(***********************************************************************) (* *) (* Caml Special Light *) (* *) (* Xavier Leroy, projet Cristal, INRIA Rocquencourt *) (* *) (* Copyright 1995 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 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) (* 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.execute_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 hidden = ref 0 let print_item env = function Tsig_value(id, decl) -> open_hovbox 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() | Tsig_type(id, decl) -> Printtyp.type_declaration id decl | Tsig_exception(id, decl) -> Printtyp.exception_declaration id decl | Tsig_module(id, mty) -> open_hovbox 2; print_string "module "; Printtyp.ident id; print_string " :"; print_space(); Printtyp.modtype mty; close_box() | Tsig_modtype(id, decl) -> Printtyp.modtype_declaration id decl | Tsig_class(id, decl) -> hidden := 2; Printtyp.class_type id decl (* 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() | exn -> open_hovbox 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 phr = Location.reset(); 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 -> begin match str with [Tstr_eval exp] -> open_hovbox 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; hidden := 0; List.iter (fun item -> if !hidden > 0 then decr hidden else begin print_item newenv item; print_space() end) 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 (* Reading function *) external input_scan_line : in_channel -> int = "input_scan_line" let refill_lexbuf buffer len = output_char stdout '#'; flush stdout; let n = min len (abs(input_scan_line stdin)) in input stdin buffer 0 n (* 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 cslmktop can call directives from Topdirs. *) let _ = Symtable.init_toplevel(); Compile.init_path(); Sys.interactive := true (* The loop *) let loop() = print_string "\tCaml Special Light 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 cslmktop 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; while true do try empty_lexbuf lb; execute_phrase (Parse.toplevel_phrase lb); () with End_of_file -> print_newline(); exit 0 | Sys.Break -> print_string "Interrupted."; print_newline() | x -> Errors.report_error x done