2017-05-11 18:11:15 +04:00
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ppx_let
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=======
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2017-03-06 21:40:22 +04:00
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2016-08-31 19:09:28 +04:00
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A ppx rewriter for monadic and applicative let bindings, match expressions, and
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if expressions.
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2016-01-12 21:20:06 +04:00
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Overview
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--------
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2016-08-31 19:09:28 +04:00
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The aim of this rewriter is to make monadic and applicative code look nicer by
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writing custom binders the same way that we normally bind variables. In OCaml,
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the common way to bind the result of a computation to a variable is:
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2016-01-12 21:20:06 +04:00
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```ocaml
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let VAR = EXPR in BODY
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```
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2016-08-31 19:09:28 +04:00
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ppx\_let simply adds two new binders: `let%bind` and `let%map`. These are
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rewritten into calls to the `bind` and `map` functions respectively. These
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functions are expected to have
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```ocaml
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val map : 'a t -> f:('a -> 'b) -> 'b t
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val bind : 'a t -> f:('a -> 'b t) -> 'b t
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```
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for some type `t`, as one might expect.
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2016-08-31 19:09:28 +04:00
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These functions are to be provided by the user, and are generally expected to be
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part of the signatures of monads and applicatives modules. This is the case for
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all monads and applicatives defined by the Jane Street's Core suite of
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libraries. (see the section below on getting the right names into scope).
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### Parallel bindings
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2016-04-07 01:26:23 +04:00
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ppx\_let understands parallel bindings as well. i.e.:
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```ocaml
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let%bind VAR1 = EXPR1 and VAR2 = EXPR2 and VAR3 = EXPR3 in BODY
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```
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2016-08-31 19:09:28 +04:00
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The `and` keyword is seen as a binding combination operator. To do so it expects
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the presence of a `both` function, that lifts the OCaml pair operation to the
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type `t` in question:
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```ocaml
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val both : 'a t -> 'b t -> ('a * 'b) t
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```
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### Match statements
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2016-08-31 19:09:28 +04:00
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We found that this form was quite useful for match statements as well. So for
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convenience ppx\_let also accepts `%bind` and `%map` on the `match` keyword.
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Morally `match%bind expr with cases` is seen as `let%bind x = expr in match x
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with cases`.
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### If statements
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As a further convenience, ppx\_let accepts `%bind` and `%map` on the `if`
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keyword. The expression `if%bind expr1 then expr2 else expr3` is morally
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equivalent to `let%bind p = expr1 in if p then expr2 else expr3`.
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Syntactic forms and actual rewriting
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------------------------------------
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`ppx_let` adds six syntactic forms
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```ocaml
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let%bind P = M in E
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let%map P = M in E
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match%bind M with P1 -> E1 | P2 -> E2 | ...
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match%map M with P1 -> E1 | P2 -> E2 | ...
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if%bind M then E1 else E2
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if%map M then E1 else E2
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```
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that expand into
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```ocaml
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bind M ~f:(fun P -> E)
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map M ~f:(fun P -> E)
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bind M ~f:(function P1 -> E1 | P2 -> E2 | ...)
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map M ~f:(function P1 -> E1 | P2 -> E2 | ...)
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bind M ~f:(function true -> E1 | false -> E2)
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map M ~f:(function true -> E1 | false -> E2)
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```
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respectively.
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2016-08-31 19:09:28 +04:00
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As with `let`, `let%bind` and `let%map` also support multiple *parallel*
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bindings via the `and` keyword:
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```ocaml
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let%bind P1 = M1 and P2 = M2 and P3 = M3 and P4 = M4 in E
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let%map P1 = M1 and P2 = M2 and P3 = M3 and P4 = M4 in E
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```
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that expand into
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```ocaml
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let x1 = M1 and x2 = M2 and x3 = M3 and x4 = M4 in
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bind
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(both x1 (both x2 (both x3 x4)))
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~f:(fun (P1, (P2, (P3, P4))) -> E)
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let x1 = M1 and x2 = M2 and x3 = M3 and x4 = M4 in
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map
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(both x1 (both x2 (both x3 x4)))
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~f:(fun (P1, (P2, (P3, P4))) -> E)
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```
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respectively. (Instead of `x1`, `x2`, ... ppx\_let uses variable names that are
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unlikely to clash with other names)
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2016-01-12 21:20:06 +04:00
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2016-08-31 19:09:28 +04:00
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As with `let`, names introduced by left-hand sides of the let bindings are not
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available in subsequent right-hand sides of the same sequence.
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Getting the right names in scope
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--------------------------------
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2016-08-31 19:09:28 +04:00
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The description of how the `%bind` and `%map` syntax extensions expand left out
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the fact that the names `bind`, `map`, `both`, and `return` are not used
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directly, but rather qualified by `Let_syntax`. For example, we use
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`Let_syntax.bind` rather than merely `bind`. This means one just needs to get a
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properly loaded `Let_syntax` module in scope to use `%bind` and `%map`.
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2016-01-12 21:20:06 +04:00
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2017-01-26 14:53:37 +04:00
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For monads, `Core.Monad.Make` produces a submodule `Let_syntax` of the
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appropriate form.
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2016-08-31 19:09:28 +04:00
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For applicatives. The convention for these modules is to have a submodule
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`Let_syntax` of the form
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```ocaml
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module Let_syntax : sig
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val return : 'a -> 'a t
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val map : 'a t -> f:('a -> 'b) -> 'b t
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val both : 'a t -> 'b t -> ('a * 'b) t
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module Open_on_rhs : << some signature >>
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end
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```
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2016-08-31 19:09:28 +04:00
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The `Open_on_rhs` submodule is used by variants of `%map` and `%bind` called
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`%map_open` and `%bind_open`. It is locally opened on the right hand sides of
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the rewritten let bindings in `%map_open` and `%bind_open` expressions. For
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`match%map_open` and `match%bind_open` expressions, `Open_on_rhs` is opened for
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the expression being matched on.
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`Open_on_rhs` is useful when programming with applicatives, which operate in a
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staged manner where the operators used to construct the applicatives are
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distinct from the operators used to manipulate the values those applicatives
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produce. For monads, `Open_on_rhs` contains `return`.
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