package alba
Alba compiler
Install
Dune Dependency
Authors
Maintainers
Sources
0.4.4.tar.gz
sha256=4817038301d3e45bac9edf7e6f2fc8bf0a6d78e76e02ad7ea33ef69bcc17df3b
md5=25234357587126685d64f16236167937
doc/src/alba.fmlib_native/native_io.ml.html
Source file native_io.ml
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Only a part of the buffer has been written!! *) reset b let get (b:t): char = assert (not (is_empty b)); let c = Bytes.get b.bytes b.rp in b.rp <- b.rp + 1; c let put_character (b:t) (c:char): unit = assert (is_ok b); if is_full b then flush b; assert (not (is_full b)); Bytes.set b.bytes b.wp c; b.wp <- b.wp + 1 module Read (W: WRITABLE) = struct let read (b: t) (w: W.t): W.t = let rec read w = if not (is_empty b) && W.needs_more w then read (W.put_character w (get b)) else w in read w end module Write (R: READABLE) = struct let write (b: t) (r: R.t): R.t = let rec write r = if not (is_full b) && R.has_more r then (put_character b (R.peek r); write (R.advance r)) else r in write r end end (* Buffer *) module File_system: sig type t val make: unit -> t val flush_all: t -> unit type in_file type out_file val stdin: in_file val stdout: out_file val stderr: out_file val flush: t -> out_file -> unit val open_for_read: t -> string -> in_file io_result val open_for_write: t -> string -> out_file io_result val create: t -> string -> out_file io_result val close_in: t -> in_file -> unit val close_out: t -> out_file -> unit module Read: functor (W:WRITABLE) -> sig val read_buffer: t -> in_file -> W.t -> W.t val read: t -> in_file -> W.t -> (W.t, W.t * Error.t) result end module Write: functor (R:READABLE) -> sig val write_buffer: t -> out_file -> R.t -> R.t val write: t -> out_file -> R.t -> R.t end end = struct type file = | Read of Unix.file_descr * Buffer.t | Write of Unix.file_descr * Buffer.t (*| Free of int*) type t = { mutable standard_files: file array; buffers: file Pool.t } type in_file = int type out_file = int let buffer_size = 4096 let unix_read (fd: Unix.file_descr) (b: Bytes.t) (ofs: int) (n: int) : int io_result = try Ok ( let nread = Unix.read fd b ofs n in nread ) with Unix.Unix_error (error, _, _) -> Error ( Error.make "NOCODE" (Unix.error_message error)) let unix_write (fd:Unix.file_descr) (b:Bytes.t) (ofs:int) (n:int): int = try Unix.write fd b ofs n with Unix.Unix_error _ -> 0 let readable_file (fd: Unix.file_descr): file = Read ( fd, Buffer.make buffer_size (unix_read fd) (fun _ _ _ -> assert false)) let writable_file (fd:Unix.file_descr): file = Write (fd, Buffer.make buffer_size (fun _ _ _ -> assert false) (unix_write fd)) let make (): t = { standard_files = [| readable_file Unix.stdin; writable_file Unix.stdout; writable_file Unix.stderr |]; buffers = Pool.make_empty (); } let iter (f: file -> unit) (fs: t): unit = f fs.standard_files.(0); f fs.standard_files.(1); f fs.standard_files.(2); Pool.iter f fs.buffers let get_file (fs: t) (fd: int): file = if fd < 3 then fs.standard_files.(fd) else ( assert (Pool.has fs.buffers (fd - 3)); Pool.elem fs.buffers (fd - 3) ) let writable_buffer (fs: t) (fd: int): Buffer.t = match get_file fs fd with | Write (_,b) -> b | _ -> assert false let readable_buffer (fs:t) (fd:int): Buffer.t = match get_file fs fd with | Read (_,b) -> b | _ -> assert false let close (fs: t) (fd: int): unit = assert (3 <= fd); (* standard files cannot be closed. *) assert (Pool.has fs.buffers (fd - 3)); let file = Pool.elem fs.buffers (fd - 3) in ( match file with | Read (unix_fd, _) -> Unix.close unix_fd | Write (unix_fd, buffer) -> Buffer.flush buffer; Unix.close unix_fd ); Pool.release fs.buffers (fd - 3) let open_for_read (fs: t) (path: string): in_file io_result = try let file = readable_file (Unix.openfile path [Unix.O_RDONLY] 0o640) in let fd = Pool.occupy fs.buffers file in Ok (fd + 3) with Unix.Unix_error (error, _, _) -> Error (Error.make "NOCODE" (Unix.error_message error)) let open_for_write (fs: t) (path: string): out_file io_result = try let file = writable_file (Unix.openfile path [Unix.O_WRONLY] 0o640) in let fd = Pool.occupy fs.buffers file in Ok (fd + 3) with Unix.Unix_error (error, _, _) -> Error (Error.make "NOCODE" (Unix.error_message error)) let create (fs: t) (path: string): out_file io_result = try let file = writable_file (Unix.openfile path [Unix.O_CREAT] 0o640) in let fd = Pool.occupy fs.buffers file in Ok fd with Unix.Unix_error (error, _, _) -> Error (Error.make "NOCODE" (Unix.error_message error)) let close_in (fs: t) (fd: in_file): unit = close fs fd let close_out (fs: t) (fd: out_file): unit = close fs fd let flush (fs:t) (fd:out_file) : unit = match get_file fs fd with | Write (_, b) -> Buffer.flush b | _ -> () let flush_all (fs: t): unit = iter (function | Write (_, b) -> Buffer.flush b | _ -> ()) fs let stdin: in_file = 0 let stdout: out_file = 1 let stderr: out_file = 2 module Read (W: WRITABLE) = struct module BR = Buffer.Read (W) let read_buffer (fs: t) (fd: in_file) (w: W.t): W.t = BR.read (readable_buffer fs fd) w let read (fs: t) (fd: in_file) (w: W.t): (W.t, W.t * Error.t) result = let b = readable_buffer fs fd in let rec read w = let more = W.needs_more w in if more && not (Buffer.is_empty b) then read (BR.read b w) else if more then ( match Buffer.fill b with | Error error -> Error (w, error) | Ok () -> if Buffer.is_ok b then read w else Ok (W.put_end w) ) else Ok w in read w end module Write (R: READABLE) = struct module BW = Buffer.Write (R) let write_buffer (fs:t) (fd:out_file) (r:R.t): R.t = BW.write (writable_buffer fs fd) r let write (fs:t) (fd:out_file) (r:R.t): R.t = let b = writable_buffer fs fd in let rec write r = let more = R.has_more r in if not (Buffer.is_full b) && more then write @@ BW.write b r else if Buffer.is_ok b && more then (Buffer.flush b; write r) else r in write r end end (* File_system *) module IO0: Make_io.SIG = struct type program = | More of (File_system.t * (File_system.t -> program)) | Done let rec execute_program: program -> unit = function | Done -> () | More (fs, f) -> execute_program (f fs) (* [f fs] does one execution step and returns the remainder of the program. *) (* The same as an iteration ======================== let execute_program (p:program): unit = let pref = ref p in while !pref <> Done do match !pref with | Done -> assert false (* cannot happen *) | More (fs, f) -> pref := f fs done *) type 'a cont = 'a -> File_system.t -> program module M = Monad.Of_sig_min( struct type 'a t = File_system.t -> 'a cont -> program let return (a:'a): 'a t = fun fs k -> k a fs let (>>=) (m:'a t) (f:'a -> 'b t): 'b t = fun fs k -> m fs (fun a fs -> More (fs, fun fs -> f a fs k)) end) include M type in_file = File_system.in_file type out_file = File_system.out_file let stdin: in_file = File_system.stdin let stdout: out_file = File_system.stdout let stderr: out_file = File_system.stderr let exit (code:int): 'a t = fun fs _ -> File_system.flush_all fs; Stdlib.exit code let execute (p:unit t): unit = let fs = File_system.make () in let _ = try execute_program (p fs (fun () _ -> Done)) with e -> File_system.flush_all fs; raise e in File_system.flush_all fs; Stdlib.exit 0 let command_line: string array t = fun fs k -> k Sys.argv fs let current_working_directory: string t = fun fs k -> k (Sys.getcwd ()) fs let path_separator: char = if Sys.win32 then '\\' else '/' let path_delimiter: char = if Sys.win32 then ';' else ':' let read_directory (path:string): string array option t = fun fs k -> k (try Some (Sys.readdir path) with _ -> None) fs let cli_prompt (prompt: string): string option t = fun fs k -> File_system.flush fs stdout; k (let res = LNoise.linenoise prompt in match res with | None -> res | Some str -> ignore (LNoise.history_add str); res) fs let cli_loop (state: 'a) (get_prompt: 'a -> string option) (next: 'a -> string -> 'a t) (stop: 'a -> 'a t) : 'a t = let rec loop state = match get_prompt state with | None -> return state | Some prompt_string -> cli_prompt prompt_string >>= function | None -> stop state | Some line -> next state line >>= loop in loop state let open_for_read (path: string): in_file io_result t = fun fs k -> k (File_system.open_for_read fs path) fs let open_for_write (path: string): out_file io_result t = fun fs k -> k (File_system.open_for_write fs path) fs let create (path: string): out_file io_result t = fun fs k -> k (File_system.create fs path) fs let close_in (fd: in_file): unit t = fun fs k -> k (File_system.close_in fs fd) fs let close_out (fd: out_file): unit t = fun fs k -> k (File_system.close_out fs fd) fs module Read (W: WRITABLE) = struct module FS_Read = File_system.Read (W) let read_buffer (fd:in_file) (w:W.t): W.t t = fun fs k -> k (FS_Read.read_buffer fs fd w) fs let read (fd:in_file) (w:W.t): (W.t, W.t * Error.t) result t = fun fs k -> k (FS_Read.read fs fd w) fs end module Write (R: READABLE) = struct module FS_Write = File_system.Write (R) let write_buffer (fd:out_file) (r:R.t): R.t t = fun fs k -> k (FS_Write.write_buffer fs fd r) fs let write (fd:out_file) (r:R.t): R.t t = fun fs k -> k (FS_Write.write fs fd r) fs end end (* IO0 *) module IO: Io.SIG = Make_io.Make (IO0)