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I was wondering if the increment and decrement operators ( ++ -- ) have more purpose to it than its plain use to make the code more simple



is more efficient than:

i = i + 1;


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marked as duplicate by Oliver Charlesworth, Bo Persson, jogojapan, fredoverflow, Blastfurnace Mar 2 '13 at 15:18

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

Long ago, when dinosaurs roamed the Earth, some compilers generated more efficient code for i++ than i = i + 1. Those days are over. – William Pursell Mar 2 '13 at 12:37
@OliCharlesworth: That is C# question. – Nawaz Mar 2 '13 at 12:38
@Nawaz: Ah true. But regardless, this question has been asked hundreds of times before... – Oliver Charlesworth Mar 2 '13 at 12:41
@OliCharlesworth Has it? I've just made the mistake of voting to close as duplicate with the link you proposed, and now I am looking to find a link that really points to a duplicate. I am unable to find one. – jogojapan Mar 2 '13 at 13:11
@jogojapan: Well, e.g.… covers it. – Oliver Charlesworth Mar 2 '13 at 13:13

10 Answers 10

In many ways, the main purpose of the operators is backwards compatibility. When C++ was being designed, the general rule was to do what C did, at least for non-class types; if C hadn't had ++ and --, I doubt C++ would have them.

Which, of course, begs the question. It's inconceivable that they would generate different code in a modern compiler, and it's fairly inconceivable that the committee would introduce them for optimization reasons (although you never know—move semantics were introduced mainly for optimization reasons). But back in the mid-1970s, in the formative years of C? It was generally believed, at the time, that they were introduced because they corresponded to machine instructions on the PDP-11. On the other hand, they were already present in B. C acquired them from B. And B was an interpreted language, so there was no issue of them corresponding to machine instructions. My own suspicion, which applies to many of the operators (&, rather than and, etc.) is that they were introduced because development at the time was largely on teletypes (tty's), and every character you output to a teletype made a lot of unpleasant noise. So the less characters you needed, the better.

As to the choice between ++ i;, i += 1; and i = i + 1;: there is a decided advantage to not having to repeat the i (which can, of course, be a more or less complex expression), so you want at least i += 1;. Python stops there, if for no other reason than it treats assignment as a statement, rather than as the side effect of an arbitrary expression. With over 30 years of programming in C and C++ under my belt, I still feel that ++ i is missing when programming in Python, even though I pretty much restrict myself in C++ to treating assignment as a statement (and don't embed ++ i in more complicated expressions).

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"B was an interpreted language, so there was no issue of them corresponding to machine instructions" -- doesn't necessarily follow. I wasn't around at the time ofc, but Ritchie's "Development of the C language" claims that only the "earliest versions" of B were not compiled. Can you rule out that B was designed with an eye to compilation even though the first implementation wasn't compiled? – Steve Jessop Mar 2 '13 at 13:16

Performance depends on the type of i.

If it's a built-in type, then optimizers will "notice" that your two statements are the same, and emit the same code for both.

Since you used post-increment (and ignoring your semi-colons), the two expressions have different values even when i is a built-in type. The value of i++ is the old value, the value of i = i + 1 is the new value. So, if you write:

j = i++;
k = (i = i + 1);

then the two are now different, and the same code will not be emitted for both.

Since the post-condition of post-increment is the same as pre-increment, you could well say that the primary purpose of the post-increment operator is that it evaluates to a different value. Regardless of performance, it makes the language more expressive.

If i has class type with overloaded operators then it might not be so simple. In theory the two might not even have the same result, but assuming "sensible" operators i + 1 returns a new instance of the class, which is then move-assigned (in C++11 if the type has a move assignment operator) or copy-assigned (in C++03) to i. There's no guarantee that the optimizer can make this as efficient as what operator++ does, especially if the operator overload definitions are off in another translation unit.

Some types have operator++ but not operator+, for example std::list<T>::iterator. That's not the reason ++ exists, though, since it existed in C and C has no types with ++ but not +. It is a way that C++ has taken advantage of it existing.

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If you write k = (i = i + 1);, you have undefined behavior. (j = i ++; is just obfuscation.) – James Kanze Mar 2 '13 at 13:10
Re your last paragraph, the fact that someone could abuse the operator, and use ++ for the unrelated action of advancing an iterator, isn't really an argument for having ++. – James Kanze Mar 2 '13 at 13:12
@JamesKanze: (a) why is it UB? (b) I disagree that using ++ to mean generically "increment" as opposed to +=1 is operator abuse, but I think that's pretty much wholly subjective. I think one can (subjectively) argue that overloading arithmetic operators is always operator abuse unless implementing a numeric type, but personally I am happy for anything that models a finite or infinite Peano-like system to use ++, anything that models a ring to use + or *, etc. I do agree (and I explicitly state) that it is not the reason ++ was introduced. – Steve Jessop Mar 2 '13 at 13:18
@JamesKanze: why does 5.17/1 not save me from UB? "the assignment is sequenced after the value computation of the right and left operands, and before the value computation of the assignment expression". So the read from i to establish the value of k is sequenced after the assignment to i. – Steve Jessop Mar 2 '13 at 13:27
My mistake on the undefined behavior. I'm so used to seeing things like i = ++ i embedded in further expressions. Things like k = (i = i + 1) are fully legal (and regretfully, even used). – James Kanze Mar 2 '13 at 13:50

The two examples you gave will almost certainly compile to exactly the same machine code. Compilers are very smart. Understand that a compiler rarely executes the code you actually wrote. It will twist it and mould it to improve performance. Any modern compiler will know that i++; and i = i + 1; are identical (for an arithmetic type) and generate the same output.

However, there is a good reason to have both, other than just code readability. Conceptually, incrementing a value many times and adding to a value are different operations - they are only the same here because you are adding 1. An addition, such as x + 3, is a single operation, whereas doing ++++++x represents three individual operations with the same effect. Of course, a smart compiler will also know that for an object of arithmetic type, x, it can do N increments in constant time just by doing x + N.

However, the compiler can't make this assumption if x is of class type with an overloaded operator+ and operator++. These two operators may do entirely different things. In addition, implementing an operator+ as a non-constant time operation would give the wrong impression.

The importance of having both becomes clear when we're dealing with iterators. Only Random Access Iterators support addition and subtraction. For example, a standard raw pointer is a random access iterator because you can do ptr + 5 and get a pointer to the 5th object along. However, all other types of iterators (bidirectional, forward, input) do not support this - you can only increment them (and decrement a bidirectional iterator). To get to the 5th element along with a bidirectional iterator, you need to do ++ five times. That's because an addition represents a constant time operation but many iterators simply cannot traverse in constant time. Forcing multiple increments shows that it's not a constant time operation.

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You could argue the point about incrementing and adding a value being different. And of course, using ++ to advance an iterator, rather than a member function, is really a case of operator overloading abuse. But it is an explication of the difference in modern C++. Which doesn't explain the original motivation: C++ has ++ because C has ++ because B had ++. And the iterator argument certainly doesn't hold for B. – James Kanze Mar 2 '13 at 12:59
@JamesKanze I suppose I wasn't thinking about where ++ came from. I haven't given the reason we have it in the first place, just an explanation for why it is handy to have it now. – Joseph Mansfield Mar 2 '13 at 13:02
I'm not sure I agree that "increment" and "add 1" are conceptually different. – Oliver Charlesworth Mar 2 '13 at 13:14
@OliCharlesworth I mean "incrementing many times" and "adding" are conceptually different. – Joseph Mansfield Mar 2 '13 at 13:16

Both would produce same machine instruction(s) in optimized code by a decent compiler.

If the compiler sees i++ is more efficient,then it will convert i=i+1 to i++, or vice-versa. The result will be same no matter what you write.

I prefer ++i . I never write i=i+1.

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I think the OP presented the question in a misleading fashion. i = i + 1; requires specifying i twice; not an issue for i, but i can be an arbitrary expression. (And if you write f() = f() + 1;, rather than ++ f();, the compiler must call f twice, unless it can "see into" f.) The real issue is ++ i; vs. i += 1;. – James Kanze Mar 2 '13 at 13:03
The fact that I accidentally hit Enter before finishing the comment:-). Without my subsequent edit, it doesn't make sense. – James Kanze Mar 2 '13 at 13:06
@JamesKanze: In my answer, I assumed i is one of the built-in types. – Nawaz Mar 2 '13 at 13:10

No, it is simply to make typing simple, and to get simpler looking syntax.

When they are both compiled, they are reduced to the same compiled code, and run at the same speed.

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  1. The ++ or -- operator allows it to be combined into other statements rather than i=i+1. For e.g. while (i++ < 10) allows a while loop check and an increment to be done after it. It's not possible to do that with i=i+1.

  2. The ++ or -- operator can be overloaded in other classes to have other meanings or to do increments and decrements with additional actions. Please see this page for more info.

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It is possible, if somewhat ugly and possibly inefficient, to model the semantics of post-increment i++ without that operator: while ((i=i+1,i-1) < 10). – us2012 Mar 2 '13 at 12:54
Re 1. The language allows it, but I think most programmers have outgrown things like while ( *dst++ = *src++ );. It was already recognized as bad practice when K&R wrote the first "Programming in C". – James Kanze Mar 2 '13 at 13:08
Re. It's true that you can overload ++ to do something totally unrelated to adding one, but that's generally considered operator overloading abuse. – James Kanze Mar 2 '13 at 13:09
I think using ++ like while (i++ < 10) is not bad practice, but doing while ( *dst++ = *src++ ) certainly is. With operator overloading, you could do for example the following. I define a class which keeps an integer value and the min and max value can be defined as constructor arguments, say 0 and 100. Now I overload the -- and ++ operators so that it does decrement and increment only if the new value is within the range of 0 and 100. So if the value of x is 100 and you do x++, it will stay at 100. I don't consider this abuse, but a very specific design for a specific need. – ruben2020 Mar 2 '13 at 13:16

Try to replace ++i or i++ in some more complicated expression. You're going to have difficulties with the preincrement/postincrement feature. You're going to need to split the expression into multiple ones. It's like ternary operator. It is equivalent, the compiler may perform some optimizations regardless on the way you enter the code, but ternary operator and preincrement/postincrement syntax just save you space and readability of the code.

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"You're going to need to split the expression into multiple ones." Sounds more like an argument against ++ to me. Embedding changes of state in the middle of a complex expression is mainly an obfuscation technique, avoided by serious programmers. – James Kanze Mar 2 '13 at 13:02
Of cause. That's why you have to think, during development, instead of having some general answer like "++ operator is bad": it has it's use and it shouldn't be used, when the code could be hard readable. Imagine, someone will start using for (i = 0; i < 10; i = i + 1) - that's ridiculous. – V-X Mar 2 '13 at 13:10

They both are not exactly same , though functionally they are same, there is a difference in precedencei++ has more precedence(more priority) than i=i+1

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The difference between i++ and i = i + 1 is that the first expression only evaluates i once and the second evaluates it twice. Consider:

int& f() {
    static int value = 0;
    std::cout << "f() called\n";
    return value;


f()++;         // writes the message once
f() = f() + 1; // writes the message twice

And if f() returns different references on different calls, the two expressions have vastly different effects. Not that this is good design, of course...

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The sure answer is yes, they do have more purpose than what you may realize on the surface. The main reason for this is ++ and --, as well as others, are capable of being overloaded. More over you did not specify what exactly i's type is. How does anyone know what that is? So ++i could do any number of things.

For example:

myClass myClass::operator++()
    std::cout << "You just called an overloaded operator!!\n";
    return *this;

This does no arithmetic at all. Does it make sense, no. But the point is when dealing with an operator capable of being overloaded that you did not code yourself, it can very well mean anything.

As far as the underlying question that others pointed to - it may be very true that the two examples you gave compile to the same code, but maybe not. In fact, if it is so common for it to be optimized out then why does the Qt documentation suggest to use ++i as opposed to i++ whenever possible?

So I would say use pre/post as opposed to long hand, but don't be lazy. If it it's position makes no difference like in a for() go ahead and do ++i it shows you care when no one else does.

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