struct BigRational

Overview

Rational numbers are represented as the quotient of arbitrarily large numerators and denominators. Rationals are canonicalized such that the denominator and the numerator have no common factors, and that the denominator is positive. Zero has the unique representation 0/1.

NOTE To use BigRational, you must explicitly import it with require "big"

require "big"

r = BigRational.new(7.to_big_i, 3.to_big_i)
r.to_s # => "7/3"

r = BigRational.new(3, -9)
r.to_s # => "-1/3"

It is implemented under the hood with GMP.

Included Modules

Defined in:

big.cr
big/big_decimal.cr
big/big_rational.cr
big/number.cr

Constructors

Instance Method Summary

Instance methods inherited from module Comparable(BigDecimal)

<(other : T) : Bool <, <=(other : T) <=, <=>(other : T) <=>, ==(other : T) ==, >(other : T) : Bool >, >=(other : T) >=, clamp(min, max)
clamp(range : Range)
clamp

Instance methods inherited from module Comparable(Float)

<(other : T) : Bool <, <=(other : T) <=, <=>(other : T) <=>, ==(other : T) ==, >(other : T) : Bool >, >=(other : T) >=, clamp(min, max)
clamp(range : Range)
clamp

Instance methods inherited from module Comparable(Int)

<(other : T) : Bool <, <=(other : T) <=, <=>(other : T) <=>, ==(other : T) ==, >(other : T) : Bool >, >=(other : T) >=, clamp(min, max)
clamp(range : Range)
clamp

Instance methods inherited from module Comparable(BigRational)

<(other : T) : Bool <, <=(other : T) <=, <=>(other : T) <=>, ==(other : T) ==, >(other : T) : Bool >, >=(other : T) >=, clamp(min, max)
clamp(range : Range)
clamp

Instance methods inherited from struct Number

*(other : BigFloat) : BigFloat
*(other : Complex) : Complex
*
, +(other : BigFloat)
+(other : Complex) : Complex
+
+
, -(other : BigFloat)
-(other : Complex) : Complex
-
, /(other : BigFloat) : BigFloat
/(other : Complex) : Complex
/
, //(other) //, <=>(other) : Int32 | Nil <=>, ==(other : Complex) ==, abs : self abs, abs2 abs2, cis : Complex cis, divmod(number) divmod, format(io : IO, separator = '.', delimiter = ',', decimal_places : Int | Nil = nil, *, group : Int = 3, only_significant : Bool = false) : Nil
format(separator = '.', delimiter = ',', decimal_places : Int | Nil = nil, *, group : Int = 3, only_significant : Bool = false) : String
format
, humanize(io : IO, precision = 3, separator = '.', delimiter = ',', *, base = 10 ** 3, significant = true, prefixes : Indexable = SI_PREFIXES) : Nil
humanize(io : IO, precision = 3, separator = '.', delimiter = ',', *, base = 10 ** 3, significant = true, prefixes : Proc) : Nil
humanize(precision = 3, separator = '.', delimiter = ',', *, base = 10 ** 3, significant = true, prefixes = SI_PREFIXES) : String
humanize(io : IO, precision = 3, separator = '.', delimiter = ',', *, base = 10 ** 3, significant = true, &prefixes : Int32, Float64 -> Tuple(Int32, _) | Tuple(Int32, _, Bool)) : Nil
humanize(precision = 3, separator = '.', delimiter = ',', *, base = 10 ** 3, significant = true, &) : String
humanize(precision = 3, separator = '.', delimiter = ',', *, base = 10 ** 3, significant = true, prefixes : Proc) : String
humanize
, i : Complex i, negative? : Bool negative?, positive? : Bool positive?, round(mode : RoundingMode = :ties_even) : self
round(digits : Number, base = 10, *, mode : RoundingMode = :ties_even)
round
, sign : Int32 sign, significant(digits, base = 10) significant, step(*, to limit = nil, exclusive : Bool = false, &) : Nil
step(*, to limit = nil, exclusive : Bool = false)
step
, to_big_f : BigFloat to_big_f, to_c : Complex to_c, to_yaml(yaml : YAML::Nodes::Builder) : Nil to_yaml, zero? : Bool zero?

Constructor methods inherited from struct Number

additive_identity : self additive_identity, multiplicative_identity : self multiplicative_identity, zero : self zero

Class methods inherited from struct Number

si_prefix(magnitude : Int, prefixes = SI_PREFIXES) : Char | Nil si_prefix

Instance methods inherited from module Comparable(BigFloat)

<(other : T) : Bool <, <=(other : T) <=, <=>(other : T) <=>, ==(other : T) ==, >(other : T) : Bool >, >=(other : T) >=, clamp(min, max)
clamp(range : Range)
clamp

Instance methods inherited from module Steppable

step(*, to limit = nil, by step, exclusive : Bool = false, &) : Nil
step(*, to limit = nil, by step, exclusive : Bool = false)
step

Instance methods inherited from module Comparable(Number)

<(other : T) : Bool <, <=(other : T) <=, <=>(other : T) <=>, ==(other : T) ==, >(other : T) : Bool >, >=(other : T) >=, clamp(min, max)
clamp(range : Range)
clamp

Instance methods inherited from struct Value

==(other : JSON::Any)
==(other : YAML::Any)
==(other)
==
, dup dup

Instance methods inherited from class Object

! : Bool !, !=(other) !=, !~(other) !~, ==(other) ==, ===(other : JSON::Any)
===(other : YAML::Any)
===(other)
===
, =~(other) =~, as(type : Class) as, as?(type : Class) as?, class class, dup dup, hash(hasher)
hash
hash
, in?(collection : Object) : Bool
in?(*values : Object) : Bool
in?
, inspect(io : IO) : Nil
inspect : String
inspect
, is_a?(type : Class) : Bool is_a?, itself itself, nil? : Bool nil?, not_nil!(message)
not_nil!
not_nil!
, pretty_inspect(width = 79, newline = "\n", indent = 0) : String pretty_inspect, pretty_print(pp : PrettyPrint) : Nil pretty_print, responds_to?(name : Symbol) : Bool responds_to?, tap(&) tap, to_json(io : IO) : Nil
to_json : String
to_json
, to_pretty_json(indent : String = " ") : String
to_pretty_json(io : IO, indent : String = " ") : Nil
to_pretty_json
, to_s(io : IO) : Nil
to_s : String
to_s
, to_yaml(io : IO) : Nil
to_yaml : String
to_yaml
, try(&) try, unsafe_as(type : T.class) forall T unsafe_as

Class methods inherited from class Object

from_json(string_or_io, root : String)
from_json(string_or_io)
from_json
, from_yaml(string_or_io : String | IO) from_yaml

Constructor Detail

def self.new(numerator : Int, denominator : Int) #

Creates a new BigRational.

If denominator is 0, this will raise an exception.


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def self.new(num : Int) #

Creates a new BigRational with num as the numerator and 1 for denominator.


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def self.new(num : Float::Primitive) #

Creates an exact representation of float as rational.

Raises ArgumentError if num is not finite.


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def self.new(num : BigFloat) #

Creates an exact representation of float as rational.


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def self.new(num : BigRational) #

Creates a BigRational from the given num.


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def self.new(num : BigDecimal) #

Creates a BigRational from the given num.


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Instance Method Detail

def *(other : BigRational) : BigRational #

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def *(other : Int) : BigRational #

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def **(other : Int) : BigRational #

Raises the rational to the otherth power

This will raise DivisionByZeroError if rational is 0 and other is negative.

require "big"

BigRational.new(2, 3) ** 2  # => 4/9
BigRational.new(2, 3) ** -1 # => 3/2

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def +(other : BigRational) : BigRational #

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def +(other : Int) : BigRational #

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def -(other : BigRational) : BigRational #

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def -(other : Int) : BigRational #

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def - : BigRational #

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def /(other : BigRational) : BigRational #

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def /(other : BigInt) : BigRational #

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def /(other : BigFloat) : BigRational #

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def /(other : BigDecimal) : BigRational #

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def /(other : Int8) : BigRational #

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def /(other : UInt8) : BigRational #

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def /(other : Int16) : BigRational #

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def /(other : UInt16) : BigRational #

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def /(other : Int32) : BigRational #

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def /(other : UInt32) : BigRational #

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def /(other : Int64) : BigRational #

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def /(other : UInt64) : BigRational #

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def /(other : Int128) : BigRational #

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def /(other : UInt128) : BigRational #

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def /(other : Float32) : BigRational #

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def /(other : Float64) : BigRational #

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def <<(other : Int) : BigRational #

Multiplies the rational by (2 ** other)

require "big"

BigRational.new(2, 3) << 2 # => 8/3

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def <=>(other : BigRational) #

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def <=>(other : Float::Primitive) #

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def <=>(other : BigFloat) #

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def <=>(other : Int::Primitive) #

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def <=>(other : BigInt) #

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def <=>(other : BigDecimal) #
Description copied from module Comparable(BigDecimal)

The comparison operator. Returns 0 if the two objects are equal, a negative number if this object is considered less than other, a positive number if this object is considered greater than other, or nil if the two objects are not comparable.

Subclasses define this method to provide class-specific ordering.

The comparison operator is usually used to sort values:

# Sort in a descending way:
[3, 1, 2].sort { |x, y| y <=> x } # => [3, 2, 1]

# Sort in an ascending way:
[3, 1, 2].sort { |x, y| x <=> y } # => [1, 2, 3]

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def ==(other : BigRational) : Bool #

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def >>(other : Int) : BigRational #

Divides the rational by (2 ** other)

require "big"

BigRational.new(2, 3) >> 2 # => 1/6

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def abs : BigRational #
Description copied from struct Number

Returns the absolute value of this number.

123.abs  # => 123
-123.abs # => 123

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def ceil : BigRational #

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def clone #

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def denominator : BigInt #

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def floor : BigRational #

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def hash(hasher) #

TODO improve this


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def inspect(io : IO) : Nil #
Description copied from class Object

Prints to io an unambiguous and information-rich string representation of this object, typically intended for developers.

It is similar to #to_s(IO), but often provides more information. Ideally, it should contain sufficient information to be able to recreate an object with the same value (given an identical environment).

For types that don't provide a custom implementation of this method, default implementation delegates to #to_s(IO). This said, it is advisable to have an appropriate #inspect implementation on every type. Default implementations are provided by Struct#inspect and Reference#inspect.

::p and ::p! use this method to print an object in STDOUT.


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def inspect : String #
Description copied from class Object

Returns an unambiguous and information-rich string representation of this object, typically intended for developers.

This method should usually not be overridden. It delegates to #inspect(IO) which can be overridden for custom implementations.

Also see #to_s.


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def inv : BigRational #

Returns a new BigRational as 1/r.

This will raise an exception if rational is 0.


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def numerator : BigInt #

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def to_big_d : BigDecimal #

Converts self to BigDecimal.


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def to_big_f : BigFloat #

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def to_big_i : BigInt #

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def to_big_r : BigRational #

Returns self.

require "big"

BigRational.new(4, 5).to_big_r # => 4/5

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def to_f : Float64 #

Returns the Float64 representing this rational.


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def to_f! : Float64 #

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def to_f32 : Float32 #

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def to_f32! : Float32 #

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def to_f64 : Float64 #

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def to_f64! : Float64 #

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def to_i16(*args, **options) #

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def to_i16(*args, **options, &) #

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def to_i32(*args, **options) #

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def to_i32(*args, **options, &) #

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def to_i64(*args, **options) #

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def to_i64(*args, **options, &) #

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def to_i8(*args, **options) #

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def to_i8(*args, **options, &) #

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def to_s(base : Int = 10) : String #

Returns the string representing this rational.

Optionally takes a radix base (2 through 36).

require "big"

r = BigRational.new(8243243, 562828882)
r.to_s     # => "8243243/562828882"
r.to_s(16) # => "7dc82b/218c1652"
r.to_s(36) # => "4woiz/9b3djm"

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def to_s(io : IO, base : Int = 10) : Nil #
Description copied from class Object

Prints a nicely readable and concise string representation of this object, typically intended for users, to io.

This method is called when an object is interpolated in a string literal:

"foo #{bar} baz" # calls bar.to_io with the builder for this string

IO#<< calls this method to append an object to itself:

io << bar # calls bar.to_s(io)

Thus implementations must not interpolate self in a string literal or call io << self which both would lead to an endless loop.

Also see #inspect(IO).


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def to_u16(*args, **options) #

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def to_u16(*args, **options, &) #

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def to_u32(*args, **options) #

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def to_u32(*args, **options, &) #

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def to_u64(*args, **options) #

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def to_u64(*args, **options, &) #

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def to_u8(*args, **options) #

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def to_u8(*args, **options, &) #

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def to_unsafe #

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def trunc : BigRational #

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