X-Git-Url: http://matita.cs.unibo.it/gitweb/?a=blobdiff_plain;ds=sidebyside;f=matita%2Fcomponents%2Fbinaries%2Fmatex%2Fengine.ml;h=5a1a3e3454a6b05e3a4f59878056f3d5afeeb8aa;hb=709537efda53c6189ed3e3e9877f1f93ac6d512a;hp=b2117aa5e78648973ff53414b18b62612690f793;hpb=788e7cb15734fd228e8788ea628934af483ae772;p=helm.git diff --git a/matita/components/binaries/matex/engine.ml b/matita/components/binaries/matex/engine.ml index b2117aa5e..5a1a3e345 100644 --- a/matita/components/binaries/matex/engine.ml +++ b/matita/components/binaries/matex/engine.ml @@ -34,66 +34,58 @@ type status = { (* internal functions *******************************************************) -let alpha c s = s - let internal s = X.error ("engine: malformed stack: " ^ s) let malformed s = X.error ("engine: malformed term: " ^ s) -let not_supported () = - X.error "engine: object not supported" - (* generic term processing *) -let proc_sort = function - | C.Prop -> [T.Macro "PROP"] - | C.Type [`Type, u] -> [T.Macro "TYPE"; T.arg (U.string_of_uri u)] - | C.Type [`CProp, u] -> [T.Macro "CROP"; T.arg (U.string_of_uri u)] +let proc_sort is = function + | C.Prop -> T.Macro "PROP" :: is + | C.Type [`Type, u] -> T.Macro "TYPE" :: T.arg (U.string_of_uri u) :: is + | C.Type [`CProp, u] -> T.Macro "CROP" :: T.arg (U.string_of_uri u) :: is | C.Type _ -> malformed "T1" -let rec proc_term c = function +let rec proc_term is c = function | C.Appl [] | C.Meta _ | C.Implicit _ -> malformed "T2" | C.Rel m -> let name = K.resolve_lref c m in - [T.Macro "LREF"; T.arg name; T.free name] + T.Macro "LREF" :: T.arg name :: T.free name :: is | C.Appl ts -> - let riss = L.rev_map (proc_term c) ts in - T.Macro "APPL" :: T.mk_rev_args riss + let riss = L.rev_map (proc_term [] c) ts in + T.Macro "APPL" :: T.mk_rev_args riss is | C.Prod (s, w, t) -> - let s = alpha c s in - let is_w = proc_term c w in - let is_t = proc_term (K.add_dec s w c) t in + let is_w = proc_term [] c w in + let is_t = proc_term is (K.add_dec s w c) t in T.Macro "PROD" :: T.arg s :: T.Group is_w :: is_t | C.Lambda (s, w, t) -> - let s = alpha c s in - let is_w = proc_term c w in - let is_t = proc_term (K.add_dec s w c) t in + let is_w = proc_term [] c w in + let is_t = proc_term is (K.add_dec s w c) t in T.Macro "ABST" :: T.arg s :: T.Group is_w :: is_t - | C.LetIn (s, w, v, t) -> - let s = alpha c s in - let is_w = proc_term c w in - let is_v = proc_term c v in - let is_t = proc_term (K.add_def s w v c) t in + | C.LetIn (s, w, v, t) -> + let is_w = proc_term [] c w in + let is_v = proc_term [] c v in + let is_t = proc_term is (K.add_def s w v c) t in T.Macro "ABBR" :: T.arg s :: T.Group is_w :: T.Group is_v :: is_t | C.Sort s -> - proc_sort s + proc_sort is s | C.Const (R.Ref (u, r)) -> let ss = K.segments_of_uri u in let _, _, _, _, obj = E.get_checked_obj G.status u in let ss, name = K.name_of_reference ss (obj, r) in - [T.Macro "GREF"; T.arg name; T.free (X.rev_map_concat X.id "." "type" ss)] + T.Macro "GREF" :: T.arg name :: T.free (X.rev_map_concat X.id "." "type" ss) :: is | C.Match (w, u, v, ts) -> - let is_w = proc_term c (C.Const w) in - let is_u = proc_term c u in - let is_v = proc_term c v in - let riss = L.rev_map (proc_term c) ts in - T.Macro "CASE" :: T.Group is_w :: T.Group is_u :: T.Group is_v :: T.mk_rev_args riss + let is_w = proc_term [] c (C.Const w) in + let is_u = proc_term [] c u in + let is_v = proc_term [] c v in + let riss = L.rev_map (proc_term [] c) ts in + T.Macro "CASE" :: T.Group is_w :: T.Group is_u :: T.Group is_v :: T.mk_rev_args riss is -let proc_term c t = try proc_term c t with +let proc_term is c t = try proc_term is c t with | E.ObjectNotFound _ | Invalid_argument "List.nth" | Failure "nth" @@ -128,14 +120,14 @@ let mk_open st ris = if st.n = "" then ris else T.free (scope st) :: T.free st.n :: T.arg st.n :: T.Macro "OPEN" :: ris -let mk_dec w s ris = +let mk_dec kind w s ris = let w = if !G.no_types then [] else w in - T.Group w :: T.free s :: T.arg s :: T.Macro "DECL" :: ris + T.Group w :: T.free s :: T.arg s :: T.Macro kind :: ris let mk_inferred st c t ris = let u = typeof c t in - let is_u = proc_term c u in - mk_dec is_u st.n ris + let is_u = proc_term [] c u in + mk_dec "DECL" is_u st.n ris let rec proc_proof st ris c t = match t with | C.Appl [] @@ -145,28 +137,27 @@ let rec proc_proof st ris c t = match t with | C.Prod _ -> malformed "P1" | C.Const _ | C.Rel _ -> proc_proof st ris c (C.Appl [t]) - | C.Lambda (s, w, t) -> - let s = alpha c s in - let is_w = proc_term c w in + | C.Lambda (s, w, t) -> + let is_w = proc_term [] c w in let ris = mk_open st ris in - proc_proof (next st) (T.Macro "PRIM" :: mk_dec is_w s ris) (K.add_dec s w c) t + proc_proof (next st) (mk_dec "PRIM" is_w s ris) (K.add_dec s w c) t | C.Appl ts -> let rts = X.rev_neg_filter (A.not_prop2 c) [] ts in let ris = T.Macro "STEP" :: mk_inferred st c t ris in - let tts = L.rev_map (proc_term c) rts in + let tts = L.rev_map (proc_term [] c) rts in mk_exit st (T.rev_mk_args tts ris) | C.Match (w, u, v, ts) -> let rts = X.rev_neg_filter (A.not_prop2 c) [v] ts in let ris = T.Macro "DEST" :: mk_inferred st c t ris in - let tts = L.rev_map (proc_term c) rts in + let tts = L.rev_map (proc_term [] c) rts in mk_exit st (T.rev_mk_args tts ris) | C.LetIn (s, w, v, t) -> - let s = alpha c s in - let is_w = proc_term c w in + let is_w = proc_term [] c w in let ris = mk_open st ris in if A.not_prop1 c w then - let is_v = proc_term c v in - proc_proof (next st) (T.Group is_v :: T.Macro "BODY" :: mk_dec is_w s ris) (K.add_def s w v c) t + let is_v = proc_term [] c v in + let ris = T.Group is_v :: T.Macro "BODY" :: mk_dec "DECL" is_w s ris in + proc_proof (next st) ris (K.add_def s w v c) t else let ris_v = proc_proof (push st s) ris c v in proc_proof (next st) ris_v (K.add_def s w v c) t @@ -183,42 +174,55 @@ let proc_proof rs c t = try proc_proof (init ()) rs c t with (* top level processing *) -let proc_top_type s t = - [T.Macro "Object"; T.arg s; T.free s; T.Group (proc_term [] t)] - -let proc_top_body s t = proc_term [] t +let proc_item item s t = + let is = [T.Macro "end"; T.arg item] in + T.Macro "begin" :: T.arg item :: T.arg s :: T.free s :: proc_term is [] t let proc_top_proof s t = let tt = A.process_top_term s t in (* anticipation *) - L.rev (T.arg "proof" :: T.Macro "end" :: proc_proof [T.arg "proof"; T.Macro "begin"] [] tt) + let ris = [T.free s; T.arg s; T.arg "proof"; T.Macro "begin"] in + L.rev (T.arg "proof" :: T.Macro "end" :: proc_proof ris [] tt) let open_out_tex s = open_out (F.concat !G.out_dir (s ^ T.file_ext)) -let proc_pair s ss u xt = - let name = X.rev_map_concat X.id "." "type" ss in - let och = open_out_tex name in - O.out_text och (proc_top_type s u); - close_out och; - match xt with - | None -> () - | Some t -> - let name = X.rev_map_concat X.id "." "body" ss in - let och = open_out_tex name in - let text = if A.not_prop1 [] u then proc_top_body else proc_top_proof in - O.out_text och (text s t); - close_out och +let proc_pair s ss u = function + | None -> + let name = X.rev_map_concat X.id "." "type" ss in + let och = open_out_tex name in + O.out_text och (proc_item "axiom" s u); + close_out och + | Some t -> + let text_u, text_t = + if A.not_prop1 [] u then proc_item "declaration", proc_item "definition" + else proc_item "proposition", proc_top_proof + in + let name = X.rev_map_concat X.id "." "type" ss in + let och = open_out_tex name in + O.out_text och (text_u s u); + close_out och; + let name = X.rev_map_concat X.id "." "body" ss in + let och = open_out_tex name in + O.out_text och (text_t s t); + close_out och let proc_fun ss (r, s, i, u, t) = proc_pair s (s :: ss) u (Some t) +let proc_constructor ss (r, s, u) = + proc_pair s (s :: ss) u None + +let proc_type ss (r, s, u, cs) = + proc_pair s (s :: ss) u None; + L.iter (proc_constructor ss) cs + let proc_obj u = let ss = K.segments_of_uri u in let _, _, _, _, obj = E.get_checked_obj G.status u in match obj with | C.Constant (_, s, xt, u, _) -> proc_pair s ss u xt | C.Fixpoint (_, fs, _) -> L.iter (proc_fun ss) fs - | C.Inductive (_, _, _, _) -> not_supported () + | C.Inductive (_, _, ts, _) -> L.iter (proc_type ss) ts (* interface functions ******************************************************)