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Is there a standard and/or portable way to represent the smallest negative value (e.g. to use negative infinity) in a C(++) program?

DBL_MIN in float.h is the smallest positive number.

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I'll go for -DBL_MAX, but I'm sure there is some technical reason why this isn't so :-) – anon Jul 20 '09 at 13:27
@Neil, no there isn't, it's not like 2 Complement integers – fortran Jul 20 '09 at 13:33
I haven't seen anything yet in the standard to say that the range of the floating point types has to be symmetrical around zero. But the constants in limits.h and <limits> suggest that both the C and C++ standard are kind of expecting they will be. – Steve Jessop Jul 20 '09 at 20:03
Actually DBL_MIN in float.h is the smallest positive normalized number. There are numbers that are even smaller. – user502144 Mar 18 '13 at 18:34
@fortran: IEEE 754 FP uses a sign bit, and certainly most FP hardware these days is IEEE 754. But C and C++ support non-IEEE 754 FP hardware, so the question is open as to whether the language makes the guarantee that -DBL_MAX must be equal to the minimum representable value. – j_random_hacker Aug 11 '13 at 22:58
up vote 84 down vote accepted

-DBL_MAX in ANSI C, which is defined in float.h.

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this seems the most standard and portable – Will Jul 20 '09 at 13:50
downvotes are pointless with an explaination – dfa Jul 25 '09 at 20:29
+1 for mentioning ANSI C. – Eonil Dec 2 '12 at 6:51
@j_random_hacker That's a very good point, but the C standard requires -DBL_MAX to be exactly representable, so if the FP hardware is not capable of that, the implementation just has to work around it. See the floating-point model in Characteristics of floating types <float.h> p2 of C99 (may have been moved elsewhere since then). – hvd Nov 10 '14 at 22:23
@j_random_hacker Yes, but p2 specifies e_min and e_max are independent of the sign bit, so DBL_MAX is exactly (1 − b^−p)b^e_max, which is exactly representable, the most-negative finite value is exactly -(1 − b^−p)b^e_max, and since that happens to be exactly -DBL_MAX, negating DBL_MAX cannot introduce any rounding errors either. – hvd Nov 11 '14 at 8:35

Floating point numbers (IEEE 754) are symmetrical, so if you can represent the greatest value (DBL_MAX or numeric_limits<double>::max()), just prepend a minus sign.

And then is the cool way:

double f;
(*((long long*)&f))= ~(1LL<<52);
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+1 For pointing out the symmetry of of floating point numbers :) – Andrew Hare Jul 20 '09 at 13:35
What about C/C++ implementations which do not use IEEE 754 floats? – Steve Jessop Jul 20 '09 at 20:03
gcc's manual for -ffast-math says "Sets -fno-math-errno, -funsafe-math-optimizations, -ffinite-math-only, -fno-rounding-math, -fno-signaling-nans and -fcx-limited-range This option is not turned on by any -O option since it can result in incorrect output for programs which depend on an exact implementation of IEEE or ISO rules/specifications for math functions. It may, however, yield faster code for programs that do not require the guarantees of these specifications." Fast math is a common setting, and the Intel ICC for example defaults to it. All in all, not sure what this means for me :-) – Will Jul 20 '09 at 22:30
It means implementations don't use IEEE 754 arithmetic, but to be fair those options do still use IEEE representation. You might find some emulation libraries using non-IEEE representation, since not all processors have a native float format (although they may publish a C ABI that includes a format, corresponding to emulation libs supplied by the manufacturer). Hence not all compilers can use one. Just depends what you mean when you ask for "standard and/or portable", there's portable in principle and portable in practice. – Steve Jessop Jul 20 '09 at 22:59
@CiprianTomoiaga because if you assign a long (with the desired bit pattern) to a float/double, the compiler will make an arithmetic casting (converting that integer number to the closest approximation). You need to convince the compiler that you are assigning to an lvalue that is an integer too to avoid the number conversion. Other way to achieve it would be copying memory (memcpy), but that wouldn't work with an immediate literal (you would need to assign the bit pattern to an addressable variable). – fortran Feb 18 '15 at 19:25

Try this:

-1 * numeric_limits<double>::max()

Reference: numeric_limits

This class is specialized for each of the fundamental types, with its members returning or set to the different values that define the properties that type has in the specific platform in which it compiles.

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Why not just -numeric_limits<double>::max()? – k06a May 11 at 17:45

In C, use

#include <float.h>

const double lowest_double = -DBL_MAX;

In C++pre-11, use

#include <limits>

const double lowest_double = -std::numeric_limits<double>::max();

In C++11 and onwards, use

#include <limits>

constexpr double lowest_double = std::numeric_limits<double>::lowest();
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Wasn't the min() function available before C++11? Or is that a different value than -max()? en.cppreference.com/w/cpp/types/numeric_limits – Alexis Wilke Oct 23 '14 at 3:12
@Alexis: if you look at the lowest three rows in the table on the page you linked, you'll see that min gets you the smallest positive value in magnitude, and lowest the largest negative value in magnitude. Yes, it's terrible. Welcome to brilliant world of the C++ standard library :-P. – rubenvb Oct 23 '14 at 7:08
for C it is defined in float.h. limits.h is for integers – Ciprian Tomoiaga Feb 18 '15 at 18:46
@CiprianTomoiaga You're right. Corrected. – rubenvb Feb 19 '15 at 8:58

Are you looking for actual infinity or the minimal finite value? If the former, use


which only works if


Otherwise, you'll have to use

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- std::numeric_limits<double>::max()

should work just fine

Numeric limits

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