# How can I test whether a number is a power of 2?

I need a function like this:

``````// return true if 'n' is a power of 2, e.g.
// is_power_of_2(16) => true
// is_power_of_2(3) => false
bool is_power_of_2(int n);
``````

Can anyone suggest how I could write this?

• @rootTraveller - Probably not a duplicate. C++ and Java are different languages and each offers different facilities. For example, In C/C++ we can now use intrinsics with BMI enabled processors, which issues the machine instruction to do it in once clock. I imagine Java has other things, like maybe something from a Math routine.
– jww
Sep 20, 2016 at 21:52

`(n & (n - 1)) == 0` is best. However, note that it will incorrectly return true for n=0, so if that is possible, you will want to check for it explicitly.

http://www.graphics.stanford.edu/~seander/bithacks.html has a large collection of clever bit-twiddling algorithms, including this one.

• so basically `(n>0 && ((n & (n-1)) == 0))` Jul 10, 2016 at 8:06
• @SaurabhGoyal or `n && !(n & (n - 1))` as the link within the answer states. Nov 24, 2017 at 10:38
• Why, oh why, isn't this at the top of the answers? OP please accept. Mar 6, 2018 at 16:06
• @cassio `!` is a logical operator and hence value of `!(n & (n - 1))` would be a boolean, Are you sure a boolean and a number can be given to a bitwise AND operator? If yes, it looks good. Jun 19, 2019 at 4:03
• @CassioNeri Your hack doesn't work. For example if n=2, and with `true` converted to 1 you get `10 & 1` which is equal to 0. You have to cast `n` to `bool` as well if you want it to work, ie `bool(n) & !(n & (n - 1))`. Jan 6, 2020 at 14:33

A power of two will have just one bit set (for unsigned numbers). Something like

``````bool powerOfTwo = !(x == 0) && !(x & (x - 1));
``````

Will work fine; one less than a power of two is all 1s in the less significant bits, so must AND to 0 bitwise.

As I was assuming unsigned numbers, the == 0 test (that I originally forgot, sorry) is adequate. You may want a > 0 test if you're using signed integers.

• You're missing a '!' or an '==0'
– Mike F
Sep 20, 2008 at 14:43
• You're also missing a test for negative value of x. Sep 20, 2008 at 14:44
• Neat, how did you edit it without the 'edited x minutes ago' appearing?
– Mike F
Sep 20, 2008 at 14:45
• Seriously, how did you just get 120 rep for a demonstrably wrong answer?
– Mike F
Sep 20, 2008 at 14:50
• @Mike F: Indeed, it does seem people will vote on answers without checking them. Anyone can make a mistake, I guess - if I make any in the future, feel free to edit them out. Sep 20, 2008 at 15:02

Powers of two in binary look like this:

``````1: 0001
2: 0010
4: 0100
8: 1000
``````

Note that there is always exactly 1 bit set. The only exception is with a signed integer. e.g. An 8-bit signed integer with a value of -128 looks like:

``````10000000
``````

So after checking that the number is greater than zero, we can use a clever little bit hack to test that one and only one bit is set.

``````bool is_power_of_2(int x) {
return x > 0 && !(x & (x−1));
}
``````

For more bit twiddling see here.

In C++20 there is `std::has_single_bit` which you can use for exactly this purpose if you don't need to implement it yourself:

``````#include <bit>
static_assert(std::has_single_bit(16));
static_assert(!std::has_single_bit(15));
``````

Note that this requires the argument to be an unsigned integer type.

• Note that it has been renamed to `std::has_single_bit` and it is defined for unsigned integer types only. For signed integer types you might also want to check whether the value is positive to avoid incorrectly treating minimum signed integer values like INT_MIN as powers of two: `(x > 0) && std::has_single_bit((unsigned)x)`. Jan 30, 2021 at 23:45

Approach #1:

Divide number by 2 reclusively to check it.

Time complexity : O(log2n).

Approach #2:

Bitwise AND the number with its just previous number should be equal to ZERO.

Example: Number = 8 Binary of 8: 1 0 0 0 Binary of 7: 0 1 1 1 and the bitwise AND of both the numbers is 0 0 0 0 = 0.

Time complexity : O(1).

Approach #3:

Bitwise XOR the number with its just previous number should be sum of both numbers.

Example: Number = 8 Binary of 8: 1 0 0 0 Binary of 7: 0 1 1 1 and the bitwise XOR of both the numbers is 1 1 1 1 = 15.

Time complexity : O(1).

http://javaexplorer03.blogspot.in/2016/01/how-to-check-number-is-power-of-two.html

``````bool is_power_of_2(int i) {
if ( i <= 0 ) {
return 0;
}
return ! (i & (i-1));
}
``````

for any power of 2, the following also holds.

## n&(-n)==n

NOTE: The condition is true for n=0 ,though its not a power of 2.
Reason why this works is:
-n is the 2s complement of n. -n will have every bit to the left of rightmost set bit of n flipped compared to n. For powers of 2 there is only one set bit.

• i meant the condition is true for n=0 though its not power of two May 30, 2016 at 4:03
• does this work out with the conversions that happen if n is unsigned? May 13, 2019 at 18:28

This is probably the fastest, if using GCC. It only uses a POPCNT cpu instruction and one comparison. Binary representation of any power of 2 number, has always only one bit set, other bits are always zero. So we count the number of set bits with POPCNT, and if it's equal to 1, the number is power of 2. I don't think there is any possible faster methods. And it's very simple, if you understood it once:

``````if(1==__builtin_popcount(n))
``````
• Nope. I just tested this. I love popcount but for the power-of-2 test, the test `i && !(i & (i - 1)))` is about 10% faster on my machine, even when I was sure to enable the native assembly POPCNT instruction in gcc. Feb 22, 2020 at 20:35
• Oops I take it back. My test program was running in a loop and branch prediction was "cheating". You're right, if you have the POPCNT instruction on your CPU it's faster. Feb 23, 2020 at 0:10
• Note that for non-x86 architectures calculating the population count may be slower than the traditional check. For instance, on AArch64 it usually takes 4 instructions: `fmov`, `cnt`, `addv`, `fmov`, where the first `fmov` instruction copies the value from a general-purpose register to a SIMD register and the last `fmov` instruction copies the calculated population count back to a general-purpose register. Jan 31, 2021 at 0:26
``````return n > 0 && 0 == (1 << 30) % n;
``````

Following would be faster then most up-voted answer due to boolean short-circuiting and fact that comparison is slow.

``````int isPowerOfTwo(unsigned int x)
{
return x && !(x & (x – 1));
}
``````

If you know that x can not be 0 then

``````int isPowerOfTwo(unsigned int x)
{
return !(x & (x – 1));
}
``````

This isn't the fastest or shortest way, but I think it is very readable. So I would do something like this:

``````bool is_power_of_2(int n)
int bitCounter=0;
while(n) {
if ((n & 1) == 1) {
++bitCounter;
}
n >>= 1;
}
return (bitCounter == 1);
}
``````

This works since binary is based on powers of two. Any number with only one bit set must be a power of two.

• It may not be fast or short, but it's correct unlike the top answers.
– Mike F
Sep 20, 2008 at 15:00
• At time of commenting they were all bugged. They have since been edited into an acceptable state.
– Mike F
Sep 25, 2008 at 4:33

What's the simplest way to test whether a number is a power of 2 in C++?

If you have a modern Intel processor with the Bit Manipulation Instructions, then you can perform the following. It omits the straight C/C++ code because others have already answered it, but you need it if BMI is not available or enabled.

``````bool IsPowerOf2_32(uint32_t x)
{
#if __BMI__ || ((_MSC_VER >= 1900) && defined(__AVX2__))
return !!((x > 0) && _blsr_u32(x));
#endif
// Fallback to C/C++ code
}

bool IsPowerOf2_64(uint64_t x)
{
#if __BMI__ || ((_MSC_VER >= 1900) && defined(__AVX2__))
return !!((x > 0) && _blsr_u64(x));
#endif
// Fallback to C/C++ code
}
``````

GCC, ICC, and Clang signal BMI support with `__BMI__`. It's available in Microsoft compilers in Visual Studio 2015 and above when AVX2 is available and enabled. For the headers you need, see Header files for SIMD intrinsics.

I usually guard the `_blsr_u64` with an `_LP64_` in case compiling on i686. Clang needs a little workaround because it uses a slightly different intrinsic symbol nam:

``````#if defined(__GNUC__) && defined(__BMI__)
# if defined(__clang__)
#  ifndef _tzcnt_u32
#   define _tzcnt_u32(x) __tzcnt_u32(x)
#  endif
#  ifndef _blsr_u32
#    define  _blsr_u32(x)  __blsr_u32(x)
#  endif
#  ifdef __x86_64__
#   ifndef _tzcnt_u64
#    define _tzcnt_u64(x) __tzcnt_u64(x)
#   endif
#   ifndef _blsr_u64
#     define  _blsr_u64(x)  __blsr_u64(x)
#   endif
#  endif  // x86_64
# endif  // Clang
#endif  // GNUC and BMI
``````

Can you tell me a good web site where this sort of algorithm can be found?

This website is often cited: Bit Twiddling Hacks.

• This is certainly not the "simplest way" as requested in the OP, but arguably the fastest for specific environments. Showing how to conditionalize for different architectures is tremendously useful. Oct 11, 2019 at 17:10
• The `!!((x > 0) && _blsr_u32(x))` condition is not correct, it should read `(x > 0) && (_blsr_u32(x) == 0)`. Jan 31, 2021 at 2:41

Here is another method, in this case using `|` instead of `&` :

``````bool is_power_of_2(int x) {
return x > 0 && (x<<1 == (x|(x-1)) +1));
}
``````

It is possible through c++

``````int IsPowOf2(int z) {
double x=log2(z);
int y=x;
if (x==(double)y)
return 1;
else
return 0;
}
``````
• That's neither simple, nor fast, to me. Sep 14, 2015 at 12:55
• I.e. it's certainly not fast due to `log2`, and proof that it works is not so easy to explain (precisely, can you get caught by rounding errors?). It's also needlessly convoluted with `if..return..else..return`. What's wrong with collapsing it to `return x==(double)y;` ? It should return `bool` anyayws. IMO even ternary operator would be clearer if one really wants to stick to `int`. Sep 14, 2015 at 13:01

Another way to go (maybe not fastest) is to determine if ln(x) / ln(2) is a whole number.

• There's no maybe about it :-). Sep 20, 2008 at 15:17
• This would have problems with floating point inaccuracy. ln(1<<29) / ln(2) comes out to 29.000000000000004. Sep 20, 2008 at 15:19

This is the bit-shift method in T-SQL (SQL Server):

``````SELECT CASE WHEN @X>0 AND (@X) & (@X-1)=0 THEN 1 ELSE 0 END AS IsPowerOfTwo
``````

It is a lot faster than doing a logarithm four times (first set to get decimal result, 2nd set to get integer set & compare)

• It is good to see how the top answer to this question can also be implemented in T-SQL, but that isn't really relevant to the question asked here. An alternative (if you were looking for a solution in T-SQL, found this answered question , implemented it in T-SQL and thought it interesting enough to post this answer) would be to post the question with reference to T-SQL, then answer it yourself, with reference to this answered question. Hope this suggestion is helpful. Feb 2, 2013 at 2:03
• this doesn't really answer this question Mar 11, 2015 at 5:46