ocaml/toplevel/toploop.ml

313 lines
9.5 KiB
OCaml

(***********************************************************************)
(* *)
(* Objective Caml *)
(* *)
(* Xavier Leroy, projet Cristal, INRIA Rocquencourt *)
(* *)
(* Copyright 1996 Institut National de Recherche en Informatique et *)
(* Automatique. Distributed only by permission. *)
(* *)
(***********************************************************************)
(* $Id$ *)
(* The interactive toplevel loop *)
open Lexing
open Format
open Config
open Misc
open Parsetree
open Types
open Typedtree
open Printval
type directive_fun =
Directive_none of (unit -> unit)
| Directive_string of (string -> unit)
| Directive_int of (int -> unit)
| Directive_ident of (Longident.t -> unit)
(* Hooks for parsing functions *)
let parse_toplevel_phrase = ref Parse.toplevel_phrase
let parse_use_file = ref Parse.use_file
let print_location = Location.print
let print_warning = Location.print_warning
let input_name = Location.input_name
(* Load in-core and execute a lambda term *)
type evaluation_outcome = Result of Obj.t | Exception of exn
let load_lambda lam =
if !Clflags.dump_rawlambda then begin
Printlambda.lambda lam; print_newline()
end;
let slam = Simplif.simplify_lambda lam in
if !Clflags.dump_lambda then begin
Printlambda.lambda slam; print_newline()
end;
let (init_code, fun_code) = Bytegen.compile_phrase slam in
if !Clflags.dump_instr then begin
Printinstr.instrlist init_code;
Printinstr.instrlist fun_code;
print_newline()
end;
let (code, code_size, reloc) = Emitcode.to_memory init_code fun_code in
let can_free = (fun_code = []) in
let initial_symtable = Symtable.current_state() in
Symtable.patch_object code reloc;
Symtable.update_global_table();
try
let retval = (Meta.reify_bytecode code code_size) () in
if can_free then Meta.static_free code;
Result retval
with x ->
if can_free then Meta.static_free code;
Symtable.restore_state initial_symtable;
Exception x
(* Print the outcome of an evaluation *)
let rec print_items env = function
Tsig_value(id, decl)::rem ->
open_box 2;
begin match decl.val_kind with
Val_prim p ->
print_string "external "; Printtyp.ident id;
print_string " :"; print_space();
Printtyp.type_scheme decl.val_type; print_space();
print_string "= "; Primitive.print_description p
| _ ->
print_string "val "; Printtyp.ident id;
print_string " :"; print_space();
Printtyp.type_scheme decl.val_type;
print_string " ="; print_space();
print_value env (Symtable.get_global_value id) decl.val_type
end;
close_box();
print_space (); print_items env rem
| Tsig_type(id, decl)::rem ->
Printtyp.type_declaration id decl;
print_space (); print_items env rem
| Tsig_exception(id, decl)::rem ->
Printtyp.exception_declaration id decl;
print_space (); print_items env rem
| Tsig_module(id, mty)::rem ->
open_box 2; print_string "module "; Printtyp.ident id;
print_string " :"; print_space(); Printtyp.modtype mty; close_box();
print_space (); print_items env rem
| Tsig_modtype(id, decl)::rem ->
Printtyp.modtype_declaration id decl;
print_space (); print_items env rem
| Tsig_class(id, decl)::tydecl1::tydecl2::rem ->
Printtyp.class_type id decl;
print_space (); print_items env rem
| _ ->
()
(* Print an exception produced by an evaluation *)
let print_exception_outcome = function
Sys.Break ->
print_string "Interrupted."; print_newline()
| Out_of_memory ->
Gc.full_major();
print_string "Out of memory during evaluation.";
print_newline()
| Stack_overflow ->
print_string "Stack overflow during evaluation (looping recursion?).";
print_newline();
| exn ->
open_box 0;
print_string "Uncaught exception: ";
print_exception (Obj.repr exn);
print_newline()
(* The table of toplevel directives.
Filled by functions from module topdirs. *)
let directive_table = (Hashtbl.create 13 : (string, directive_fun) Hashtbl.t)
(* Execute a toplevel phrase *)
let toplevel_env = ref Env.empty
let execute_phrase print_outcome phr =
match phr with
Ptop_def sstr ->
let (str, sg, newenv) = Typemod.type_structure !toplevel_env sstr in
let lam = Translmod.transl_toplevel_definition str in
let res = load_lambda lam in
begin match res with
Result v ->
if print_outcome then begin
match str with
[Tstr_eval exp] ->
open_box 0;
print_string "- : ";
Printtyp.type_scheme exp.exp_type;
print_space(); print_string "="; print_space();
print_value newenv v exp.exp_type;
close_box();
print_newline()
| _ ->
open_vbox 0;
print_items newenv sg;
close_box();
print_flush()
end;
toplevel_env := newenv;
true
| Exception exn ->
print_exception_outcome exn;
false
end
| Ptop_dir(dir_name, dir_arg) ->
try
match (Hashtbl.find directive_table dir_name, dir_arg) with
(Directive_none f, Pdir_none) -> f (); true
| (Directive_string f, Pdir_string s) -> f s; true
| (Directive_int f, Pdir_int n) -> f n; true
| (Directive_ident f, Pdir_ident lid) -> f lid; true
| (_, _) ->
print_string "Wrong type of argument for directive `";
print_string dir_name; print_string "'"; print_newline();
false
with Not_found ->
print_string "Unknown directive `"; print_string dir_name;
print_string "'"; print_newline();
false
(* Temporary assignment to a reference *)
let protect r newval body =
let oldval = !r in
try
r := newval;
let res = body() in
r := oldval;
res
with x ->
r := oldval;
raise x
(* Read and execute commands from a file *)
let use_print_results = ref true
let use_file name =
try
let filename = find_in_path !Config.load_path name in
let ic = open_in_bin filename in
let lb = Lexing.from_channel ic in
(* Skip initial #! line if any *)
let buffer = String.create 2 in
if input ic buffer 0 2 = 2 && buffer = "#!"
then begin input_line ic; () end
else seek_in ic 0;
let success =
protect Location.input_name filename (fun () ->
try
List.iter
(fun ph ->
if execute_phrase !use_print_results ph then () else raise Exit)
(!parse_use_file lb);
true
with
Exit -> false
| Sys.Break ->
print_string "Interrupted."; print_newline(); false
| x ->
Errors.report_error x; false) in
close_in ic;
success
with Not_found ->
print_string "Cannot find file "; print_string name; print_newline();
false
let use_silently name =
protect use_print_results false (fun () -> use_file name)
(* Reading function for interactive use *)
let first_line = ref true
let got_eof = ref false;;
let refill_lexbuf buffer len =
if !got_eof then (got_eof := false; 0) else begin
output_string stdout (if !first_line then "# " else " "); flush stdout;
first_line := false;
let i = ref 0 in
try
while !i < len && (let c = input_char stdin in buffer.[!i] <- c; c<>'\n')
do incr i done;
!i + 1
with End_of_file ->
Location.echo_eof ();
if !i > 0
then (got_eof := true; !i)
else 0
end
(* Discard everything already in a lexer buffer *)
let empty_lexbuf lb =
let l = String.length lb.lex_buffer in
lb.lex_abs_pos <- (-l);
lb.lex_curr_pos <- l
(* Toplevel initialization. Performed here instead of at the
beginning of loop() so that user code linked in with ocamlmktop
can call directives from Topdirs. *)
let _ =
Symtable.init_toplevel();
Clflags.thread_safe := true;
Compile.init_path()
(* The interactive loop *)
exception PPerror
let loop() =
Sys.interactive := true;
print_string " Objective Caml version ";
print_string Config.version;
print_newline(); print_newline();
(* Add whatever -I options have been specified on the command line,
but keep the directories that user code linked in with ocamlmktop
may have added to load_path. *)
load_path := "" :: (List.rev !Clflags.include_dirs @ !load_path);
toplevel_env := Compile.initial_env();
let lb = Lexing.from_function refill_lexbuf in
Location.input_name := "";
Location.input_lexbuf := Some lb;
Sys.catch_break true;
if Sys.file_exists ".ocamlinit" then begin use_silently ".ocamlinit"; () end;
while true do
try
empty_lexbuf lb;
Location.reset();
first_line := true;
let phr = try !parse_toplevel_phrase lb with Exit -> raise PPerror in
execute_phrase true phr; ()
with
End_of_file -> exit 0
| Sys.Break ->
print_string "Interrupted."; print_newline()
| PPerror -> ()
| x ->
Errors.report_error x
done
(* Execute a script *)
let run_script name =
Compile.init_path();
toplevel_env := Compile.initial_env();
Format.set_formatter_out_channel stderr;
use_print_results := false;
use_file name