src/Pure/ML-Systems/smlnj.ML
author wenzelm
Wed May 14 11:09:07 2008 +0200 (2008-05-14)
changeset 26885 cfd5eb167706
parent 26884 67c54c53da28
child 28151 61f9c918b410
permissions -rw-r--r--
use_file: pass str_of_pos;
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(*  Title:      Pure/ML-Systems/smlnj.ML
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    ID:         $Id$
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Compatibility file for Standard ML of New Jersey 110 or later.
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*)
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use "ML-Systems/proper_int.ML";
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use "ML-Systems/overloading_smlnj.ML";
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use "ML-Systems/exn.ML";
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use "ML-Systems/universal.ML";
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use "ML-Systems/multithreading.ML";
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use "ML-Systems/system_shell.ML";
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(*low-level pointer equality*)
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CM.autoload "$smlnj/init/init.cmi";
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val pointer_eq = InlineT.ptreql;
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(* restore old-style character / string functions *)
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val ord     = mk_int o SML90.ord;
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val chr     = SML90.chr o dest_int;
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val explode = SML90.explode;
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val implode = SML90.implode;
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(* New Jersey ML parameters *)
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val _ =
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 (Control.Print.printLength := 1000;
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  Control.Print.printDepth := 350;
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  Control.Print.stringDepth := 250;
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  Control.Print.signatures := 2;
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  Control.MC.matchRedundantError := false);
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(* Poly/ML emulation *)
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val exit = exit o dest_int;
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fun quit () = exit 0;
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(*limit the printing depth -- divided by 2 for comparibility with Poly/ML*)
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local
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  val depth = ref (10: int);
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in
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  fun get_print_depth () = ! depth;
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  fun print_depth n =
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   (depth := n;
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    Control.Print.printDepth := dest_int n div 2;
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    Control.Print.printLength := dest_int n);
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end;
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(* compiler-independent timing functions *)
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fun start_timing () =
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  let val CPUtimer = Timer.startCPUTimer();
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      val time = Timer.checkCPUTimer(CPUtimer)
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  in  (CPUtimer,time)  end;
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fun end_timing (CPUtimer, {sys,usr}) =
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  let open Time  (*...for Time.toString, Time.+ and Time.- *)
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      val {sys=sys2,usr=usr2} = Timer.checkCPUTimer(CPUtimer)
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  in  "User " ^ toString (usr2-usr) ^
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      "  All "^ toString (sys2-sys + usr2-usr) ^
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      " secs"
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      handle Time => ""
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  end;
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fun check_timer timer =
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  let
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    val {sys, usr} = Timer.checkCPUTimer timer;
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    val gc = Timer.checkGCTime timer;    (* FIXME already included in usr? *)
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  in (sys, usr, gc) end;
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(*prompts*)
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fun ml_prompts p1 p2 =
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  (Control.primaryPrompt := p1; Control.secondaryPrompt := p2);
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(*dummy implementation*)
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fun profile (n: int) f x = f x;
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(*dummy implementation*)
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fun exception_trace f = f ();
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(*dummy implementation*)
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fun print x = x;
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(*dummy implementation*)
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fun makestring x = "dummy string for SML New Jersey";
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(* toplevel pretty printing (see also Pure/pure_setup.ML) *)
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fun make_pp path pprint =
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  let
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    open PrettyPrint;
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    fun pp pps obj =
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      pprint obj
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        (string pps, openHOVBox pps o Rel o dest_int,
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          fn wd => break pps {nsp=dest_int wd, offset=0}, fn () => newline pps,
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          fn () => closeBox pps);
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  in (path, pp) end;
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fun install_pp (path, pp) = CompilerPPTable.install_pp path pp;
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(* ML command execution *)
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fun use_text (tune: string -> string) _ (line: int, name) (print, err) verbose txt =
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  let
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    val ref out_orig = Control.Print.out;
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    val out_buffer = ref ([]: string list);
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    val out = {say = (fn s => out_buffer := s :: ! out_buffer), flush = (fn () => ())};
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    fun output () =
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      let val str = implode (rev (! out_buffer))
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      in String.substring (str, 0, Int.max (0, size str - 1)) end;
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  in
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    Control.Print.out := out;
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    Backend.Interact.useStream (TextIO.openString (tune txt)) handle exn =>
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      (Control.Print.out := out_orig;
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        err ((if name = "" then "" else "Error in " ^ name ^ "\n") ^ output ()); raise exn);
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    Control.Print.out := out_orig;
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    if verbose then print (output ()) else ()
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  end;
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fun use_file tune str_of_pos output verbose name =
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  let
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    val instream = TextIO.openIn name;
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    val txt = Exn.release (Exn.capture TextIO.inputAll instream before TextIO.closeIn instream);
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  in use_text tune str_of_pos (1, name) output verbose txt end;
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fun forget_structure name =
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  use_text (fn x => x) (fn _ => "") (1, "ML") (TextIO.print, fn s => raise Fail s) false
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    ("structure " ^ name ^ " = struct end");
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(** interrupts **)
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exception Interrupt;
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local
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fun change_signal new_handler f x =
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  let
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    val old_handler = Signals.setHandler (Signals.sigINT, new_handler);
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    val result = Exn.capture (f old_handler) x;
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    val _ = Signals.setHandler (Signals.sigINT, old_handler);
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  in Exn.release result end;
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in
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fun interruptible (f: 'a -> 'b) x =
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  let
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    val result = ref (Exn.Exn Interrupt: 'b Exn.result);
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    val old_handler = Signals.inqHandler Signals.sigINT;
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  in
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    SMLofNJ.Cont.callcc (fn cont =>
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      (Signals.setHandler (Signals.sigINT, Signals.HANDLER (fn _ => cont));
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        result := Exn.capture f x));
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    Signals.setHandler (Signals.sigINT, old_handler);
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    Exn.release (! result)
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  end;
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fun uninterruptible f =
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  change_signal Signals.IGNORE
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    (fn old_handler => f (fn g => change_signal old_handler (fn _ => g)));
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end;
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(* basis library fixes *)
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structure TextIO =
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struct
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  open TextIO;
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  fun inputLine is = TextIO.inputLine is
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    handle IO.Io _ => raise Interrupt;
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end;
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(** Signal handling: emulation of the Poly/ML Signal structure. Note that types
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    Posix.Signal.signal and Signals.signal differ **)
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structure IsaSignal =
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struct
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datatype sig_handle = SIG_DFL | SIG_IGN | SIG_HANDLE of Signals.signal -> unit;
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(*From the SML/NJ documentation: "HANDLER(f) installs a handler for a
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  signal. When signal is delivered to the process, the execution state
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  of the current thread will be bundled up as a continuation k, then
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  f(signal,n,k) will be called. The number n is the number of times
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  signal has been signalled since the last time f was invoked for it."*)
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fun toAction SIG_DFL = Signals.DEFAULT
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  | toAction SIG_IGN = Signals.IGNORE
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  | toAction (SIG_HANDLE iu) =
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      Signals.HANDLER (fn (signo,_,cont) => (iu signo; cont));
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(*The types are correct, but I'm not sure about the semantics!*)
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fun fromAction Signals.DEFAULT = SIG_DFL
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  | fromAction Signals.IGNORE = SIG_IGN
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  | fromAction (Signals.HANDLER f) =
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      SIG_HANDLE (fn signo => SMLofNJ.Cont.callcc (fn k => (f (signo,0,k); ())));
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(*Poly/ML version has type  int * sig_handle -> sig_handle*)
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fun signal (signo, sh) = fromAction (Signals.setHandler (signo, toAction sh));
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val usr1 = UnixSignals.sigUSR1
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val usr2 = UnixSignals.sigUSR2
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val alrm = UnixSignals.sigALRM
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val chld = UnixSignals.sigCHLD
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val cont = UnixSignals.sigCONT
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val int = UnixSignals.sigINT
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val quit = UnixSignals.sigQUIT
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val term = UnixSignals.sigTERM
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end;
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(** OS related **)
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(* current directory *)
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val cd = OS.FileSys.chDir;
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val pwd = OS.FileSys.getDir;
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(* system command execution *)
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val system_out = (fn (output, rc) => (output, mk_int rc)) o system_out;
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(*Convert a process ID to a decimal string (chiefly for tracing)*)
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fun string_of_pid pid =
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  Word.fmt StringCvt.DEC (Word.fromLargeWord (Posix.Process.pidToWord pid));
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(* getenv *)
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fun getenv var =
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  (case OS.Process.getEnv var of
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    NONE => ""
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  | SOME txt => txt);