From 3ef7797ef6fc605dfafb32523261fe1b023aeecb Mon Sep 17 00:00:00 2001 From: Samuel Mimram Date: Fri, 28 Apr 2006 14:59:16 +0000 Subject: Imported Upstream version 8.0pl3+8.1alpha --- contrib/subtac/subtac_interp_fixpoint.ml | 219 +++++++++++++++++++++++++++++++ 1 file changed, 219 insertions(+) create mode 100644 contrib/subtac/subtac_interp_fixpoint.ml (limited to 'contrib/subtac/subtac_interp_fixpoint.ml') diff --git a/contrib/subtac/subtac_interp_fixpoint.ml b/contrib/subtac/subtac_interp_fixpoint.ml new file mode 100644 index 00000000..599dbe39 --- /dev/null +++ b/contrib/subtac/subtac_interp_fixpoint.ml @@ -0,0 +1,219 @@ +open Global +open Pp +open Util +open Names +open Sign +open Evd +open Term +open Termops +open Reductionops +open Environ +open Type_errors +open Typeops +open Libnames +open Classops +open List +open Recordops +open Evarutil +open Pretype_errors +open Rawterm +open Evarconv +open Pattern +open Dyn +open Topconstr + +open Subtac_coercion +open Subtac_utils +open Coqlib +open Printer +open Subtac_errors +open Context +open Eterm + + +let mkAppExplC (f, args) = CAppExpl (dummy_loc, (None, f), args) + +let mkSubset name typ prop = + mkAppExplC (sig_ref, + [ typ; mkLambdaC ([name], typ, prop) ]) + +let mkProj1 u p x = + mkAppExplC (proj1_sig_ref, [ u; p; x ]) + +let mkProj2 u p x = + mkAppExplC (proj2_sig_ref, [ u; p; x ]) + +let list_of_local_binders l = + let rec aux acc = function + Topconstr.LocalRawDef (n, c) :: tl -> aux ((n, c) :: acc) tl + | Topconstr.LocalRawAssum (nl, c) :: tl -> + aux (List.fold_left (fun acc n -> (n, c) :: acc) acc nl) tl + | [] -> List.rev acc + in aux [] l + +let abstract_constr_expr_bl abs c bl = + List.fold_right (fun (n, t) c -> abs ([n], t, c)) bl c + +let pr_binder_list b = + List.fold_right (fun ((loc, name), t) acc -> Nameops.pr_name name ++ str " : " ++ + Ppconstr.pr_constr_expr t ++ spc () ++ acc) b (mt ()) + + +let rec rewrite_rec_calls l c = c + +let rewrite_fixpoint env l (f, decl) = + let (id, (n, ro), bl, typ, body) = f in + let body = rewrite_rec_calls l body in + match ro with + CStructRec -> ((id, (n, ro), bl, typ, body), decl) + | CWfRec wfrel -> + let bls = list_of_local_binders bl in + let _ = trace (str "Rewriting fixpoint: " ++ Ppconstr.pr_id id ++ + Ppconstr.pr_binders bl ++ str " : " ++ + Ppconstr.pr_constr_expr typ ++ str " := " ++ spc () ++ + Ppconstr.pr_constr_expr body) + in + let before, after = list_chop n bls in + let _ = trace (str "Binders before the recursion arg: " ++ spc () ++ + pr_binder_list before ++ str "; after the recursion arg: " ++ + pr_binder_list after) + in + let ((locn, name) as lnid, ntyp), after = match after with + hd :: tl -> hd, tl + | _ -> assert(false) (* Rec arg must be in after *) + in + let nid = match name with + Name id -> id + | Anonymous -> assert(false) (* Rec arg _must_ be named *) + in + let _wfproof = + let _wf_rel = mkAppExplC (well_founded_ref, [ntyp; wfrel]) in + (*make_existential_expr dummy_loc before wf_rel*) + mkRefC lt_wf_ref + in + let nid', accproofid = + let nid = string_of_id nid in + id_of_string (nid ^ "'"), id_of_string ("Acc_" ^ nid) + in + let lnid', laccproofid = (dummy_loc, Name nid'), (dummy_loc, Name accproofid) in + let wf_prop = (mkAppC (wfrel, [ mkIdentC nid'; mkIdentC nid ])) in + let lam_wf_prop = mkLambdaC ([lnid'], ntyp, wf_prop) in + let typnid' = mkSubset lnid' ntyp wf_prop in + let internal_type = + abstract_constr_expr_bl mkProdC + (mkProdC ([lnid'], typnid', + mkLetInC (lnid, mkProj1 ntyp lam_wf_prop (mkIdentC nid'), + abstract_constr_expr_bl mkProdC typ after))) + before + in + let body' = + let body = + (* cast or we will loose some info at pretyping time as body + is a function *) + CCast (dummy_loc, body, DEFAULTcast, typ) + in + let body' = (* body abstracted by rec call *) + mkLambdaC ([(dummy_loc, Name id)], internal_type, body) + in + mkAppC (body', + [mkLambdaC + ([lnid'], typnid', + mkAppC (mkIdentC id, + [mkProj1 ntyp lam_wf_prop (mkIdentC nid'); + (mkAppExplC (acc_inv_ref, + [ ntyp; wfrel; + mkIdentC nid; + mkIdentC accproofid; + mkProj1 ntyp lam_wf_prop (mkIdentC nid'); + mkProj2 ntyp lam_wf_prop (mkIdentC nid') ])) ]))]) + in + let acctyp = mkAppExplC (acc_ref, [ ntyp; wfrel; mkIdentC nid ]) in + let bl' = + let rec aux acc = function + Topconstr.LocalRawDef _ as x :: tl -> + aux (x :: acc) tl + | Topconstr.LocalRawAssum (bl, typ) as assum :: tl -> + let rec aux' bl' = function + ((loc, name') as x) :: tl -> + if name' = name then + (if tl = [] then [] else [LocalRawAssum (tl, typ)]) @ + LocalRawAssum ([(dummy_loc, Name accproofid)], acctyp) :: + [LocalRawAssum (List.rev (x :: bl'), typ)] + else aux' (x :: bl') tl + | [] -> [assum] + in aux (aux' [] bl @ acc) tl + | [] -> List.rev acc + in aux [] bl + in + let _ = trace (str "Rewrote fixpoint: " ++ Ppconstr.pr_id id ++ + Ppconstr.pr_binders bl' ++ str " : " ++ + Ppconstr.pr_constr_expr typ ++ str " := " ++ spc () ++ + Ppconstr.pr_constr_expr body') + in (id, (succ n, ro), bl', typ, body'), decl + +let list_mapi f = + let rec aux i = function + hd :: tl -> f i hd :: aux (succ i) tl + | [] -> [] + in aux 0 + +let rewrite_cases_aux (loc, po, tml, eqns) = + let tml = list_mapi (fun i (c, (n, opt)) -> c, + ((match n with + Name id -> (match c with + | RVar (_, id') when id = id' -> + Name (id_of_string (string_of_id id ^ "'")) + | _ -> n) + | Anonymous -> Name (id_of_string ("x" ^ string_of_int i))), + opt)) tml + in + let mkHole = RHole (dummy_loc, InternalHole) in + let mkeq c n = RApp (dummy_loc, RRef (dummy_loc, (Lazy.force eqind_ref)), + [mkHole; c; n]) + in + let eqs_types = + List.map + (fun (c, (n, _)) -> + let id = match n with Name id -> id | _ -> assert false in + let heqid = id_of_string ("Heq" ^ string_of_id id) in + Name heqid, mkeq c (RVar (dummy_loc, id))) + tml + in + let po = + List.fold_right + (fun (n,t) acc -> + RProd (dummy_loc, Anonymous, t, acc)) + eqs_types (match po with + Some e -> e + | None -> mkHole) + in + let eqns = + List.map (fun (loc, idl, cpl, c) -> + let c' = + List.fold_left + (fun acc (n, t) -> + RLambda (dummy_loc, n, mkHole, acc)) + c eqs_types + in (loc, idl, cpl, c')) + eqns + in + let mk_refl_equal c = RApp (dummy_loc, RRef (dummy_loc, Lazy.force refl_equal_ref), + [mkHole; c]) + in + let refls = List.map (fun (c, _) -> mk_refl_equal c) tml in + let case = RCases (loc,Some po,tml,eqns) in + let app = RApp (dummy_loc, case, refls) in + app + +let rec rewrite_cases c = + match c with + RCases _ -> let c' = map_rawconstr rewrite_cases c in + (match c' with + | RCases (x, y, z, w) -> rewrite_cases_aux (x,y,z,w) + | _ -> assert(false)) + | _ -> map_rawconstr rewrite_cases c + +let rewrite_cases env c = + let c' = rewrite_cases c in + let _ = trace (str "Rewrote cases: " ++ spc () ++ my_print_rawconstr env c') in + c' -- cgit v1.2.3