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Where are MIN and MAX defined in C, if at all?

What is the best way to implement these, as generically and type safely as possible? (Compiler extensions/builtins for mainstream compilers preferred.)

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12 Answers 12

up vote 171 down vote accepted

Where are MIN and MAX defined in C, if at all?

They aren't.

What is the best way to implement these, as generically and type safe as possible (compiler extensions/builtins for mainstream compilers preferred).

As functions. I wouldn't use macros like #define MIN(X, Y) (((X) < (Y)) ? (X) : (Y)), especially if you plan to deploy your code. Either write your own, use something like standard fmax or fmin, or fix the macro using GCC's typeof (you get typesafety bonus too):

 #define max(a,b) \
   ({ __typeof__ (a) _a = (a); \
       __typeof__ (b) _b = (b); \
     _a > _b ? _a : _b; })

Everyone says "oh I know about double evaluation, it's no problem" and a few months down the road, you'll be debugging the silliest problems for hours on end.

Note the use of __typeof__ instead of typeof:

If you are writing a header file that must work when included in ISO C programs, write __typeof__ instead of typeof.

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If you know MAX is a macro, and you still provide an expression with side-effects, then you've shot yourself in the foot. I seriously cannot think of a situation where one needs to provide an expression with side-effects to a macro or function that determines a maximum value. – dreamlax Aug 9 '10 at 5:19
You have a point :) But I'd rather be safe than sorry. – David Titarenco Aug 9 '10 at 5:24
You know, it'd be quite handy if gcc had a warning along the lines of: warning: expression with side-effects multiply evaluated by macro at the point of use... – caf Aug 9 '10 at 5:28
@caf: wouldn't that require that the preprocessor have a more complicated knowledge of C syntax? – dreamlax Aug 9 '10 at 5:34
After much trying to figure out, I don't think there's anyway to do this in VC++, but your best best is to try to mess with MSVC++ 2010 new decltype keyword -- but even so, Visual Studio can't do compound statements in macros (and decltype is C++ anyway), i.e. GCC's ({ ... }) syntax so I'm pretty sure it's not possible, anyway. I haven't looked at any other compilers regarding this issue, sorry Luther :S – David Titarenco Aug 10 '10 at 6:08

It's also provided in the GNU libc (Linux) and FreeBSD versions of sys/param.h, and has the definition provided by dreamlax.

On Debian:

$ uname -sr
Linux 2.6.11

$ cat /etc/debian_version

$ egrep 'MIN\(|MAX\(' /usr/include/sys/param.h
#define MIN(a,b) (((a)<(b))?(a):(b))
#define MAX(a,b) (((a)>(b))?(a):(b))

$ head -n 2 /usr/include/sys/param.h | grep GNU
This file is part of the GNU C Library.

On FreeBSD:

$ uname -sr

$ egrep 'MIN\(|MAX\(' /usr/include/sys/param.h
#define MIN(a,b) (((a)<(b))?(a):(b))
#define MAX(a,b) (((a)>(b))?(a):(b))

The source repositories are here:

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Where? Can you give a link? – Matt Joiner Aug 9 '10 at 8:49
I've added the definitions from the systems I have access to in my answer above (the comment field doesn't accept formatting as far as I can tell). Will try to find the links to the FreeBSD/Linux/glibc source repos. – Mikel Aug 15 '10 at 2:30
+1. Very nice. Works for openSUSE/Linux 3.1.0-1.2-desktop/gcc version 4.6.2 (SUSE Linux) too. :) Bad it's not portable. – Jack Jul 26 '12 at 18:08

There's a std::min and std::max in C++, but AFAIK, there's no equivalent in the C standard library. You can define them yourself with macros like

#define MAX(x, y) (((x) > (y)) ? (x) : (y))
#define MIN(x, y) (((x) < (y)) ? (x) : (y))

But this causes problems if you write something like MAX(++a, ++b).

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why putting too much brackets??? I found a quiz where they said #define MIN(A, B) ((A < B) ? A : B) is not a flexible way, why??? – user2948075 Nov 4 '14 at 15:05
@Makouda: Extra parentheses in macros help to avoid operator precedence problems. For example, consider #define MULT(x, y) x * y. Then MULT(a + b, a + b) expands to a + b * a + b, which parses as a + (b * a) + b due to precedence. That's not what the programmer probably intended. – dan04 Nov 5 '14 at 1:09
thanks a lot, it's a very good example – user2948075 Nov 5 '14 at 4:40

I don't think that they are standardised macros. There are standardised functions for floating point already, fmax and fmin (and fmaxf for floats, and fmaxl for long doubles).

You can implement them as macros as long as you are aware of the issues of side-effects/double-evaluation.

#define MAX(a,b) ((a) > (b) ? a : b)
#define MIN(a,b) ((a) < (b) ? a : b)

In most cases, you can leave it to the compiler to determine what you're trying to do and optimise it as best it can. While this causes problems when used like MAX(i++, j++), I doubt there is ever much need in checking the maximum of incremented values in one go. Increment first, then check.

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I wrote this version that works for MSVC, GCC, C, and C++.

#if defined(__cplusplus) && !defined(__GNUC__)
#   include <algorithm>
#   define MIN std::min
#   define MAX std::max
//#   define TMIN(T, a, b) std::min<T>(a, b)
//#   define TMAX(T, a, b) std::max<T>(a, b)
#       define _CHOOSE2(binoper, lexpr, lvar, rexpr, rvar) \
                ({ \
                        decltype(lexpr) lvar = (lexpr); \
                        decltype(rexpr) rvar = (rexpr); \
                        lvar binoper rvar ? lvar : rvar; \
#       define _CHOOSE_VAR2(prefix, unique) prefix##unique
#       define _CHOOSE_VAR(prefix, unique) _CHOOSE_VAR2(prefix, unique)
#       define _CHOOSE(binoper, lexpr, rexpr) \
                _CHOOSE2( \
                        binoper, \
                        lexpr, _CHOOSE_VAR(_left, __COUNTER__), \
                        rexpr, _CHOOSE_VAR(_right, __COUNTER__) \
#       define MIN(a, b) _CHOOSE(<, a, b)
#       define MAX(a, b) _CHOOSE(>, a, b)
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If you need min/max in order to avoid an expensive branch, you shouldn't use the ternary operator, as it will compile down to a jump. The link below describes a useful method for implementing a min/max function without branching.

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If the compiler is smart enough it can avoid the branch – Axel Gneiting Nov 1 '11 at 22:38
Great link! I love that stuff. – Harvey Jan 7 at 11:56
If optimization is turned on, all modern compilers will emit a conditional move instead of a branch in most cases, so there is little point in using hacks like this. – Krzysztof Kosiński Mar 10 at 15:15
Absolutely true, I have no idea what I was looking at back then, it's been a while. Both gcc and clang avoid branches with -O, both on x86 and armv7a. – cib Mar 11 at 14:57

Avoid non-standard compiler extensions and implement it as a completely type-safe macro in pure standard C (ISO 9899:2011).


#define GENERIC_MAX(x, y) ((x) > (y) ? (x) : (y))

#define ENSURE_int(i)   _Generic((i), int:   (i))
#define ENSURE_float(f) _Generic((f), float: (f))

#define MAX(type, x, y) \
  (type)GENERIC_MAX(ENSURE_##type(x), ENSURE_##type(y))


MAX(int, 2, 3)


The macro MAX creates another macro based on the type parameter. This control macro, if implemented for the given type, is used to check that both parameters are of the correct type. If the type is not supported, there will be a compiler error.

If either x or y is not of the correct type, there will be a compiler error in the ENSURE_ macros. More such macros can be added if more types are supported. I've assumed that only arithmetic types (integers, floats, pointers etc) will be used and not structs or arrays etc.

If all types are correct, the GENERIC_MAX macro will be called. Extra parenthesis are needed around each macro parameter, as the usual standard precaution when writing C macros.

Then there's the usual problems with implicit type promotions in C. The ?:operator balances the 2nd and 3rd operand against each other. For example, the result of GENERIC_MAX(my_char1, my_char2) would be an int. To prevent the macro from doing such potentially dangerous type promotions, a final type cast to the intended type was used.


We want both parameters to the macro to be of the same type. If one of them is of a different type, the macro is no longer type safe, because an operator like ?: will yield implicit type promotions. And because it does, we also always need to cast the final result back to the intended type as explained above.

A macro with just one parameter could have been written in a much simpler way. But with 2 or more parameters, there is a need to include an extra type parameter. Because something like this is unfortunately impossible:

// this won't work
#define MAX(x, y)                                  \
  _Generic((x),                                    \
           int: GENERIC_MAX(x, ENSURE_int(y))      \
           float: GENERIC_MAX(x, ENSURE_float(y))  \

The problem is that if the above macro is called as MAX(1, 2) with two int, it will still try to macro-expand all possible scenarios of the _Generic association list. So the ENSURE_float macro will get expanded too, even though it isn't relevant for int. And since that macro intentionally only contains the float type, the code won't compile.

To solve this, I created the macro name during the pre-processor phase instead, with the ## operator, so that no macro gets accidentally expanded.


#include <stdio.h>

#define GENERIC_MAX(x, y) ((x) > (y) ? (x) : (y))

#define ENSURE_int(i)   _Generic((i), int:   (i))
#define ENSURE_float(f) _Generic((f), float: (f))

#define MAX(type, x, y) \
  (type)GENERIC_MAX(ENSURE_##type(x), ENSURE_##type(y))

int main (void)
  int    ia = 1,    ib = 2;
  float  fa = 3.0f, fb = 4.0f;
  double da = 5.0,  db = 6.0;

  printf("%d\n", MAX(int,   ia, ib)); // ok
  printf("%f\n", MAX(float, fa, fb)); // ok

//printf("%d\n", MAX(int,   ia, fa));  compiler error, one of the types is wrong
//printf("%f\n", MAX(float, fa, ib));  compiler error, one of the types is wrong
//printf("%f\n", MAX(double, fa, fb)); compiler error, the specified type is wrong
//printf("%f\n", MAX(float, da, db));  compiler error, one of the types is wrong

//printf("%d\n", MAX(unsigned int, ia, ib)); // wont get away with this either
//printf("%d\n", MAX(int32_t, ia, ib)); // wont get away with this either
  return 0;
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This is a late answer, due to a fairly recent development. Since the OP accepted the answer that relies on a non-portable GCC (and clang) extension typeof - or __typeof__ for 'clean' ISO C - there's a better solution available as of gcc-4.9.

#define max(x,y) ( \
    { __auto_type __x = (x); __auto_type __y = (y); \
      __x > __y ? __x : __y; })

The obvious benefit of this extension is that each macro argument is only expanded once, unlike the __typeof__ solution.

__auto_type is a limited form of C++11's auto. It cannot (or should not?) be used in C++ code, though there's no good reason not to use the superior type inference capabilities of auto when using C++11.

That said, I assume there are no issues using this syntax when the macro is included in an extern "C" { ... } scope; e.g., from a C header. AFAIK, this extension has not found its way info clang

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I know the guy said "C"... But if you have the chance, use a C++ template:

template<class T> T min(T a, T b) { return a < b ? a : b; }

Type safe, and no problems with the ++ mentioned in other comments.

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Arguments should be const references, you never know what user will pass. – nmikhailov Jun 12 '13 at 14:33

The maximum of two integers a and b is (int)(0.5((a+b)+abs(a-b))). This may also work with (double) and fabs(a-b) for doubles (similar for floats)

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Sorry if this is wrong, I'm a C beginner but this code works for me – NRZ Jul 3 '13 at 13:36
I am not sure it works with non integers. Floating point math has nonlinear precision. – Treesrule14 Apr 9 '14 at 14:41
To expand on @Treesrule14's comment: This doesn't work because computers don't treat numbers the same way as mathematicians. Floating point has rounding issues, so you'd be unlikely to get the right answer. Even if you use integer maths, MAX_INT+MAX_INT gives -2, so max(MAX_INT, MAX_INT) using your formula would come out as -1. – user9876 Apr 28 '14 at 14:53

It's worth pointing out I think that if you define min and max with the tertiary such as

#define MIN(a,b) (((a)<(b))?(a):(b))
#define MAX(a,b) (((a)>(b))?(a):(b))

then to get the same result for the special case of fmin(-0.0,0.0) and fmax(-0.0,0.0) you need to swap the arguments

fmax(a,b) = MAX(a,b)
fmin(a,b) = MIN(b,a)
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Looks like Windef.h (a la #include <windows.h>) has max and min (lower case) macros, that also suffer from the "double evaluation" difficulty.

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Are you even surprised? – Matt Joiner Apr 25 '12 at 15:31

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