Data.Field
#Field
class (EuclideanRing a, DivisionRing a) <= Field a
The Field
class is for types that are (commutative) fields.
Mathematically, a field is a ring which is commutative and in which every
nonzero element has a multiplicative inverse; these conditions correspond
to the CommutativeRing
and DivisionRing
classes in PureScript
respectively. However, the Field
class has EuclideanRing
and
DivisionRing
as superclasses, which seems like a stronger requirement
(since CommutativeRing
is a superclass of EuclideanRing
). In fact, it
is not stronger, since any type which has law-abiding CommutativeRing
and DivisionRing
instances permits exactly one law-abiding
EuclideanRing
instance. We use a EuclideanRing
superclass here in
order to ensure that a Field
constraint on a function permits you to use
div
on that type, since div
is a member of EuclideanRing
.
This class has no laws or members of its own; it exists as a convenience, so a single constraint can be used when field-like behaviour is expected.
This module also defines a single Field
instance for any type which has
both EuclideanRing
and DivisionRing
instances. Any other instance
would overlap with this instance, so no other Field
instances should be
defined in libraries. Instead, simply define EuclideanRing
and
DivisionRing
instances, and this will permit your type to be used with a
Field
constraint.
Instances
(EuclideanRing a, DivisionRing a) => Field a
Re-exports from Data.CommutativeRing
#CommutativeRing
class (Ring a) <= CommutativeRing a
The CommutativeRing
class is for rings where multiplication is
commutative.
Instances must satisfy the following law in addition to the Ring
laws:
- Commutative multiplication:
a * b = b * a
Instances
CommutativeRing Int
CommutativeRing Number
CommutativeRing Unit
(CommutativeRing b) => CommutativeRing (a -> b)
(RowToList row list, CommutativeRingRecord list row row) => CommutativeRing (Record row)
CommutativeRing (Proxy a)
CommutativeRing (Proxy2 a)
CommutativeRing (Proxy3 a)
Re-exports from Data.DivisionRing
#DivisionRing
class (Ring a) <= DivisionRing a where
The DivisionRing
class is for non-zero rings in which every non-zero
element has a multiplicative inverse. Division rings are sometimes also
called skew fields.
Instances must satisfy the following laws in addition to the Ring
laws:
- Non-zero ring:
one /= zero
- Non-zero multiplicative inverse:
recip a * a = a * recip a = one
for all non-zeroa
The result of recip zero
is left undefined; individual instances may
choose how to handle this case.
If a type has both DivisionRing
and CommutativeRing
instances, then
it is a field and should have a Field
instance.
Members
recip :: a -> a
Instances
Re-exports from Data.EuclideanRing
#EuclideanRing
class (CommutativeRing a) <= EuclideanRing a where
The EuclideanRing
class is for commutative rings that support division.
The mathematical structure this class is based on is sometimes also called
a Euclidean domain.
Instances must satisfy the following laws in addition to the Ring
laws:
- Integral domain:
one /= zero
, and ifa
andb
are both nonzero then so is their producta * b
- Euclidean function
degree
:- Nonnegativity: For all nonzero
a
,degree a >= 0
- Quotient/remainder: For all
a
andb
, whereb
is nonzero, letq = a / b
andr = a `mod` b
; thena = q*b + r
, and also eitherr = zero
ordegree r < degree b
- Nonnegativity: For all nonzero
- Submultiplicative euclidean function:
- For all nonzero
a
andb
,degree a <= degree (a * b)
- For all nonzero
The behaviour of division by zero
is unconstrained by these laws,
meaning that individual instances are free to choose how to behave in this
case. Similarly, there are no restrictions on what the result of
degree zero
is; it doesn't make sense to ask for degree zero
in the
same way that it doesn't make sense to divide by zero
, so again,
individual instances may choose how to handle this case.
For any EuclideanRing
which is also a Field
, one valid choice
for degree
is simply const 1
. In fact, unless there's a specific
reason not to, Field
types should normally use this definition of
degree
.
The EuclideanRing Int
instance is one of the most commonly used
EuclideanRing
instances and deserves a little more discussion. In
particular, there are a few different sensible law-abiding implementations
to choose from, with slightly different behaviour in the presence of
negative dividends or divisors. The most common definitions are "truncating"
division, where the result of a / b
is rounded towards 0, and "Knuthian"
or "flooring" division, where the result of a / b
is rounded towards
negative infinity. A slightly less common, but arguably more useful, option
is "Euclidean" division, which is defined so as to ensure that a `mod` b
is always nonnegative. With Euclidean division, a / b
rounds towards
negative infinity if the divisor is positive, and towards positive infinity
if the divisor is negative. Note that all three definitions are identical if
we restrict our attention to nonnegative dividends and divisors.
In versions 1.x, 2.x, and 3.x of the Prelude, the EuclideanRing Int
instance used truncating division. As of 4.x, the EuclideanRing Int
instance uses Euclidean division. Additional functions quot
and rem
are
supplied if truncating division is desired.
Members
Instances
#lcm
lcm :: forall a. Eq a => EuclideanRing a => a -> a -> a
The least common multiple of two values.
#gcd
gcd :: forall a. Eq a => EuclideanRing a => a -> a -> a
The greatest common divisor of two values.
#(/)
Operator alias for Data.EuclideanRing.div (left-associative / precedence 7)
Re-exports from Data.Ring
#Ring
class (Semiring a) <= Ring a where
The Ring
class is for types that support addition, multiplication,
and subtraction operations.
Instances must satisfy the following laws in addition to the Semiring
laws:
- Additive inverse:
a - a = zero
- Compatibility of
sub
andnegate
:a - b = a + (zero - b)
Members
sub :: a -> a -> a
Instances
Re-exports from Data.Semiring
#Semiring
class Semiring a where
The Semiring
class is for types that support an addition and
multiplication operation.
Instances must satisfy the following laws:
- Commutative monoid under addition:
- Associativity:
(a + b) + c = a + (b + c)
- Identity:
zero + a = a + zero = a
- Commutative:
a + b = b + a
- Associativity:
- Monoid under multiplication:
- Associativity:
(a * b) * c = a * (b * c)
- Identity:
one * a = a * one = a
- Associativity:
- Multiplication distributes over addition:
- Left distributivity:
a * (b + c) = (a * b) + (a * c)
- Right distributivity:
(a + b) * c = (a * c) + (b * c)
- Left distributivity:
- Annihilation:
zero * a = a * zero = zero
Note: The Number
and Int
types are not fully law abiding
members of this class hierarchy due to the potential for arithmetic
overflows, and in the case of Number
, the presence of NaN
and
Infinity
values. The behaviour is unspecified in these cases.
Members
Instances
#(+)
Operator alias for Data.Semiring.add (left-associative / precedence 6)
#(*)
Operator alias for Data.Semiring.mul (left-associative / precedence 7)
Modules
- Attribute
- Control.Alt
- Control.Alternative
- Control.Applicative
- Control.Apply
- Control.Biapplicative
- Control.Biapply
- Control.Bind
- Control.Category
- Control.Comonad
- Control.Comonad.Cofree
- Control.Comonad.Cofree.Class
- Control.Comonad.Env
- Control.Comonad.Env.Class
- Control.Comonad.Env.Trans
- Control.Comonad.Store
- Control.Comonad.Store.Class
- Control.Comonad.Store.Trans
- Control.Comonad.Traced
- Control.Comonad.Traced.Class
- Control.Comonad.Traced.Trans
- Control.Comonad.Trans.Class
- Control.Extend
- Control.Lazy
- Control.Monad
- Control.Monad.Cont
- Control.Monad.Cont.Class
- Control.Monad.Cont.Trans
- Control.Monad.Error.Class
- Control.Monad.Except
- Control.Monad.Except.Trans
- Control.Monad.Free
- Control.Monad.Free.Class
- Control.Monad.Gen
- Control.Monad.Gen.Class
- Control.Monad.Gen.Common
- Control.Monad.Identity.Trans
- Control.Monad.List.Trans
- Control.Monad.Maybe.Trans
- Control.Monad.RWS
- Control.Monad.RWS.Trans
- Control.Monad.Reader
- Control.Monad.Reader.Class
- Control.Monad.Reader.Trans
- Control.Monad.Rec.Class
- Control.Monad.State
- Control.Monad.State.Class
- Control.Monad.State.Trans
- Control.Monad.Trampoline
- Control.Monad.Trans.Class
- Control.Monad.Writer
- Control.Monad.Writer.Class
- Control.Monad.Writer.Trans
- Control.MonadPlus
- Control.MonadZero
- Control.Parallel
- Control.Parallel.Class
- Control.Plus
- Control.Semigroupoid
- ConvertableOptions
- Cowboy.Static
- Data.Align
- Data.Array
- Data.Array.NonEmpty
- Data.Array.NonEmpty.Internal
- Data.Array.Partial
- Data.Bifoldable
- Data.Bifunctor
- Data.Bifunctor.Join
- Data.Bitraversable
- Data.Boolean
- Data.BooleanAlgebra
- Data.Bounded
- Data.Bounded.Generic
- Data.CatList
- Data.CatQueue
- Data.Char
- Data.Char.Gen
- Data.CodePoint.Unicode
- Data.CodePoint.Unicode.Internal
- Data.CodePoint.Unicode.Internal.Casing
- Data.CommutativeRing
- Data.Compactable
- Data.Comparison
- Data.Const
- Data.Coyoneda
- Data.Date
- Data.Date.Component
- Data.Date.Component.Gen
- Data.Date.Gen
- Data.DateTime
- Data.DateTime.Gen
- Data.DateTime.Instant
- Data.DateTime.Parsing
- Data.Decidable
- Data.Decide
- Data.Distributive
- Data.Divide
- Data.Divisible
- Data.DivisionRing
- Data.Either
- Data.Either.Inject
- Data.Either.Nested
- Data.Enum
- Data.Enum.Gen
- Data.Enum.Generic
- Data.Eq
- Data.Eq.Generic
- Data.Equivalence
- Data.EuclideanRing
- Data.Exists
- Data.Field
- Data.Filterable
- Data.FingerTree
- Data.FingerTree.Digit
- Data.Foldable
- Data.FoldableWithIndex
- Data.Formatter.DateTime
- Data.Formatter.Internal
- Data.Formatter.Interval
- Data.Formatter.Number
- Data.Formatter.Parser.Interval
- Data.Formatter.Parser.Number
- Data.Formatter.Parser.Utils
- Data.Function
- Data.Function.Uncurried
- Data.Functor
- Data.Functor.App
- Data.Functor.Clown
- Data.Functor.Compose
- Data.Functor.Contravariant
- Data.Functor.Coproduct
- Data.Functor.Coproduct.Inject
- Data.Functor.Coproduct.Nested
- Data.Functor.Costar
- Data.Functor.Flip
- Data.Functor.Invariant
- Data.Functor.Joker
- Data.Functor.Product
- Data.Functor.Product.Nested
- Data.Functor.Product2
- Data.Functor.Variant
- Data.FunctorWithIndex
- Data.Generic.Rep
- Data.Graph
- Data.HeytingAlgebra
- Data.HeytingAlgebra.Generic
- Data.Identity
- Data.Int
- Data.Int.Bits
- Data.Interval
- Data.Interval.Duration
- Data.Interval.Duration.Iso
- Data.Lazy
- Data.Lens
- Data.Lens.AffineTraversal
- Data.Lens.At
- Data.Lens.Common
- Data.Lens.Fold
- Data.Lens.Fold.Partial
- Data.Lens.Getter
- Data.Lens.Grate
- Data.Lens.Index
- Data.Lens.Indexed
- Data.Lens.Internal.Bazaar
- Data.Lens.Internal.Exchange
- Data.Lens.Internal.Focusing
- Data.Lens.Internal.Forget
- Data.Lens.Internal.Grating
- Data.Lens.Internal.Indexed
- Data.Lens.Internal.Market
- Data.Lens.Internal.Re
- Data.Lens.Internal.Shop
- Data.Lens.Internal.Stall
- Data.Lens.Internal.Tagged
- Data.Lens.Internal.Wander
- Data.Lens.Internal.Zipping
- Data.Lens.Iso
- Data.Lens.Iso.Newtype
- Data.Lens.Lens
- Data.Lens.Lens.Product
- Data.Lens.Lens.Tuple
- Data.Lens.Lens.Unit
- Data.Lens.Lens.Void
- Data.Lens.Prism
- Data.Lens.Prism.Coproduct
- Data.Lens.Prism.Either
- Data.Lens.Prism.Maybe
- Data.Lens.Record
- Data.Lens.Setter
- Data.Lens.Traversal
- Data.Lens.Types
- Data.Lens.Zoom
- Data.List
- Data.List.Internal
- Data.List.Lazy
- Data.List.Lazy.NonEmpty
- Data.List.Lazy.Types
- Data.List.NonEmpty
- Data.List.Partial
- Data.List.Types
- Data.List.ZipList
- Data.Map
- Data.Map.Gen
- Data.Map.Internal
- Data.Maybe
- Data.Maybe.First
- Data.Maybe.Last
- Data.MediaType
- Data.MediaType.Common
- Data.Monoid
- Data.Monoid.Additive
- Data.Monoid.Alternate
- Data.Monoid.Conj
- Data.Monoid.Disj
- Data.Monoid.Dual
- Data.Monoid.Endo
- Data.Monoid.Generic
- Data.Monoid.Multiplicative
- Data.NaturalTransformation
- Data.Newtype
- Data.NonEmpty
- Data.Nullable
- Data.Number
- Data.Number.Approximate
- Data.Number.Format
- Data.Op
- Data.Ord
- Data.Ord.Down
- Data.Ord.Generic
- Data.Ord.Max
- Data.Ord.Min
- Data.Ordering
- Data.Predicate
- Data.Profunctor
- Data.Profunctor.Choice
- Data.Profunctor.Closed
- Data.Profunctor.Cochoice
- Data.Profunctor.Costrong
- Data.Profunctor.Join
- Data.Profunctor.Split
- Data.Profunctor.Star
- Data.Profunctor.Strong
- Data.Ratio
- Data.Rational
- Data.Ring
- Data.Ring.Generic
- Data.Semigroup
- Data.Semigroup.First
- Data.Semigroup.Foldable
- Data.Semigroup.Generic
- Data.Semigroup.Last
- Data.Semigroup.Traversable
- Data.Semiring
- Data.Semiring.Free
- Data.Semiring.Generic
- Data.Sequence
- Data.Sequence.Internal
- Data.Sequence.NonEmpty
- Data.Sequence.Ordered
- Data.Set
- Data.Set.NonEmpty
- Data.Show
- Data.Show.Generic
- Data.String
- Data.String.CaseInsensitive
- Data.String.CodePoints
- Data.String.CodeUnits
- Data.String.Common
- Data.String.Gen
- Data.String.NonEmpty
- Data.String.NonEmpty.CaseInsensitive
- Data.String.NonEmpty.CodePoints
- Data.String.NonEmpty.CodeUnits
- Data.String.NonEmpty.Internal
- Data.String.Pattern
- Data.String.Regex
- Data.String.Regex.Flags
- Data.String.Regex.Unsafe
- Data.String.Unicode
- Data.String.Unsafe
- Data.Symbol
- Data.These
- Data.These.Gen
- Data.Time
- Data.Time.Component
- Data.Time.Component.Gen
- Data.Time.Duration
- Data.Time.Duration.Gen
- Data.Time.Gen
- Data.Traversable
- Data.Traversable.Accum
- Data.Traversable.Accum.Internal
- Data.TraversableWithIndex
- Data.Tuple
- Data.Tuple.Nested
- Data.Undefinable
- Data.Unfoldable
- Data.Unfoldable1
- Data.Unit
- Data.Validation.Semigroup
- Data.Validation.Semiring
- Data.Variant
- Data.Variant.Internal
- Data.Void
- Data.Witherable
- Data.Yoneda
- Debug
- Effect
- Effect.Class
- Effect.Class.Console
- Effect.Console
- Effect.Exception
- Effect.Exception.Unsafe
- Effect.Random
- Effect.Ref
- Effect.Uncurried
- Effect.Unsafe
- Erl.Atom
- Erl.Atom.Symbol
- Erl.Cowboy
- Erl.Cowboy.Handler
- Erl.Cowboy.Handlers.Common
- Erl.Cowboy.Handlers.Loop
- Erl.Cowboy.Handlers.Rest
- Erl.Cowboy.Handlers.Simple
- Erl.Cowboy.Handlers.WebSocket
- Erl.Cowboy.Req
- Erl.Cowboy.Req.Monad
- Erl.Cowboy.Routes
- Erl.Data.Binary
- Erl.Data.Binary.IOData
- Erl.Data.Binary.IOList
- Erl.Data.Binary.Type
- Erl.Data.Binary.UTF16
- Erl.Data.Binary.UTF32
- Erl.Data.Binary.UTF8
- Erl.Data.Bitstring
- Erl.Data.Bitstring.Type
- Erl.Data.Jsone
- Erl.Data.Jsone.Decode
- Erl.Data.Jsone.Decode.Class
- Erl.Data.Jsone.Decode.Combinators
- Erl.Data.Jsone.Encode
- Erl.Data.Jsone.Encode.Class
- Erl.Data.Jsone.Encode.Combinators
- Erl.Data.Jsone.Parser
- Erl.Data.Jsone.Printer
- Erl.Data.List
- Erl.Data.List.NonEmpty
- Erl.Data.List.Types
- Erl.Data.Map
- Erl.Data.Queue
- Erl.Data.Queue.Types
- Erl.Data.Tuple
- Erl.File
- Erl.FileLib
- Erl.Gun
- Erl.Gun.WsGun
- Erl.Kernel.Application
- Erl.Kernel.Erlang
- Erl.Kernel.Ets
- Erl.Kernel.Exceptions
- Erl.Kernel.File
- Erl.Kernel.Inet
- Erl.Kernel.Os
- Erl.Kernel.Tcp
- Erl.Kernel.Time
- Erl.Kernel.Udp
- Erl.ModuleName
- Erl.ModuleName.Symbol
- Erl.Otp.Types.Crypto
- Erl.Otp.Types.PublicKey
- Erl.Otp.Types.Stdlib
- Erl.Process
- Erl.Process.Raw
- Erl.Ranch
- Erl.Ranch.Transport
- Erl.Ssl
- Erl.StandardResult
- Erl.Test.EUnit
- Erl.Tests.EUnit.Discovery
- Erl.Types
- Erl.Untagged.Union
- ExpectInferred
- Foreign
- Foreign.Index
- Foreign.Keys
- Heterogeneous.Folding
- Heterogeneous.Mapping
- JSURI
- Lager
- Logger
- Math
- NativeRef
- OpenTelemetry
- OpenTelemetry.Metrics
- OpenTelemetry.Metrics.Counter
- OpenTelemetry.Metrics.Meter
- OpenTelemetry.Metrics.SumObserver
- OpenTelemetry.Metrics.UpDownCounter
- OpenTelemetry.Metrics.UpDownSumObserver
- OpenTelemetry.Metrics.ValueObserver
- OpenTelemetry.Metrics.ValueRecorder
- OpenTelemetry.Tracing
- OpenTelemetry.Tracing.Baggage
- OpenTelemetry.Tracing.Ctx
- OpenTelemetry.Tracing.Propagator.TextMap
- OpenTelemetry.Tracing.Span
- OpenTelemetry.Tracing.Tracer
- PSCI.Support
- Partial
- Partial.Unsafe
- Pathy
- Pathy.Gen
- Pathy.Name
- Pathy.Parser
- Pathy.Path
- Pathy.Phantom
- Pathy.Printer
- Pathy.Sandboxed
- Pinto
- Pinto.App
- Pinto.GenServer
- Pinto.GenStatem
- Pinto.MessageRouting
- Pinto.ModuleNames
- Pinto.Monitor
- Pinto.Supervisor
- Pinto.Supervisor.SimpleOneForOne
- Pinto.Timer
- Pinto.Types
- Prelude
- Prim
- Prim.Boolean
- Prim.Coerce
- Prim.Int
- Prim.Ordering
- Prim.Row
- Prim.RowList
- Prim.Symbol
- Prim.TypeError
- PureScript.Metadata
- Random.LCG
- Record
- Record.Builder
- Record.Prefix
- Record.Unsafe
- Record.Unsafe.Union
- Routing.Duplex
- Routing.Duplex.Generic
- Routing.Duplex.Generic.Syntax
- Routing.Duplex.Parser
- Routing.Duplex.Printer
- Routing.Duplex.Types
- RoutingDuplexMiddleware
- Safe.Coerce
- Simple.JSON
- Simple.JSON.Generics
- Simple.JSON.Generics.EnumSumRep
- Simple.JSON.Generics.TaggedSumRep
- Simple.JSON.Generics.UntaggedProductRep
- Simple.JSON.Generics.UntaggedSumRep
- SimpleBus
- Stetson
- Stetson.HandlerProxy
- Stetson.Loop
- Stetson.ModuleNames
- Stetson.Rest
- Stetson.Routing
- Stetson.Types
- Stetson.Utils
- Stetson.WebSocket
- Test.Assert
- Test.QuickCheck
- Test.QuickCheck.Arbitrary
- Test.QuickCheck.Gen
- Test.QuickCheck.Laws
- Test.QuickCheck.Laws.Control
- Test.QuickCheck.Laws.Control.Align
- Test.QuickCheck.Laws.Control.Alignable
- Test.QuickCheck.Laws.Control.Alt
- Test.QuickCheck.Laws.Control.Alternative
- Test.QuickCheck.Laws.Control.Applicative
- Test.QuickCheck.Laws.Control.Apply
- Test.QuickCheck.Laws.Control.Bind
- Test.QuickCheck.Laws.Control.Category
- Test.QuickCheck.Laws.Control.Comonad
- Test.QuickCheck.Laws.Control.Crosswalk
- Test.QuickCheck.Laws.Control.Extend
- Test.QuickCheck.Laws.Control.Monad
- Test.QuickCheck.Laws.Control.MonadPlus
- Test.QuickCheck.Laws.Control.MonadZero
- Test.QuickCheck.Laws.Control.Plus
- Test.QuickCheck.Laws.Control.Semigroupoid
- Test.QuickCheck.Laws.Data
- Test.QuickCheck.Laws.Data.BooleanAlgebra
- Test.QuickCheck.Laws.Data.Bounded
- Test.QuickCheck.Laws.Data.BoundedEnum
- Test.QuickCheck.Laws.Data.CommutativeRing
- Test.QuickCheck.Laws.Data.DivisionRing
- Test.QuickCheck.Laws.Data.Eq
- Test.QuickCheck.Laws.Data.EuclideanRing
- Test.QuickCheck.Laws.Data.Field
- Test.QuickCheck.Laws.Data.Foldable
- Test.QuickCheck.Laws.Data.Functor
- Test.QuickCheck.Laws.Data.FunctorWithIndex
- Test.QuickCheck.Laws.Data.HeytingAlgebra
- Test.QuickCheck.Laws.Data.Monoid
- Test.QuickCheck.Laws.Data.Ord
- Test.QuickCheck.Laws.Data.Ring
- Test.QuickCheck.Laws.Data.Semigroup
- Test.QuickCheck.Laws.Data.Semiring
- Text.Parsing.Indent
- Text.Parsing.Parser
- Text.Parsing.Parser.Combinators
- Text.Parsing.Parser.Expr
- Text.Parsing.Parser.Language
- Text.Parsing.Parser.Pos
- Text.Parsing.Parser.String
- Text.Parsing.Parser.Token
- Tracing.Attributes
- Type.Data.Boolean
- Type.Data.Ordering
- Type.Data.Row
- Type.Data.RowList
- Type.Data.Symbol
- Type.Equality
- Type.Function
- Type.Prelude
- Type.Proxy
- Type.Row
- Type.Row.Homogeneous
- Type.RowList
- URI
- URI.AbsoluteURI
- URI.Authority
- URI.Common
- URI.Extra.MultiHostPortPair
- URI.Extra.QueryPairs
- URI.Extra.UserPassInfo
- URI.Fragment
- URI.HierarchicalPart
- URI.Host
- URI.Host.Gen
- URI.Host.IPv4Address
- URI.Host.IPv6Address
- URI.Host.RegName
- URI.HostPortPair
- URI.HostPortPair.Gen
- URI.Path
- URI.Path.Absolute
- URI.Path.NoScheme
- URI.Path.Rootless
- URI.Path.Segment
- URI.Port
- URI.Port.Gen
- URI.Query
- URI.RelativePart
- URI.RelativeRef
- URI.Scheme
- URI.Scheme.Common
- URI.URI
- URI.URIRef
- URI.UserInfo
- Unsafe.Coerce
- Unsafe.Reference