(*************************************************************************) (* *) (* OCaml LablTk library *) (* *) (* Jacques Garrigue, Kyoto University RIMS *) (* *) (* Copyright 1999 Institut National de Recherche en Informatique et *) (* en Automatique and Kyoto University. All rights reserved. *) (* This file is distributed under the terms of the GNU Library *) (* General Public License, with the special exception on linking *) (* described in file ../../../LICENSE. *) (* *) (*************************************************************************) (* $Id$ *) open StdLabels module Unix = UnixLabels open Tk open Jg_tk open Dummy (* Here again, memoize regexps *) let (~!) = Jg_memo.fast ~f:Str.regexp (* Nice history class. May reuse *) class ['a] history () = object val mutable history = ([] : 'a list) val mutable count = 0 method empty = history = [] method add s = count <- 0; history <- s :: history method previous = let s = List.nth history count in count <- (count + 1) mod List.length history; s method next = let l = List.length history in count <- (l + count - 1) mod l; List.nth history ((l + count - 1) mod l) end let dump_handle (h : Unix.file_descr) = let obj = Obj.repr h in if Obj.is_int obj || Obj.tag obj <> Obj.custom_tag then invalid_arg "Shell.dump_handle"; Nativeint.format "%x" (Obj.obj obj) (* The shell class. Now encapsulated *) let protect f x = try f x with _ -> () let is_win32 = Sys.os_type = "Win32" let use_threads = is_win32 let use_sigpipe = is_win32 class shell ~textw ~prog ~args ~env ~history = let (in2,out1) = Unix.pipe () and (in1,out2) = Unix.pipe () and (err1,err2) = Unix.pipe () and (sig2,sig1) = Unix.pipe () in object (self) val pid = let env = if use_sigpipe then let sigdef = "CAMLSIGPIPE=" ^ dump_handle sig2 in Array.append env [|sigdef|] else env in Unix.create_process_env ~prog ~args ~env ~stdin:in2 ~stdout:out2 ~stderr:err2 val out = Unix.out_channel_of_descr out1 val h : _ history = history val mutable alive = true val mutable reading = false val ibuffer = Buffer.create 1024 val imutex = Mutex.create () val mutable ithreads = [] method alive = alive method kill = if Winfo.exists textw then Text.configure textw ~state:`Disabled; if alive then begin alive <- false; protect close_out out; try if use_sigpipe then ignore (Unix.write sig1 ~buf:(Bytes.make 1 'T') ~pos:0 ~len:1); List.iter ~f:(protect Unix.close) [in1; err1; sig1; sig2]; if not use_threads then begin Fileevent.remove_fileinput ~fd:in1; Fileevent.remove_fileinput ~fd:err1; end; if not use_sigpipe then begin Unix.kill ~pid ~signal:Sys.sigkill; ignore (Unix.waitpid ~mode:[] pid) end with _ -> () end method interrupt = if alive then try reading <- false; if use_sigpipe then begin ignore (Unix.write sig1 ~buf:(Bytes.make 1 'C') ~pos:0 ~len:1); self#send " " end else Unix.kill ~pid ~signal:Sys.sigint with Unix.Unix_error _ -> () method send s = if alive then try output_string out s; flush out with Sys_error _ -> () method private read ~fd ~len = begin try let buf = Bytes.create len in let len = Unix.read fd ~buf ~pos:0 ~len in if len > 0 then begin self#insert (Bytes.sub_string buf ~pos:0 ~len); Text.mark_set textw ~mark:"input" ~index:(`Mark"insert",[`Char(-1)]) end; len with Unix.Unix_error _ -> 0 end; method history (dir : [`Next|`Previous]) = if not h#empty then begin if reading then begin Text.delete textw ~start:(`Mark"input",[`Char 1]) ~stop:(`Mark"insert",[]) end else begin reading <- true; Text.mark_set textw ~mark:"input" ~index:(`Mark"insert",[`Char(-1)]) end; self#insert (if dir = `Previous then h#previous else h#next) end method private lex ?(start = `Mark"insert",[`Linestart]) ?(stop = `Mark"insert",[`Lineend]) () = Lexical.tag textw ~start ~stop method insert text = let idx = Text.index textw ~index:(`Mark"insert",[`Char(-1);`Linestart]) in Text.insert textw ~text ~index:(`Mark"insert",[]); self#lex ~start:(idx,[`Linestart]) (); Text.see textw ~index:(`Mark"insert",[]) method private keypress c = if not reading && c > " " then begin reading <- true; Text.mark_set textw ~mark:"input" ~index:(`Mark"insert",[`Char(-1)]) end method private keyrelease c = if c <> "" then self#lex () method private return = if reading then reading <- false else Text.mark_set textw ~mark:"input" ~index:(`Mark"insert",[`Linestart;`Char 1]); Text.mark_set textw ~mark:"insert" ~index:(`Mark"insert",[`Lineend]); self#lex ~start:(`Mark"input",[`Linestart]) (); let s = (* input is one character before real input *) Text.get textw ~start:(`Mark"input",[`Char 1]) ~stop:(`Mark"insert",[]) in h#add s; Text.insert textw ~index:(`Mark"insert",[]) ~text:"\n"; Text.yview_index textw ~index:(`Mark"insert",[]); self#send s; self#send "\n" method private paste ev = if not reading then begin reading <- true; Text.mark_set textw ~mark:"input" ~index:(`Atxy(ev.ev_MouseX, ev.ev_MouseY),[`Char(-1)]) end initializer Lexical.init_tags textw; let rec bindings = [ ([], `KeyPress, [`Char], fun ev -> self#keypress ev.ev_Char); ([], `KeyRelease, [`Char], fun ev -> self#keyrelease ev.ev_Char); (* [], `KeyPressDetail"Return", [], fun _ -> self#return; *) ([], `ButtonPressDetail 2, [`MouseX; `MouseY], self#paste); ([`Alt], `KeyPressDetail"p", [], fun _ -> self#history `Previous); ([`Alt], `KeyPressDetail"n", [], fun _ -> self#history `Next); ([`Meta], `KeyPressDetail"p", [], fun _ -> self#history `Previous); ([`Meta], `KeyPressDetail"n", [], fun _ -> self#history `Next); ([`Control], `KeyPressDetail"c", [], fun _ -> self#interrupt); ([], `Destroy, [], fun _ -> self#kill) ] in List.iter bindings ~f: begin fun (modif,event,fields,action) -> bind textw ~events:[`Modified(modif,event)] ~fields ~action end; bind textw ~events:[`KeyPressDetail"Return"] ~breakable:true ~action:(fun _ -> self#return; break()); List.iter ~f:Unix.close [in2;out2;err2]; if use_threads then begin let fileinput_thread fd = let buf = Bytes.create 1024 in let len = ref 0 in try while len := Unix.read fd ~buf ~pos:0 ~len:1024; !len > 0 do Mutex.lock imutex; Buffer.add_subbytes ibuffer buf 0 !len; Mutex.unlock imutex done with Unix.Unix_error _ -> () in ithreads <- List.map [in1; err1] ~f:(Thread.create fileinput_thread); let rec read_buffer () = Mutex.lock imutex; if Buffer.length ibuffer > 0 then begin self#insert (Str.global_replace ~!"\r\n" "\n" (Buffer.contents ibuffer)); Buffer.reset ibuffer; Text.mark_set textw ~mark:"input" ~index:(`Mark"insert",[`Char(-1)]) end; Mutex.unlock imutex; Timer.set ~ms:100 ~callback:read_buffer in read_buffer () end else begin try List.iter [in1;err1] ~f: begin fun fd -> Fileevent.add_fileinput ~fd ~callback:(fun () -> ignore (self#read ~fd ~len:1024)) end with _ -> () end end (* Specific use of shell, for OCamlBrowser *) let shells : (string * shell) list ref = ref [] (* Called before exiting *) let kill_all () = List.iter !shells ~f:(fun (_,sh) -> if sh#alive then sh#kill); shells := [] let get_all () = let all = List.filter !shells ~f:(fun (_,sh) -> sh#alive) in shells := all; all let may_exec_unix prog = try Unix.access prog ~perm:[Unix.X_OK]; prog with Unix.Unix_error _ -> "" let may_exec_win prog = let has_ext = List.exists ~f:(Filename.check_suffix prog) ["exe"; "com"; "bat"] in if has_ext then may_exec_unix prog else List.fold_left [prog^".bat"; prog^".exe"; prog^".com"] ~init:"" ~f:(fun res prog -> if res = "" then may_exec_unix prog else res) let may_exec = if is_win32 then may_exec_win else may_exec_unix let path_sep = if is_win32 then ";" else ":" let warnings = ref Warnings.defaults_w let program_not_found prog = Jg_message.info ~title:"Error" ("Program \"" ^ prog ^ "\"\nwas not found in path") let protect_arg s = if String.contains s ' ' then "\"" ^ s ^ "\"" else s let f ~prog ~title = let progargs = List.filter ~f:((<>) "") (Str.split ~!" " prog) in if progargs = [] then () else let prog = List.hd progargs in let path = try Sys.getenv "PATH" with Not_found -> "/bin" ^ path_sep ^ "/usr/bin" in let exec_path = Str.split ~!path_sep path in let exec_path = if is_win32 then "."::exec_path else exec_path in let progpath = if not (Filename.is_implicit prog) then may_exec prog else List.fold_left exec_path ~init:"" ~f: (fun res dir -> if res = "" then may_exec (Filename.concat dir prog) else res) in if progpath = "" then program_not_found prog else let tl = Jg_toplevel.titled title in let menus = Menu.create tl ~name:"menubar" ~typ:`Menubar in Toplevel.configure tl ~menu:menus; let file_menu = new Jg_menu.c "File" ~parent:menus and history_menu = new Jg_menu.c "History" ~parent:menus and signal_menu = new Jg_menu.c "Signal" ~parent:menus in let frame, tw, sb = Jg_text.create_with_scrollbar tl in Text.configure tw ~background:`White; pack [sb] ~fill:`Y ~side:`Right; pack [tw] ~fill:`Both ~expand:true ~side:`Left; pack [frame] ~fill:`Both ~expand:true; let env = Array.map (Unix.environment ()) ~f: begin fun s -> if Str.string_match ~!"TERM=" s 0 then "TERM=dumb" else s end in let load_path = List2.flat_map !Config.load_path ~f:(fun dir -> ["-I"; dir]) in let load_path = if is_win32 then List.map ~f:protect_arg load_path else load_path in let labels = if !Clflags.classic then ["-nolabels"] else [] in let rectypes = if !Clflags.recursive_types then ["-rectypes"] else [] in let warnings = if List.mem "-w" progargs || !warnings = "Al" then [] else ["-w"; !warnings] in let args = Array.of_list (progargs @ labels @ warnings @ rectypes @ load_path) in let history = new history () in let start_shell () = let sh = new shell ~textw:tw ~prog:progpath ~env ~args ~history in shells := (title, sh) :: !shells; sh in let sh = ref (start_shell ()) in let current_dir = ref (Unix.getcwd ()) in file_menu#add_command "Restart" ~command: begin fun () -> (!sh)#kill; Text.configure tw ~state:`Normal; Text.insert tw ~index:(`End,[]) ~text:"\n"; Text.see tw ~index:(`End,[]); Text.mark_set tw ~mark:"insert" ~index:(`End,[]); sh := start_shell (); end; file_menu#add_command "Use..." ~command: begin fun () -> Fileselect.f ~title:"Use File" ~filter:"*.ml" ~sync:true ~dir:!current_dir () ~action:(fun l -> if l = [] then () else let name = Fileselect.caml_dir (List.hd l) in current_dir := Filename.dirname name; if Filename.check_suffix name ".ml" then let cmd = "#use \"" ^ String.escaped name ^ "\";;\n" in (!sh)#insert cmd; (!sh)#send cmd) end; file_menu#add_command "Load..." ~command: begin fun () -> Fileselect.f ~title:"Load File" ~filter:"*.cm[oa]" ~sync:true () ~dir:!current_dir ~action:(fun l -> if l = [] then () else let name = Fileselect.caml_dir (List.hd l) in current_dir := Filename.dirname name; if Filename.check_suffix name ".cmo" || Filename.check_suffix name ".cma" then let cmd = "#load \"" ^ String.escaped name ^ "\";;\n" in (!sh)#insert cmd; (!sh)#send cmd) end; file_menu#add_command "Import path" ~command: begin fun () -> List.iter (List.rev !Config.load_path) ~f: (fun dir -> (!sh)#send ("#directory \"" ^ String.escaped dir ^ "\";;\n")) end; file_menu#add_command "Close" ~command:(fun () -> destroy tl); history_menu#add_command "Previous " ~accelerator:"M-p" ~command:(fun () -> (!sh)#history `Previous); history_menu#add_command "Next" ~accelerator:"M-n" ~command:(fun () -> (!sh)#history `Next); signal_menu#add_command "Interrupt " ~accelerator:"C-c" ~command:(fun () -> (!sh)#interrupt); signal_menu#add_command "Kill" ~command:(fun () -> (!sh)#kill)