(***********************************************************************) (* *) (* OCaml *) (* *) (* Damien Doligez, projet Para, INRIA Rocquencourt *) (* *) (* Copyright 1996 Institut National de Recherche en Informatique et *) (* en Automatique. All rights reserved. This file is distributed *) (* under the terms of the GNU Library General Public License, with *) (* the special exception on linking described in file ../LICENSE. *) (* *) (***********************************************************************) (* $Id$ *) type stat = { minor_words : float; promoted_words : float; major_words : float; minor_collections : int; major_collections : int; heap_words : int; heap_chunks : int; live_words : int; live_blocks : int; free_words : int; free_blocks : int; largest_free : int; fragments : int; compactions : int; top_heap_words : int; stack_size : int; };; type control = { mutable minor_heap_size : int; mutable major_heap_increment : int; mutable space_overhead : int; mutable verbose : int; mutable max_overhead : int; mutable stack_limit : int; mutable allocation_policy : int; };; external stat : unit -> stat = "caml_gc_stat";; external quick_stat : unit -> stat = "caml_gc_quick_stat";; external counters : unit -> (float * float * float) = "caml_gc_counters";; external get : unit -> control = "caml_gc_get";; external set : control -> unit = "caml_gc_set";; external minor : unit -> unit = "caml_gc_minor";; external major_slice : int -> int = "caml_gc_major_slice";; external major : unit -> unit = "caml_gc_major";; external full_major : unit -> unit = "caml_gc_full_major";; external compact : unit -> unit = "caml_gc_compaction";; open Printf;; let print_stat c = let st = stat () in fprintf c "minor_words: %.0f\n" st.minor_words; fprintf c "promoted_words: %.0f\n" st.promoted_words; fprintf c "major_words: %.0f\n" st.major_words; fprintf c "minor_collections: %d\n" st.minor_collections; fprintf c "major_collections: %d\n" st.major_collections; fprintf c "heap_words: %d\n" st.heap_words; fprintf c "heap_chunks: %d\n" st.heap_chunks; fprintf c "top_heap_words: %d\n" st.top_heap_words; fprintf c "live_words: %d\n" st.live_words; fprintf c "live_blocks: %d\n" st.live_blocks; fprintf c "free_words: %d\n" st.free_words; fprintf c "free_blocks: %d\n" st.free_blocks; fprintf c "largest_free: %d\n" st.largest_free; fprintf c "fragments: %d\n" st.fragments; fprintf c "compactions: %d\n" st.compactions; ;; let allocated_bytes () = let (mi, pro, ma) = counters () in (mi +. ma -. pro) *. float_of_int (Sys.word_size / 8) ;; external finalise : ('a -> unit) -> 'a -> unit = "caml_final_register";; external finalise_release : unit -> unit = "caml_final_release";; type alarm = bool ref;; type alarm_rec = {active : alarm; f : unit -> unit};; let rec call_alarm arec = if !(arec.active) then begin finalise call_alarm arec; arec.f (); end; ;; let create_alarm f = let arec = { active = ref true; f = f } in finalise call_alarm arec; arec.active ;; let delete_alarm a = a := false;;