ocaml/toplevel/topdirs.ml

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(***********************************************************************)
(* *)
(* Caml Special Light *)
(* *)
(* Xavier Leroy, projet Cristal, INRIA Rocquencourt *)
(* *)
(* Copyright 1995 Institut National de Recherche en Informatique et *)
(* Automatique. Distributed only by permission. *)
(* *)
(***********************************************************************)
(* $Id$ *)
(* Toplevel directives *)
open Format
open Misc
open Longident
open Path
open Typedtree
open Emitcode
open Printval
open Trace
open Toploop
(* 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
(* Return the value referred to by a path *)
let rec eval_path = function
Pident id -> Symtable.get_global_value id
| Pdot(p, s, pos) -> Obj.field (eval_path p) pos
| Papply(p1, p2) -> fatal_error "Topdirs.eval_path"
(* To quit *)
let dir_quit () = exit 0; ()
let _ = Hashtbl.add directive_table "quit" (Directive_none dir_quit)
(* To add a directory to the load path *)
let dir_directory s =
Config.load_path := s :: !Config.load_path;
Env.reset_cache()
let _ = Hashtbl.add directive_table "directory" (Directive_string dir_directory)
(* To change the current directory *)
let dir_cd s =
Sys.chdir s
let _ = Hashtbl.add directive_table "cd" (Directive_string dir_cd)
(* Load in-core a .cmo file *)
exception Load_failed
let load_compunit ic filename compunit =
Bytelink.check_consistency filename compunit;
seek_in ic compunit.cu_pos;
let code_size = compunit.cu_codesize + 4 in
let code = Meta.static_alloc code_size in
unsafe_really_input ic code 0 compunit.cu_codesize;
String.unsafe_set code compunit.cu_codesize (Char.chr Opcodes.opSTOP);
String.unsafe_set code (compunit.cu_codesize + 1) '\000';
String.unsafe_set code (compunit.cu_codesize + 2) '\000';
String.unsafe_set code (compunit.cu_codesize + 3) '\000';
let initial_symtable = Symtable.current_state() in
Symtable.patch_object code compunit.cu_reloc;
Symtable.update_global_table();
begin try
Meta.execute_bytecode code code_size; ()
with exn ->
Symtable.restore_state initial_symtable;
print_exception_outcome exn;
raise Load_failed
end
let dir_load name =
try
let filename = find_in_path !Config.load_path name in
let ic = open_in_bin filename in
let buffer = String.create (String.length Config.cmo_magic_number) in
really_input ic buffer 0 (String.length Config.cmo_magic_number);
begin try
if buffer = Config.cmo_magic_number then begin
let compunit_pos = input_binary_int ic in (* Go to descriptor *)
seek_in ic compunit_pos;
load_compunit ic filename (input_value ic : compilation_unit)
end else
if buffer = Config.cma_magic_number then begin
let toc_pos = input_binary_int ic in (* Go to table of contents *)
seek_in ic toc_pos;
List.iter (load_compunit ic filename)
(input_value ic : compilation_unit list)
end else begin
print_string "File "; print_string name;
print_string " is not a bytecode object file."; print_newline()
end
with Load_failed -> ()
end;
close_in ic
with Not_found ->
print_string "Cannot find file "; print_string name; print_newline()
let _ = Hashtbl.add directive_table "load" (Directive_string dir_load)
(* Load commands from a file *)
let dir_use 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
protect Location.input_name filename (fun () ->
try
List.iter
(fun ph -> if execute_phrase ph then () else raise Exit)
(Parse.use_file lb)
with
Exit -> ()
| Sys.Break ->
print_string "Interrupted."; print_newline()
| x ->
Errors.report_error x);
close_in ic
with Not_found ->
print_string "Cannot find file "; print_string name; print_newline()
let _ = Hashtbl.add directive_table "use" (Directive_string dir_use)
(* Install, remove a printer *)
let find_printer_type lid =
try
let (path, desc) = Env.lookup_value lid !toplevel_env in
Ctype.begin_def();
let ty_arg = Ctype.newvar() in
Ctype.unify !toplevel_env (Tarrow(ty_arg, Predef.type_unit))
(Ctype.instance desc.val_type);
Ctype.end_def();
Ctype.generalize ty_arg;
(ty_arg, path)
with
Not_found ->
print_string "Unbound value "; Printtyp.longident lid;
print_newline(); raise Exit
| Ctype.Unify ->
Printtyp.longident lid;
print_string " has the wrong type for a printing function";
print_newline(); raise Exit
let dir_install_printer lid =
try
let (ty_arg, path) = find_printer_type lid in
let v = eval_path path in
Printval.printers :=
(path, ty_arg, (Obj.magic v : Obj.t -> unit)) :: !Printval.printers
with Exit ->
()
let dir_remove_printer lid =
try
let (ty_arg, path) = find_printer_type lid in
let rec remove = function
[] ->
print_string "No printer named "; Printtyp.longident lid;
print_newline();
[]
| (p, ty, fn as printer) :: rem ->
if Path.same p path then rem else printer :: remove rem in
Printval.printers := remove !Printval.printers
with Exit ->
()
let _ = Hashtbl.add directive_table "install_printer"
(Directive_ident dir_install_printer)
let _ = Hashtbl.add directive_table "remove_printer"
(Directive_ident dir_remove_printer)
(* The trace *)
external current_environment: unit -> Obj.t = "get_current_environment"
let dir_trace lid =
try
let (path, desc) = Env.lookup_value lid !toplevel_env in
if is_traced path then begin
Printtyp.path path; print_string " is already traced.";
print_newline()
end else begin
let clos = eval_path path in
(* Nothing to do if it's not a closure *)
if Obj.is_block clos & Obj.tag clos = 250 then begin
let old_clos = copy_closure clos in
(* Instrument the old closure *)
traced_functions :=
{ path = path;
closure = clos;
initial_closure = old_clos;
instrumented_fun =
instrument_closure lid (Ctype.instance desc.val_type) old_clos}
:: !traced_functions;
(* Redirect the code field of the old closure *)
overwrite_closure clos
(Obj.repr (fun arg -> Trace.print_trace (current_environment()) arg));
(* Warn if this is a primitive *)
match desc.val_prim with
None ->
Printtyp.longident lid; print_string " is now traced.";
print_newline()
| Some p ->
open_hovbox 0;
print_string "Warning: "; Printtyp.longident lid;
print_string " is an external function."; print_space();
print_string "Inlined calls will not be traced.";
close_box(); print_newline()
end else begin
Printtyp.longident lid; print_string " is not a function.";
print_newline()
end
end
with Not_found ->
print_string "Unbound value "; Printtyp.longident lid;
print_newline()
let dir_untrace lid =
try
let (path, desc) = Env.lookup_value lid !toplevel_env in
let rec remove = function
[] ->
Printtyp.longident lid; print_string " was not traced.";
print_newline();
[]
| f :: rem ->
if Path.same f.path path then begin
overwrite_closure (eval_path path) f.initial_closure;
Printtyp.longident lid; print_string " is no longer traced.";
print_newline();
rem
end else f :: remove rem in
traced_functions := remove !traced_functions
with Not_found ->
print_string "Unbound value "; Printtyp.longident lid;
print_newline()
let dir_untrace_all () =
List.iter
(fun f ->
overwrite_closure (eval_path f.path) f.initial_closure;
Printtyp.path f.path; print_string " is no longer traced.";
print_newline())
!traced_functions;
traced_functions := []
let _ = Hashtbl.add directive_table "trace" (Directive_ident dir_trace)
let _ = Hashtbl.add directive_table "untrace" (Directive_ident dir_untrace)
let _ = Hashtbl.add directive_table "untrace_all" (Directive_none dir_untrace_all)
(* Control the printing of values *)
let _ = Hashtbl.add directive_table "print_depth"
(Directive_int(fun n -> max_printer_depth := n))
let _ = Hashtbl.add directive_table "print_length"
(Directive_int(fun n -> max_printer_steps := n))