renamed mask_interrupt to ignore_interrupt;
renamed exhibit_interrupt to raise_interrupt;
tuned interrupt handling code;
(* Title: Pure/ML-Systems/polyml.ML
ID: $Id$
Author: Lawrence C Paulson, Cambridge University Computer Laboratory
Copyright 1991 University of Cambridge
Compatibility file for Poly/ML (version 4.0).
*)
(** ML system related **)
(* old Poly/ML emulation *)
local
val orig_exit = exit;
in
open PolyML;
val exit = orig_exit;
fun quit () = exit 0;
end;
(* restore old-style character / string functions *)
val ord = SML90.ord;
val chr = SML90.chr;
val explode = SML90.explode;
val implode = SML90.implode;
(*Note start point for timing*)
fun startTiming() =
let val CPUtimer = Timer.startCPUTimer();
val time = Timer.checkCPUTimer(CPUtimer)
in (CPUtimer,time) end;
(*Finish timing and return string*)
fun endTiming (CPUtimer, {sys,usr}) =
let open Time (*...for Time.toString, Time.+ and Time.- *)
val {sys=sys2,usr=usr2} = Timer.checkCPUTimer(CPUtimer)
in "User " ^ toString (usr2-usr) ^
" All "^ toString (sys2-sys + usr2-usr) ^
" secs"
handle Time => ""
end;
(* prompts *)
fun ml_prompts p1 p2 = (PolyML.Compiler.prompt1 := p1; PolyML.Compiler.prompt2 := p2);
(* toplevel pretty printing (see also Pure/install_pp.ML) *)
fun make_pp _ pprint (str, blk, brk, en) _ _ obj =
pprint obj (str, fn ind => blk (ind, false), fn wd => brk (wd, 0),
fn () => brk (99999, 0), en);
(* ML command execution -- 'eval' *)
local
fun drop_last [] = []
| drop_last [x] = []
| drop_last (x :: xs) = x :: drop_last xs;
val drop_last_char = implode o drop_last o explode;
in
fun use_text (print, err) verbose txt =
let
val in_buffer = ref (explode txt);
val out_buffer = ref ([]: string list);
fun output () = drop_last_char (implode (rev (! out_buffer)));
fun get () =
(case ! in_buffer of
[] => ""
| c :: cs => (in_buffer := cs; c));
fun put s = out_buffer := s :: ! out_buffer;
fun exec () =
(case ! in_buffer of
[] => ()
| _ => (PolyML.compiler (get, put) (); exec ()));
in
exec () handle exn => (err (output ()); raise exn);
if verbose then print (output ()) else ()
end;
end;
(** interrupts **)
exception Interrupt = SML90.Interrupt;
local
fun capture f x = ((f x): unit; NONE) handle exn => SOME exn;
fun release NONE = ()
| release (SOME exn) = raise exn;
val sig_int = 2;
fun change_signal new_handler f x =
let
(*RACE wrt. other signals*)
val old_handler = Signal.signal (sig_int, new_handler);
val result = capture f x;
val _ = Signal.signal (sig_int, old_handler);
in release result end;
val default_handler = Signal.SIG_HANDLE (fn _ => Process.interruptConsoleProcesses ());
in
val _ = Signal.signal (sig_int, default_handler);
fun ignore_interrupt f = change_signal Signal.SIG_IGN f;
fun raise_interrupt f = change_signal default_handler f;
end;
(** OS related **)
(* system command execution *)
(*execute Unix command which doesn't take any input from stdin and
sends its output to stdout; could be done more easily by Unix.execute,
but that function doesn't use the PATH*)
fun execute command =
let
val tmp_name = OS.FileSys.tmpName ();
val is = (OS.Process.system (command ^ " > " ^ tmp_name); TextIO.openIn tmp_name);
val result = TextIO.inputAll is;
in
TextIO.closeIn is;
OS.FileSys.remove tmp_name;
result
end;
(*plain version; with return code*)
fun system cmd =
if OS.Process.isSuccess (OS.Process.system cmd) then 0 else 1;
(* file handling *)
(*get time of last modification*)
fun file_info name = Time.toString (OS.FileSys.modTime name) handle _ => "";
(* getenv *)
fun getenv var =
(case OS.Process.getEnv var of
NONE => ""
| SOME txt => txt);