From 9043add656177eeac1491a73d2f3ab92bec0013c Mon Sep 17 00:00:00 2001 From: Benjamin Barenblat Date: Sat, 29 Dec 2018 14:31:27 -0500 Subject: Imported Upstream version 8.8.2 --- clib/cObj.ml | 205 +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ 1 file changed, 205 insertions(+) create mode 100644 clib/cObj.ml (limited to 'clib/cObj.ml') diff --git a/clib/cObj.ml b/clib/cObj.ml new file mode 100644 index 00000000..e26f4811 --- /dev/null +++ b/clib/cObj.ml @@ -0,0 +1,205 @@ +(************************************************************************) +(* * The Coq Proof Assistant / The Coq Development Team *) +(* v * INRIA, CNRS and contributors - Copyright 1999-2018 *) +(* = Obj.no_scan_tag then + if Obj.tag t = Obj.string_tag then + (c := !c + Obj.size t; b := !b + 1; m := max d !m) + else if Obj.tag t = Obj.double_tag then + (s := !s + 2; b := !b + 1; m := max d !m) + else if Obj.tag t = Obj.double_array_tag then + (s := !s + 2 * Obj.size t; b := !b + 1; m := max d !m) + else (b := !b + 1; m := max d !m) + else + let n = Obj.size t in + s := !s + n; b := !b + 1; + block_stats (d + 1) (n - 1) t + +and block_stats d i t = + if i >= 0 then (obj_stats d (Obj.field t i); block_stats d (i-1) t) + +let obj_stats a = + c := 0; s:= 0; b:= 0; m:= 0; + obj_stats 0 (Obj.repr a); + (!c, !s + !b, !m) + +(** {6 Physical sizes} *) + +(*s Pointers already visited are stored in a hash-table, where + comparisons are done using physical equality. *) + +module H = Hashtbl.Make( + struct + type t = Obj.t + let equal = (==) + let hash = Hashtbl.hash + end) + +let node_table = (H.create 257 : unit H.t) + +let in_table o = try H.find node_table o; true with Not_found -> false + +let add_in_table o = H.add node_table o () + +let reset_table () = H.clear node_table + +(*s Objects are traversed recursively, as soon as their tags are less than + [no_scan_tag]. [count] records the numbers of words already visited. *) + +let size_of_double = Obj.size (Obj.repr 1.0) + +let count = ref 0 + +let rec traverse t = + if not (in_table t) && Obj.is_block t then begin + add_in_table t; + let n = Obj.size t in + let tag = Obj.tag t in + if tag < Obj.no_scan_tag then + begin + count := !count + 1 + n; + for i = 0 to n - 1 do traverse (Obj.field t i) done + end + else if tag = Obj.string_tag then + count := !count + 1 + n + else if tag = Obj.double_tag then + count := !count + size_of_double + else if tag = Obj.double_array_tag then + count := !count + 1 + size_of_double * n + else + incr count + end + +(*s Sizes of objects in words and in bytes. The size in bytes is computed + system-independently according to [Sys.word_size]. *) + +let size o = + reset_table (); + count := 0; + traverse (Obj.repr o); + !count + +let size_b o = (size o) * (Sys.word_size / 8) + +let size_kb o = (size o) / (8192 / Sys.word_size) + +(** {6 Physical sizes with sharing} *) + +(** This time, all the size of objects are computed with respect + to a larger object containing them all, and we only count + the new blocks not already seen earlier in the left-to-right + visit of the englobing object. + + The very same object could have a zero size or not, depending + of the occurrence we're considering in the englobing object. + For speaking of occurrences, we use an [int list] for a path + of field indexes from the outmost block to the one we're looking. + In the list, the leftmost integer is the field index in the deepest + block. +*) + +(** We now store in the hashtable the size (with sharing), and + also the position of the first occurrence of the object *) + +let node_sizes = (H.create 257 : (int*int list) H.t) +let get_size o = H.find node_sizes o +let add_size o n pos = H.replace node_sizes o (n,pos) +let reset_sizes () = H.clear node_sizes +let global_object = ref (Obj.repr 0) + +(** [sum n f] is [f 0 + f 1 + ... + f (n-1)], evaluated from left to right *) + +let sum n f = + let rec loop k acc = if k >= n then acc else loop (k+1) (acc + f k) + in loop 0 0 + +(** Recursive visit of the main object, filling the hashtable *) + +let rec compute_size o pos = + if not (Obj.is_block o) then 0 + else + try + let _ = get_size o in 0 (* already seen *) + with Not_found -> + let n = Obj.size o in + add_size o (-1) pos (* temp size, for cyclic values *); + let tag = Obj.tag o in + let size = + if tag < Obj.no_scan_tag then + 1 + n + sum n (fun i -> compute_size (Obj.field o i) (i::pos)) + else if tag = Obj.string_tag then + 1 + n + else if tag = Obj.double_tag then + size_of_double + else if tag = Obj.double_array_tag then + size_of_double * n + else + 1 + in + add_size o size pos; + size + +(** Provides the global object in which we'll search shared sizes *) + +let register_shared_size t = + let o = Obj.repr t in + reset_sizes (); + global_object := o; + ignore (compute_size o []) + +(** Shared size of an object with respect to the global object given + by the last [register_shared_size] *) + +let shared_size pos o = + if not (Obj.is_block o) then 0 + else + let size,pos' = + try get_size o + with Not_found -> failwith "shared_size: unregistered structure ?" + in + match pos with + | Some p when p <> pos' -> 0 + | _ -> size + +let shared_size_of_obj t = shared_size None (Obj.repr t) + +(** Shared size of the object at some positiion in the global object given + by the last [register_shared_size] *) + +let shared_size_of_pos pos = + let rec obj_of_pos o = function + | [] -> o + | n::pos' -> + let o' = obj_of_pos o pos' in + assert (Obj.is_block o' && n < Obj.size o'); + Obj.field o' n + in + shared_size (Some pos) (obj_of_pos !global_object pos) + + +(*s Total size of the allocated ocaml heap. *) + +let heap_size () = + let stat = Gc.stat () + and control = Gc.get () in + let max_words_total = stat.Gc.heap_words + control.Gc.minor_heap_size in + (max_words_total * (Sys.word_size / 8)) + +let heap_size_kb () = (heap_size () + 1023) / 1024 -- cgit v1.2.3