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I was reading Stroustrup's "The C++ Programming Language", where he says that out of two ways to add something to a variable

x = x + a;


x += a;

He prefers += because it is most likely better implemented. I think he means that it works faster too.
But does it really? If it depends on the compiler and other things, how do I check?

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"The C++ Programming Language" was first published in 1985. The most recent version was published in 1997, and a special edition of the 1997 version was published in 2000. As a consequence, some parts are hugely out of date. – Joe Gauterin Sep 18 '12 at 14:54
The two lines could potentially do something completely different. You have to be more specific. – Kerrek SB Sep 18 '12 at 14:54
Modern compilers are smart enough for these questions to be considered 'outdated'. – gd1 Sep 18 '12 at 19:08
Re-opened this because the duplicate question asks about C not C++. – Kev Apr 1 '13 at 22:19

11 Answers 11

up vote 205 down vote accepted

Any compiler worth its salt will generate exactly the same machine-language sequence for both constructs for any built-in type (int, float, etc) as long as the statement really is as simple as x = x + a; and optimization is enabled. (Notably, GCC's -O0, which is the default mode, performs anti-optimizations, such as inserting completely unnecessary stores to memory, in order to ensure that debuggers can always find variable values.)

If the statement is more complicated, though, they might be different. Suppose f is a function that returns a pointer, then

*f() += a;

calls f only once, whereas

*f() = *f() + a;

calls it twice. If f has side effects, one of the two will be wrong (probably the latter). Even if f doesn't have side effects, the compiler may not be able to eliminate the second call, so the latter may indeed be slower.

And since we're talking about C++ here, the situation is entirely different for class types that overload operator+ and operator+=. If x is such a type, then -- before optimization -- x += a translates to


whereas x = x + a translates to

auto TEMP(x.operator+(a));

Now, if the class is properly written and the compiler's optimizer is good enough, both will wind up generating the same machine language, but it's not a sure thing like it is for built-in types. This is probably what Stroustrup is thinking of when he encourages use of +=.

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There is also another aspect - readability. C++ idiom for adding expr to var is var+=expr and writing it the other way will confuse readers. – Tadeusz Kopec Sep 18 '12 at 15:13
If you find yourself writing *f() = *f() + a; you might want to take a good hard look at what you're really trying to achieve... – Adam Davis Sep 18 '12 at 21:31
And if var=var+expr confuses you, but var+=expr does not, you're the oddest software engineer I've ever met. Either are readable; just make sure you're consistent (and we all use op=, so its moot anyway =P) – WhozCraig Sep 19 '12 at 5:35
@PiotrDobrogost: What's wrong with answering questions? In any case, it should be the questioner who checked for duplicates. – Gorpik Sep 19 '12 at 8:18
@PiotrDobrogost seems to me like you're a little... jealous... If you want to go around looking for duplicates, go for it. I, for one, prefer answering the questions rather than looking for dupes (unless it's a question I specifically recall having seen before). It can sometimes be faster, and ergo help the one who asked the question faster. Also, note that this isn't even a loop. 1 is a constant, a can be a volatile, a user-defined type, or whatever. Completely different. In fact, I don't understand how this even got closed. – Luchian Grigore Sep 19 '12 at 14:20

You can check by looking at the dissasembly, which will be the same.

For basic types, both are equally fast.

This is output generated by a debug build (i.e. no optimizations):

    a += x;
010813BC  mov         eax,dword ptr [a]  
010813BF  add         eax,dword ptr [x]  
010813C2  mov         dword ptr [a],eax  
    a = a + x;
010813C5  mov         eax,dword ptr [a]  
010813C8  add         eax,dword ptr [x]  
010813CB  mov         dword ptr [a],eax  

For user-defined types, where you can overload operator + and operator +=, it depends on their respective implementations.

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Not true in all cases. I have found it can be faster to load a memory address into a register, increment it, and write it back than to increment the memory location directly (not using atomics). I'll try rustle up the code... – James Sep 18 '12 at 14:52
How about user defined types? Good compilers should generate equivalent assembly, but there is no such guarantee. – mfontanini Sep 18 '12 at 14:53
@LuchianGrigore Nope, if a is 1 and x is volatile the compiler could generate inc DWORD PTR [x]. This is slow. – James Sep 18 '12 at 14:58
@Chiffa not compiler-dependent, but developer-dependent. You could implement operator + to do nothing, and operator += to compute the 100000th prime number and then return. Of course, that would be a dumb thing to do, but it's possible. – Luchian Grigore Sep 18 '12 at 15:07
@James: if your program is sensible to the performance difference between ++x and temp = x + 1; x = temp;, then most probably it should be written in assembly rather than c++... – EmirCalabuch Sep 19 '12 at 9:11

The difference between x = x + a and x += a is the amount of work the machine has to go through - some compilers may (and usually do) optimize it away, but usually, if we ignore optimization for a while, what happens is that in the former code snippet, the machine has to lookup the value for x twice, while in the latter one, this lookup needs to occur only once.

However, as I mentioned, today most compilers are intelligent enough to analyse the instruction and reduce the resulting machine instructions required.

PS: First answer on Stack Overflow!

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Yes! It's quicker to write, quicker to read, and quicker to figure out, for the latter in the case that x might have side effects. So it's overall quicker for the humans. The human time in general costs much more than the computer time, so that must be what you were asking about. Right?

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a smart answer) – Chiffa Sep 19 '12 at 9:16
A smart answer by the Great Mark Adler himself :-) – Abhineet Aug 7 '13 at 11:47

As you've labelled this C++, there is no way to know from the two statements you've posted. You need to know what 'x' is (it's a bit like the answer '42'). If x is a POD, then it's not really going to make much difference. However, if x is a class, there may be overloads for the operator + and operator += methods which could have different behaviours that lead to very different execution times.

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It really depends on the type of x and a and the implementation of +. For

   T x, a;
   x = x + a;

the compiler has to create a temporary T to contain the value of x + a whilst it evaluates it, which it can then assign to x. (It can't use x or a as workspace during this operation).

For x += a, it doesn't need a temporary.

For trivial types, there is no difference.

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You're asking the wrong question.

This is unlikely to drive the performance of an app or feature. Even if it were, the way to find out is to profile the code and know how it affects you for certain. Instead of worrying at this level about which is faster, it's far more important to think in terms of clarity, correctness, and readability.

This is especially true when you consider that, even if this is a significant performance factor, compilers evolve over a time. Someone may figure out a new optimization and the right answer today can become wrong tomorrow. It's a classic case of premature optimization.

This isn't to say that performance doesn't matter at all... Just that it's the wrong approach to achieve your perf goals. The right approach is to use profiling tools to learn where your code is actually spending its time, and thus where to focus your efforts.

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Granted, but it was meant as a low-level question, not a big picture "When should I consider such a difference" one. – Chiffa Mar 12 '13 at 12:05
@Chiffa For the low-level answer, re-read the 3rd paragraph. – Joel Coehoorn Mar 12 '13 at 15:11
The OP's question was totally legitimate, as shown by other's answers (and upvotes). Although we get your point (profile first, etc.) it definitely is interesting to know this kind of stuff - are you really going to profile each and every trivial statement you write, profile the outcomes of each decision you take? Even when there are people on SO who already studied, profiled, disassembled the case and have a general answer to provide? – Tibo Feb 17 '15 at 9:57

If you say += you're making life a lot easier for the compiler. In order for the compiler to recognize that x = x+a is the same as x += a, the compiler has to

  • analyze the left hand side (x) to make sure it has no side effects and always refers to the same l-value. For example, it could be z[i], and it has to make sure that both z and i don't change.

  • analyze the right hand side (x+a) and make sure it is a summation, and that the left hand side occurs once and only once on the right hand side, even though it could be transformed, as in z[i] = a + *(z+2*0+i).

If what you mean is to add a to x, the compiler writer appreciates it when you just say what you mean. That way, you're not exercising the part of the compiler that its writer hopes he/she got all the bugs out of, and that doesn't actually make life any easier for you, unless you honestly can't get your head out of Fortran mode.

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For a concrete example, imagine a simple complex number type:

struct complex {
    double x, y;
    complex(double _x, double _y) : x(_x), y(_y) { }
    complex& operator +=(const complex& b) {
        x += b.x;
        y += b.y;
        return *this;
    complex operator +(const complex& b) {
        complex result(x+b.x, y+b.y);
        return result;
    /* trivial assignment operator */

For the a = a + b case, it has to make an extra temporary variable and then copy it.

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this is very nice example, shows how 2 operators implemented. – Grijesh Chauhan Aug 7 '13 at 10:57

I think that should depend on the machine and its architecture. If its architecture allows indirect memory addressing, the compiler writer MIGHT just use this code instead(for optimization):

mov $[y],$ACC

iadd $ACC, $[i] ; i += y. WHICH MIGHT ALSO STORE IT INTO "i"

Whereas, i = i + y might get translated to (without optimization):

mov $[i],$ACC

mov $[y],$B 

iadd $ACC,$B

mov $B,[i]

That said, other complications such as if i is a function returning pointer etc. should also be thought of. Most production level compilers, including GCC, produce the same code for both statements (if they're integers).

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No, both ways get handeled the same.

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Not if it's a user-defined type with overloaded operators. – delnan Sep 18 '12 at 14:52
Upvoting for Handel. – user1499731 Sep 18 '12 at 19:41

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