opam-version: "2.0"
maintainer: "Petter A. Urkedal <paurkedal@gmail.com>"
authors: "Petter A. Urkedal <paurkedal@gmail.com>"
license: "LGPL-3.0-only WITH OCaml-LGPL-linking-exception"
homepage: "https://github.com/paurkedal/ppx_compose"
bug-reports: "https://github.com/paurkedal/ppx_compose/issues"
depends: [
  "ocaml" {>= "4.02.3"}
  "dune" {>= "1.1"}
  "ocaml-migrate-parsetree" {>= "1.5.0" & < "2.0.0"}
]
build: [
  ["dune" "build" "-p" name "-j" jobs]
  ["dune" "runtest" "-p" name "-j" jobs] {with-test}
]
dev-repo: "git+https://github.com/paurkedal/ppx_compose.git"
synopsis: "Inlined function composition"
description: """
`ppx_compose` is a simple syntax extension which rewrites code containing
function compositions into composition-free code, effectively inlining the
composition operators.  The following two operators are supported

    let (%) g f x = g (f x)
    let (%>) f g x = g (f x)

Corresponding definitions are not provided, so partial applications of `(%)`
and `(%>)` will be undefined unless you provide the definitions.

The following rewrites are done:

  * A composition occurring to the left of an application is reduced by
    applying each term of the composition from right to left to the
    argument, ignoring associative variations.

  * A composition which is not the left side of an application is first
    turned into one by η-expansion, then the above rule applies.

  * Any partially applied composition operators are passed though unchanged.

E.g.

    h % g % f ==> (fun x -> h (f (g x)))
    h % (g % f) ==> (fun x -> h (f (g x)))
    (g % f) (h % h) ==> g (f (fun x -> h (h x)))
"""
url {
  src:
    "https://github.com/paurkedal/ppx_compose/releases/download/v0.1.0/ppx_compose-v0.1.0.tbz"
  checksum: [
    "sha256=87f063215e9f06d4433302f492fb35c72b25f09737ba748d9df3542f562f9a7f"
    "sha512=7c8c14f5b28c5173e74bec8176b59697cc1ec7f48ccbbab4656b083259fde6666b4399a74b13fc3605d50cb48ff4c11ff8b96fafa6ef4af5613eab5ccf5a49f1"
  ]
}