package reparse-lwt-unix

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Reparse lwt-unix based input support

Install

Dune Dependency

Authors

Maintainers

Sources

reparse-v3.1.0.tbz
sha256=60e57fdac0ae0b68b41a0cb5bd50327c84b306d40f74e9c21925c08049703e1d
sha512=329be459bbf3f354119298fcf4ac22c1a400b9acd213267e732b76bcf2add81eb80c713aec2b007ba9a47ace075a67467c10e305fad7fd2a63a5456f668b35ab

README.md.html

Reparse

Reparse is a monadic, recursive descent based, comprehensive parser construction library for ocaml.

Reparse Documentation

Getting Started

$ opam install reparse

Add reparse to dune,

(executable # or library
  (name hello_world)
  (public_name hello_world)
  (libraries reparse))

Example - Calculator

A calculator is the hello world of parsers. Here is an implementation in Reparse which supports +,-,* and / operations.

# #require "reparse";;
open Reparse.String

type expr =
  | Int of int
  | Add of expr * expr
  | Sub of expr * expr
  | Mult of expr * expr
  | Div of expr * expr

let skip_spaces = skip space

let binop : 'a t -> char -> 'b t -> ('a -> 'b -> 'c) -> 'c t =
 fun exp1 op exp2 f ->
  (exp1, skip_spaces *> char op <* skip_spaces, exp2)
  <$$$> fun e1 _ e2 -> f e1 e2

let integer : expr t =
  let+ d = skip_spaces *> digits <* skip_spaces in
  Int (int_of_string d)

let factor : expr t -> expr t =
 fun expr ->
  any [ char '(' *> skip_spaces *> expr <* skip_spaces <* char ')'; integer ]

let term : expr t -> expr t =
 fun factor ->
  recur (fun term ->
      let mult = binop factor '*' term (fun e1 e2 -> Mult (e1, e2)) in
      let div = binop factor '/' term (fun e1 e2 -> Div (e1, e2)) in
      mult <|> div <|> factor)

let expr : expr t =
  recur (fun expr ->
      let factor = factor expr in
      let term = term factor in
      let add = binop term '+' expr (fun e1 e2 -> Add (e1, e2)) in
      let sub = binop term '-' expr (fun e1 e2 -> Sub (e1, e2)) in
      any [ add; sub; term ] <?> "expr")

let rec eval : expr -> int = function
  | Int i -> i
  | Add (e1, e2) -> eval e1 + eval e2
  | Sub (e1, e2) -> eval e1 - eval e2
  | Mult (e1, e2) -> eval e1 * eval e2
  | Div (e1, e2) -> eval e1 / eval e2
# let ast = parse (create_input_from_string "1*2-4+3") expr ;;
val ast : (expr * int, string) result =
  Ok (Sub (Mult (Int 1, Int 2), Add (Int 4, Int 3)), 7)

# eval @@ Result.get_ok (parse (create_input_from_string "12+1*10") expr);;
Line 1, characters 9-72:
Error: This expression has type expr * int
       but an expression was expected of type expr

More Examples

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