C numeric limits interface
From cppreference.com
See also std::numeric_limits interface.
Contents |
[edit] Limits of integer types
Limits of core language integer types | |
| Defined in header
<climits> | |
| CHAR_BIT |
number of bits in a byte (macro constant) |
| MB_LEN_MAX |
maximum number of bytes in a multibyte character (macro constant) |
| CHAR_MIN |
minimum value of char (macro constant) |
| CHAR_MAX |
maximum value of char (macro constant) |
| SCHAR_MINSHRT_MININT_MINLONG_MINLLONG_MIN (C++11) |
minimum value of signed char, short, int, long and long long respectively (macro constant) |
| SCHAR_MAXSHRT_MAXINT_MAXLONG_MAXLLONG_MAX (C++11) |
maximum value of signed char, short, int, long and long long respectively (macro constant) |
| UCHAR_MAXUSHRT_MAXUINT_MAXULONG_MAXULLONG_MAX (C++11) |
maximum value of unsigned char, unsigned short, unsigned int, unsigned long and unsigned long long respectively (macro constant) |
| Defined in header
<cwchar> | |
| Defined in header
<cstdint> | |
| WCHAR_MIN (C++11) |
minimum value of wchar_t (macro constant) |
| WCHAR_MAX (C++11) |
maximum value of wchar_t (macro constant) |
Limits of library type aliases | |
| Defined in header
<cstdint> | |
| PTRDIFF_MIN (C++11) |
minimum value of std::ptrdiff_t (macro constant) |
| PTRDIFF_MAX (C++11) |
maximum value of std::ptrdiff_t (macro constant) |
| SIZE_MAX (C++11) |
maximum value of std::size_t (macro constant) |
| SIG_ATOMIC_MIN (C++11) |
minimum value of std::sig_atomic_t (macro constant) |
| SIG_ATOMIC_MAX (C++11) |
maximum value of std::sig_atomic_t (macro constant) |
| WINT_MIN (C++11) |
minimum value of std::wint_t (macro constant) |
| WINT_MAX (C++11) |
maximum value of std::wint_t (macro constant) |
[edit] Notes
The types of these constants, other than CHAR_BIT and MB_LEN_MAX, are required to match the results of the integral promotions as applied to objects of the types they describe: CHAR_MAX may have type int or unsigned int, but never char. Similarly USHRT_MAX may not be of an unsigned type: its type may be int.
A freestanding implementation may lack std::sig_atomic_t and/or std::wint_t typedef names, in which case the SIG_ATOMIC_* and/or WINT_* macros are correspondingly absent.
[edit] Example
Run this code
#include <climits> #include <cstdint> #include <iomanip> #include <iostream> int main() { constexpr int w = 14; std::cout << std::left; # define COUT(x) std::cout << std::setw(w) << #x << " = " << x << '\n' COUT( CHAR_BIT ); COUT( MB_LEN_MAX ); COUT( CHAR_MIN ); COUT( CHAR_MAX ); COUT( SCHAR_MIN ); COUT( SHRT_MIN ); COUT( INT_MIN ); COUT( LONG_MIN ); COUT( LLONG_MIN ); COUT( SCHAR_MAX ); COUT( SHRT_MAX ); COUT( INT_MAX ); COUT( LONG_MAX ); COUT( LLONG_MAX ); COUT( UCHAR_MAX ); COUT( USHRT_MAX ); COUT( UINT_MAX ); COUT( ULONG_MAX ); COUT( ULLONG_MAX ); COUT( PTRDIFF_MIN ); COUT( PTRDIFF_MAX ); COUT( SIZE_MAX ); COUT( SIG_ATOMIC_MIN ); COUT( SIG_ATOMIC_MAX ); COUT( WCHAR_MIN ); COUT( WCHAR_MAX ); COUT( WINT_MIN ); COUT( WINT_MAX ); }
Possible output:
CHAR_BIT = 8 MB_LEN_MAX = 16 CHAR_MIN = -128 CHAR_MAX = 127 SCHAR_MIN = -128 SHRT_MIN = -32768 INT_MIN = -2147483648 LONG_MIN = -9223372036854775808 LLONG_MIN = -9223372036854775808 SCHAR_MAX = 127 SHRT_MAX = 32767 INT_MAX = 2147483647 LONG_MAX = 9223372036854775807 LLONG_MAX = 9223372036854775807 UCHAR_MAX = 255 USHRT_MAX = 65535 UINT_MAX = 4294967295 ULONG_MAX = 18446744073709551615 ULLONG_MAX = 18446744073709551615 PTRDIFF_MIN = -9223372036854775808 PTRDIFF_MAX = 9223372036854775807 SIZE_MAX = 18446744073709551615 SIG_ATOMIC_MIN = -2147483648 SIG_ATOMIC_MAX = 2147483647 WCHAR_MIN = -2147483648 WCHAR_MAX = 2147483647 WINT_MIN = 0 WINT_MAX = 4294967295
[edit] Limits of floating-point types
| Defined in header
<cfloat> | |
| FLT_RADIX |
the radix (integer base) used by the representation of all three floating-point types (macro constant) |
| DECIMAL_DIG (C++11) |
conversion from long double to decimal with at least DECIMAL_DIG digits and back to long double is the identity conversion: this is the decimal precision required to serialize/deserialize a long double (see also std::numeric_limits::max_digits10) (macro constant) |
| FLT_DECIMAL_DIGDBL_DECIMAL_DIGLDBL_DECIMAL_DIG (C++17) |
conversion from float/double/long double to decimal with at least FLT_DECIMAL_DIG/DBL_DECIMAL_DIG/LDBL_DECIMAL_DIG digits and back is the identity conversion: this is the decimal precision required to serialize/deserialize a floating-point value (see also std::numeric_limits::max_digits10). Defined to at least 6, 10, and 10 respectively, or 9 for IEEE float and 17 for IEEE double. (macro constant) |
| FLT_MINDBL_MINLDBL_MIN |
minimum normalized positive value of float, double and long double respectively (macro constant) |
| FLT_TRUE_MINDBL_TRUE_MINLDBL_TRUE_MIN (C++17) |
minimum positive value of float, double and long double respectively (macro constant) |
| FLT_MAXDBL_MAXLDBL_MAX |
maximum finite value of float, double and long double respectively (macro constant) |
| FLT_EPSILONDBL_EPSILONLDBL_EPSILON |
difference between 1.0 and the next representable value for float, double and long double respectively (macro constant) |
| FLT_DIGDBL_DIGLDBL_DIG |
number of decimal digits that are guaranteed to be preserved in text → float/double/long double → text roundtrip without change due to rounding or overflow (see std::numeric_limits::digits10 for explanation) (macro constant) |
| FLT_MANT_DIGDBL_MANT_DIGLDBL_MANT_DIG |
number of base FLT_RADIX digits that can be represented without losing precision for float, double and long double respectively (macro constant) |
| FLT_MIN_EXPDBL_MIN_EXPLDBL_MIN_EXP |
minimum negative integer such that FLT_RADIX raised by power one less than that integer is a normalized float, double and long double respectively (macro constant) |
| FLT_MIN_10_EXPDBL_MIN_10_EXPLDBL_MIN_10_EXP |
minimum negative integer such that 10 raised to that power is a normalized float, double and long double respectively (macro constant) |
| FLT_MAX_EXPDBL_MAX_EXPLDBL_MAX_EXP |
maximum positive integer such that FLT_RADIX raised by power one less than that integer is a representable finite float, double and long double respectively (macro constant) |
| FLT_MAX_10_EXPDBL_MAX_10_EXPLDBL_MAX_10_EXP |
maximum positive integer such that 10 raised to that power is a representable finite float, double and long double respectively (macro constant) |
| default rounding mode of floating-point arithmetic (macro constant) | |
| (C++11) |
specifies in what precision all arithmetic operations are done (macro constant) |
| FLT_HAS_SUBNORMDBL_HAS_SUBNORMLDBL_HAS_SUBNORM (C++17) |
specifies whether the type supports subnormal (denormal) numbers: -1 – indeterminable, 0 – absent, 1 – present (macro constant) |
[edit] Example
Run this code
#include <cfloat> #include <iomanip> #include <iostream> int main() { int w = 16; std::cout << std::left; // std::cout << std::setprecision(53); # define COUT(x) std::cout << std::setw(w) << #x << " = " << x << '\n' COUT( FLT_RADIX ); COUT( DECIMAL_DIG ); COUT( FLT_DECIMAL_DIG ); COUT( DBL_DECIMAL_DIG ); COUT( LDBL_DECIMAL_DIG ); COUT( FLT_MIN ); COUT( DBL_MIN ); COUT( LDBL_MIN ); COUT( FLT_TRUE_MIN ); COUT( DBL_TRUE_MIN ); COUT( LDBL_TRUE_MIN ); COUT( FLT_MAX ); COUT( DBL_MAX ); COUT( LDBL_MAX ); COUT( FLT_EPSILON ); COUT( DBL_EPSILON ); COUT( LDBL_EPSILON ); COUT( FLT_DIG ); COUT( DBL_DIG ); COUT( LDBL_DIG ); COUT( FLT_MANT_DIG ); COUT( DBL_MANT_DIG ); COUT( LDBL_MANT_DIG ); COUT( FLT_MIN_EXP ); COUT( DBL_MIN_EXP ); COUT( LDBL_MIN_EXP ); COUT( FLT_MIN_10_EXP ); COUT( DBL_MIN_10_EXP ); COUT( LDBL_MIN_10_EXP ); COUT( FLT_MAX_EXP ); COUT( DBL_MAX_EXP ); COUT( LDBL_MAX_EXP ); COUT( FLT_MAX_10_EXP ); COUT( DBL_MAX_10_EXP ); COUT( LDBL_MAX_10_EXP ); COUT( FLT_ROUNDS ); COUT( FLT_EVAL_METHOD ); COUT( FLT_HAS_SUBNORM ); COUT( DBL_HAS_SUBNORM ); COUT( LDBL_HAS_SUBNORM ); }
Possible output:
FLT_RADIX = 2 DECIMAL_DIG = 21 FLT_DECIMAL_DIG = 9 DBL_DECIMAL_DIG = 17 LDBL_DECIMAL_DIG = 21 FLT_MIN = 1.17549e-38 DBL_MIN = 2.22507e-308 LDBL_MIN = 3.3621e-4932 FLT_TRUE_MIN = 1.4013e-45 DBL_TRUE_MIN = 4.94066e-324 LDBL_TRUE_MIN = 3.6452e-4951 FLT_MAX = 3.40282e+38 DBL_MAX = 1.79769e+308 LDBL_MAX = 1.18973e+4932 FLT_EPSILON = 1.19209e-07 DBL_EPSILON = 2.22045e-16 LDBL_EPSILON = 1.0842e-19 FLT_DIG = 6 DBL_DIG = 15 LDBL_DIG = 18 FLT_MANT_DIG = 24 DBL_MANT_DIG = 53 LDBL_MANT_DIG = 64 FLT_MIN_EXP = -125 DBL_MIN_EXP = -1021 LDBL_MIN_EXP = -16381 FLT_MIN_10_EXP = -37 DBL_MIN_10_EXP = -307 LDBL_MIN_10_EXP = -4931 FLT_MAX_EXP = 128 DBL_MAX_EXP = 1024 LDBL_MAX_EXP = 16384 FLT_MAX_10_EXP = 38 DBL_MAX_10_EXP = 308 LDBL_MAX_10_EXP = 4932 FLT_ROUNDS = 1 FLT_EVAL_METHOD = 0 FLT_HAS_SUBNORM = 1 DBL_HAS_SUBNORM = 1 LDBL_HAS_SUBNORM = 1
[edit] Defect reports
The following behavior-changing defect reports were applied retroactively to previously published C++ standards.
| DR | Applied to | Behavior as published | Correct behavior |
|---|---|---|---|
| LWG 416 | C++98 | it was unclear whether the types of the macros in <climits> are guaranteed to match the type to which they refer (C++ refers to C, and C says no) |
clarified as not guaranteed |
[edit] See also
- Fixed width integer types
- Arithmetic types
- C++ type system overview
- Type support (basic types, RTTI, type traits)
| C documentation for Numeric limits
|
