(* Title: Pure/General/file.ML
Author: Makarius
File-system operations.
*)
signature FILE =
sig
val standard_path: Path.T -> string
val platform_path: Path.T -> string
val bash_path: Path.T -> string
val bash_paths: Path.T list -> string
val bash_platform_path: Path.T -> string
val absolute_path: Path.T -> Path.T
val full_path: Path.T -> Path.T -> Path.T
val tmp_path: Path.T -> Path.T
val exists: Path.T -> bool
val rm: Path.T -> unit
val is_dir: Path.T -> bool
val is_file: Path.T -> bool
val check_dir: Path.T -> Path.T
val check_file: Path.T -> Path.T
val open_dir: (OS.FileSys.dirstream -> 'a) -> Path.T -> 'a
val open_input: (BinIO.instream -> 'a) -> Path.T -> 'a
val open_output: (BinIO.outstream -> 'a) -> Path.T -> 'a
val open_append: (BinIO.outstream -> 'a) -> Path.T -> 'a
val fold_dir: (string -> 'a -> 'a) -> Path.T -> 'a -> 'a
val read_dir: Path.T -> string list
val input: BinIO.instream -> string
val input_size: int -> BinIO.instream -> string
val input_all: BinIO.instream -> string
val fold_lines: (string -> 'a -> 'a) -> Path.T -> 'a -> 'a
val fold_pages: (string -> 'a -> 'a) -> Path.T -> 'a -> 'a
val read_lines: Path.T -> string list
val read_pages: Path.T -> string list
val read: Path.T -> string
val write: Path.T -> string -> unit
val append: Path.T -> string -> unit
val generate: Path.T -> string -> unit
val output: BinIO.outstream -> string -> unit
val outputs: BinIO.outstream -> string list -> unit
val write_list: Path.T -> string list -> unit
val append_list: Path.T -> string list -> unit
val write_buffer: Path.T -> Buffer.T -> unit
val eq: Path.T * Path.T -> bool
end;
structure File: FILE =
struct
(* system path representations *)
val standard_path = Path.implode o Path.expand;
val platform_path = ML_System.platform_path o standard_path;
val bash_path = Bash.string o standard_path;
val bash_paths = Bash.strings o map standard_path;
val bash_platform_path = Bash.string o platform_path;
(* full_path *)
val absolute_path =
Path.expand #> (fn path =>
if Path.is_absolute path then path
else Path.explode (ML_System.standard_path (OS.FileSys.getDir ())) + path);
fun full_path dir path =
let
val path' = Path.expand path;
val _ = Path.is_current path' andalso error "Bad file specification";
in absolute_path (dir + path') end;
(* tmp_path *)
fun tmp_path path = Path.variable "ISABELLE_TMP" + Path.base path;
(* directory entries *)
val exists = can OS.FileSys.modTime o platform_path;
val rm = OS.FileSys.remove o platform_path;
fun test_dir path = the_default false (try OS.FileSys.isDir (platform_path path));
fun is_dir path = exists path andalso test_dir path;
fun is_file path = exists path andalso not (test_dir path);
fun check_dir path =
if is_dir path then path
else error ("No such directory: " ^ Path.print (Path.expand path));
fun check_file path =
if is_file path then path
else error ("No such file: " ^ Path.print (Path.expand path));
(* open streams *)
local
fun with_file open_file close_file f =
Thread_Attributes.uninterruptible (fn restore_attributes => fn path =>
let
val file = open_file path;
val result = Exn.capture (restore_attributes f) file;
in close_file file; Exn.release result end);
in
fun open_dir f = with_file OS.FileSys.openDir OS.FileSys.closeDir f o platform_path;
fun open_input f = with_file BinIO.openIn BinIO.closeIn f o platform_path;
fun open_output f = with_file BinIO.openOut BinIO.closeOut f o platform_path;
fun open_append f = with_file BinIO.openAppend BinIO.closeOut f o platform_path;
end;
(* directory content *)
fun fold_dir f path a =
check_dir path |> open_dir (fn stream =>
let
fun read x =
(case OS.FileSys.readDir stream of
NONE => x
| SOME entry => read (f entry x));
in read a end);
fun read_dir path = sort_strings (fold_dir cons path []);
(* input *)
val input = Byte.bytesToString o BinIO.input;
fun input_size n stream = Byte.bytesToString (BinIO.inputN (stream, n));
val input_all = Byte.bytesToString o BinIO.inputAll;
(*
scalable iterator:
. avoid size limit of TextIO.inputAll and overhead of many TextIO.inputLine
. optional terminator at end-of-input
*)
fun fold_chunks terminator f path a = open_input (fn file =>
let
fun read buf x =
(case input file of
"" => (case Buffer.content buf of "" => x | chunk => f chunk x)
| input =>
(case String.fields (fn c => c = terminator) input of
[rest] => read (Buffer.add rest buf) x
| chunk :: more => read_chunks more (f (Buffer.content (Buffer.add chunk buf)) x)))
and read_chunks [rest] x = read (Buffer.add rest Buffer.empty) x
| read_chunks (line :: more) x = read_chunks more (f line x);
in read Buffer.empty a end) path;
fun fold_lines f = fold_chunks #"\n" f;
fun fold_pages f = fold_chunks #"\f" f;
fun read_lines path = rev (fold_lines cons path []);
fun read_pages path = rev (fold_pages cons path []);
val read = open_input input_all;
(* output *)
fun output file txt = BinIO.output (file, Byte.stringToBytes txt);
val outputs = List.app o output;
fun output_list txts file = List.app (output file) txts;
fun write_list path txts = open_output (output_list txts) path;
fun append_list path txts = open_append (output_list txts) path;
fun write path txt = write_list path [txt];
fun append path txt = append_list path [txt];
fun generate path txt = if try read path = SOME txt then () else write path txt;
fun write_buffer path buf =
open_output (fn file => List.app (output file) (Buffer.contents buf)) path;
(* eq *)
fun eq paths =
(case try (apply2 (OS.FileSys.fileId o platform_path)) paths of
SOME ids => is_equal (OS.FileSys.compare ids)
| NONE => false);
end;