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i have never seen the usecase for preincrement and postincrement in actual code.

The only place i see them most often are puzzles.
My opinion is, it introduces more confusion rather than being useful.

  • is there any real use case scenario for this
  • can't this can be done by using +=

    y = x++

    y = x
    x += 1

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12  
Necessary? It's not necessary that I drink my own urine, but it's sterile and I like how it tastes. - Patches O'Houlihan –  kenj0418 Mar 25 '10 at 5:26
1  
You're a Computer Science Engineering Student and you find the difference between x++ and ++x confusing? And you've never found it useful to express similar things in different ways? –  z5h Mar 25 '10 at 5:34
    
@z5h i never got confused. –  Anantha Kumaran Mar 25 '10 at 5:37
3  
To the closer: as much as I think the questioner is "wrong", I believe even more firmly that this is a real question. –  paxdiablo Mar 25 '10 at 5:40

3 Answers 3

up vote 7 down vote accepted

It's just a shorter way of writing the same thing and it's only confusing to those who don't deeply understand C (a). The same argument could be made for replacing:

for (i = 0; i < 10; i++)
    printf ("%d\n", i);

with:

i = 0;
while (i < 10) {
    printf ("%d\n", i);
    i = i + 1;
}

since any for can also be done with while, or:

i = 0;
loop: if (i < 10) {
    printf ("%d\n", i);
    i = i + 1;
    goto loop;
}

since any loop construct can be built out of conditions and goto. But (I'm hoping) you wouldn't do that, would you?


(a) I sometimes like to explain this to my students as simple statements and side effects, something that allows C code to be more succinct with usually no or minimal loss in readability.

For the statement:

y = x++;

the statement is assigning x to y with the side effect that x is incremented afterwards. ++x is the same, it's just that the side effect happens beforehand.

Similarly, the side effect of an assignment is that it evaluates as the value assigned, meaning you can do things like:

while ((c = getchar()) != -1) count++;

and which makes things like:

42;

perfectly valid, but useless, C statements.

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1  
why not for (i = 0; i < 10; i+=1) –  Anantha Kumaran Mar 25 '10 at 5:39
1  
void strcpy(char* a, char* b) { while (*a++ = *b++) ; } –  Travis Gockel Mar 25 '10 at 5:40
4  
@Ananantha, you're missing the point. What I'm saying is that you would use "for" rather than "while" for that particular case (the i++/i+=1 distinction is irrelevant in that case). Bottom line: use the language features you have available to you. Understand them. –  paxdiablo Mar 25 '10 at 5:44
    
yes , i didn't read your answer carefully –  Anantha Kumaran Mar 25 '10 at 6:10
    
Ah, Java (or at least my IDE) starts complaining when you write the last statement: it reports an error with the message Not a statement. –  MC Emperor Jan 10 at 14:07

The pre- and post-increment operators make much more sense if you consider them in the light of history and when they were conceived.

Back in the days when C was basically a high-level assembler for PDP-11 machines</flamebait>, and long before we had the nice optimizing compilers we have now, there were common idioms used that the post-increment operators were perfect for. Things like this:

char* strcpy(char* src, char* dest)
{
  /* highly simplified version and likely not compileable as-is */
  while (*dest++ = *src++);
  return dest;
}

The code in question generated PDP-11 (or other) machine language code that made heavy use of the underlying addressing modes (like relative direct and relative indirect) that incorporated exactly these kinds of pre- and post-increment and decrement operations.

So to answer your question: do languages "need" these nowadays? No, of course not. It's provable that you need very little in terms of instructions to compute things. The question is more interesting if you ask "are these features desirable?" To that I'd answer a qualified "yes".

Using your examples:

y = x;
x += 1;

vs.

y = x++;

I can see two advantages right off the top of my head.

  1. The code is more succinct. Everything I need to know to understand what you're doing is in one place (as long as I know the language, naturally!) instead of spread out. "Spreading out" across two lines seems like a picky thing but if you're doing thousands of them it can make a big difference in the end.
  2. It is far more likely that the code generated even by a crappy compiler will be atomic in the second case. In the first case it very likely will not be unless you have a nice compiler. (Not all platforms have good, strong optimizing compilers.)

Also, I find it very telling that you're talking about += when that itself is an "unneeded" way of saying x = x + 1;.... After all there is no use case scenario I can think of for += that couldn't be served fine by _ = _ + _ instead.

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+1 for a history level but I'm not sure that's flamebait, it really was a high-level assembler (not sure whether it was PDP8 or PDP11 though). And your last paragraph is a good point as well. –  paxdiablo Mar 25 '10 at 5:50
    
Good answer, but I would argue that the semantics of unary operators vary widely from the semantics of the binary ones. –  Travis Gockel Mar 25 '10 at 5:54
2  
Using code like x[f(y)][g(z)] += 10 could actually be more efficient than x[f(y)][g(z)] = x[f(y)][g(z)] + 10 because the compiler only have to evaluate x[f(y)][g(z)] once in the first case, but possibly twice in the second case. –  Gabe Mar 25 '10 at 5:56
    
@gabe: Absolutely correct. In languages like C, x[f(y)][g(z)] will be evaluated once at run time and return an lvalue, whose reference can be evaluated and then assigned, without having to step through a second evaluation. If f and g are impure functions, this can result in different behavior between the two forms you suggested. Yikes! –  Travis Gockel Mar 25 '10 at 6:03
1  
@cHao, I understand your statement about "sane" code, but to be clear, C++'s ability to alter idioms like that (and that's what it would be doing by having different abilities for a+=b and a=a+b) is not a "plus", I don't care what class implements it. It is going against a fundamental tenet of the language (already well understood because of the built-in arithmetic types) and will reek havoc with the pattern recognition of reading code. C++ fans will no doubt downvote this, but IMO it will because of a confusion between "can do" and "should do" programming. All too common in C++. –  tgm1024 Jan 31 at 17:14

You're accidentally raising a much larger issue here, and it's one that will make itself more and more known to you as the years (decades) go by.

Languages often make the mistake of supplying "abilities" when they shouldn't. IMO, ++ should be a stand-alone statement only, and absolutely not an expression operator.

Try to keep the following close to heart: The goal is not to create code for the competent engineer to read. The goal is to create code for the competent engineer to read when he is exhausted at 3am and hopped up on caffeine.

If an engineer says to you "All code constructs can get you into trouble. You just have to know what you're doing.", then walk away laughing, because he's just exposed himself as part of the problem.

In other words, please don't ever code anything like this:

a[aIndex++] = b[++bIndex];

You can find a interesting conversation about this kind of thing here: Why avoid increment ("++") and decrement ("--") operators in JavaScript?

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