This module implements rational numbers, consisting of a numerator num and a denominator den, both of type int. The denominator can not be 0.
Procs
proc initRational[T: SomeInteger](num, den: T): Rational[T]
- Create a new rational number. Source Edit
proc `//`[T](num, den: T): Rational[T]
-
A friendlier version of initRational. Example usage:
var x = 1//3 + 1//5
Source Edit proc `$`[T](x: Rational[T]): string
- Turn a rational number into a string. Source Edit
proc toRational[T: SomeInteger](x: T): Rational[T]
- Convert some integer x to a rational number. Source Edit
proc toRational(x: float; n: int = high(int) shr 32): Rational[int] {...}{. raises: [], tags: [].}
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Calculates the best rational numerator and denominator that approximates to x, where the denominator is smaller than n (default is the largest possible int to give maximum resolution).
The algorithm is based on the theory of continued fractions.
import math, rationals for i in 1..10: let t = (10 ^ (i+3)).int let x = toRational(PI, t) let newPI = x.num / x.den echo x, " ", newPI, " error: ", PI - newPI, " ", t
Source Edit proc toFloat[T](x: Rational[T]): float
- Convert a rational number x to a float. Source Edit
proc toInt[T](x: Rational[T]): int
- Convert a rational number x to an int. Conversion rounds towards 0 if x does not contain an integer value. Source Edit
proc reduce[T: SomeInteger](x: var Rational[T])
- Reduce rational x. Source Edit
proc `+`[T](x, y: Rational[T]): Rational[T]
- Add two rational numbers. Source Edit
proc `+`[T](x: Rational[T]; y: T): Rational[T]
- Add rational x to int y. Source Edit
proc `+`[T](x: T; y: Rational[T]): Rational[T]
- Add int x to rational y. Source Edit
proc `+=`[T](x: var Rational[T]; y: Rational[T])
- Add rational y to rational x. Source Edit
proc `+=`[T](x: var Rational[T]; y: T)
- Add int y to rational x. Source Edit
proc `-`[T](x: Rational[T]): Rational[T]
- Unary minus for rational numbers. Source Edit
proc `-`[T](x, y: Rational[T]): Rational[T]
- Subtract two rational numbers. Source Edit
proc `-`[T](x: Rational[T]; y: T): Rational[T]
- Subtract int y from rational x. Source Edit
proc `-`[T](x: T; y: Rational[T]): Rational[T]
- Subtract rational y from int x. Source Edit
proc `-=`[T](x: var Rational[T]; y: Rational[T])
- Subtract rational y from rational x. Source Edit
proc `-=`[T](x: var Rational[T]; y: T)
- Subtract int y from rational x. Source Edit
proc `*`[T](x, y: Rational[T]): Rational[T]
- Multiply two rational numbers. Source Edit
proc `*`[T](x: Rational[T]; y: T): Rational[T]
- Multiply rational x with int y. Source Edit
proc `*`[T](x: T; y: Rational[T]): Rational[T]
- Multiply int x with rational y. Source Edit
proc `*=`[T](x: var Rational[T]; y: Rational[T])
- Multiply rationals y to x. Source Edit
proc `*=`[T](x: var Rational[T]; y: T)
- Multiply int y to rational x. Source Edit
proc reciprocal[T](x: Rational[T]): Rational[T]
- Calculate the reciprocal of x. (1/x) Source Edit
proc `/`[T](x, y: Rational[T]): Rational[T]
- Divide rationals x by y. Source Edit
proc `/`[T](x: Rational[T]; y: T): Rational[T]
- Divide rational x by int y. Source Edit
proc `/`[T](x: T; y: Rational[T]): Rational[T]
- Divide int x by Rational y. Source Edit
proc `/=`[T](x: var Rational[T]; y: Rational[T])
- Divide rationals x by y in place. Source Edit
proc `/=`[T](x: var Rational[T]; y: T)
- Divide rational x by int y in place. Source Edit
proc cmp(x, y: Rational): int
- Compares two rationals. Source Edit
proc `<`(x, y: Rational): bool
- Source Edit
proc `<=`(x, y: Rational): bool
- Source Edit
proc `==`(x, y: Rational): bool
- Source Edit
proc abs[T](x: Rational[T]): Rational[T]
- Source Edit
proc `div`[T: SomeInteger](x, y: Rational[T]): T
- Computes the rational truncated division. Source Edit
proc `mod`[T: SomeInteger](x, y: Rational[T]): Rational[T]
- Computes the rational modulo by truncated division (remainder). This is same as x - (x div y) * y. Source Edit
proc floorDiv[T: SomeInteger](x, y: Rational[T]): T
-
Computes the rational floor division.
Floor division is conceptually defined as floor(x / y). This is different from the div operator, which is defined as trunc(x / y). That is, div rounds towards 0 and floorDiv rounds down.
Source Edit proc floorMod[T: SomeInteger](x, y: Rational[T]): Rational[T]
-
Computes the rational modulo by floor division (modulo).
This is same as x - floorDiv(x, y) * y. This proc behaves the same as the % operator in python.
Source Edit proc hash[T](x: Rational[T]): Hash
- Computes hash for rational x Source Edit