package travesty

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Monadically traversable containers

Install 

dune-project
 Dependency

mattwindsor91.github.io Readme Changelog Edit opam file Versions (8)

Authors

  1. M
    Matt Windsor <m.windsor@imperial.ac.uk>

Maintainers

  1. M
    Matt Windsor <m.windsor@imperial.ac.uk>

Sources

travesty-v0.6.0.tbz
sha256=64b136dadb5d7628dbdf5db18d4cae813a69f670979b028e5ce36db41c714064
sha512=086dbe8603047b549a0b97d9e8c3252ba71db0bd30bcb03eed24a86ad39ea52ee8118a29003bd20aea06d52b39e930e263d9a53215bfa58ea4bab7f856928add

doc/travesty.base_exts/Travesty_base_exts/Fn/index.html

Module Travesty_base_exts.Fn

Miscellaneous function combinators.

Fn contains various higher-order functions in the style of Base's Fn module.

Constant predicates

These are convenience shorthands for Base.Fn.const.

val always : 'a -> bool

always x is true.

val never : 'a -> bool

never x is false.

Pointwise liftings of operators

These complement Base.Fn.non.

val conj : ('a -> bool) -> ('a -> bool) -> 'a -> bool

conj f g lifts && over predicates f and g. It is short-circuiting: g is never called if f returns false.

Examples:

  let is_zero = Int.(conj is_non_negative is_non_positive)
  (* Short-circuiting: *)
  conj always (fun () -> failwith "oops") (); (* --> exception *)
  conj never  (fun () -> failwith "oops") (); (* --> false *)
val disj : ('a -> bool) -> ('a -> bool) -> 'a -> bool

disj f g lifts || over predicates f and g. It is short-circuiting: g is never called if f returns true.

Examples:

  let is_not_zero = Int.(disj is_negative is_positive)
  (* Short-circuiting: *)
  disj never  (fun () -> failwith "oops") (); (* --> exception *)
  disj always (fun () -> failwith "oops") (); (* --> false *)
val (&&&) : ('a -> bool) -> ('a -> bool) -> 'a -> bool

f &&& g is conj f g.

val (|||) : ('a -> bool) -> ('a -> bool) -> 'a -> bool

f ||| g is disj f g.

Miscellaneous combinators

val on : ('a -> 'b) -> 'a -> 'a -> f:('b -> 'b -> 'r) -> 'r

on lift x y ~f lifts a binary function f using the lifter lift. It does the same thing as the `on` function from Haskell, but with arguments flipped to make sense without infixing.

Effectively, it's Base.Comparable.lift, but with a slightly different signature.

Example:

  let ints = on fst    ~f:Int.equal (42, "banana") (42, "apple") in
  let strs = on snd ~f:String.equal (42, "banana") (42, "apple") in
  ints, strs (* --> true, false *)

F# style function composition operator

This is in a separate module to reduce the ambiguity caused by its use.

module Compose_syntax : sig ... end