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I want to write a function that returns the nearest upper power of 2 number. For example if my input is 789, the output should be 1024. Is there any way of achieving this without using any loops but just using some bitwise operators?

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See here for possible solutions: http://graphics.stanford.edu/~seander/bithacks.html#RoundUpPowerOf2Float – Stefan Jan 21 '09 at 17:31
By way of clarification, do you need the nearest power of 2 (ie. 65 would give you 64, but 100 would give you 128) or the nearest above (ie. 65 would give you 128, and so would 100)? – Kim Reece Jan 21 '09 at 17:45
They're multiple questions matching this one. For example: stackoverflow.com/questions/364985/… – ydroneaud Mar 11 '13 at 11:49
@Nathan Your link is 8 months later than this question. – Joseph Quinsey Jan 16 '14 at 5:11

13 Answers 13

up vote 72 down vote accepted

Check the Bit twidding hacks. You need to get the base 2 logarithm, then add 1 to that.

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This is not the most efficient solution because many processors have special instruction for counting leading zeros which can be used to compute log2 very efficiently. See en.wikipedia.org/wiki/Find_first_set – Simon Oct 4 '13 at 21:57
@Simon: it's the portable solution. There's no common efficient algorithm for all architectures – Lưu Vĩnh Phúc Dec 6 '13 at 9:27
What if the number itself is a power of two? – Litherum Dec 19 '13 at 19:34
@rishta the ^ operator in C isn't power. And that's the slowest solution – Lưu Vĩnh Phúc Jun 23 '14 at 4:04
The link is dead. – Mehrdad Jun 26 at 11:49
next = pow(2, ceil(log(x)/log(2)));

This works by finding the number you'd have raise 2 by to get x (take the log of the number, and divide by the log of the desired base, see wikipedia for more). Then round that up with ceil to get the nearest whole number power.

This is a more general purpose (i.e. slower!) method than the bitwise methods linked elsewhere, but good to know the maths, eh?

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Don't see much that's a bitwise operator here... – Jonathan Leffler Jan 21 '09 at 17:50
From C99, you can also just use log2 if supported by your tools. GCC and VS don't seem to :( – Matthew Read Jan 22 '12 at 5:49
You're missing a bracket... next=pow(2, ceil(log(x)/log(2))); – Matthieu Cormier Aug 17 '12 at 17:10
Be careful about float accuracy, though. log(pow(2,29))/log(2) = 29.000000000000004, so the result is 230 instead of returning 229. I think this is why log2 functions exist? – endolith Dec 9 '13 at 2:52
The cost of this is probably at least 200 cycles and it's not even correct. Why does this have so many upvotes? – Axel Gneiting Aug 18 '15 at 20:17
unsigned long upper_power_of_two(unsigned long v)
    v |= v >> 1;
    v |= v >> 2;
    v |= v >> 4;
    v |= v >> 8;
    v |= v >> 16;
    return v;

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Would be nice if you have attributed it (unless you discovered it). It comes from the bit twiddling hacks page. – florin Jan 21 '09 at 17:47
Is that for a 32-bit number? Extension for 64-bit? – Jonathan Leffler Jan 21 '09 at 17:52
Jonathan, you need to do it for the upper half, and if that is zero, you do it for the lower half. – florin Jan 21 '09 at 18:03
@florin, if v is a 64-bit type, couldn't you just add a "c |= v >> 32" after the one for 16? – Evan Teran Jan 21 '09 at 18:18

I think this works, too:

int power = 1;
while(power < x)

And the answer is power.

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Fair enough the question asked for no loops. But as clever as some of the other functions are, for code that is not performance sensitive the answer that is quickly and easily understood and verified to be correct always wins for me. – Tim MB Jan 17 '13 at 12:44
This is not returning the nearest power of 2, butthe power of that is immediatly bigger than X. Still very good – DarioOO Jun 9 '13 at 16:34

If you're using GCC, you might want to have a look at Optimizing the next_pow2() function by Lockless Inc.. This page describes a way to use built-in function builtin_clz() (count leading zero) and later use directly x86 (ia32) assembler instruction bsr (bit scan reverse), just like it's described in another answer's link to gamedev site. This code might be faster than those described in previous answer.

By the way, if you're not going to use assembler instruction and 64bit data type, you can use this

 * return the smallest power of two value
 * greater than x
 * Input range:  [2..2147483648]
 * Output range: [2..2147483648]
__attribute__ ((const))
static inline uint32_t p2(uint32_t x)
#if 0
    assert(x > 1);
    assert(x <= ((UINT32_MAX/2) + 1));

    return 1 << (32 - __builtin_clz (x - 1));
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Note that this returns the smallest power of 2 greater than OR equal to x. Changing (x -1) to x changes the function to return the smaller power of 2 greater than x. – Guillaume Jul 28 '13 at 18:50
You can use _BitScanForward on Visual C++ – KindDragon Dec 5 '13 at 10:25
You can also use __builtin_ctz() – MarkP Mar 31 at 18:21
@MarkP __builtin_ctz() won't be useful to round any non power of 2 number up to the next power of two – ydroneaud Apr 1 at 12:42

One more, although I use cycle, but thi is much faster than math operands

power of two "floor" option:

int power = 1;
while (x >>= 1) power <<= 1;

power of two "ceil" option:

int power = 2;
while (x >>= 1) power <<= 1;
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Best answer. I am using this one. – CDR Feb 4 '15 at 17:19
the result is not correct if x is power of 2. A micro to test if input is power of 2 is needed. #define ISPOW2(x) ((x) > 0 && !((x) & (x-1))) – zorksylar Oct 28 '15 at 13:05
@zorksylar more efficiently would be to if (x == 0) return 1; /* Or 0 (Which is what I use) */ x--; /* Rest of program */ – YoYoYonnY Mar 3 at 16:45

For any unsigned type, building on the Bit Twiddling Hacks:

#include <climits>
#include <type_traits>

template <typename UnsignedType>
UnsignedType round_up_to_power_of_2(UnsignedType v) {
  static_assert(std::is_unsigned<UnsignedType>::value, "Only works for unsigned types");
  for (int i = 1; i < sizeof(v) * CHAR_BIT; i *= 2) {
    v |= v >> i;
  return ++v;

There isn't really a loop there as the compiler knows at compile time the number of iterations.

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For IEEE floats you'd be able to do something like this.

int next_power_of_two(float a_F){
	int f = *(int*)&a_F;
	int b = f << 9 != 0; // If we're a power of two this is 0, otherwise this is 1

	f >>= 23; // remove factional part of floating point number
	f -= 127; // subtract 127 (the bias) from the exponent

	// adds one to the exponent if were not a power of two, 
	// then raises our new exponent to the power of two again.
	return (1 << (f + b)); 

If you need an integer solution and you're able to use inline assembly, BSR will give you the log2 of an integer on the x86. It counts how many right bits are set, which is exactly equal to the log2 of that number. Other processors have similar instructions (often), such as CLZ and depending on your compiler there might be an intrinsic available to do the work for you.

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This is an interesting one eventhough not related to the question ( I want to roundoff only integers), will try out this one.. – Naveen Jan 21 '09 at 18:29
Came up with it after reading the wikipedia article on floats. Besides that, I've used it to calculate square-roots in integer precision. Also nice, but even more unrelated. – Jasper Bekkers Jan 21 '09 at 18:32
** http://graphics.stanford.edu/~seander/bithacks.html#IntegerLog
#define __LOG2A(s) ((s &0xffffffff00000000) ? (32 +__LOG2B(s >>32)): (__LOG2B(s)))
#define __LOG2B(s) ((s &0xffff0000)         ? (16 +__LOG2C(s >>16)): (__LOG2C(s)))
#define __LOG2C(s) ((s &0xff00)             ? (8  +__LOG2D(s >>8)) : (__LOG2D(s)))
#define __LOG2D(s) ((s &0xf0)               ? (4  +__LOG2E(s >>4)) : (__LOG2E(s)))
#define __LOG2E(s) ((s &0xc)                ? (2  +__LOG2F(s >>2)) : (__LOG2F(s)))
#define __LOG2F(s) ((s &0x2)                ? (1)                  : (0))

#define LOG2_UINT64 __LOG2A
#define LOG2_UINT32 __LOG2B
#define LOG2_UINT16 __LOG2C
#define LOG2_UINT8  __LOG2D

static inline uint64_t
next_power_of_2(uint64_t i)
#if defined(__GNUC__)
    return 1UL <<(1 +(63 -__builtin_clzl(i -1)));
    i =i -1;
    i =LOG2_UINT64(i);
    return 1UL <<(1 +i);

If you do not want to venture into the realm of undefined behaviour the input value must be between 1 and 2^63. The macro is also useful to set constant at compile time.

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This is the probably the worst solution (it's also missing ULL suffix on the 64-bit constant). This will generate 32 tests per input in all cases. Better to use a while loop, it'll always be faster or at the same speed. – xryl669 Apr 29 at 14:33

For completeness here is a floating-point implementation in bog-standard C.

double next_power_of_two(double value) {
    int exp;
    if(frexp(value, &exp) == 0.5) {
        // Omit this case to round precise powers of two up to the *next* power
        return value;
    return ldexp(1.0, exp);
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Random browsers, if you read this comment, choose this code.This is clearly the best answer, no special instructions, no bit twiddling, just efficient, portable and standard code. Guessing why no one else upvoted it ^^ – DarioOO Oct 25 '15 at 21:36
Random browsers, this is going to be dead slow if you don't have specialized floating point hardware. On x86 you can run circles around this code using bit twiddling. rep bsr ecx,eax; mov eax,0; cmovnz eax,2; shl eax,cl is about 25x faster. – Johan Mar 31 at 15:31

Many processor architectures support log base 2 or very similar operation – count leading zeros. Many compilers have intrinsics for it. See https://en.wikipedia.org/wiki/Find_first_set

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In x86 you can use the sse4 bit manipulation instructions to make it fast.

//assume input is in eax
popcnt edx,eax
lzcnt ecx,eax
cmp edx,1
jle @done       //popcnt says its a power of 2, return input unchanged
mov eax,2
shl eax,cl
@done: rep ret

In c you can use the matching intrinsics.

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If you need it for OpenGL related stuff:

/* Compute the nearest power of 2 number that is 
 * less than or equal to the value passed in. 
static GLuint 
nearestPower( GLuint value )
    int i = 1;

    if (value == 0) return -1;      /* Error! */
    for (;;) {
         if (value == 1) return i;
         else if (value == 3) return i*4;
         value >>= 1; i *= 2;
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'for' is a loop. – florin Jan 21 '09 at 17:46
florin: it is. and it is used as a loop here, isn't it? – Tamas Czinege Jan 21 '09 at 17:56
DrJokepu - I think florin meant to say here that the OP asked for a loop-less solution – Eli Bendersky Nov 8 '09 at 5:56

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