header

Characteristics of floating-point types

A floating-point number is composed of four elements:

- a sign: either negative or non-negative
- a base (or radix): which expresses the different numbers that can be represented with a single digit (2 for binary, 10 for decimal, 16 for hexadecimal, and so on...)
- a significand (or mantissa): which is a series of digits of the aforementioned base. The number of digits in this series is what is known as
*precision*. - an exponent (also known as characteristic, or scale): which represents the offset of the significand, affecting the value in the following way:

*value of floating-point*=*significand*x*base*^{exponent}, with its corresponding sign.

When a group of macros exists prefixed by

`float`

type, the one with `double`

and the one with `long double`

.name | min. | stands for | expresses |
---|---|---|---|

FLT_RADIX | 2 | RADIX | Base for all floating-point types (`float` , `double` and `long double` ). |

FLT_MANT_DIG DBL_MANT_DIG LDBL_MANT_DIG | MANTissa DIGits | Precision of significand, i.e. the number of digits that conform the significand. | |

FLT_DIG DBL_DIG LDBL_DIG | 6 10 10 | DIGits | Number of decimal digits that can be rounded into a floating-point and back without change in the number of decimal digits. |

FLT_MIN_EXP DBL_MIN_EXP LDBL_MIN_EXP | MINimum EXPonent | Minimum negative integer value for the exponent that generates a normalized floating-point number. | |

FLT_MIN_10_EXP DBL_MIN_10_EXP LDBL_MIN_10_EXP | `-37` `-37` `-37` | MINimum base-10 EXPonent | Minimum negative integer value for the exponent of a base-10 expression that would generate a normalized floating-point number. |

FLT_MAX_EXP DBL_MAX_EXP LDBL_MAX_EXP | MAXimum EXPonent | Maximum integer value for the exponent that generates a normalized floating-point number. | |

FLT_MAX_10_EXP DBL_MAX_10_EXP LDBL_MAX_10_EXP | `37` `37` `37` | MAXimum base-10 EXPonent | Maximum integer value for the exponent of a base-10 expression that would generate a normalized floating-point number. |

FLT_MAX DBL_MAX LDBL_MAX | `1E+37` `1E+37` `1E+37` | MAXimum | Maximum finite representable floating-point number. |

FLT_EPSILON DBL_EPSILON LDBL_EPSILON | `1E-5` `1E-9` `1E-9` | EPSILON | Difference between 1 and the least value greater than 1 that is representable. |

FLT_MIN DBL_MIN LDBL_MIN | `1E-37` `1E-37` `1E-37` | MINimum | Minimum representable floating-point number. |

FLT_ROUNDS | ROUND | Rounding behavior. Possible values:`-1` undetermined` 0` toward zero` 1` to nearest` 2` toward positive infinity` 3` toward negative infinityApplies to all floating-point types ( `float` , `double` and `long double` ). | |

FLT_EVAL_METHOD | EVALuation METHOD | Properties of the evaluation format. Possible values:`-1` undetermined` 0` evaluate just to the range and precision of the type` 1` evaluate `float` and `double` as `double` , and `long double` as `long double` .` 2` evaluate all as `long double`
Other negative values indicate an implementation-defined behavior.Applies to all floating-point types ( `float` , `double` and `long double` ). | |

DECIMAL_DIG | DECIMAL DIGits | Number of decimal digits that can be rounded into a floating-point type and back again to the same decimal digits, without loss in precision. |

**<climits> (limits.h)**- Sizes of integral types (header)