Given a real (n), a maximum value this real can be (upper), and a minimum value this real can be (lower), how can we most efficiently clip n, such that it remains between lower and upper?

Of course, using a bunch of if statements can do this, but that's boring! What about more compact and elegant/fun solutions?

My own quick attempt (C/C++):

float clip( float n, float lower, float upper )
    n = ( n > lower ) * n + !( n > lower ) * lower;
    return ( n < upper ) * n + !( n < upper ) * upper;

I'm sure there are other, better ways to do this, that's why I'm putting this out there..!

  • 2
    "cap" usually refers only to an upper limit. The word you want is "clip". Feb 17 '12 at 6:34
  • 7
    I doubt about efficiency, but your solution really is not readable. Why don't you just define a some kind of "clamp" function and use that.
    – dbrank0
    Feb 17 '12 at 6:42
  • 2
    Also read this related question: stackoverflow.com/questions/427477/…
    – dbrank0
    Feb 17 '12 at 6:56
  • Hmm did a search and missed that :/ Must have been because I was originally using the term cap, not clip/clamp. Thanks
    – Alex Z
    Feb 17 '12 at 7:00

10 Answers 10


What about boring, old, readable, and shortest yet:

float clip(float n, float lower, float upper) {
  return std::max(lower, std::min(n, upper));


This expression could also be 'genericized' like so:

template <typename T>
T clip(const T& n, const T& lower, const T& upper) {
  return std::max(lower, std::min(n, upper));


Billy ONeal added:

Note that on windows you might have to define NOMINMAX because they define min and max macros which conflict

  • 2
    +1 -- good enough that I deleted my answer. Note that on windows you might have to define NOMINMAX because they define min and max macros which conflict :( Feb 17 '12 at 7:35
  • 4
    This belongs in the standard. C++1z, anyone?
    – jbruni
    Feb 4 '14 at 23:18
  • 1
  • @underscore_d Thanks for the update. I hope it gets approved.
    – jbruni
    Jun 20 '16 at 23:46
  • Would the following be a correct implementation? pastebin.com/m3yVJCsx I saw this in a library I am using and the comparison seems wrong at least for using floats in this 'genericized' version?
    – stephanmg
    Oct 17 '19 at 14:49

Why rewrite something that's already been written for you?

#include <boost/algorithm/clamp.hpp>
boost::algorithm::clamp(n, lower, upper);

As of C++17, this is now part of the STL:

#include <algorithm>
std::clamp(n, lower, upper);
  • 27
    standard answer: because not everyone is willing/allowed/physically able to pull in Boost. However, this implementation was suggested for migration to the stdlib, dunno the current status though. May 29 '16 at 14:40
  • 12
    Looks like it will be standard in C++17: en.cppreference.com/w/cpp/algorithm/clamp Jun 16 '16 at 20:43
  • clamp part of Swift standard library too May 18 '17 at 13:28
  • 1
    @underscore_d don't worry it's part of C++17. until then you can continue constantly reinventing the wheel and avoid using good peer-reviewed portable code. May 4 '18 at 16:02
  • 7
    @TrevorBoydSmith I don't have anything against Boost, and your rather contrived evangelism for it is not needed. That said, it looks like I wasn't wrong in assessing the usual reasons that people don't just do what you want them to do and use Boost, and it's surprisingly not because they just want to annoy you by "avoid[ing] using good peer-reviewed portable code". I also don't see why you edited this existing answer to be completely different when (A) you could've posted your own but also (B) other people already had, but OK. May 5 '18 at 17:18

C++17 is expected to add a clamp function. Courtesy of cppreference.com:

template<class T>
constexpr const T& clamp( const T& v, const T& lo, const T& hi );

template<class T, class Compare>
constexpr const T& clamp( const T& v, const T& lo, const T& hi, Compare comp );

UPDATE: C++17's <algorithm> header added std::clamp(value, low, high).

In older C++ versions, I'd very rarely go beyond...

return n <= lower ? lower : n >= upper ? upper : n;

...or, if you find it more readable keeping the left-to-right ordering of lower, n and upper...

return n <= lower ? lower : n <= upper ? n : upper;
return lower >= n ? lower : n <= upper ? n : upper;

(using <=, >= is faster than <, > because when the terms are equal it avoids further comparisons)

If you know you might have them, you'd want to check if NaN / Inf etc. are preserved....

I say rarely and not never just because sometimes less branching can be faster, but if you or other people you work with are likely to find the code for that cryptic, it's best avoided unless it's in performance-critical code and profiling shows it matters.


Inelegant, unsafe, costly but branchless:

n= 0.5 * (n + lower + fabs(n - lower));
n= 0.5 * (n + upper - fabs(upper - n));
  • 4
    This is my favourite for sheer obtuseness; but fabs() may contain branches depending on your library. To be REALLY branchless you could substitute fabs(x) with (x * (1 + (x < 0) * -2)
    – rvalue
    Jun 12 '14 at 3:48
  • 7
    That assumes that the evaluation of x < 0 is really done branchless. What about extracting the sign bit (msb) from the floating-point representation, cleanly documenting the non-portability? :-) Jun 12 '14 at 8:25

the best is clearly

template <typename t>
t clamp2(t x, t min, t max)
if (x < min) x = min;
if (x > max) x = max;
return x;

as it compiles to

movss   xmm0, cs:__real@c2c80000
maxss   xmm0, [rsp+38h+var_18]
movss   xmm1, cs:__real@42c80000
minss   xmm1, xmm0
movss   [rsp+38h+var_18], xmm1

it has 0 branches and should be the fastest of all posted above.

also msvc141 with the standard release settings


You might like the ternary operator:

value = value<lower?lower:value;
value = value>upper?upper:value;
n = n + ((n < lower) * (lower - n)) + ((n > upper) * (upper - n));

If you wish to use xtensor, it would support multi-dimensional arrays and the solution would be very elegant.

#include <iostream>
#include "xtensor/xarray.hpp"
#include "xtensor/xio.hpp"
#include "xtensor/xview.hpp"
#include "xtensor/xrandom.hpp"
xt::xarray<float> ar({2.1, 2.9, -2.1, -2.9});

//Answer is { 2, 2, -2, -2 }


The following header file should work for C and C++. Note that it undefines min and max if the macros are already defined:

#pragma once

#ifdef min
#undef min

#ifdef max
#undef max

#ifdef __cplusplus
#include <algorithm>

template <typename T>
T clip(T in, T low, T high)
    return std::min(std::max(in, low), high);
#else /* !__cplusplus */
#define min(a, b) (((a) < (b)) ? (a) : (b))
#define max(a, b) (((a) < (b)) ? (b) : (a))
#define clip(a, b, c) min(max((a), (b)), (c))
#endif /* __cplusplus */
  • 2
    why the f*** MS defined its own MIN MAX, and why the heck something like clamping a value is not in the C++ standard library? Apr 21 '15 at 22:28
  • 2
    @DarioOO Replying a bit late, but std::clamp() is available since C++17
    – Calchas
    Aug 30 '16 at 15:49
  • 1
    it was about the time! XD Aug 30 '16 at 15:51
  • use #define NOMINMAX instead of #undefing them
    – phuclv
    Aug 8 '18 at 3:40

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