Source file monad_plus.ml
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module Core_via_bind (Req : Preface_specs.Monad_plus.WITH_BIND) = struct
include Monad.Core_via_return_and_bind (Req)
let combine = Req.combine
let neutral = Req.neutral
end
module Core_via_map_and_join (Req : Preface_specs.Monad_plus.WITH_MAP_AND_JOIN) =
struct
include Monad.Core_via_return_map_and_join (Req)
let combine = Req.combine
let neutral = Req.neutral
end
module Core_via_kleisli_composition
(Req : Preface_specs.Monad_plus.WITH_KLEISLI_COMPOSITION) =
struct
include Monad.Core_via_return_and_kleisli_composition (Req)
let combine = Req.combine
let neutral = Req.neutral
end
let filter' bind return neutral predicate m =
bind (fun x -> if predicate x then return x else neutral) m
;;
module Operation (Core : Preface_specs.Monad_plus.CORE) = struct
include Monad.Operation (Core)
include Alt.Operation (Core)
let times n x = Preface_core.Monoid.times Core.combine Core.neutral n x
let reduce list = Preface_core.Monoid.reduce Core.combine Core.neutral list
let filter predicate m =
filter' Core.bind Core.return Core.neutral predicate m
;;
end
module Operation_over_monad
(Monad : Preface_specs.MONAD)
(Req : Preface_specs.Monad_plus.WITH_NEUTRAL_AND_COMBINE
with type 'a t = 'a Monad.t) =
struct
include Monad
include Alt.Operation (struct
include Monad
include Req
end)
let times n x = Preface_core.Monoid.times Req.combine Req.neutral n x
let reduce list = Preface_core.Monoid.reduce Req.combine Req.neutral list
let filter predicate m =
filter' Monad.bind Monad.return Req.neutral predicate m
;;
end
module Syntax = Monad.Syntax
module Infix
(Core : Preface_specs.Monad_plus.CORE)
(Operation : Preface_specs.Monad_plus.OPERATION with type 'a t = 'a Core.t) =
struct
include Monad.Infix (Core) (Operation)
let ( <|> ) = Core.combine
end
module Via
(Core : Preface_specs.Monad_plus.CORE)
(Operation : Preface_specs.Monad_plus.OPERATION)
(Infix : Preface_specs.Monad_plus.INFIX)
(Syntax : Preface_specs.Monad_plus.SYNTAX) =
struct
include Core
include Operation
include Syntax
include Infix
module Syntax = Syntax
module Infix = Infix
end
module Via_bind (Req : Preface_specs.Monad_plus.WITH_BIND) = struct
module Core = Core_via_bind (Req)
module Operation = Operation (Core)
module Syntax = Syntax (Core)
module Infix = Infix (Core) (Operation)
include Core
include Operation
include Syntax
include Infix
end
module Via_map_and_join (Req : Preface_specs.Monad_plus.WITH_MAP_AND_JOIN) =
struct
module Core = Core_via_map_and_join (Req)
module Operation = Operation (Core)
module Syntax = Syntax (Core)
module Infix = Infix (Core) (Operation)
include Core
include Operation
include Syntax
include Infix
end
module Via_kleisli_composition
(Req : Preface_specs.Monad_plus.WITH_KLEISLI_COMPOSITION) =
struct
module Core = Core_via_kleisli_composition (Req)
module Operation = Operation (Core)
module Syntax = Syntax (Core)
module Infix = Infix (Core) (Operation)
include Core
include Operation
include Syntax
include Infix
end
module Over_monad
(Monad : Preface_specs.MONAD)
(Req : Preface_specs.Monad_plus.WITH_NEUTRAL_AND_COMBINE
with type 'a t = 'a Monad.t) =
Via
(struct
include Monad
let combine = Req.combine
let neutral = Req.neutral
end)
(Operation_over_monad (Monad) (Req))
(struct
include Monad.Infix
let ( <|> ) = Req.combine
end)
(Monad.Syntax)
module Over_monad_and_alternative
(Monad : Preface_specs.MONAD)
(Alternative : Preface_specs.ALTERNATIVE with type 'a t = 'a Monad.t) =
Over_monad (Monad) (Alternative)
module From_arrow_apply_and_arrow_plus
(A : Preface_specs.ARROW_APPLY)
(P : Preface_specs.ARROW_PLUS with type ('a, 'b) t = ('a, 'b) A.t) =
Over_monad_and_alternative
(Monad.From_arrow_apply (A)) (Alternative.From_arrow_plus (P))
module Product (F : Preface_specs.MONAD_PLUS) (G : Preface_specs.MONAD_PLUS) =
Over_monad
(Monad.Product (F) (G))
(struct
type 'a t = 'a F.t * 'a G.t
let neutral = (F.neutral, G.neutral)
let combine (x1, y1) (x2, y2) = (F.combine x1 x2, G.combine y1 y2)
end)