X-Git-Url: http://matita.cs.unibo.it/gitweb/?a=blobdiff_plain;f=helm%2Fsoftware%2Fmatita%2Fcontribs%2Fformal_topology%2Fbin%2Ftheory_explorer.ml;h=39a021c9dc19abfbe805220c1fb85824248e38a4;hb=d025518bc5930796c748704b069a2719b34b00d3;hp=6878d086e9b2b0bd251928d4642f45f1726dbc5d;hpb=cd666eec815e21a02f576acd794c47b94ac89af2;p=helm.git
diff --git a/helm/software/matita/contribs/formal_topology/bin/theory_explorer.ml b/helm/software/matita/contribs/formal_topology/bin/theory_explorer.ml
index 6878d086e..39a021c9d 100644
--- a/helm/software/matita/contribs/formal_topology/bin/theory_explorer.ml
+++ b/helm/software/matita/contribs/formal_topology/bin/theory_explorer.ml
@@ -1,3 +1,31 @@
+(**** PROFILING ****)
+let ok_time = ref 0.0;;
+let ko_time = ref 0.0;;
+
+let profile f x =
+ let before = Unix.gettimeofday () in
+ let res = f x in
+ let after = Unix.gettimeofday () in
+ let delta = after -. before in
+ if res then
+ ok_time := !ok_time +. delta
+ else
+ ko_time := !ko_time +. delta;
+ res
+;;
+
+let _ =
+ Sys.catch_break true;
+ at_exit
+ (function () ->
+ prerr_endline
+ ("\nTIME SPENT IN CHECKING GOOD CONJECTURES: " ^ string_of_float !ok_time);
+ prerr_endline
+ ("TIME SPENT IN CHECKING BAD CONJECTURES: " ^ string_of_float !ko_time);)
+;;
+
+(**** END PROFILING ****)
+
type rel = Equal | SubsetEqual | SupersetEqual
let string_of_rel =
@@ -9,11 +37,8 @@ let string_of_rel =
(* operator *)
type op = I | C | M
-let string_of_op =
- function
- I -> "i"
- | C -> "c"
- | M -> "-"
+let string_of_op = function I -> "i" | C -> "c" | M -> "-"
+let matita_of_op = function I -> "i" | C -> "c" | M -> "m"
(* compound operator *)
type compound_operator = op list
@@ -24,7 +49,6 @@ let string_of_cop op =
let dot_of_cop op = "\"" ^ string_of_cop op ^ "\""
let matita_of_cop v =
- let matita_of_op = function I -> "i" | C -> "c" | M -> "m" in
let rec aux =
function
| [] -> v
@@ -33,6 +57,18 @@ let matita_of_cop v =
in
aux
+let name_of_theorem cop rel cop' =
+ let cop,rel,cop' =
+ match rel with
+ Equal -> cop,"eq",cop'
+ | SubsetEqual -> cop,"leq",cop'
+ | SupersetEqual -> cop',"leq",cop
+ in
+ rel ^ "_" ^
+ String.concat "" (List.map matita_of_op cop) ^ "_" ^
+ String.concat "" (List.map matita_of_op cop')
+;;
+
(* representative, other elements in the equivalence class,
leq classes, geq classes *)
type equivalence_class =
@@ -123,13 +159,64 @@ let ps_of_set (to_be_considered,under_consideration,news) ?processing (s,inf,sup
(*ignore (read_line ())*)
;;
+(******** communication with matitawiki ************)
+let min_ch,mout_ch = Unix.open_process "../../../matitawiki.opt 2> /dev/null";;
+
+let exec_cmd ?(undo=false) s =
+ let un = if undo then "un" else "" in
+(*prerr_endline ("<" ^ un ^ "doitem>" ^ s ^ "" ^ un ^ "doitem>\n");*)
+ output_string mout_ch ("<" ^ un ^ "doitem>" ^ s ^ "" ^ un ^ "doitem>\n");
+ flush mout_ch;
+ let rec aux v =
+ let l = input_line min_ch in
+ let last = String.length l - 1 in
+ assert (last > 0);
+ if l.[last] = Char.chr 249 then
+ int_of_string (String.sub l 0 last)
+ else
+ aux l
+ in
+ aux "x"
+;;
+
+let exec_cmds =
+ let rec aux undopos =
+ function
+ [] -> true
+ | he::tl ->
+ let pos = exec_cmd he in
+ if pos = -1 then
+ begin
+ match undopos with
+ None -> assert false
+ | Some undopos ->
+ assert (exec_cmd ~undo:true (string_of_int (undopos - 1)) <> -1);
+ false
+ end
+ else
+ match undopos with
+ None -> aux (Some pos) tl
+ | _ -> aux undopos tl
+ in
+ aux None
+
+let _ =
+ assert (exec_cmd "set \"baseuri\" \"cic:/matita/theory_former\"." <> -1);
+ assert (exec_cmd "include \"formal_topology.ma\"." <> -1);
+;;
+
+(********* testing a conjecture *******************)
+
let test to_be_considered_and_now ((s,_,_) as set) rel candidate repr =
ps_of_set to_be_considered_and_now ~processing:(candidate,rel,repr) set;
print_string
(string_of_cop candidate ^ " " ^ string_of_rel rel ^ " " ^ string_of_cop repr ^ "? ");
flush stdout;
- assert (Unix.system "cp formal_topology.ma xxx.ma" = Unix.WEXITED 0);
- let ch = open_out_gen [Open_append ; Open_creat] 0 "xxx.ma" in
+(*
+ assert (Unix.system "cat log.ma | sed s/^theorem/axiom/g | sed 's/\\. intros.*qed\\././g' > xxx.ma" = Unix.WEXITED 0);
+ let ch = open_out_gen [Open_append] 0 "xxx.ma" in
+*)
+(*
let i = ref 0 in
List.iter
(function (repr,others,leq,_) ->
@@ -150,21 +237,33 @@ let test to_be_considered_and_now ((s,_,_) as set) rel candidate repr =
matita_of_cop "A" repr ^ " â " ^ matita_of_cop "A" repr' ^ ".\n");
) !leq;
) s;
+*)
let candidate',rel',repr' =
match rel with
SupersetEqual -> repr,SubsetEqual,candidate
| Equal
| SubsetEqual -> candidate,rel,repr in
- let query =
- ("theorem foo: \\forall A." ^ matita_of_cop "A" candidate' ^
+ let query1 =
+ let name = name_of_theorem candidate' rel' repr' in
+ ("theorem " ^ name ^ ": \\forall A." ^ matita_of_cop "A" candidate' ^
" " ^ string_of_rel rel' ^ " " ^
- matita_of_cop "A" repr' ^ ". intros; autobatch size=8 depth=4. qed.") in
+ matita_of_cop "A" repr' ^ ".") in
+ let query2 = "intros;" in
+ let query3 = "autobatch size=8 depth=3 width=2." in
+ let query4 = "qed." in
+ let query = query1 ^ query2 ^ query3 ^ query4 in
+(*
output_string ch (query ^ "\n");
close_out ch;
+*)
+ let res = profile exec_cmds [query1; query2; query3; query4] in
+(*
let res =
(*Unix.system "../../../matitac.opt xxx.ma >> log 2>&1" = Unix.WEXITED 0*)
- Unix.system "../../../matitac.opt xxx.ma > /dev/null 2>&1" = Unix.WEXITED 0
+ profile Unix.system "../../../matitac.opt xxx.ma > /dev/null 2>&1" = Unix.WEXITED 0
in
+*)
+ ignore (Unix.system "echo '(*' >> log.ma && cat xxx.dot >> log.ma && echo '*)' >> log.ma");
let ch = open_out_gen [Open_append] 0o0600 "log.ma" in
if res then
output_string ch (query ^ "\n")
@@ -244,50 +343,66 @@ let rec geq_reachable node =
| (_,_,_,geq)::tl -> geq_reachable node (!geq@tl)
;;
+exception SameEquivalenceClass of set * equivalence_class * equivalence_class;;
+
let locate_using_leq to_be_considered_and_now ((repr,_,leq,geq) as node)
set start
=
- let rec aux ((nodes,inf,sup) as set) =
+ let rec aux ((nodes,inf,sup) as set) already_visited =
function
[] -> set
| (repr',_,_,geq') as node' :: tl ->
- if repr=repr' then aux set (!geq'@tl)
+ if List.exists (function n -> n===node') already_visited then
+ aux set already_visited tl
+ else if repr=repr' then aux set (node'::already_visited) (!geq'@tl)
else if leq_reachable node' !leq then
- aux set tl
+ aux set (node'::already_visited) (!geq'@tl)
+ else if (List.exists (function n -> not (geq_reachable n [node'])) !geq)
+ then
+ aux set (node'::already_visited) tl
else if test to_be_considered_and_now set SubsetEqual repr repr' then
begin
- let sup = remove node sup in
- let inf =
- if !geq' = [] then
- let inf = remove node' inf in
- if !geq = [] then
- inf@@node
+ if List.exists (function n -> n===node') !geq then
+ (* We have found two equal nodes! *)
+ raise (SameEquivalenceClass (set,node,node'))
+ else
+ begin
+ let sup = remove node sup in
+ let inf =
+ if !geq' = [] then
+ let inf = remove node' inf in
+ if !geq = [] then
+ inf@@node
+ else
+ inf
else
inf
- else
- inf
- in
- leq_transitive_closure node node';
- aux (nodes,inf,sup) (!geq'@tl)
+ in
+ leq_transitive_closure node node';
+ aux (nodes,inf,sup) (node'::already_visited) (!geq'@tl)
+ end
end
else
- aux set tl
+ aux set (node'::already_visited) tl
in
- aux set start
+ aux set [] start
;;
-exception SameEquivalenceClass of set * equivalence_class * equivalence_class;;
-
let locate_using_geq to_be_considered_and_now ((repr,_,leq,geq) as node)
set start
=
- let rec aux ((nodes,inf,sup) as set) =
+ let rec aux ((nodes,inf,sup) as set) already_visited =
function
[] -> set
| (repr',_,leq',_) as node' :: tl ->
- if repr=repr' then aux set (!leq'@tl)
+ if List.exists (function n -> n===node') already_visited then
+ aux set already_visited tl
+ else if repr=repr' then aux set (node'::already_visited) (!leq'@tl)
else if geq_reachable node' !geq then
- aux set tl
+ aux set (node'::already_visited) (!leq'@tl)
+ else if (List.exists (function n -> not (leq_reachable n [node'])) !leq)
+ then
+ aux set (node'::already_visited) tl
else if test to_be_considered_and_now set SupersetEqual repr repr' then
begin
if List.exists (function n -> n===node') !leq then
@@ -307,13 +422,13 @@ let locate_using_geq to_be_considered_and_now ((repr,_,leq,geq) as node)
sup
in
geq_transitive_closure node node';
- aux (nodes,inf,sup) (!leq'@tl)
+ aux (nodes,inf,sup) (node'::already_visited) (!leq'@tl)
end
end
else
- aux set tl
+ aux set (node'::already_visited) tl
in
- aux set start
+ aux set [] start
;;
let analyze_one to_be_considered repr hecandidate (news,((nodes,inf,sup) as set)) =
@@ -329,18 +444,23 @@ if not (List.for_all (fun ((_,_,leq,_) as node) -> !leq = [] && let rec check_in
let node = candidate,[],leq,geq in
let nodes = nodes@[node] in
let set = nodes,inf@[node],sup@[node] in
- let start_inf,start_sup =
+ let set,start_inf,start_sup =
let repr_node =
match List.filter (fun (repr',_,_,_) -> repr=repr') nodes with
[node] -> node
| _ -> assert false
in
-inf,sup(*
- match hecandidate with
- I -> inf,[repr_node]
- | C -> [repr_node],sup
- | M -> inf,sup
-*)
+ match hecandidate,repr with
+ I, I::_ -> raise (SameEquivalenceClass (set,node,repr_node))
+ | I, _ ->
+ add_leq_arc node repr_node;
+ (nodes,remove repr_node inf@[node],sup),inf,sup
+ | C, C::_ -> raise (SameEquivalenceClass (set,node,repr_node))
+ | C, _ ->
+ add_geq_arc node repr_node;
+ (nodes,inf,remove repr_node sup@[node]),inf,sup
+ | M, M::M::_ -> raise (SameEquivalenceClass (set,node,repr_node))
+ | M, _ -> set,inf,sup
in
let set =
locate_using_leq (to_be_considered,Some repr,news) node set start_sup in
@@ -360,7 +480,6 @@ if not (List.for_all (fun ((_,_,leq,_) as node) -> !leq = [] && let rec check_in
news@[candidate],set
with
SameEquivalenceClass ((nodes,inf,sup) as set,((r,_,leq_d,geq_d) as node_to_be_deleted),node')->
-prerr_endline ("SAMEEQCLASS: " ^ string_of_cop r);
(
let _,inf,sup = set in
if not (List.for_all (fun ((_,_,_,geq) as node) -> !geq = [] && let rec check_sups = function [] -> true | (_,_,leq,_) as node::tl -> if !leq = [] then List.exists (fun n -> n===node) sup && check_sups tl else check_sups (!leq@tl) in check_sups [node]) inf) then (ps_of_set ([],None,[]) set; assert false);
@@ -373,22 +492,28 @@ if not (List.for_all (fun ((_,_,leq,_) as node) -> !leq = [] && let rec check_in
clean inf sup res tl
| (repr',others,leq,geq) as node::tl ->
leq :=
- List.fold_right
- (fun node l ->
- if node_to_be_deleted <=> node then
- node::l
- else
- !leq_d@l
- ) !leq [];
+ (let rec aux res =
+ function
+ [] -> res
+ | (_,_,leq,_) as node::tl ->
+ if node_to_be_deleted <=> node then
+ aux (res@[node]) tl
+ else
+ (List.filter (fun n ->not (leq_reachable n (res@tl))) !leq)@tl
+ in
+ aux [] !leq);
let sup = if !leq = [] then sup@@node else sup in
geq :=
- List.fold_right
- (fun node l ->
- if node_to_be_deleted <=> node then
- node::l
- else
- !geq_d@l
- ) !geq [];
+ (let rec aux res =
+ function
+ [] -> res
+ | (_,_,_,geq) as node::tl ->
+ if node_to_be_deleted <=> node then
+ aux (res@[node]) tl
+ else
+ (List.filter (fun n ->not (geq_reachable n (res@tl))) !geq)@tl
+ in
+ aux [] !geq);
let inf = if !geq = [] then inf@@node else inf in
if node===node' then
clean inf sup ((repr',others@[candidate],leq,geq)::res) tl