# Why is a = (a+b) - (b=a) a bad choice for swapping two integers?

I stumbled into this code for swapping two integers without using a temporary variable or the use of bitwise operators.

``````int main(){

int a=2,b=3;
printf("a=%d,b=%d",a,b);
a=(a+b)-(b=a);
printf("\na=%d,b=%d",a,b);
return 0;
}
``````

But I think this code has undefined behavior in the swap statement `a = (a+b) - (b=a);` as it does not contain any sequence points to determine the order of evaluation.

My question is: Is this an acceptable solution to swap two integers?

• In C++ just use std::swap – user1781290 Dec 27 '13 at 12:27
• Why write code that is difficult to read for the sake of a few bytes? – Ed Heal Dec 27 '13 at 12:27
• @EdHeal Byte by Byte the Megabyte is made (Couldn't resist) – Suvarna Pattayil Dec 27 '13 at 12:31
• @EdHeal "sake of a few bytes" sounds like the movie cliche "sake of a few lives". If you put it in that perspective, you sound like a monster. |=^] – But I'm Not A Wrapper Class Dec 27 '13 at 16:50
• Bear in mind that the saved "lines of code" and "variables" don't accelerate your program's performance any...on the contrary, they probably harm it. I'm willing to bet if you look at the linked ASM it's probably takes more instructions and more cycles to execute than a naive solution. – Nick T Dec 27 '13 at 16:50

No. This is not acceptable. This code invokes Undefined behavior. This is because of the operation on `b` is not defined. In the expression

``````a=(a+b)-(b=a);
``````

it is not certain whether `b` gets modified first or its value gets used in the expression (`a+b`) because of the lack of the sequence point.
See what standard syas:

## C11: 6.5 Expressions:

If a side effect on a scalar object is unsequenced relative to either a different side effect on the same scalar object or a value computation using the value of the same scalar object, the behavior is undefined. If there are multiple allowable orderings of the subexpressions of an expression, the behavior is undefined if such an unsequenced side effect occurs in any of the orderings.84)1.

Read C-faq- 3.8 and this answer for more detailed explanation of sequence point and undefined behavior.

1. Emphasis is mine.

• @LightnessRacesinOrbit; What should be proved to explain this? OP was not sure whether it it acceptable or not and I clarified that. – haccks Dec 27 '13 at 16:00
• That what you say is true. At the moment it is just an assertion with no proof. Typically we quote the standard for such things. – Lightness Races in Orbit Dec 27 '13 at 16:06
• @mafso; NO. It is undefined behavior. Wait. I am going to quote standard. – haccks Dec 27 '13 at 16:10
• @JackM: The compiler, the date and time, the ambient room temperature, the bits that happen to lie in data segment 0xFC0143FC at program start, the name of your pet dog.. – Lightness Races in Orbit Dec 27 '13 at 18:36
• One problem with this answer is that the standard quote uses the new concept of sequencing, while the question and the answer talks about the old concept of sequence points. Sequencing supersedes sequence points. And sequencing is quite different from sequence points. Actually, some formerly undefined expressions became perfectly defined after the switch to the new concept, especially the ones that use assignment operator in C++. It is true that this expression is undefined under either, but still the mix might be confusing. – AnT Dec 27 '13 at 18:51

My Question is - Is this an acceptable solution to swap two integers?

Acceptable to who? If you're asking if it is acceptable to me, that would not get past any code review I was in, believe me.

why is a=(a+b)-(b=a) a bad choice for swapping two integers?

For the following reasons:

1) As you note, there is no guarantee in C that it actually does that. It could do anything.

2) Suppose for the sake of argument that it really does swap two integers, as it does in C#. (C# guarantees that side effects happen left-to-right.) The code would still be unacceptable because it is completely not obvious what its meaning is! Code shouldn't be a bunch of clever tricks. Write code for the person coming after you who has to read and understand it.

3) Again, suppose that it works. The code is still unacceptable because this is just plain false:

I stumbled into this code for swapping two integers without using a Temporary variable or the use of bit-wise operators.

That's simply false. This trick uses a temporary variable to store the computation of `a+b`. The variable is generated by the compiler on your behalf and not given a name, but it's there. If the goal is to eliminate temporaries, this makes it worse, not better! And why would you want to eliminate temporaries in the first place? They're cheap!

4) This only works for integers. Lots of things need to be swapped other than integers.

In short, spend your time concentrating on writing code that is obviously correct, rather than trying to come up with clever tricks that actually make things worse.

There are at least two problems with `a=(a+b)-(b=a)`.

One you mention yourself: the lack of sequence points means that the behavior is undefined. As such, anything at all could happen. For example, there is no guarantee of which is evaluated first: `a+b` or `b=a`. The compiler may choose to generate code for the assignment first, or do something completely different.

Another problem is the fact that the overflow of signed arithmetic is undefined behavior. If `a+b` overflows there is no guarantee of the results; even an exception might be thrown.

• The lack of sequence points means this is UB. There is no reason to expect just one of two possible outcomes. The result might, e.g., depend on the value previously in some scratch register. – Christopher Creutzig Dec 27 '13 at 18:00
• @mafso: False. And wrong quote. The quote you provided applies to integral arithmetic conversions only, not to signed arithmetic in general. That's how it has always been with conversions. Meanwhile, overflow during signed integer arithmetic triggers undefined behavior. C11 did not make any changes in that regard. The answer above is absolutely correct. 6.5/5 "If an exceptional condition occurs during the evaluation of an expression (that is, if the result is not mathematically defined or not in the range of representable values for its type), the behavior is undefined." – AnT Dec 27 '13 at 19:01
• @Joni: Overflow during signed integer arithmetic causes undefined behavior in both C and C++. Both languages agree on that. The comment made by mafso is incorrect. The quote in that comment is taken from an irrelevant part of the language spec. – AnT Dec 27 '13 at 19:06
• You were right… it's UB, not implementation-defined at least in C. Sorry. – mafso Dec 27 '13 at 19:11
• Thank you for that @AndreyT, I suspected that would be the case after seeing An example of undefined behavior is the behavior on integer overflow in C11 3.4.3 but couldn't find the correct place to quote – Joni Dec 27 '13 at 19:14

Apart from the other answers, about undefined behavior and style, if you write simple code that just uses a temporary variable the compiler can likely trace the values and not actually swap them in the generated code, and just use the swapped values later on in some cases. It cant do that with your code. The compiler is usually better than you at micro optimizations.

So it's likely your code is slower, harder to understand, and probably unreliable undefined behavior too.

• This is the answer I think. Modern compilers are very smart, and some architectures have speciallized routes in its pipeline to do swaps, because a swap its a very common operation. So the answer is: Just use `std::swap()` and let the compiler decide whats more efficient. – Manu343726 Dec 27 '13 at 12:36
• I should have added that, @Manu343726 good point. If you use std::swap then if using that trick is faster the compiler writer will hopefully have specialized std::swap to do that trick anyway. – jcoder Dec 27 '13 at 13:05

If you use gcc and `-Wall` the compiler already warns you

a.c:3:26: warning: operation on ‘b’ may be undefined [-Wsequence-point]

Whether to use such a construct is debatable from an performance point as well. When you look at

``````void swap1(int *a, int *b)
{
*a = (*a + *b) - (*b = *a);
}

void swap2(int *a, int *b)
{
int t = *a;
*a = *b;
*b = t;
}
``````

and examine the assembly code

``````swap1:
.LFB0:
.cfi_startproc
movl    (%rdi), %edx
movl    (%rsi), %eax
movl    %edx, (%rsi)
movl    %eax, (%rdi)
ret
.cfi_endproc

swap2:
.LFB1:
.cfi_startproc
movl    (%rdi), %eax
movl    (%rsi), %edx
movl    %edx, (%rdi)
movl    %eax, (%rsi)
ret
.cfi_endproc
``````

you can see no benefit for obfuscating the code.

Looking at C++ (g++) code, which does basically the same, but takes `move` into account

``````#include <algorithm>

void swap3(int *a, int *b)
{
std::swap(*a, *b);
}
``````

gives identical assembly output

``````_Z5swap3PiS_:
.LFB417:
.cfi_startproc
movl    (%rdi), %eax
movl    (%rsi), %edx
movl    %edx, (%rdi)
movl    %eax, (%rsi)
ret
.cfi_endproc
``````

Taking gcc's warning into account and seeing no technical gain, I would say, stick with standard techniques. If this ever becomes a bottleneck, you can still investigate, how to improve or avoid this small piece of code.

• Obfuscation is its own reward. – Edward Strange Dec 28 '13 at 11:30

The statement:

``````a=(a+b)-(b=a);
``````

invokes undefined behavior. The second shall in the quoted paragraph is violated:

(C99, 6.5p2) "Between the previous and next sequence point an object shall have its stored value modified at most once by the evaluation of an expression. Furthermore, the prior value shall be read only to determine the value to be stored."

A question was posted back in 2010 with the exact same example.

``````a = (a+b) - (b=a);
``````

Steve Jessop warns against it:

Behaviour of that code is undefined, by the way. Both a and b are read and written without an intervening sequence point. For starters, the compiler would be well within its rights to evaluate b=a before evaluating a+b.

Here's an explanation from a question posted in 2012. Note that the sample is not exactly the same because of the lack of parentheses, but the answer is still relevant nonetheless.

In C++, subexpressions in arithmetic expressions do not have temporal ordering.

`a = x + y;`

Is x evaluated first, or y? The compiler can choose either, or it can choose something completely different. The order of evaluation is not the same thing as operator precedence: operator precedence is strictly defined, and order of evaluation is only defined to the granularity that your program has sequence points.

In fact, on some architectures it is possible to emit code that evaluates both x and y at the same time -- for example, VLIW architectures.

Now for C11 standard quotes from N1570:

### Annex J.1/1

It is unspecified behavior when:

— The order in which subexpressions are evaluated and the order in which side effects take place, except as specified for the function-call `()`, `&&`, `||`, `? :`, and comma operators (6.5).

— The order in which the operands of an assignment operator are evaluated (6.5.16).

### Annex J.2/1

It is undefined behavior when:

— A side effect on a scalar object is unsequenced relative to either a different side effect on the same scalar object or a value computation using the value of the same scalar object (6.5).

### 6.5/1

An expression is a sequence of operators and operands that specifies computation of a value, or that designates an object or a function, or that generates side effects, or that performs a combination thereof. The value computations of the operands of an operator are sequenced before the value computation of the result of the operator.

### 6.5/2

If a side effect on a scalar object is unsequenced relative to either a different side effect on the same scalar object or a value computation using the value of the same scalar object, the behavior is undefined. If there are multiple allowable orderings of the subexpressions of an expression, the behavior is undefined if such an unsequenced side effect occurs in any of the orderings.84)

### 6.5/3

The grouping of operators and operands is indicated by the syntax.85) Except as specified later, side effects and value computations of subexpressions are unsequenced.86)

You shouldn't rely on undefined behavior.

Some alternatives: In C++ you can use

``````  std::swap(a, b);
``````

XOR-swap:

``````  a = a^b;
b = a^b;
a = a^b;
``````

The problem is that according to the C++ Standard

Except where noted, evaluations of operands of individual operators and of subexpressions of individual expressions are unsequenced.

So this expression

``````a=(a+b)-(b=a);
``````

has undefined behavioir.

• @Manu343726 I did not mention the sequence point. This quote is from the C++ 14 Draft. – Vlad from Moscow Dec 27 '13 at 12:33

You can use XOR swap algorithm to prevent any overflow issues and still have a one-liner.

But, since you've got a `c++` tag, I'd prefer just a simple `std::swap(a, b)` to make it more easily readable.

• This does not answer the question. The question specifically asks whether the code shown is acceptable, not whether something else is better. – Eric Postpischil Dec 27 '13 at 12:28
• Well, it kinda does answer the 'why is a=(a+b)-(b=a) a bad choice for swapping two integers?' question, considering the tags... – dreamzor Dec 27 '13 at 12:30
• How does it kind of answer the question? I, for one, cannot see it. – juanchopanza Dec 27 '13 at 12:32
• @RobertJacobs from the original question: "My Question is - Is this an acceptable solution to swap two integers?". – juanchopanza Dec 27 '13 at 14:06
• Except that the algorithm presented in the Wikipedia doesn't work in the general case---you can't use it to implement a function, for example, which is called generically (and maybe with both references to the same variable). – James Kanze Dec 27 '13 at 14:21

Besides the problems invoked by the other users, this type of swap has another problem: the domain.

What if `a+b` goes beyond it's limit? Let's say we work with number from `0` to `100`. `80+ 60` would go out of range.