Why down vote ? – haccks Dec 24 '13 at 18:15
  • I am again asking downvoters please leave a comment. – haccks Dec 24 '13 at 18:31
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    I downvoted because the question is about C++ and you have quoted the C Standard. – Puppy Dec 24 '13 at 18:37
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    @DeadMG: Though the section number changes to 5.18, the C++ standard gives identical syntax. – Jerry Coffin Dec 24 '13 at 18:39
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    I admit, my comment was in error. The question asks "Why?". The Standard says "What". This is equally true for both Standards. – Puppy Dec 24 '13 at 18:43

I can understand in C but in C++ it could have been redesigned without major compatibility loss with the existing C code.

It could have been, but why would anyone, ever, want it to be? The language already contains a means to the end that you are looking for- braces. They are much more reliable and useful than abusing the comma operator like you have. For example, if you are using UDTs, then you are going to run into some nasty surprises when I overload the comma operator. Oops!

More to the point, having return as an expression doesn't make sense, because the function has already, well, returned, when it is evaluated, so there's no way anyone could possibly use any hypothetical return value.

Your entire question is predicated on your personal dislike of braces. Nobody else who designs the language really shares that feeling.

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