abstract struct Number

Overview

The top-level number type.

Included Modules

Direct Known Subclasses

Defined in:

big/big_float.cr
complex.cr
humanize.cr
number.cr
yaml/to_yaml.cr

Constant Summary

SI_PREFIXES = { {'y', 'z', 'a', 'f', 'p', 'n', 'µ', 'm'}, {nil, 'k', 'M', 'G', 'T', 'P', 'E', 'Z', 'Y'} }

Default SI prefixes ordered by magnitude.

SI_PREFIXES_PADDED = ->(magnitude : Int32, _number : Float64) do magnitude = Number.prefix_index(magnitude) {magnitude, ( magnitude == 0 ? " " : si_prefix(magnitude))} end

SI prefixes used by #humanize. Equal to SI_PREFIXES but prepends the prefix with a space character.

Constructors

Class Method Summary

Instance Method Summary

Macro Summary

Instance methods inherited from module Comparable(BigFloat)

<, <=(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) <=, <=>(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! 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.additive_identity : selfSource

Returns the additive identity of this type.

For numerical types, it is the value 0 expressed in the respective type.

Int32.additive_identity   # => 0
Float64.additive_identity # => 0.0

def self.multiplicative_identity : selfSource

Returns the multiplicative identity of this type.

For numerical types, it is the value 1 expressed in the respective type.

Int32.multiplicative_identity   # => 1
Float64.multiplicative_identity # => 1.0

def self.zero : selfSource

Returns the value zero in the respective type.

Int32.zero   # => 0
Float64.zero # => 0.0

Class Method Detail

def self.si_prefix(magnitude : Int, prefixes = SI_PREFIXES) : Char?Source

Returns the SI prefix for magnitude.

Number.si_prefix(3) # => 'k'

Instance Method Detail

def *(other : BigFloat) : BigFloatSource

def *(other : Complex) : ComplexSource

def +(other : BigFloat)Source

def +(other : Complex) : ComplexSource

def +Source

Returns self.

def -(other : BigFloat)Source

def -(other : Complex) : ComplexSource

def /(other : BigFloat) : BigFloatSource

def /(other : Complex) : ComplexSource

def //(other)Source

Divides self by other using floored division.

The result will be of the same type as self.

def <=>(other : BigFloat)Source

Description copied from module Comparable(BigFloat)

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]

def <=>(other) : Int32?Source

The comparison operator.

Returns:

  • -1 if self is less than other
  • 0 if self is equal to other
  • -1 if self is greater than other
  • nil if self is NaN or other is NaN, because NaN values are not comparable

def ==(other : Complex)Source

def abs : selfSource

Returns the absolute value of this number.

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

def abs2Source

Returns the square of self (self * self).

4.abs2   # => 16
1.5.abs2 # => 2.25

def cis : ComplexSource

def divmod(number)Source

Returns a Tuple of two elements containing the quotient and modulus obtained by dividing self by number.

11.divmod(3)  # => {3, 2}
11.divmod(-3) # => {-4, -1}

def format(io : IO, separator = '.', delimiter = ',', decimal_places : Int? = nil, *, group : Int = 3, only_significant : Bool = false) : NilSource

Prints this number as a String using a customizable format.

separator is used as decimal separator, delimiter as thousands delimiter between batches of group digits.

If decimal_places is nil, all significant decimal places are printed (similar to #to_s). If the argument has a numeric value, the number of visible decimal places will be fixed to that amount.

Trailing zeros are omitted if only_significant is true.

123_456.789.format                                            # => "123,456.789"
123_456.789.format(',', '.')                                  # => "123.456,789"
123_456.789.format(decimal_places: 2)                         # => "123,456.79"
123_456.789.format(decimal_places: 6)                         # => "123,456.789000"
123_456.789.format(decimal_places: 6, only_significant: true) # => "123,456.789"

def format(separator = '.', delimiter = ',', decimal_places : Int? = nil, *, group : Int = 3, only_significant : Bool = false) : StringSource

Prints this number as a String using a customizable format.

separator is used as decimal separator, delimiter as thousands delimiter between batches of group digits.

If decimal_places is nil, all significant decimal places are printed (similar to #to_s). If the argument has a numeric value, the number of visible decimal places will be fixed to that amount.

Trailing zeros are omitted if only_significant is true.

123_456.789.format                                            # => "123,456.789"
123_456.789.format(',', '.')                                  # => "123.456,789"
123_456.789.format(decimal_places: 2)                         # => "123,456.79"
123_456.789.format(decimal_places: 6)                         # => "123,456.789000"
123_456.789.format(decimal_places: 6, only_significant: true) # => "123,456.789"

def humanize(io : IO, precision = 3, separator = '.', delimiter = ',', *, base = 10 ** 3, significant = true, prefixes : Indexable = SI_PREFIXES) : NilSource

Pretty prints this number as a String in a human-readable format.

This is particularly useful if a number can have a wide value range and the exact value is less relevant.

It rounds the number to the nearest thousands magnitude with precision number of significant digits. The order of magnitude is expressed with an appended quantifier. By default, SI prefixes are used (see SI_PREFIXES).

1_200_000_000.humanize # => "1.2G"
0.000_000_012.humanize # => "12.0n"

If significant is false, the number of precision digits is preserved after the decimal separator.

1_234.567_890.humanize(precision: 2)                     # => "1.2k"
1_234.567_890.humanize(precision: 2, significant: false) # => "1.23k"

separator describes the decimal separator, delimiter the thousands delimiter (see #format).

See Int#humanize_bytes to format a file size.

def humanize(io : IO, precision = 3, separator = '.', delimiter = ',', *, base = 10 ** 3, significant = true, prefixes : Proc) : NilSource

Pretty prints this number as a String in a human-readable format.

This is particularly useful if a number can have a wide value range and the exact value is less relevant.

It rounds the number to the nearest thousands magnitude with precision number of significant digits. The order of magnitude is expressed with an appended quantifier. By default, SI prefixes are used (see SI_PREFIXES).

1_200_000_000.humanize # => "1.2G"
0.000_000_012.humanize # => "12.0n"

If significant is false, the number of precision digits is preserved after the decimal separator.

1_234.567_890.humanize(precision: 2)                     # => "1.2k"
1_234.567_890.humanize(precision: 2, significant: false) # => "1.23k"

separator describes the decimal separator, delimiter the thousands delimiter (see #format).

This methods yields the order of magnitude and self and expects the block to return a Tuple(Int32, _) containing the (adjusted) magnitude and unit. The magnitude is typically adjusted to a multiple of 3.

def humanize_length(number)
  number.humanize do |magnitude, number|
    case magnitude
    when -2, -1 then {-2, " cm"}
    when .>=(4)
      {3, " km"}
    else
      magnitude = Number.prefix_index(magnitude)
      {magnitude, " #{Number.si_prefix(magnitude)}m"}
    end
  end
end

humanize_length(1_420) # => "1.42 km"
humanize_length(0.23)  # => "23.0 cm"

See Int#humanize_bytes to format a file size.

def humanize(precision = 3, separator = '.', delimiter = ',', *, base = 10 ** 3, significant = true, prefixes = SI_PREFIXES) : StringSource

Pretty prints this number as a String in a human-readable format.

This is particularly useful if a number can have a wide value range and the exact value is less relevant.

It rounds the number to the nearest thousands magnitude with precision number of significant digits. The order of magnitude is expressed with an appended quantifier. By default, SI prefixes are used (see SI_PREFIXES).

1_200_000_000.humanize # => "1.2G"
0.000_000_012.humanize # => "12.0n"

If significant is false, the number of precision digits is preserved after the decimal separator.

1_234.567_890.humanize(precision: 2)                     # => "1.2k"
1_234.567_890.humanize(precision: 2, significant: false) # => "1.23k"

separator describes the decimal separator, delimiter the thousands delimiter (see #format).

See Int#humanize_bytes to format a file size.

def humanize(io : IO, precision = 3, separator = '.', delimiter = ',', *, base = 10 ** 3, significant = true, &prefixes : Int32, Float64 -> Tuple(Int32, _) | Tuple(Int32, _, Bool)) : NilSource

Pretty prints this number as a String in a human-readable format.

This is particularly useful if a number can have a wide value range and the exact value is less relevant.

It rounds the number to the nearest thousands magnitude with precision number of significant digits. The order of magnitude is expressed with an appended quantifier. By default, SI prefixes are used (see SI_PREFIXES).

1_200_000_000.humanize # => "1.2G"
0.000_000_012.humanize # => "12.0n"

If significant is false, the number of precision digits is preserved after the decimal separator.

1_234.567_890.humanize(precision: 2)                     # => "1.2k"
1_234.567_890.humanize(precision: 2, significant: false) # => "1.23k"

separator describes the decimal separator, delimiter the thousands delimiter (see #format).

This methods yields the order of magnitude and self and expects the block to return a Tuple(Int32, _) containing the (adjusted) magnitude and unit. The magnitude is typically adjusted to a multiple of 3.

def humanize_length(number)
  number.humanize do |magnitude, number|
    case magnitude
    when -2, -1 then {-2, " cm"}
    when .>=(4)
      {3, " km"}
    else
      magnitude = Number.prefix_index(magnitude)
      {magnitude, " #{Number.si_prefix(magnitude)}m"}
    end
  end
end

humanize_length(1_420) # => "1.42 km"
humanize_length(0.23)  # => "23.0 cm"

See Int#humanize_bytes to format a file size.

def humanize(precision = 3, separator = '.', delimiter = ',', *, base = 10 ** 3, significant = true, &) : StringSource

Pretty prints this number as a String in a human-readable format.

This is particularly useful if a number can have a wide value range and the exact value is less relevant.

It rounds the number to the nearest thousands magnitude with precision number of significant digits. The order of magnitude is expressed with an appended quantifier. By default, SI prefixes are used (see SI_PREFIXES).

1_200_000_000.humanize # => "1.2G"
0.000_000_012.humanize # => "12.0n"

If significant is false, the number of precision digits is preserved after the decimal separator.

1_234.567_890.humanize(precision: 2)                     # => "1.2k"
1_234.567_890.humanize(precision: 2, significant: false) # => "1.23k"

separator describes the decimal separator, delimiter the thousands delimiter (see #format).

This methods yields the order of magnitude and self and expects the block to return a Tuple(Int32, _) containing the (adjusted) magnitude and unit. The magnitude is typically adjusted to a multiple of 3.

def humanize_length(number)
  number.humanize do |magnitude, number|
    case magnitude
    when -2, -1 then {-2, " cm"}
    when .>=(4)
      {3, " km"}
    else
      magnitude = Number.prefix_index(magnitude)
      {magnitude, " #{Number.si_prefix(magnitude)}m"}
    end
  end
end

humanize_length(1_420) # => "1.42 km"
humanize_length(0.23)  # => "23.0 cm"

See Int#humanize_bytes to format a file size.

def humanize(precision = 3, separator = '.', delimiter = ',', *, base = 10 ** 3, significant = true, prefixes : Proc) : StringSource

Pretty prints this number as a String in a human-readable format.

This is particularly useful if a number can have a wide value range and the exact value is less relevant.

It rounds the number to the nearest thousands magnitude with precision number of significant digits. The order of magnitude is expressed with an appended quantifier. By default, SI prefixes are used (see SI_PREFIXES).

1_200_000_000.humanize # => "1.2G"
0.000_000_012.humanize # => "12.0n"

If significant is false, the number of precision digits is preserved after the decimal separator.

1_234.567_890.humanize(precision: 2)                     # => "1.2k"
1_234.567_890.humanize(precision: 2, significant: false) # => "1.23k"

separator describes the decimal separator, delimiter the thousands delimiter (see #format).

This methods yields the order of magnitude and self and expects the block to return a Tuple(Int32, _) containing the (adjusted) magnitude and unit. The magnitude is typically adjusted to a multiple of 3.

def humanize_length(number)
  number.humanize do |magnitude, number|
    case magnitude
    when -2, -1 then {-2, " cm"}
    when .>=(4)
      {3, " km"}
    else
      magnitude = Number.prefix_index(magnitude)
      {magnitude, " #{Number.si_prefix(magnitude)}m"}
    end
  end
end

humanize_length(1_420) # => "1.42 km"
humanize_length(0.23)  # => "23.0 cm"

See Int#humanize_bytes to format a file size.

def i : ComplexSource

def negative? : BoolSource

Returns true if self is less than zero.

-1.negative? # => true
0.negative?  # => false
1.negative?  # => false

def positive? : BoolSource

Returns true if self is greater than zero.

-1.positive? # => false
0.positive?  # => false
1.positive?  # => true

def round(mode : RoundingMode = :ties_even) : selfSource

Rounds self to an integer value using rounding mode.

The rounding mode controls the direction of the rounding. The default is RoundingMode::TIES_EVEN which rounds to the nearest integer, with ties (fractional value of 0.5) being rounded to the even neighbor (Banker's rounding).

def round(digits : Number, base = 10, *, mode : RoundingMode = :ties_even)Source

Rounds this number to a given precision.

Rounds to the specified number of digits after the decimal place, (or before if negative), in base base.

The rounding mode controls the direction of the rounding. The default is RoundingMode::TIES_EVEN which rounds to the nearest integer, with ties (fractional value of 0.5) being rounded to the even neighbor (Banker's rounding).

-1763.116.round(2) # => -1763.12

def sign : Int32Source

Returns the sign of this number as an Int32.

  • -1 if this number is negative
  • 0 if this number is zero
  • 1 if this number is positive
123.sign # => 1
0.sign   # => 0
-42.sign # => -1

def significant(digits, base = 10)Source

Keeps digits significant digits of this number in the given base.

1234.567.significant(1) # => 1000
1234.567.significant(2) # => 1200
1234.567.significant(3) # => 1230
1234.567.significant(4) # => 1235
1234.567.significant(5) # => 1234.6
1234.567.significant(6) # => 1234.57
1234.567.significant(7) # => 1234.567
1234.567.significant(8) # => 1234.567

15.159.significant(1, base = 2) # => 16

def step(*, to limit = nil, exclusive : Bool = false, &) : NilSource

Performs a #step in the direction of the limit. For instance:

10.step(to: 5).to_a # => [10, 9, 8, 7, 6, 5]
5.step(to: 10).to_a # => [5, 6, 7, 8, 9, 10]

def step(*, to limit = nil, exclusive : Bool = false)Source

Performs a #step in the direction of the limit. For instance:

10.step(to: 5).to_a # => [10, 9, 8, 7, 6, 5]
5.step(to: 10).to_a # => [5, 6, 7, 8, 9, 10]

def to_big_f : BigFloatSource

def to_c : ComplexSource

def to_yaml(yaml : YAML::Nodes::Builder) : NilSource

def zero? : BoolSource

Returns true if self is equal to zero.

0.zero? # => true
5.zero? # => false

Macro Detail

macro [](*nums)Source

Creates an Array of self with the given values, which will be casted to this type with the new method (defined in each Number type).

floats = Float64[1, 2, 3, 4]
floats.class # => Array(Float64)

ints = Int64[1, 2, 3]
ints.class # => Array(Int64)

macro slice(*nums, read_only = false)Source

Creates a Slice of self with the given values, which will be casted to this type with the new method (defined in each Number type).

The slice is allocated on the heap.

floats = Float64.slice(1, 2, 3, 4)
floats.class # => Slice(Float64)

ints = Int64.slice(1, 2, 3)
ints.class # => Slice(Int64)

macro static_array(*nums)Source

Creates a StaticArray of self with the given values, which will be casted to this type with the new method (defined in each Number type).

floats = Float64.static_array(1, 2, 3, 4)
floats.class # => StaticArray(Float64, 4)

ints = Int64.static_array(1, 2, 3)
ints.class # => StaticArray(Int64, 3)

© 2012–2021 Manas Technology Solutions.
Licensed under the Apache License, Version 2.0.
https://crystal-lang.org/api/1.2.1/Number.html