package kappa-library
Public internals of the Kappa tool suite. Use this package to use kappa as a lib
Install
Dune Dependency
Authors
Maintainers
Sources
v4.1.3.tar.gz
md5=1c9a8a0d79f085757817f90834e166f5
sha512=13ac40442940ba6e72d7dc5bf952e67443872f7bff63e9c76a3a699a6904c88696047fe04519b7ec6546371642f6ee7b0983117be302694aca15500b0df40de3
doc/src/kappa-library.terms/pattern.ml.html
Source file pattern.ml
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2022 2023 2024 2025 2026 2027 2028 2029 2030 2031 2032 2033 2034 2035 2036 2037 2038 2039 2040 2041 2042 2043 2044 2045 2046 2047 2048 2049 2050 2051 2052 2053 2054 2055 2056 2057 2058 2059 2060 2061 2062 2063 2064 2065 2066 2067 2068 2069 2070 2071 2072 2073 2074 2075 2076 2077 2078 2079 2080 2081 2082 2083 2084 2085 2086 2087 2088 2089 2090 2091 2092 2093 2094 2095 2096 2097 2098 2099 2100 2101 2102 2103 2104 2105 2106 2107 2108 2109 2110 2111 2112 2113 2114 2115 2116 2117 2118 2119 2120 2121 2122 2123 2124 2125 2126 2127 2128 2129 2130 2131 2132 2133 2134 2135 2136 2137 2138 2139 2140 2141 2142 2143 2144 2145 2146 2147 2148 2149 2150 2151 2152 2153 2154 2155 2156 2157 2158 2159 2160 2161 2162 2163 2164 2165(******************************************************************************) (* _ __ * The Kappa Language *) (* | |/ / * Copyright 2010-2023 CNRS - Harvard Medical School - INRIA - IRIF *) (* | ' / *********************************************************************) (* | . \ * This file is distributed under the terms of the *) (* |_|\_\ * GNU Lesser General Public License Version 3 *) (******************************************************************************) type sharing_level = No_sharing | Compatible_patterns | Max_sharing let sharing_level_of_yojson = function | `String "no_sharing" -> No_sharing | `String "compatible_patterns" -> Compatible_patterns | `String "max_sharing" -> Max_sharing | x -> raise (Yojson.Basic.Util.Type_error ("Incorrect sharing_level", x)) let write_sharing_level ob = function | No_sharing -> Yojson.Basic.write_string ob "no_sharing" | Compatible_patterns -> Yojson.Basic.write_string ob "compatible_patterns" | Max_sharing -> Yojson.Basic.write_string ob "max_sharing" let string_of_sharing_level ?len:(_ = 1024) = function | No_sharing -> "\"no_sharing\"" | Compatible_patterns -> "\"compatible_patterns\"" | Max_sharing -> "\"max_sharing\"" let read_sharing_level p lb = sharing_level_of_yojson (Yojson.Basic.from_lexbuf ~stream:true p lb) let sharing_level_of_string s = read_sharing_level (Yojson.Safe.init_lexer ()) (Lexing.from_string s) type link = UnSpec | Free | Link of int * int (** node_id, site_id *) type cc = { nodes_by_type: int list array; nodes: (link * int) array Mods.IntMap.t; (*pattern graph id -> [|... (link_j,state_j)...|] i.e agent_id on site_j has a link link_j and internal state state_j (-1 means any) *) recogn_nav: Navigation.abstract Navigation.t; } (** The link of site k of node i is [fst nodes(i).(k)]. The internal state of site k of node i is [snd nodes(i).(k)]. A negative number means UnSpec. *) type t = cc type id = int let debug_print_id fmt id = Format.fprintf fmt "%d" id let size_of_cc cc = Mods.IntMap.size cc.nodes let compare_canonicals cc cc' = Mods.int_compare cc cc' let is_equal_canonicals cc cc' = compare_canonicals cc cc' = 0 let hash_prime = 29 let coarse_hash cc = let plus_internal acc s i = if i < 0 then acc else Tools.cantor_pairing (succ s) (succ i) + acc in let node_shape = Mods.IntMap.fold (fun n e acc -> Tools.array_fold_lefti (fun s acc -> function | UnSpec, i -> plus_internal acc s i | Free, i -> plus_internal (3 + (s * 3) + acc) s i | Link (n', s'), i -> let acc' = plus_internal acc s i in let extra = Tools.cantor_pairing (1 + min s s') (1 + max s s') in if (n = n' && s < s') || n < n' then (extra * 7) + acc' else acc') acc e) cc.nodes 0 in Array.fold_right (fun l acc -> List.length l + (hash_prime * acc)) cc.nodes_by_type node_shape let id_to_yojson cc = `Int cc let id_of_yojson = function | `Int cc -> cc | x -> raise (Yojson.Basic.Util.Type_error ("Not a pattern id", x)) module Set = Mods.IntSet module Map = Mods.IntMap module ObsMap = struct include Mods.DynArray let dummy x = make 0 x end let empty_cc sigs = let nbt = Array.make (Signature.size sigs) [] in { nodes_by_type = nbt; recogn_nav = []; nodes = Mods.IntMap.empty } let raw_find_ty tys id = let rec aux i = assert (i >= 0); if List.mem id tys.(i) then i else aux (pred i) in aux (Array.length tys - 1) let find_ty cc id = raw_find_ty cc.nodes_by_type id let add_origin deps = function | None -> deps | Some x -> Operator.DepSet.add x deps let cc = cc.recogn_nav (** Errors *) let already_specified ?sigs x i = ExceptionDefn.Malformed_Decl (Loc.annot_with_dummy (Format.asprintf "Site %a of agent %a already specified" (Agent.print_site ?sigs x) i (Agent.print ?sigs ~with_id:false) x)) let dangling_node ~sigs tys x = ExceptionDefn.Malformed_Decl (Loc.annot_with_dummy (Format.asprintf "Cannot proceed because last declared agent %a/*%i*/%a" (Signature.print_agent sigs) (raw_find_ty tys x) x Format.pp_print_string " is not linked to its connected component.")) let identity_injection cc = Renaming.identity (Array.fold_left (fun x y -> List.rev_append y x) [] cc.nodes_by_type) (** pick a root in the CC. Any root works. In this case pick the first node of smallest type *) let raw_find_root nodes_by_type = let rec aux ty = if ty = Array.length nodes_by_type then None else ( match nodes_by_type.(ty) with | [] -> aux (succ ty) | h :: _ -> Some (h, ty) ) in aux 0 let find_root cc = raw_find_root cc.nodes_by_type let weight cc = let links, double = Mods.IntMap.fold (fun _ -> Array.fold_right (fun (i, s) (l, d) -> if i <> UnSpec then ( succ (if s <> -1 then succ l else l), if i <> Free then succ d else d ) else ( (if s <> -1 then succ l else l), d ))) cc.nodes (0, 0) in links - (double / 2) let are_compatible ~debug_mode ?possibilities ~strict root1 cc1 root2 cc2 = let tick x = match possibilities with | None -> () | Some s -> s := Mods.Int2Set.remove x !s in let rec aux at_least_one_edge rename = function | [] -> if at_least_one_edge then Some rename, None else None, None | ((o, p) as pair) :: todos -> let () = tick pair in (match Tools.array_fold_left2i (fun i c (lx, ix) (ly, iy) -> match c with | None, _ -> c | Some (one_edge, todo, ren), _ -> if ((not strict) && (ix = -1 || iy = -1)) || ix = iy then ( match lx, ly with | Link _, Free | Free, Link _ -> None, Some (cc1, o, cc2, p, i, false) | UnSpec, Free | Free, UnSpec | Link _, UnSpec | UnSpec, Link _ -> if strict then None, Some (cc1, o, cc2, p, i, false) else Some (one_edge || (ix <> -1 && ix = iy), todo, ren), None | UnSpec, UnSpec -> Some (one_edge || (ix <> -1 && ix = iy), todo, ren), None | Free, Free -> Some (true, todo, ren), None | Link (n1, s1), Link (n2, s2) -> if s1 = s2 then if Renaming.mem n1 ren then if Renaming.apply ~debug_mode ren n1 = n2 then Some (true, todo, ren), None else None, Some (cc1, o, cc2, p, i, false) else ( match Renaming.add ~debug_mode n1 n2 ren with | None -> None, Some (cc1, o, cc2, p, i, false) | Some r' -> if find_ty cc1 n1 = find_ty cc2 n2 then Some (true, (n1, n2) :: todo, r'), None else None, Some (cc1, o, cc2, p, i, false) ) else None, Some (cc1, o, cc2, p, i, false) ) else None, Some (cc1, o, cc2, p, i, true)) (Some (at_least_one_edge, todos, rename), None) (Mods.IntMap.find_default [||] o cc1.nodes) (Mods.IntMap.find_default [||] p cc2.nodes) with | None, conflict -> None, conflict | Some (one_edges', todos', ren'), _ -> aux one_edges' ren' todos') in match Renaming.add ~debug_mode root1 root2 (Renaming.empty ()) with | None -> assert false | Some r -> let a_single_agent = Array.fold_left (fun b (l, i) -> b && i = -1 && l = UnSpec) true (Mods.IntMap.find_default [||] root1 cc1.nodes) || Array.fold_left (fun b (l, i) -> b && i = -1 && l = UnSpec) true (Mods.IntMap.find_default [||] root2 cc2.nodes) in aux a_single_agent r [ root1, root2 ] (** @return injection from a to b *) let equal ~debug_mode a b = match Tools.array_min_equal_not_null (Array.map (fun x -> List.length x, x) a.nodes_by_type) (Array.map (fun x -> List.length x, x) b.nodes_by_type) with | None -> None | Some ([], ags) -> if ags = [] then Some (Renaming.empty ()) else None | Some (h1 :: _, ags) -> List.fold_left (fun bool ag -> match bool with | Some _ -> bool | None -> let rename, _ = are_compatible ~debug_mode ~strict:true h1 a ag b in rename) None ags let automorphisms ~debug_mode a = match Array.fold_left (fun acc x -> Tools.min_pos_int_not_zero acc (List.length x, x)) (0, []) a.nodes_by_type with | _, [] -> [ Renaming.empty () ] | _, (h :: _ as l) -> List.fold_left (fun acc ag -> match are_compatible ~debug_mode ~strict:true h a ag a with | None, _ -> acc | Some r, _ -> r :: acc) [] l let potential_pairing sigs = Tools.array_fold_left2i (fun x acc la lb -> if Signature.is_counter_agent sigs x then acc else List.fold_left (fun acc b -> List.fold_left (fun acc a -> Mods.Int2Set.add (a, b) acc) acc la) acc lb) Mods.Int2Set.empty let matchings ~debug_mode sigs a b = let possibilities = ref (potential_pairing sigs a.nodes_by_type b.nodes_by_type) in let rec for_one_root acc = match Mods.Int2Set.choose !possibilities with | None -> acc | Some (x, y) -> (match are_compatible ~debug_mode ~possibilities ~strict:false x a y b with | None, _ -> for_one_root acc | Some r, _ -> for_one_root (r :: acc)) in for_one_root [] (*turns a cc into a path(:list) in the domain*) let (full : bool) nodes_by_type nodes = let rec build_for (first, out) don = function | [] -> List.rev out | h :: t -> let first', out', todo = Tools.array_fold_lefti (fun i ((first, ans, re) as acc) (l, s) -> let ((first', ans', _) as acc') = if (full || first) && s >= 0 then ( false, ( ( (if first then Navigation.Fresh (h, raw_find_ty nodes_by_type h) else Navigation.Existing h), i ), Navigation.ToInternal s ) :: ans, re ) else acc in match l with | UnSpec -> acc' | Free -> if full || first' then ( false, ( ( (if first' then Navigation.Fresh (h, raw_find_ty nodes_by_type h) else Navigation.Existing h), i ), Navigation.ToNothing ) :: ans', re ) else acc' | Link (n, l) -> if List.mem n don || (n = h && i > l) then acc' else if n = h || List.mem n re then if full || first' then ( false, ( ( (if first' then Navigation.Fresh (h, raw_find_ty nodes_by_type h) else Navigation.Existing h), i ), Navigation.ToNode (Navigation.Existing n, l) ) :: ans', re ) else acc' else ( false, ( ( (if first' then Navigation.Fresh (h, raw_find_ty nodes_by_type h) else Navigation.Existing h), i ), Navigation.ToNode (Navigation.Fresh (n, raw_find_ty nodes_by_type n), l) ) :: ans', n :: re )) (first, out, t) (Mods.IntMap.find_default [||] h nodes) in build_for (first', out') (h :: don) todo in match raw_find_root nodes_by_type with | None -> [] (*empty path for x0*) | Some (x, _) -> (*(ag_sort,ag_id)*) build_for (true, []) (*wip*) [] (*already_done*) [ x ] (*todo*) let rec sub_minimize_renaming ~debug_mode r = function | [], _ -> r | _ :: _, [] -> assert false | (x :: q as l), y :: q' -> if x = y then ( match Renaming.add ~debug_mode x y r with | Some r' -> sub_minimize_renaming ~debug_mode r' (q, q') | None -> assert false ) else ( let fsts, lst = List_util.pop_last l in match Renaming.add ~debug_mode lst y r with | Some r' -> sub_minimize_renaming ~debug_mode r' (fsts, q') | None -> assert false ) let minimize_renaming ~debug_mode dst_nbt ref_nbt = let re = Renaming.empty () in Tools.array_fold_lefti (fun ty r ids -> sub_minimize_renaming ~debug_mode r (ids, ref_nbt.(ty))) re dst_nbt let minimize ~debug_mode cand_nbt cand_nodes ref_nbt = let re = minimize_renaming ~debug_mode cand_nbt ref_nbt in let re_img = Renaming.image re in let nodes_by_type = Array.map (List.filter (fun a -> Mods.IntSet.mem a re_img)) ref_nbt in let nodes = Mods.IntMap.fold (fun id sites acc -> let sites' = Array.map (function | Link (n, s), i -> Link (Renaming.apply ~debug_mode re n, s), i | ((UnSpec | Free), _) as x -> x) sites in Mods.IntMap.add (Renaming.apply ~debug_mode re id) sites' acc) cand_nodes Mods.IntMap.empty in { nodes_by_type; nodes; recogn_nav = raw_to_navigation false nodes_by_type nodes; } (* returns a list of cc where each cc is included in cc1*) let infs ~debug_mode sigs cc1 cc2 = let possibilities = ref (potential_pairing sigs cc1.nodes_by_type cc2.nodes_by_type) in let rec aux rename nodes = function | [] -> nodes | ((o, p) as pair) :: todos -> let () = possibilities := Mods.Int2Set.remove pair !possibilities in let lnk1 = Mods.IntMap.find_default [||] o cc1.nodes in let (todos', ren'), outl = Tools.array_fold_left_mapi (fun k ((todo, ren) as acc) (ly, iy) -> let lx, ix = lnk1.(k) in match lx, ly with | Link _, Free | Free, Link _ | Link _, UnSpec | UnSpec, Link _ | UnSpec, Free | Free, UnSpec | UnSpec, UnSpec -> ( acc, ( UnSpec, if ix = iy then iy else -1 ) ) | Free, Free -> ( acc, ( Free, if ix = iy then iy else -1 ) ) | (Link (n1, s1) as x), Link (n2, s2) -> if s1 = s2 then if Renaming.mem n1 ren then ( acc, ( (if Renaming.apply ~debug_mode ren n1 = n2 then x else UnSpec), if ix = iy then iy else -1 ) ) else ( match Renaming.add ~debug_mode n1 n2 ren with | None -> ( acc, ( UnSpec, if ix = iy then iy else -1 ) ) | Some r' -> if find_ty cc1 n1 = find_ty cc2 n2 then ( ((n1, n2) :: todo, r'), ( x, if ix = iy then iy else -1 ) ) else ( acc, ( UnSpec, if ix = iy then iy else -1 ) ) ) else ( acc, ( UnSpec, if ix = iy then iy else -1 ) )) (todos, rename) (Mods.IntMap.find_default [||] p cc2.nodes) in if Array.fold_left (fun b (l, i) -> b && l = UnSpec && i < 0) true outl then aux ren' nodes todos' else aux ren' (Mods.IntMap.add o outl nodes) todos' in let rec for_one_root acc = match Mods.Int2Set.choose !possibilities with | None -> acc | Some (root1, root2) -> (match Renaming.add ~debug_mode root1 root2 (Renaming.empty ()) with | None -> assert false | Some r -> let nodes = aux r Mods.IntMap.empty [ root1, root2 ] in let acc' = if Mods.IntMap.is_empty nodes then acc else ( let nodes_by_type = Array.map (List.filter (fun a -> Mods.IntMap.mem a nodes)) cc1.nodes_by_type in minimize ~debug_mode nodes_by_type nodes cc1.nodes_by_type :: acc ) in for_one_root acc') in for_one_root [] (* renaming is a total morphism from cc1' to cc2; cc1' is included in cc1 *) let intersection renaming cc1 cc2 = let nodes, image = Renaming.fold (fun i j ((accn, l) as acc) -> match Mods.IntMap.find_option i cc1.nodes with | None -> acc | Some nodes1 -> (match Mods.IntMap.find_option j cc2.nodes with | None -> acc | Some nodes2 -> let out = Array.mapi (fun k (l2, i2) -> let l1, i1 = nodes1.(k) in ( (if l1 = UnSpec then UnSpec else l2), if i1 = -1 then -1 else i2 )) nodes2 in Mods.IntMap.add j out accn, j :: l)) renaming (Mods.IntMap.empty, []) in let nodes_by_type = Array.map (List.filter (fun a -> List.mem a image)) cc2.nodes_by_type in { nodes_by_type; nodes; recogn_nav = raw_to_navigation false nodes_by_type nodes; } type extremity = Open | Closed let fetch_exit_site _sigs sid = sid+1 let rec counter_value sigs nodes (nid, sid) count = match Mods.IntMap.find_option nid nodes with | None -> failwith "pending bonds encountered when computing the length of a chain (counters)" | Some ag -> let other = fetch_exit_site sigs sid in let (el,_) = ag.(other) in match el with | UnSpec -> count, Open | Free -> count, Closed | Link (dn, di) -> counter_value sigs nodes (dn, di) (count + 1) let counter_value sigs min_value nodes (nid, sid) = let a,b = counter_value sigs nodes (nid, sid) 0 in min_value + a, b let counter_value_cc sigs counter_sig cc (nid, sid) = let min_value = counter_sig.Counters_info.counter_sig_min in let min_value = match min_value with | None -> assert false | Some (None, _) -> assert false | Some (Some min_value,_) -> min_value in let nodes = cc.nodes in let count, extremity = counter_value sigs min_value nodes (nid, sid) in let () = match extremity with Open -> failwith "pending bonds encountered when computing the length of a chain (counters)" | Closed -> () in count let dotcomma dotnet = if dotnet then fun fmt -> Format.fprintf fmt "," else Pp.space let print_cc ~noCounters ?(dotnet = false) ?(full_species = false) ?sigs ?counters_info ?cc_id ~with_id f cc = let print_intf ((ag_i, ag_t) as ag) link_ids neigh = snd (Tools.array_fold_lefti (fun p (not_empty, ((free, link_ids) as out)) (el, st) -> let () = if st >= 0 then Format.fprintf f "%t%a" (if not_empty then dotcomma dotnet else Pp.empty) (Agent.print_internal ?sigs ag p) st else if el <> UnSpec then Format.fprintf f "%t%a" (if not_empty then dotcomma dotnet else Pp.empty) (Agent.print_site ?sigs ag) p in match el with | UnSpec -> if st >= 0 then ( let () = if full_species then Format.pp_print_string f "[.]" in true, out ) else not_empty, out | Free -> let () = Format.pp_print_string f "[.]" in true, out | Link (dst_a, dst_p) -> let dst_ty = find_ty cc dst_a in if match sigs with | None -> false | Some sigs -> Signature.is_counter_agent sigs dst_ty && not noCounters then ( match sigs, counters_info with | None, _ | _, None -> assert false | Some sigs, Some counters_info -> let min_value = let counter_sig = Counters_info.get_counter_sig sigs counters_info ag_t p in match counter_sig.Counters_info.counter_sig_min with | None -> assert false | Some (None, _) -> assert false | Some (Some min_value,_) -> min_value in let (counter,kind) = counter_value sigs min_value cc.nodes (dst_a, dst_p) in let () = Format.fprintf f "{%s%d}" (match kind with Closed -> "=" | Open -> ">=") counter in true, out ) else ( let i, out' = match Mods.Int2Map.find_option (dst_a, dst_p) link_ids with | Some x -> x, out | None -> free, (succ free, Mods.Int2Map.add (ag_i, p) free link_ids) in let () = Format.fprintf f "[%i]" i in true, out' )) (false, link_ids) neigh) in let () = match cc_id with | None -> () | Some cc_id -> Format.fprintf f "/*cc%i*/@ " cc_id in let _, _ = Mods.IntMap.fold (fun x el (not_empty, link_ids) -> let ag_x = x, find_ty cc x in if match sigs with | None -> true | Some sigs -> (not (Signature.is_counter_agent sigs (snd ag_x))) || noCounters then ( let () = Format.fprintf f "%t@[<h>%a(" (if not_empty then if dotnet then fun fmt -> Format.fprintf fmt "." else Pp.comma else Pp.empty) (Agent.print ?sigs ~with_id) ag_x in let out = print_intf ag_x link_ids el in let () = Format.fprintf f ")@]" in true, out ) else not_empty, link_ids) cc.nodes (false, (1, Mods.Int2Map.empty)) in () let print_cc_as_id sigs counters_info f cc = let print_intf ((ag_i, ag_t) as ag) link_ids neigh = snd (Tools.array_fold_lefti (fun p (not_empty, ((free, link_ids) as out)) (el, st) -> let () = if el <> UnSpec || st >= 0 then Format.fprintf f "%t%a" (if not_empty then fun f -> Format.pp_print_string f "_" else Pp.empty) (Agent.print_site ~sigs ag) p in let () = if st >= 0 then Format.fprintf f "~%a" (Agent.print_raw_internal ~sigs ag p) st in match el with | UnSpec -> not_empty || st >= 0, out | Free -> true, out | Link (dst_a, dst_p) -> let dst_ty = find_ty cc dst_a in if Signature.is_counter_agent sigs dst_ty then ( let min_value = let counter_sig = Counters_info.get_counter_sig sigs counters_info ag_t p in match counter_sig.Counters_info.counter_sig_min with | None -> assert false | Some (None, _) -> assert false | Some (Some min_value,_) -> min_value in let counter,extremity = counter_value sigs min_value cc.nodes (dst_a, dst_p) in let () = match extremity with Open -> failwith ("bonds should not be opened") | Closed -> () in let () = Format.fprintf f "~+%d" counter in true, out ) else ( let i, out' = match Mods.Int2Map.find_option (dst_a, dst_p) link_ids with | Some x -> x, out | None -> free, (succ free, Mods.Int2Map.add (ag_i, p) free link_ids) in let () = Format.fprintf f "~%i" i in true, out' )) (false, link_ids) neigh) in let _, _ = Mods.IntMap.fold (fun x el (not_empty, link_ids) -> let ag_x = x, find_ty cc x in if not (Signature.is_counter_agent sigs (snd ag_x)) then ( let () = Format.fprintf f "%t@[<h>%a__" (if not_empty then fun f -> Format.pp_print_string f "__" else Pp.empty) (Agent.print ~sigs ~with_id:false) ag_x in let out = print_intf ag_x link_ids el in let () = Format.fprintf f "@]" in true, out ) else not_empty, link_ids) cc.nodes (false, (1, Mods.Int2Map.empty)) in () let to_yojson cc = match Mods.IntMap.max_key cc.nodes with | None -> `Null | Some m -> let s = succ m in let sorts = Array.make s None in let () = Array.iteri (fun ty -> List.iter (fun id -> sorts.(id) <- Some ty)) cc.nodes_by_type in `Assoc [ ( "sorts", `List (Array.fold_right (fun x acc -> (match x with | None -> `Null | Some i -> `Int i) :: acc) sorts []) ); ( "nodes", `List (Tools.recti (fun acc i -> (match Mods.IntMap.find_option i cc.nodes with | None -> `Null | Some a -> `List (Array.fold_right (fun (l, s) acc -> `List [ (match l with | Free -> `Bool true | Link (n, s) -> `Assoc [ "node", `Int n; "site", `Int s ] | UnSpec -> `Bool false); (if s < 0 then `Null else `Int s); ] :: acc) a [])) :: acc) [] s) ); ] let of_yojson sig_decl = function | `Assoc [ ("sorts", `List s); ("nodes", `List n) ] | `Assoc [ ("nodes", `List n); ("sorts", `List s) ] -> let _, nodes = List.fold_left (fun (i, acc) -> function | `Null -> succ i, acc | `List l -> ( succ i, Mods.IntMap.add i (Tools.array_map_of_list (function | `List [ `Bool b; `Null ] -> ( (if b then Free else UnSpec), -1 ) | `List [ ( `Assoc [ ("node", `Int n); ("site", `Int s) ] | `Assoc [ ("site", `Int s); ("node", `Int n) ] ); `Null; ] -> Link (n, s), -1 | `List [ `Bool b; `Int s ] -> ( (if b then Free else UnSpec), s ) | `List [ ( `Assoc [ ("node", `Int n); ("site", `Int s) ] | `Assoc [ ("site", `Int s); ("node", `Int n) ] ); `Int st; ] -> Link (n, s), st | x -> raise (Yojson.Basic.Util.Type_error ("Invalid node", x))) l) acc ) | x -> raise (Yojson.Basic.Util.Type_error ("Invalid node links", x))) (0, Mods.IntMap.empty) n in let nodes_by_type = Array.make (Signature.size sig_decl) [] in let () = List.iteri (fun i -> function | `Null -> () | `Int ty -> nodes_by_type.(ty) <- i :: nodes_by_type.(ty) | x -> raise (Yojson.Basic.Util.Type_error ("Wrong node type", x))) s in { nodes_by_type; nodes; recogn_nav = raw_to_navigation false nodes_by_type nodes; } | `Null -> empty_cc sig_decl | x -> raise (Yojson.Basic.Util.Type_error ("Not a pattern", x)) let merge_compatible ~debug_mode reserved_ids free_id inj1_to_2 cc1 cc2 = let img = Renaming.image inj1_to_2 in let available_ids = Array.map (List.filter (fun id -> not (Mods.IntSet.mem id img))) reserved_ids in let used_ids = Array.map (List_util.map_option (fun id -> if Renaming.mem id inj1_to_2 then Some (Renaming.apply ~debug_mode inj1_to_2 id) else None)) cc1.nodes_by_type in let available_in_cc1 = Array.mapi (fun i l -> List.filter (fun x -> not (List.mem x cc1.nodes_by_type.(i))) l) reserved_ids in let free_id_for_cc1 = ref free_id in let get_cc2 j (((inj1, free_id), inj2, (todos1, todos2)) as pack) = if Renaming.mem j inj2 then Renaming.apply ~debug_mode inj2 j, pack else ( let ty = find_ty cc2 j in let img, free_id' = match available_ids.(ty) with | [] -> free_id, succ free_id | h :: t -> let () = available_ids.(ty) <- t in h, free_id in let () = used_ids.(ty) <- img :: used_ids.(ty) in let o = match available_in_cc1.(ty) with | [] -> let x = !free_id_for_cc1 in let () = incr free_id_for_cc1 in x | h :: t -> let () = available_in_cc1.(ty) <- t in h in ( img, ( ( (match Renaming.add ~debug_mode o img inj1 with | Some x -> x | None -> assert false), free_id' ), (match Renaming.add ~debug_mode j img inj2 with | Some x -> x | None -> assert false), (todos1, (j, img) :: todos2) ) ) ) in let get_cc1 i (((inj1, free_id), inj2, (todos1, todos2)) as pack) = if Renaming.mem i inj1 then Renaming.apply ~debug_mode inj1 i, pack else ( let ty = find_ty cc1 i in let img, free_id' = match available_ids.(ty) with | [] -> free_id, succ free_id | h :: t -> let () = available_ids.(ty) <- t in h, free_id in let () = used_ids.(ty) <- img :: used_ids.(ty) in ( img, ( ( (match Renaming.add ~debug_mode i img inj1 with | Some x -> x | None -> assert false), free_id' ), inj2, ((i, img) :: todos1, todos2) ) ) ) in let pack', nodes = let rec glue pack inj2 nodes = function | [], [] -> pack, nodes | [], (i, j) :: todos2 -> let nodesi = Mods.IntMap.find_default [||] i cc2.nodes in let nodeso = Array.copy nodesi in let pack', inj2', todos' = Tools.array_fold_lefti (fun k acc -> function | (UnSpec | Free), _ -> acc | Link (n, s), st -> let n', acc' = get_cc2 n acc in let () = nodeso.(k) <- Link (n', s), st in acc') (pack, inj2, ([], todos2)) nodesi in glue pack' inj2' (Mods.IntMap.add j nodeso nodes) todos' | (i, j) :: todos1, todos2 -> let nodesi = Mods.IntMap.find_default [||] i cc1.nodes in let nodeso = Array.copy nodesi in let pack', inj2', todos' = match Mods.IntMap.find_option j cc2.nodes with | None -> Tools.array_fold_lefti (fun k acc -> function | (UnSpec | Free), _ -> acc | Link (n, s), st -> let n', acc' = get_cc1 n acc in let () = nodeso.(k) <- Link (n', s), st in acc') (pack, inj2, (todos1, todos2)) nodesi | Some nodesj -> Tools.array_fold_lefti (fun k acc -> function | Free, _ -> let _, stj = nodesj.(k) in let () = if stj <> -1 then nodeso.(k) <- Free, stj in acc | Link (n, s), sti -> let _, stj = nodesj.(k) in let sto = if stj <> -1 then stj else sti in let n', acc' = get_cc1 n acc in let () = nodeso.(k) <- Link (n', s), sto in acc' | UnSpec, sti -> (match nodesj.(k) with | UnSpec, stj -> let () = if stj <> -1 then nodeso.(k) <- UnSpec, stj in acc | Free, stj -> let () = nodeso.(k) <- ( Free, if stj <> -1 then stj else sti ) in acc | Link (n, s), stj -> let sto = if stj <> -1 then stj else sti in let n', acc' = get_cc2 n acc in let () = nodeso.(k) <- Link (n', s), sto in acc')) (pack, inj2, (todos1, todos2)) nodesi in glue pack' inj2' (Mods.IntMap.add j nodeso nodes) todos' in glue (inj1_to_2, free_id) (Renaming.identity (Mods.IntSet.elements img)) Mods.IntMap.empty (Renaming.to_list inj1_to_2, []) in let nodes_by_type = Array.map (List.sort Mods.int_compare) used_ids in let () = Array.iteri (fun i x -> reserved_ids.(i) <- List_util.merge_uniq Mods.int_compare nodes_by_type.(i) x) available_ids in ( pack', { nodes_by_type; nodes; recogn_nav = raw_to_navigation false nodes_by_type nodes; } ) let ~debug_mode inj_d_to_o cc_o cc_d = let rec handle_links discovered next_round recogn intern = function | [] -> if next_round = [] then List.rev_append recogn intern else handle_links discovered [] recogn intern next_round | (((i, j, s), (n', s')) as h) :: todos -> let n = Renaming.apply ~debug_mode inj_d_to_o n' in (match Mods.IntSet.mem j discovered, Mods.IntSet.mem n' discovered with | false, false -> handle_links discovered (h :: next_round) recogn intern todos | true, true -> let intern' = ( (Navigation.Existing i, s), Navigation.ToNode (Navigation.Existing n, s') ) :: intern in handle_links discovered next_round recogn intern' todos | true, false -> let recogn' = ( (Navigation.Existing i, s), Navigation.ToNode (Navigation.Fresh (n, find_ty cc_d n'), s') ) :: recogn in handle_links (Mods.IntSet.add n' discovered) next_round recogn' intern todos | false, true -> let recogn' = ( (Navigation.Existing n, s'), Navigation.ToNode (Navigation.Fresh (i, find_ty cc_d j), s) ) :: recogn in handle_links (Mods.IntSet.add j discovered) next_round recogn' intern todos) in let discov, all_links, intern = Renaming.fold (fun j i (disc, links, inter) -> let nodesd = Mods.IntMap.find_default [||] j cc_d.nodes in let disc', nodeso = match Mods.IntMap.find_option i cc_o.nodes with | None -> disc, Array.make (Array.length nodesd) (UnSpec, -1) | Some nodeso -> Mods.IntSet.add j disc, nodeso in Tools.array_fold_left2i (fun s ((dis, li, int) as acc) (ol, os) (dl, ds) -> let ((_, _, int') as acc') = if os = -1 && ds <> -1 then ( dis, li, ((Navigation.Existing i, s), Navigation.ToInternal ds) :: int ) else acc in if ol <> UnSpec then acc' else ( match dl with | UnSpec -> acc' | Free -> ( dis, li, ((Navigation.Existing i, s), Navigation.ToNothing) :: int' ) | Link (n, s') -> if n > (*la*) j || (n = j && s > s') then acc' else dis, ((i, j, s), (n, s')) :: li, int' )) (disc', links, inter) nodeso nodesd) inj_d_to_o (Mods.IntSet.empty, [], []) in handle_links discov [] [] intern all_links module Env : sig type transition = { next: Navigation.abstract Navigation.t; dst: id; (* id of cc and also address in the Env.domain map*) inj: Renaming.t; (* From dst To ("this" cc + extra edge) *) } type point = { content: cc; roots: (int list (*ids*) * int (*ty*)) option; deps: Operator.DepSet.t; mutable sons: transition list; } val content : point -> cc val roots : point -> (int list (*ids*) * int (*ty*)) option val deps : point -> Operator.DepSet.t val sons : point -> transition list type t = { sig_decl: Signature.s; counters_info: Counters_info.t; id_by_type: int list array; max_obs: int; domain: point array; elementaries: (Navigation.abstract Navigation.step * id) list array array; single_agent_points: (id * Operator.DepSet.t) option array; } val get : t -> id -> point val get_single_agent : int -> t -> (id * Operator.DepSet.t) option val get_elementary : debug_mode:bool -> t -> Agent.t -> int -> Navigation.abstract Navigation.arrow -> (id * point * Renaming.t) option val signatures : t -> Signature.s val counters_info : t -> Counters_info.t val new_obs_map : t -> (id -> 'a) -> 'a ObsMap.t val print : noCounters:bool -> Format.formatter -> t -> unit val to_yojson : t -> Yojson.Basic.t val of_yojson : Yojson.Basic.t -> t end = struct type transition = { next: Navigation.abstract Navigation.t; dst: id; (* id of cc and also address in the Env.domain map*) inj: Renaming.t; (* From dst To ("this" cc + extra edge) *) } type point = { content: cc; roots: (int list (*ids*) * int (*ty*)) option; deps: Operator.DepSet.t; mutable sons: transition list; } let content p = p.content let roots p = p.roots let deps p = p.deps let sons p = p.sons type t = { sig_decl: Signature.s; counters_info: Counters_info.t; id_by_type: int list array; max_obs: int; domain: point array; elementaries: (Navigation.abstract Navigation.step * id) list array array; single_agent_points: (id * Operator.DepSet.t) option array; } let signatures env = env.sig_decl let counters_info env = env.counters_info let print ~noCounters f env = let pp_point p_id f p = Format.fprintf f "@[<hov 2>@[<h>%a@]@ %t-> @[(%a)@]@]" (fun x -> print_cc ~noCounters ~sigs:env.sig_decl ~counters_info:env.counters_info ~cc_id:p_id ~with_id:true x) p.content (fun f -> if p.roots <> None then Format.fprintf f "@[[%a]@]@ " (Pp.set Operator.DepSet.elements Pp.space Operator.print_rev_dep) p.deps) (Pp.list Pp.space (fun f s -> Format.fprintf f "@[%a(%a)@ %i@]" (Navigation.print env.sig_decl (find_ty p.content)) s.next Renaming.print s.inj s.dst)) p.sons in Format.fprintf f "@[<v>%a@]" (Pp.array Pp.space pp_point) env.domain let get_single_agent ty env = env.single_agent_points.(ty) let get env cc_id = env.domain.(cc_id) let env id = let cc = (get env id).content in raw_to_navigation true cc.nodes_by_type cc.nodes let transition_to_yojson t = `Assoc [ "dst", `Int t.dst; "inj", Renaming.to_yojson t.inj; "nav", Navigation.to_yojson t.next; ] let transition_of_yojson = function | `Assoc [ ("dst", `Int dst); ("inj", r); ("nav", n) ] | `Assoc [ ("dst", `Int dst); ("nav", n); ("inj", r) ] | `Assoc [ ("inj", r); ("nav", n); ("dst", `Int dst) ] | `Assoc [ ("nav", n); ("inj", r); ("dst", `Int dst) ] | `Assoc [ ("inj", r); ("dst", `Int dst); ("nav", n) ] | `Assoc [ ("nav", n); ("dst", `Int dst); ("inj", r) ] -> { dst; inj = Renaming.of_yojson r; next = Navigation.of_yojson n } | x -> raise (Yojson.Basic.Util.Type_error ("Incorrect transition", x)) let point_to_yojson p = `Assoc [ "content", to_yojson p.content; ( "roots", JsonUtil.of_option (fun (ids, ty) -> `List [ `List (List.map JsonUtil.of_int ids); `Int ty ]) p.roots ); "deps", Operator.depset_to_yojson p.deps; "sons", `List (List.map transition_to_yojson p.sons); ] let point_of_yojson sig_decl = function | `Assoc l as x when List.length l = 4 -> (try { content = of_yojson sig_decl (List.assoc "content" l); roots = (match List.assoc "roots" l with | `Null -> None | `List [ `List ids; `Int ty ] -> Some (List.map Yojson.Basic.Util.to_int ids, ty) | _ -> raise Not_found); deps = Operator.depset_of_yojson (List.assoc "deps" l); sons = (match List.assoc "sons" l with | `List l -> List.map transition_of_yojson l | _ -> raise Not_found); } with Not_found -> raise (Yojson.Basic.Util.Type_error ("Incorrect domain point", x))) | x -> raise (Yojson.Basic.Util.Type_error ("Incorrect domain point", x)) let to_yojson env = `Assoc [ "signatures", Signature.to_json env.sig_decl; ( "single_agents", `List (Array.fold_right (fun x acc -> (match x with | None -> `Null | Some (id, _deps) -> `Int id) :: acc) env.single_agent_points []) ); ( "elementaries", `List (Array.fold_right (fun x acc -> `List (Array.fold_right (fun x acc -> `List (List.map (fun (st, d) -> `List [ Navigation.step_to_yojson st; `Int d ]) x) :: acc) x []) :: acc) env.elementaries []) ); ( "dag", `List (Array.fold_right (fun x acc -> point_to_yojson x :: acc) env.domain []) ); ( "id_by_type", `List (Array.fold_right (fun x acc -> `List (List.map (fun i -> `Int i) x) :: acc) env.id_by_type []) ); "max_obs", `Int env.max_obs; ] let of_yojson = function | `Assoc l as x when List.length l = 6 -> let sig_decl = Signature.of_json (List.assoc "signatures" l) in (try { sig_decl; counters_info = [||]; (* TO DO *) (* Si json le prendre, sinon le synthétiser avec l'ancien fonctionnement *) single_agent_points = (match List.assoc "single_agents" l with | `List l -> Tools.array_map_of_list (Yojson.Basic.Util.to_option (function | `Int i -> i, Operator.DepSet.empty | x -> raise (Yojson.Basic.Util.Type_error ("Wrong single_agent", x)))) l | _ -> raise Not_found); elementaries = (match List.assoc "elementaries" l with | `List l -> Tools.array_map_of_list (function | `List l -> Tools.array_map_of_list (function | `List l -> List.map (function | `List [ s; `Int d ] -> Navigation.step_of_yojson s, d | _ -> raise Not_found) l | _ -> raise Not_found) l | _ -> raise Not_found) l | _ -> raise Not_found); domain = (match List.assoc "dag" l with | `List l -> Tools.array_map_of_list (point_of_yojson sig_decl) l | _ -> raise Not_found); id_by_type = (match List.assoc "id_by_type" l with | `List l -> Tools.array_map_of_list (function | `List l -> List.map (function | `Int i -> i | _ -> raise Not_found) l | _ -> raise Not_found) l | _ -> raise Not_found); max_obs = (match List.assoc "max_obs" l with | `Int i -> i | _ -> raise Not_found); } with Not_found -> raise (Yojson.Basic.Util.Type_error ("Incorrect update domain", x))) | x -> raise (Yojson.Basic.Util.Type_error ("Incorrect update domain", x)) let new_obs_map env f = Mods.DynArray.init env.max_obs f let get_elementary ~debug_mode domain ((_, ty) as node) s arrow = let sa = domain.elementaries.(ty) in let rec find_good_edge = function (*one should use a hash here*) | [] -> None | (st, cc_id) :: tail -> (match Navigation.compatible_fresh_point ~debug_mode st node s arrow with | None -> find_good_edge tail | Some inj' -> let dst = get domain cc_id in Some (cc_id, dst, inj')) in find_good_edge sa.(s) end let print ~noCounters ?domain ~with_id f id = match domain with | None -> Format.pp_print_int f id | Some env -> let cc_id = if with_id then Some id else None in print_cc ~noCounters ~sigs:(Env.signatures env) ~counters_info:(Env.counters_info env) ?cc_id ~with_id f env.Env.domain.(id).Env.content let embeddings_to_fully_specified ~debug_mode domain a_id b = let a = domain.Env.domain.(a_id).Env.content in match find_root a with | None -> [ Renaming.empty () ] | Some (h, ty) -> List.fold_left (fun acc ag -> match are_compatible ~debug_mode ~strict:false h a ag b with | None, _ -> acc | Some r, _ -> r :: acc) [] b.nodes_by_type.(ty) type prepoint = { p_id: id; element: cc; depending: Operator.DepSet.t; roots: (int list (*ids*) * int (*ty*)) option; } type work = { sigs: Signature.s; counters: Counters_info.t; cc_env: prepoint list Mods.IntMap.t Mods.IntMap.t; reserved_id: int list array; used_id: int list array; free_id: int; cc_nodes: (link * int) array Mods.IntMap.t; dangling: int; (* node_id *) } module PreEnv = struct type t = { sig_decl: Signature.s; counters_info: Counters_info.t; id_by_type: int list array; nb_id: int; domain: prepoint list Mods.IntMap.t Mods.IntMap.t; mutable used_by_a_begin_new: bool; } type stat = { stat_nodes: int; stat_nav_steps: int } let counters_info preenv = preenv.counters_info let fresh sigs counters_info id_by_type nb_id domain = { sig_decl = sigs; counters_info ; id_by_type; nb_id; domain; used_by_a_begin_new = false } let empty sigs counters_info = let nbt' = Array.make (Signature.size sigs) [] in fresh sigs counters_info nbt' 1 Mods.IntMap.empty let check_vitality env = assert (env.used_by_a_begin_new = false) let to_work env = let () = check_vitality env in let () = env.used_by_a_begin_new <- true in { sigs = env.sig_decl; counters = env.counters_info; cc_env = env.domain; reserved_id = env.id_by_type; used_id = Array.make (Array.length env.id_by_type) []; free_id = env.nb_id; cc_nodes = Mods.IntMap.empty; dangling = 0; } let sigs env = env.sig_decl let empty_point sigs = { Env.content = empty_cc sigs; Env.roots = None; Env.deps = Operator.DepSet.empty; Env.sons = []; } let fill_elem sigs bottom = let elementaries = Array.init (Signature.size sigs) (fun i -> Array.make (Signature.arity sigs i) []) in let () = Mods.IntMap.iter (fun _ -> List.iter (fun p -> match p.element.recogn_nav with | [] | ((Navigation.Existing _, _), _) :: _ -> assert false | ((Navigation.Fresh _, _), _) :: _ :: _ -> () | [ (((Navigation.Fresh (_, ty1), s1), arr) as step) ] -> let sa1 = elementaries.(ty1) in let () = sa1.(s1) <- (step, p.p_id) :: sa1.(s1) in (match arr with | Navigation.ToNode (Navigation.Fresh (_, ty2), s2) -> if ty1 = ty2 && s1 <> s2 then sa1.(s2) <- (step, p.p_id) :: sa1.(s2) else ( let sa2 = elementaries.(ty2) in sa2.(s2) <- (step, p.p_id) :: sa2.(s2) ) | Navigation.ToNode (Navigation.Existing _, s2) -> sa1.(s2) <- (step, p.p_id) :: sa1.(s2) | Navigation.ToNothing | Navigation.ToInternal _ -> ()))) bottom in elementaries let present_in_dst ~debug_mode dst inj2dst = let rec aux_present_in_dst inj' = function | [] -> Some inj' | ((Navigation.Fresh _, _), _) :: _ -> assert false | ((Navigation.Existing ag, si), Navigation.ToNothing) :: t -> (match Mods.IntMap.find_option (Renaming.apply ~debug_mode inj' ag) dst.nodes with | None -> assert false | Some n -> if fst n.(si) = Free then aux_present_in_dst inj' t else None) | ((Navigation.Existing ag, si), Navigation.ToInternal i) :: t -> (match Mods.IntMap.find_option (Renaming.apply ~debug_mode inj' ag) dst.nodes with | None -> assert false | Some n -> if snd n.(si) = i then aux_present_in_dst inj' t else None) | ( (Navigation.Existing ag, si), Navigation.ToNode (Navigation.Existing ag', si') ) :: t -> (match Mods.IntMap.find_option (Renaming.apply ~debug_mode inj' ag) dst.nodes with | None -> assert false | Some n -> if fst n.(si) = Link (Renaming.apply ~debug_mode inj' ag', si') then aux_present_in_dst inj' t else None) | ( (Navigation.Existing ag, si), Navigation.ToNode (Navigation.Fresh (ag', ty'), si') ) :: t -> (match Mods.IntMap.find_option (Renaming.apply ~debug_mode inj' ag) dst.nodes with | None -> assert false | Some n -> (match n.(si) with | Link (agl, sil), _ -> if List.mem agl dst.nodes_by_type.(ty') && si' = sil then ( match Renaming.add ~debug_mode ag' agl inj' with | None -> None | Some inj' -> aux_present_in_dst inj' t ) else None | (Free | UnSpec), _ -> None)) in aux_present_in_dst inj2dst nav let rec ~debug_mode id_by_type nb_id domain dst_id dst inj2dst p_id = if p_id = dst_id then 0 else ( let point = domain.(p_id) in let rec = function | [] -> let (inj_e2sup, _), sup = merge_compatible ~debug_mode id_by_type nb_id inj2dst point.Env.content dst in (match equal ~debug_mode sup dst with | None -> assert false | Some inj_sup2dst -> let inj_dst2p = Renaming.inverse (Renaming.compose ~debug_mode false inj_e2sup inj_sup2dst) in let = build_navigation_between ~debug_mode inj_dst2p point.Env.content dst in let () = point.Env.sons <- { Env.dst = dst_id; Env.inj = inj_dst2p; Env.next = nav } :: point.Env.sons in List.length nav) | h :: t -> (match present_in_dst ~debug_mode dst inj2dst h.Env.next with | None -> insert_nav_sons t | Some inj_p'2dst -> insert_navigation ~debug_mode id_by_type nb_id domain dst_id dst (Renaming.compose ~debug_mode false h.Env.inj inj_p'2dst) h.Env.dst) in insert_nav_sons point.Env.sons ) let add_cc ~debug_mode ~toplevel ?origin env p_id element = let w = weight element in let hash = coarse_hash element in let rec aux = function | [] -> let roots = if toplevel then ( match find_root element with | None -> None | Some (rid, rty) -> Some ( List.sort Mods.int_compare (List.map (fun r -> Renaming.apply ~debug_mode r rid) (automorphisms ~debug_mode element)), rty ) ) else None in ( [ { p_id; element; roots; depending = add_origin Operator.DepSet.empty origin; }; ], identity_injection element, element, p_id ) | h :: t -> (match equal ~debug_mode element h.element with | None -> let a, b, c, d = aux t in h :: a, b, c, d | Some r -> let roots = if h.roots <> None || not toplevel then h.roots else ( match find_root element with | None -> None | Some (rid, rty) -> Some ( List.sort Mods.int_compare (List.map (fun r -> Renaming.apply ~debug_mode r rid) (automorphisms ~debug_mode element)), rty ) ) in ( { p_id = h.p_id; element = h.element; depending = add_origin h.depending origin; roots; } :: t, r, h.element, h.p_id )) in let env_w = Mods.IntMap.find_default Mods.IntMap.empty w env in let env_w_h, r, out, out_id = aux (Mods.IntMap.find_default [] hash env_w) in Mods.IntMap.add w (Mods.IntMap.add hash env_w_h env_w) env, r, out, out_id let rec saturate_one ~debug_mode ~sharing sigs this max_l level ((_, domain) as acc) = function | [] -> if level < max_l then saturate_one ~debug_mode ~sharing sigs this max_l (succ level) acc (Mods.IntMap.fold (fun _ -> List.rev_append) (Mods.IntMap.find_default Mods.IntMap.empty (succ level) domain) []) else acc | h :: t -> let news = match sharing with | No_sharing -> assert false | Max_sharing -> infs sigs ~debug_mode this.element h.element | Compatible_patterns -> List.rev_map (fun r -> intersection r this.element h.element) (matchings ~debug_mode sigs this.element h.element) in let acc' = List.fold_left (fun (mid, acc) cc -> let id' = succ mid in let x, _, _, id = add_cc ~debug_mode ~toplevel:false acc id' cc in ( (if id = id' then id else mid), x )) acc news in saturate_one ~debug_mode ~sharing sigs this max_l level acc' t let rec saturate_level ~debug_mode ~sharing sigs max_l level ((_, domain) as acc) = if level < 2 then acc else ( match Mods.IntMap.find_option level domain with | None -> saturate_level ~debug_mode ~sharing sigs max_l (pred level) acc | Some list -> let rec aux acc = function | [] -> saturate_level ~debug_mode ~sharing sigs max_l (pred level) acc | h :: t -> aux (saturate_one ~debug_mode ~sharing sigs h max_l level acc t) t in aux acc (Mods.IntMap.fold (fun _ -> List.rev_append) list []) ) let saturate ~debug_mode ~sharing sigs domain = match Mods.IntMap.max_key domain with | None -> 0, domain | Some l -> let si = Mods.IntMap.fold (fun _ -> Mods.IntMap.fold (fun _ l m -> List.fold_left (fun m p -> max m p.p_id) m l)) domain 0 in (match sharing with | No_sharing -> si, domain | Compatible_patterns | Max_sharing -> saturate_level ~debug_mode ~sharing sigs l l (si, domain)) let of_env env = let add_cc acc p = let w = weight p.element in let hash = coarse_hash p.element in let acc_w = Mods.IntMap.find_default Mods.IntMap.empty w acc in Mods.IntMap.add w (Mods.IntMap.add hash (p :: Mods.IntMap.find_default [] hash acc_w) acc_w) acc in let domain' = Tools.array_fold_lefti (fun p_id acc p -> add_cc acc { p_id; element = p.Env.content; depending = p.Env.deps; roots = p.Env.roots; }) Mods.IntMap.empty env.Env.domain in { sig_decl = env.Env.sig_decl; counters_info = Env.counters_info env; nb_id = succ (Array.fold_left (List.fold_left max) 0 env.Env.id_by_type); id_by_type = env.Env.id_by_type; domain = domain'; used_by_a_begin_new = false; } let debug_print f env = Pp.array Pp.comma (fun ty f l -> Format.fprintf f "%d: %t" ty (fun f -> Format.fprintf f "["; Pp.list Pp.comma (fun f a -> Format.fprintf f "%d" a) f l; Format.fprintf f "]")) f env.id_by_type; Format.fprintf f "used_by_a_begin_new = %B@." env.used_by_a_begin_new end (** Operation to create cc *) let check_dangling wk = if wk.dangling <> 0 then raise (dangling_node ~sigs:wk.sigs wk.used_id wk.dangling) let begin_new env = PreEnv.to_work env let fresh_cc_id domain = succ (Mods.IntMap.fold (fun _ -> Mods.IntMap.fold (fun _ x acc -> List.fold_left (fun acc p -> max acc p.p_id) acc x)) domain 0) let raw_finish_new ~debug_mode ~toplevel ?origin wk = let () = check_dangling wk in (* rebuild env *) let () = Tools.iteri (fun i -> wk.reserved_id.(i) <- List.rev_append wk.used_id.(i) wk.reserved_id.(i)) (Array.length wk.used_id) in let nodes_by_type = Array.map List.rev wk.used_id in let cc_candidate = { nodes_by_type; nodes = wk.cc_nodes; recogn_nav = raw_to_navigation false nodes_by_type wk.cc_nodes; } in let preenv, r, out, out_id = PreEnv.add_cc ~debug_mode ~toplevel ?origin wk.cc_env (fresh_cc_id wk.cc_env) cc_candidate in PreEnv.fresh wk.sigs wk.counters wk.reserved_id wk.free_id preenv, r, out, out_id let finish_new ~debug_mode ?origin wk = raw_finish_new ~debug_mode ~toplevel:true ?origin wk let new_link wk (((x, _) as n1), i) (((y, _) as n2), j) = let x_n = Mods.IntMap.find_default [||] x wk.cc_nodes in let y_n = Mods.IntMap.find_default [||] y wk.cc_nodes in match x_n.(i), y_n.(j) with | (UnSpec, stx), (UnSpec, sty) -> let () = x_n.(i) <- Link (y, j), stx in let () = y_n.(j) <- Link (x, i), sty in if wk.dangling = x || wk.dangling = y then { wk with dangling = 0 } else wk | ((Free | Link _), _), _ -> raise (already_specified ~sigs:wk.sigs n1 i) | _, ((Free | Link _), _) -> raise (already_specified ~sigs:wk.sigs n2 j) let new_free wk (((x, _) as n), i) = let x_n = Mods.IntMap.find_default [||] x wk.cc_nodes in match x_n.(i) with | UnSpec, st -> let () = x_n.(i) <- Free, st in wk | (Free | Link _), _ -> raise (already_specified ~sigs:wk.sigs n i) let new_internal_state wk (((x, _) as n), i) va = let x_n = Mods.IntMap.find_default [||] x wk.cc_nodes in let l, s = x_n.(i) in if s >= 0 then raise (already_specified ~sigs:wk.sigs n i) else ( let () = x_n.(i) <- l, va in wk ) let new_node wk type_id = let () = check_dangling wk in let arity = Signature.arity wk.sigs type_id in match wk.reserved_id.(type_id) with | h :: t -> let () = wk.used_id.(type_id) <- h :: wk.used_id.(type_id) in let () = wk.reserved_id.(type_id) <- t in let node = h, type_id in ( node, { sigs = wk.sigs; counters = wk.counters; cc_env = wk.cc_env; reserved_id = wk.reserved_id; used_id = wk.used_id; free_id = wk.free_id; dangling = (if Mods.IntMap.is_empty wk.cc_nodes then 0 else h); cc_nodes = Mods.IntMap.add h (Array.make arity (UnSpec, -1)) wk.cc_nodes; } ) | [] -> let () = wk.used_id.(type_id) <- wk.free_id :: wk.used_id.(type_id) in let node = wk.free_id, type_id in ( node, { sigs = wk.sigs; counters = wk.counters ; cc_env = wk.cc_env; reserved_id = wk.reserved_id; used_id = wk.used_id; free_id = succ wk.free_id; dangling = (if Mods.IntMap.is_empty wk.cc_nodes then 0 else wk.free_id); cc_nodes = Mods.IntMap.add wk.free_id (Array.make arity (UnSpec, -1)) wk.cc_nodes; } ) let minimal_env ~debug_mode env contact_map = Tools.array_fold_lefti (fun ty -> Tools.array_fold_lefti (fun s acc (ints, links) -> let w = begin_new acc in let n, w = new_node w ty in let w = new_free w (n, s) in let acc', _, _, _ = raw_finish_new ~debug_mode ~toplevel:false w in let acc'' = Mods.IntSet.fold (fun i acc -> let w = begin_new acc in let n, w = new_node w ty in let w = new_internal_state w (n, s) i in let out, _, _, _ = raw_finish_new ~debug_mode ~toplevel:false w in out) ints acc' in Mods.Int2Set.fold (fun (ty', s') acc -> let w = begin_new acc in let n, w = new_node w ty in let n', w = new_node w ty' in let w = new_link w (n, s) (n', s') in let out, _, _, _ = raw_finish_new ~debug_mode ~toplevel:false w in if ty = ty' && s < s' then ( let w = begin_new out in let n, w = new_node w ty in let w = new_link w (n, s) (n, s') in let out', _, _, _ = raw_finish_new ~debug_mode ~toplevel:false w in out' ) else out) links acc'')) env contact_map let fold_by_type f cc acc = Tools.array_fold_lefti (fun agent_type acc list_pos -> List.fold_left (fun acc pos -> let intf = Mods.IntMap.find_default [||] pos cc.nodes in f ~pos ~agent_type intf acc) acc list_pos) acc cc.nodes_by_type let fold f cc acc = Mods.IntMap.fold f cc.nodes acc let finalize ~debug_mode ~sharing env contact_map = let sigs = PreEnv.sigs env in let env = minimal_env ~debug_mode env contact_map in let si, complete_domain = PreEnv.saturate ~debug_mode ~sharing sigs env.PreEnv.domain in let domain = Array.make (succ si) (PreEnv.empty_point env.PreEnv.sig_decl) in let singles = Mods.IntMap.find_default Mods.IntMap.empty 1 complete_domain in let elementaries = PreEnv.fill_elem env.PreEnv.sig_decl singles in let () = Mods.IntMap.iter (fun _ -> List.iter (fun x -> domain.(x.p_id) <- { Env.content = x.element; Env.sons = []; Env.deps = x.depending; Env.roots = x.roots; })) singles in let = Mods.IntMap.fold (fun level domain_level acc_level -> if level <= 1 then acc_level else Mods.IntMap.fold (fun _ l acc -> List.fold_left (fun acc x -> let () = domain.(x.p_id) <- { Env.content = x.element; Env.sons = []; Env.roots = x.roots; Env.deps = x.depending; } in Mods.IntMap.fold (fun _ ll accl -> List.fold_left (fun acc e -> match matchings ~debug_mode sigs e.element x.element with | [] -> acc | injs -> List.fold_left (fun acc inj_e_x -> PreEnv.insert_navigation ~debug_mode env.PreEnv.id_by_type env.PreEnv.nb_id domain x.p_id x.element inj_e_x e.p_id + acc) acc injs) accl ll) singles acc) acc l) domain_level acc_level) complete_domain 0 in let level0 = Mods.IntMap.find_default Mods.IntMap.empty 0 complete_domain in let single_agent_points = Array.make (Array.length env.PreEnv.id_by_type) None in let () = Mods.IntMap.iter (fun _ -> List.iter (fun p -> match find_root p.element with | None -> () | Some (_, ty) -> let () = domain.(p.p_id) <- { Env.content = p.element; Env.roots = p.roots; Env.deps = p.depending; Env.sons = []; } in single_agent_points.(ty) <- Some (p.p_id, p.depending))) level0 in ( { Env.sig_decl = env.PreEnv.sig_decl; Env.counters_info = env.PreEnv.counters_info; Env.id_by_type = env.PreEnv.id_by_type; Env.max_obs = fresh_cc_id env.PreEnv.domain; Env.domain; Env.elementaries; Env.single_agent_points; }, { stat_nodes = si; PreEnv.stat_nav_steps } ) let merge_on_inf ~debug_mode env m g1 g2 = let m_list = Renaming.to_list m in let root1, root2 = List.hd m_list in let pairing = List.fold_left (fun acc (a, b) -> Mods.Int2Set.add (a, b) acc) Mods.Int2Set.empty m_list in let possibilities = ref pairing in match are_compatible ~debug_mode ~possibilities ~strict:false root1 g1 root2 g2 with | Some m', _ -> let _, pushout = merge_compatible ~debug_mode env.PreEnv.id_by_type env.PreEnv.nb_id m' g1 g2 in Some pushout, None | None, conflict -> None, conflict let length cc = Mods.IntMap.size cc.nodes