# Which is better option to use for dividing an integer number by 2?

Which of the following techniques is the best option for dividing an integer by 2 and why?

Technique 1:

``````x = x >> 1;
``````

Technique 2:

``````x = x / 2;
``````

Here `x` is an integer.

• If you really want to assign the result to `x` again, neither is appropriate in this way: it should be either `x >>= 1` or `x /= 2`, depending on what you intend to express with the operation. Not because it's faster (any modern compiler will compile all the equivalent variants to identical, fast assembly anyway) but because it's less confusing. May 21 '12 at 13:46
• I disagree with leftaroundabout. - But I think its noteworthy that there is an operation called arithmetic shift in many programming languages that keeps the sign bit in place and therefor works for signed values as expected. The syntax may be like `x = x >>> 1`. Also note that depending on the platform and compiler it may be quite reasonable to manually optimize divisions and multiplications using shifts. - Thinking of micro controllers, for instance, w/o direct ALU support for multiplication. May 21 '12 at 19:59
• I prefer `x /= 2` because `x >>= 1` looks too much like monadic bind ;) May 22 '12 at 4:50
• @leftaroundabout - I just deem it a lot more readable to write `x = x / 2` instead of `x /= 2`. Subjective preference maybe :) May 23 '12 at 14:51
• @HannoBinder: certainly subjective, in particular a lot of habit. IMO, in a language where all arithmetic operators have the `⬜=` combinations, these should be used whenever it's possible. It removes noise and puts emphasis on the fact that `x` is modified, while the general `=` operator rather suggests that it takes on a completely new value independent of the old one. — Always avoiding the combined operators (so that it's readable so someone who only knows mathematical operators) may have its point as well, but then you'd need to relinquish the extremely useful `++`, `--`, `+=`, too. May 23 '12 at 15:20

## 23 Answers

Use the operation that best describes what you are trying to do.

• If you are treating the number as a sequence of bits, use bitshift.
• If you are treating it as a numerical value, use division.

Note that they are not exactly equivalent. They can give different results for negative integers. For example:

``````-5 / 2  = -2
-5 >> 1 = -3
``````

(ideone)

• The original question was also vague about the term 'best'. 'Best' in terms of speed, readability, exam question to trick students, etc... In the absence of a explanation of what 'best' means, this seems to be the most correct answer.
– Ray
May 21 '12 at 8:01
• In C++03, both are implementation defined for negative numbers, and might give the same results. In C++11, division is well defined for negative numbers, but shifting is still implementation defined. May 21 '12 at 8:02
• While the definition of / is implementation (does if round up or down for negative numbers) defined in early C standards. It must always be consistent with % (modulo/remainder operator). May 21 '12 at 11:42
• "Implementation defined" means that the implementer of the compiler got to choose among several implementation choices, usually with substantial constraints. Here, one constraint is that the `%` and `/` operators must be consistent for both positive and negative operands so that `(a/b)*b+(a%b)==a` is true regardless of the signs of `a` and `b`. Usually, the author will make choices that get the best possible performance out of the CPU. May 21 '12 at 20:35
• So everyone who says "the compiler will convert it to a shift anyway" is wrong, right? Unless the compiler can guarantee that you are dealing with a non-negative integer (either it is a constant or it is an unsigned int), it can't change it to a shift
– Kip
May 25 '12 at 19:39

Does the first one look like dividing? No. If you want to divide, use `x / 2`. Compiler can optimise it to use bit-shift if possible (it's called strength reduction), which makes it a useless micro-optimisation if you do it on your own.

• Many compilers will not turn division by power of two into a bitshift. That would be an incorrect optimization for signed integers. You should try to look at assembly output from your compiler and see for yourself. Jun 8 '12 at 9:52
• IIRC I used that to make parallel reduction faster on CUDA (avoid integer div). However this was more than a year ago, I wonder how smart the CUDA compilers are nowadays.
– Nils
Jun 8 '12 at 10:43
• @exDM69: Many compilers will do that even for signed integers, and just adjust them according to the signedness. A nice tool to play with these things is this: tinyurl.com/6uww253 Jun 8 '12 at 11:57
• @exDM69: And that's relevant, how? I said "if possible", not "always". If optimisation is incorrect, then doing it manually doesn't make it correct (plus as mentioned, GCC is smart enough to figure out proper replacement for signed integers). Jun 8 '12 at 15:26
• Looking at the WikiPedia page, this is apparently controversial, but I wouldn't call it a strength reduction. A strength reduction is when, in a loop, you reduce from, for instance, multiplication to addition, by adding to previous values in the loop. This is more of a peephole optimization, which compilers can do pretty reliably. Jun 8 '12 at 16:37

To pile on: there are so many reasons to favor using `x = x / 2;` Here are some:

• it expresses your intent more clearly (assuming you're not dealing with bit twiddling register bits or something)

• the compiler will reduce this to a shift operation anyway

• even if the compiler didn't reduce it and chose a slower operation than the shift, the likelihood that this ends up affecting your program's performance in a measurable way is itself vanishingly small (and if it does affect it measurably, then you have an actual reason to use a shift)

• if the division is going to be part of a larger expression, you're more likely to get the precedence right if you use the division operator:

``````x = x / 2 + 5;
x = x >> 1 + 5;  // not the same as above
``````
• signed arithmetic might complicate things even more than the precedence problem mentioned above

• to reiterate - the compiler will already do this for you anyway. In fact, it'll convert division by a constant to a series of shifts, adds, and multiplies for all sorts of numbers, not just powers of two. See this question for links to even more information about this.

In short, you buy nothing by coding a shift when you really mean to multiply or divide, except maybe an increased possibility of introducing a bug. It's been a lifetime since compilers weren't smart enough to optimize this kind of thing to a shift when appropriate.

• It's also worth adding that while there are rules of precedence, there isn't a damn thing wrong with using parentheses. While revamping some production code, I actually saw something of the form `a/b/c*d` (where `a..d` denoted numeric variables) instead of the far more readable `(a*d)/(b*c)`.
– user554546
May 23 '12 at 20:16
• The performance and optimizations depend on the compiler and target. For example, I do some work for a microcontroller where anything higher than -O0 is disabled unless you buy the commercial compiler, so the compiler will definitely not turn divide into bitshifts. Furthermore, bitshifts take one cycle and divide takes 18 cycles on this target and since the microcontrollers clock speed is pretty low, this may be indeed be a noticeable performance hit (but it depends on your code - you should definitely use / until profiling tells you its a problem!)
– user21037
Jun 8 '12 at 10:21
• @JackManey, if there's any possibility that `a*d` or `b*c` would produce an overflow, the less readable form is not equivalent and has an obvious advantage. P.S. I agree that parentheses are your best friend. Jun 8 '12 at 16:36
• @MarkRansom - A fair point (even though I ran into `a/b/c*d` in R code--in a context where overflow would mean that something was seriously wrong with the data--and not in, say, a performance-critical block of C code).
– user554546
Jun 8 '12 at 18:10
• The code `x=x/2;` is only "clearer" than `x>>=1` if `x` will never be an odd negative number or one doesn't care about off-by-one errors. Otherwise `x=x/2;` and `x>>=1;` have different meanings. If what one needs is the value computed by `x>>=1`, I would regard that as clearer than `x = (x & ~1)/2` or `x = (x < 0) ? (x-1)/2 : x/2`, or any other formulation I can think of using division by two. Likewise if one needs the value computed by `x/=2`, that is clearer than `((x + ((unsigned)x>>31)>>1)`. Nov 1 '13 at 19:10

Which one is the best option and why for dividing the integer number by 2?

Depends on what you mean by best.

If you want your colleagues to hate you, or to make your code hard to read, I'd definitely go with the first option.

If you want to divide a number by 2, go with the second one.

The two are not equivalent, they don't behave the same if the number is negative or inside larger expressions - bitshift has lower precedence than `+` or `-`, division has higher precedence.

You should write your code to express what its intent is. If performance is your concern, don't worry, the optimizer does a good job at these sort of micro-optimizations.

Just use divide (`/`), presuming it is clearer. The compiler will optimize accordingly.

• The compiler should optimize accordingly. May 22 '12 at 15:01
• If the compiler doesn't optimize accordingly, you should use a better compiler. Aug 13 '12 at 0:34
• @DavidStone: On what processors can a compiler optimize division of a possibly-negative signed integer by any constant other than 1 to be as efficient as a shift? Nov 1 '13 at 19:19
• @supercat: That is a good point. You could of course store the value in an unsigned integer (which I feel have a much worse reputation than they should when combined with signed / unsigned mismatch warnings), and most compilers also have a way of telling them to assume something is true when optimizing. I would prefer wrapping that in a compatibility macro and have something like `ASSUME(x >= 0); x /= 2;` over `x >>= 1;`, but that is still an important point to bring up. Nov 2 '13 at 1:17

I agree with other answers that you should favor `x / 2` because its intent is clearer, and the compiler should optimize it for you.

However, another reason for preferring `x / 2` over `x >> 1` is that the behavior of `>>` is implementation-dependent if `x` is a signed `int` and is negative.

From section 6.5.7, bullet 5 of the ISO C99 standard:

The result of `E1 >> E2` is `E1` right-shifted `E2` bit positions. If `E1` has an unsigned type or if `E1` has a signed type and a nonnegative value, the value of the result is the integral part of the quotient of `E1` / 2`E2`. If `E1` has a signed type and a negative value, the resulting value is implementation-defined.

• It's worthwhile to note that the behavior that many implementations define for `x>>scalepower` on negative numbers will be precisely what is needed when dividing a value by a power of two for purposes such as screen rendering, while using `x/scalefactor` will be wrong unless one applies corrections to negative values. Nov 1 '13 at 19:17

`x / 2` is clearer, and `x >> 1` is not much faster (according to a micro-benchmark, about 30% faster for a Java JVM). As others have noted, for negative numbers the rounding is slightly different, so you have to consider this when you want to process negative numbers. Some compilers may automatically convert `x / 2` to `x >> 1` if they know the number can not be negative (even thought I could not verify this).

Even `x / 2` may not use the (slow) division CPU instruction, because some shortcuts are possible, but it is still slower than `x >> 1`.

(This is a C / C++ question, other programming languages have more operators. For Java there is also the unsigned right shift, `x >>> 1`, which is again different. It allows to correctly calculate the mean (average) value of two values, so that `(a + b) >>> 1` will return the mean value even for very large values of `a` and `b`. This is required for example for binary search if the array indices can get very large. There was a bug in many versions of binary search, because they used `(a + b) / 2` to calculate the average. This doesn't work correctly. The correct solution is to use `(a + b) >>> 1` instead.)

• Compilers cannot convert `x/2` to `x>>1` in cases where `x` may be negative. If what one wants is the value which `x>>1` would compute, that will almost certainly be faster than any expression involving `x/2` which computes the same value. Nov 1 '13 at 19:26
• You are right. A compilers may only convert `x/2` to `x>>1` if he knows the value is not negative. I will try to update my answer. Nov 2 '13 at 7:40
• compilers do still avoid a `div` instruction though, by converting `x/2` into `(x + (x<0?1:0)) >> 1` (where >> is an arithmetic right-shift, that shifts in sign bits). This takes 4 instructions: copy the value, shr(to get just the sign bit in a reg), add, sar. goo.gl/4F8Ms4 Oct 4 '15 at 14:48
• The question is tagged as C and C++. Jul 29 '16 at 19:30

Knuth said:

Premature optimization is the root of all evil.

So I suggest to use `x /= 2;`

This way the code is easy to understand and also I think that the optimization of this operation in that form, don't mean a big difference for the processor.

• What would you consider the preferred method of scaling a number down by a power of two if one wants integers to uphold the axiom (which applies to natural numbers and real numbers) that (n+d)/d = (n/d)+1? Violations that axiom when scaling graphics will cause visible "seams" in the result. If one wants something which is uniform and almost symmetric about zero, `(n+8)>>4` works nicely. Can you offer any approach which is as clear or as efficient without using a signed right shift? Nov 20 '13 at 17:29

Take a look at the compiler output to help you decide. I ran this test on x86-64 with
gcc (GCC) 4.2.1 20070719 [FreeBSD]

Also see compiler outputs online at godbolt.

What you see is the compiler does use a `sarl` (arithmetic right-shift) instruction in both cases, so it does recognize the similarity between the two expressions. If you use the divide, the compiler also needs to adjust for negative numbers. To do that it shifts the sign bit down to the lowest order bit, and adds that to the result. This fixes the off-by-one issue when shifting negative numbers, compared to what a divide would do.
Since the divide case does 2 shifts, while the explicit shift case only does one, we can now explain some of the performance differences measured by other answers here.

C code with assembly output:

For divide, your input would be

``````int div2signed(int a) {
return a / 2;
}
``````

and this compiles to

``````    movl    %edi, %eax
shrl    \$31, %eax
addl    %edi, %eax
sarl    %eax
ret
``````

similarly for shift

``````int shr2signed(int a) {
return a >> 1;
}
``````

with output:

``````    sarl    %edi
movl    %edi, %eax
ret
``````
• Depending upon what one is doing, it may fix the off-by-one error, or it may cause an off-by-one error (compared with what's actually needed) which will necessitate the use of further code to fix it. If what one wants is a floored result, a right-shift is a faster and easier than any alternative I know of. Nov 20 '13 at 0:15
• If you need a floor, it is unlikely you would describe what you want as "dividing by 2" Nov 20 '13 at 7:03
• Division of both natural numbers and real numbers upholds the axiom that (n+d)/d = (n/d)+1. Division of real numbers also upholds (-n)/d = -(n/d), an axiom which is meaningless with natural numbers. It is not possible to have a division operator which is closed on integers and upholds both axioms. To my mind, saying that the first axiom should hold for all numbers and the second only for reals seems more natural than saying that the first should hold for whole numbers or reals but not for integers. Further, I'm curious in what cases the second axiom is actually useful. Nov 20 '13 at 16:58
• An integer division method which satisfies the first axiom will partition the number line into regions of size `d`. Such partitioning is useful for many purposes. Even if one would rather have the breakpoint somewhere other than between 0 and -1, adding an offset will move it. An integer division which satisfies the second axiom will partition the number line into regions which are mostly of size `d`, but one of which is of size `2*d-1`. Not exactly "equal" divisions. Can you offer suggestions of when the oddball partition is actually useful? Nov 20 '13 at 17:03
• Your compiler output for shr2signed is wrong. gcc on x86 chooses to implement >> of signed integers with arithmetic shifts (`sar`). goo.gl/KRgIkb. This mailing list post (gcc.gnu.org/ml/gcc/2000-04/msg00152.html) confirms that gcc historically uses arithmetic shifts for signed ints, so it's highly unlikely that FreeBSD gcc 4.2.1 used unsigned shift. I updated your post to fix that and the early paragraph saying both used shr, when it's actually SAR that they both use. The SHR is how it extracts the sign bit for the `/` case. Also included a godbolt link. Oct 4 '15 at 15:14

Just an added note -

x *= 0.5 will often be faster in some VM-based languages -- notably actionscript, as the variable won't have to be checked for divide by 0.

• @minitech: That's such a bad test. All the code in the test is constant. Before the code is even JITed, it'll eliminate all the constants.
– user2352506
Jan 27 '14 at 3:44
• @M28: I was pretty sure jsPerf’s internals (i.e. `eval`) made that happen afresh each time. Regardless, yes, it is a pretty bad test, because it’s a very silly optimization.
– Ry-
Jan 27 '14 at 4:10

Use `x = x / 2;` OR `x /= 2;` Because it is possible that a new programmer works on it in future. So it will be easier for him to find out what is going on in the line of code. Everyone may not be aware of such optimizations.

I am telling for the purpose of programming competitions. Generally they have very large inputs where division by 2 takes place many times and its known that input is positive or negative.

x>>1 will be better than x/2. I checked on ideone.com by running a program where more than 10^10 division by 2 operations took place. x/2 took nearly 5.5s whereas x>>1 took nearly 2.6s for same program.

• For unsigned values, a compiler should optimize `x/2` to `x>>1`. For signed values, nearly all implementations define `x>>1` to have a meaning which is is equivalent to `x/2` but can be computed faster when `x` is positive, and is usefully different from `x/2` when `x` is negative. Nov 20 '13 at 0:22

I would say there are several things to consider.

1. Bitshift should be faster, as no special computation is really needed to shift the bits, however as pointed out, there are potential issues with negative numbers. If you are ensured to have positive numbers, and are looking for speed then I would recommend bitshift.

2. The division operator is very easy for humans to read. So if you are looking for code readability, you could use this. Note that the field of compiler optimization has come a long way, so making code easy to read and understand is good practice.

3. Depending on the underlying hardware, operations may have different speeds. Amdal's law is to make the common case fast. So you may have hardware that can perform different operations faster than others. For example, multiplying by 0.5 may be faster than dividing by 2. (Granted you may need to take the floor of the multiplication if you wish to enforce integer division).

If you are after pure performance, I would recommend creating some tests that could do the operations millions of times. Sample the execution several times (your sample size) to determine which one is statistically best with your OS/Hardware/Compiler/Code.

• "Bitshift should be faster". compilers will optimize divisions into bitshifts May 24 '12 at 4:09
• I hope they would, but unless you have access to the source of the compiler, you can't be sure :) Jul 31 '13 at 14:57
• I would also recommend bitshift if one's implementation handles it in the most common fashion and the way one wants to handle negative numbers matches with what `>>` does and doesn't match what `/` does. Nov 1 '13 at 19:34

As far as the CPU is concerned, bit-shift operations are faster than division operations. However, the compiler knows this and will optimize appropriately to the extent that it can, so you can code in the way that makes the most sense and rest easy knowing that your code is running efficiently. But remember that an `unsigned int` can (in some cases) be optimized better than an `int` for reasons previously pointed out. If you don't need signed arithmatic, then don't include the sign bit.

x = x / 2; is the suitable code to use.. but an operation depend on your own program of how the output you wanted to produce.

Make your intentions clearer...for example, if you want to divide, use x / 2, and let the compiler optimize it to shift operator (or anything else).

Today's processors won't let these optimizations have any impact on the performance of your programs.

The answer to this will depend on the environment you're working under.

• If you're working on an 8-bit microcontroller or anything without hardware support for multiplication, bit shifting is expected and commonplace, and while the compiler will almost certainly turn `x /= 2` into `x >>= 1`, the presence of a division symbol will raise more eyebrows in that environment than using a shift to effect a division.
• If you're working in a performance-critical environment or section of code, or your code could be compiled with compiler optimization off, `x >>= 1` with a comment explaining its reasoning is probably best just for clarity of purpose.
• If you're not under one of the above conditions, make your code more readable by simply using `x /= 2`. Better to save the next programmer who happens to look at your code the 10 second double-take on your shift operation than to needlessly prove you knew the shift was more efficient sans compiler optimization.

All these assume unsigned integers. The simple shift is probably not what you want for signed. Also, DanielH brings up a good point about using `x *= 0.5` for certain languages like ActionScript.

mod 2, test for = 1. dunno the syntax in c. but this may be fastest.

generaly the right shift divides :

``````q = i >> n; is the same as: q = i / 2**n;
``````

this is sometimes used to speed up programs at the cost of clarity. I don't think you should do it . The compiler is smart enough to perform the speedup automatically. This means that putting in a shift gains you nothing at the expense of clarity.

Take a look at this page from Practical C++ Programming.

• If one wants to compute the value that e.g. `(x+128)>>8` would compute for values of `x` not near the maximum, how could one concisely do it without a shift? Note that `(x+128)/256` won't work. Do you know of any nice expression that will? Nov 1 '13 at 19:28

Obviously, if you are writing your code for the next guy who reads it, go for the clarity of "x/2".

However, if speed is your goal, try it both ways and time the results. A few months ago I worked on a bitmap convolution routine which involved stepping through an array of integers and dividing each element by 2. I did all kinds of things to optimize it including the old trick of substituting "x>>1" for "x/2".

When I actually timed both ways I discovered to my surprise that x/2 was faster than x>>1

This was using Microsoft VS2008 C++ with the default optimizations turned on.

In terms of performance. CPU's shift operations are significantly faster than divide op-codes. So dividing by two or multiplying by 2 etc all benefit from shift operations.

As to the look and feel. As engineers when did we become so attached to cosmetics that even beautiful ladies don't use! :)

X/Y is a correct one...and " >> " shifting operator..if we want two divide a integer we can use (/) dividend operator. shift operator is used to shift the bits..

x=x/2; x/=2; we can use like this..

While x>>1 is faster than x/2, the proper use of >> when dealing with negative values is a little more complicated. It requires something similar to the following:

``````// Extension Method
public static class Global {
public static int ShiftDivBy2(this int x) {
return (x < 0 ? x + 1 : x) >> 1;
}
}
``````