*)
(* $Id$ *)
-
-let rec rewrite_tac ~direction ~(pattern: ProofEngineTypes.lazy_pattern) equality =
- let _rewrite_tac ~direction ~pattern:(wanted,hyps_pat,concl_pat) equality status
- =
- let module C = Cic in
- let module U = UriManager in
- let module PET = ProofEngineTypes in
- let module PER = ProofEngineReduction in
- let module PEH = ProofEngineHelpers in
- let module PT = PrimitiveTactics in
+
+module C = Cic
+module U = UriManager
+module PET = ProofEngineTypes
+module PER = ProofEngineReduction
+module PEH = ProofEngineHelpers
+module PESR = ProofEngineStructuralRules
+module P = PrimitiveTactics
+module T = Tacticals
+module R = CicReduction
+module S = CicSubstitution
+module TC = CicTypeChecker
+module LO = LibraryObjects
+module DTI = DoubleTypeInference
+module HEL = HExtlib
+
+let rec rewrite_tac ~direction ~pattern:(wanted,hyps_pat,concl_pat) equality =
+ let _rewrite_tac status =
assert (wanted = None); (* this should be checked syntactically *)
let proof,goal = status in
- let curi, metasenv, pbo, pty = proof in
+ let curi, metasenv, _subst, pbo, pty, attrs = proof in
let (metano,context,gty) = CicUtil.lookup_meta goal metasenv in
+ let gsort,_ =
+ CicTypeChecker.type_of_aux' metasenv context gty CicUniv.oblivion_ugraph in
match hyps_pat with
he::(_::_ as tl) ->
PET.apply_tactic
- (Tacticals.then_
+ (T.then_
(rewrite_tac ~direction
~pattern:(None,[he],None) equality)
- (rewrite_tac ~direction ~pattern:(None,tl,concl_pat) equality)
+ (rewrite_tac ~direction ~pattern:(None,tl,concl_pat)
+ (S.lift 1 equality))
) status
| [_] as hyps_pat when concl_pat <> None ->
PET.apply_tactic
- (Tacticals.then_
+ (T.then_
(rewrite_tac ~direction
~pattern:(None,hyps_pat,None) equality)
- (rewrite_tac ~direction ~pattern:(None,[],concl_pat) equality)
+ (rewrite_tac ~direction ~pattern:(None,[],concl_pat)
+ (S.lift 1 equality))
) status
| _ ->
let arg,dir2,tac,concl_pat,gty =
match hyps_pat with
- [] -> None,true,(fun ~term _ -> PT.exact_tac term),concl_pat,gty
+ [] -> None,true,(fun ~term _ -> P.exact_tac term),concl_pat,gty
| [name,pat] ->
let rec find_hyp n =
function
[] -> assert false
| Some (Cic.Name s,Cic.Decl ty)::_ when name = s ->
- Cic.Rel n, CicSubstitution.lift n ty
- | Some (Cic.Name s,Cic.Def _)::_ -> assert false (*CSC: not implemented yet! But does this make any sense?*)
+ Cic.Rel n, S.lift n ty
+ | Some (Cic.Name s,Cic.Def _)::_ when name = s -> assert false (*CSC: not implemented yet! But does this make any sense?*)
| _::tl -> find_hyp (n+1) tl
in
let arg,gty = find_hyp 1 context in
let dummy = "dummy" in
Some arg,false,
(fun ~term typ ->
- Tacticals.seq
+ T.seq
~tactics:
- [ProofEngineStructuralRules.rename name dummy;
- PT.letin_tac
+ [PESR.rename [name] [dummy];
+ P.letin_tac
~mk_fresh_name_callback:(fun _ _ _ ~typ -> Cic.Name name) term;
- ProofEngineStructuralRules.clearbody name;
- ReductionTactics.change_tac
+ PESR.clearbody name;
+ ReductionTactics.change_tac
~pattern:
(None,[name,Cic.Implicit (Some `Hole)], None)
(ProofEngineTypes.const_lazy_term typ);
- ProofEngineStructuralRules.clear [dummy]
+ PESR.clear [dummy]
]),
Some pat,gty
| _::_ -> assert false
CicTypeChecker.type_of_aux' metasenv context equality
CicUniv.empty_ugraph in
let (ty_eq,metasenv',arguments,fresh_meta) =
- ProofEngineHelpers.saturate_term
- (ProofEngineHelpers.new_meta_of_proof proof) metasenv context ty_eq 0 in
+ TermUtil.saturate_term
+ (ProofEngineHelpers.new_meta_of_proof proof) metasenv context ty_eq 0 in
let equality =
if List.length arguments = 0 then
equality
| C.Appl [C.MutInd (uri, 0, []); ty; t1; t2]
when LibraryObjects.is_eq_URI uri ->
let ind_uri =
- if_right_to_left dir2
- LibraryObjects.eq_ind_URI LibraryObjects.eq_ind_r_URI
+ match gsort with
+ C.Sort C.Prop ->
+ if_right_to_left dir2
+ LibraryObjects.eq_ind_URI LibraryObjects.eq_ind_r_URI
+ | C.Sort C.Set ->
+ if_right_to_left dir2
+ LibraryObjects.eq_rec_URI LibraryObjects.eq_rec_r_URI
+ | _ ->
+ if_right_to_left dir2
+ LibraryObjects.eq_rect_URI LibraryObjects.eq_rect_r_URI
in
let eq_ind = C.Const (ind_uri uri,[]) in
if dir2 then
let fresh_name =
FreshNamesGenerator.mk_fresh_name
~subst:[] metasenv' context C.Anonymous ~typ:ty in
- let lifted_t1 = CicSubstitution.lift 1 t1x in
- let lifted_gty = CicSubstitution.lift 1 gty in
+ let lifted_t1 = S.lift 1 t1x in
+ let lifted_gty = S.lift 1 gty in
let lifted_conjecture =
metano,(Some (fresh_name,Cic.Decl ty))::context,lifted_gty in
let lifted_pattern =
let lifted_concl_pat =
match concl_pat with
| None -> None
- | Some term -> Some (CicSubstitution.lift 1 term) in
- Some (fun _ m u -> lifted_t1, m, u),[],lifted_concl_pat
+ | Some term -> Some (S.lift 1 term) in
+ Some (fun c m u ->
+ let distance = pred (List.length c - List.length context) in
+ S.lift distance lifted_t1, m, u),[],lifted_concl_pat
in
let subst,metasenv',ugraph,_,selected_terms_with_context =
ProofEngineHelpers.select
~metasenv:metasenv' ~ugraph ~conjecture:lifted_conjecture
~pattern:lifted_pattern in
- let metasenv' = CicMetaSubst.apply_subst_metasenv subst metasenv' in
+ let metasenv' = CicMetaSubst.apply_subst_metasenv subst metasenv' in
let what,with_what =
(* Note: Rel 1 does not live in the context context_of_t *)
(* The replace_lifting_csc 0 function will take care of lifting it *)
let metasenv',arg,newtyp =
match arg with
None ->
- let gty' = CicSubstitution.subst t2 abstr_gty in
+ let gty' = S.subst t2 abstr_gty in
let irl =
CicMkImplicit.identity_relocation_list_for_metavariable context in
let metasenv' = (fresh_meta,context,gty')::metasenv' in
metasenv', C.Meta (fresh_meta,irl), Cic.Rel (-1) (* dummy term, never used *)
| Some arg ->
- let gty' = CicSubstitution.subst t1 abstr_gty in
+ let gty' = S.subst t1 abstr_gty in
metasenv',arg,gty'
in
let exact_proof =
C.Appl [eq_ind ; ty ; t2 ; pred ; arg ; t1 ;equality]
in
- let (proof',goals) =
- PET.apply_tactic
- (tac ~term:exact_proof newtyp) ((curi,metasenv',pbo,pty),goal)
- in
- let goals =
- goals@(ProofEngineHelpers.compare_metasenvs ~oldmetasenv:metasenv
- ~newmetasenv:metasenv')
- in
- (proof',goals)
- in
- ProofEngineTypes.mk_tactic (_rewrite_tac ~direction ~pattern equality)
-
-
-let rewrite_simpl_tac ~direction ~pattern equality =
- let rewrite_simpl_tac ~direction ~pattern equality status =
- ProofEngineTypes.apply_tactic
- (Tacticals.then_
- ~start:(rewrite_tac ~direction ~pattern equality)
+ try
+ let (proof',goals) =
+ PET.apply_tactic
+ (tac ~term:exact_proof newtyp) ((curi,metasenv',_subst,pbo,pty, attrs),goal)
+ in
+ let goals =
+ goals@(ProofEngineHelpers.compare_metasenvs ~oldmetasenv:metasenv
+ ~newmetasenv:metasenv')
+ in
+ (proof',goals)
+ with (* FG: this should be PET.Fail _ *)
+ TC.TypeCheckerFailure _ ->
+ let msg = lazy "rewrite: nothing to rewrite" in
+ raise (PET.Fail msg)
+ in
+ PET.mk_tactic _rewrite_tac
+
+let rewrite_tac ~direction ~pattern equality names =
+ let _, hyps_pat, _ = pattern in
+ let froms = List.map fst hyps_pat in
+ let start = rewrite_tac ~direction ~pattern equality in
+ let continuation = PESR.rename ~froms ~tos:names in
+ if names = [] then start else T.then_ ~start ~continuation
+
+let rewrite_simpl_tac ~direction ~pattern equality names =
+ T.then_
+ ~start:(rewrite_tac ~direction ~pattern equality names)
~continuation:
(ReductionTactics.simpl_tac
- ~pattern:(ProofEngineTypes.conclusion_pattern None)))
- status
- in
- ProofEngineTypes.mk_tactic (rewrite_simpl_tac ~direction ~pattern equality)
-;;
+ ~pattern:(ProofEngineTypes.conclusion_pattern None))
+
let replace_tac ~(pattern: ProofEngineTypes.lazy_pattern) ~with_what =
let replace_tac ~(pattern: ProofEngineTypes.lazy_pattern) ~with_what status =
let _wanted, hyps_pat, concl_pat = pattern in
let (proof, goal) = status in
- let module C = Cic in
- let module U = UriManager in
- let module P = PrimitiveTactics in
- let module T = Tacticals in
- let uri,metasenv,pbo,pty = proof in
+ let uri,metasenv,_subst,pbo,pty, attrs = proof in
let (_,context,ty) as conjecture = CicUtil.lookup_meta goal metasenv in
assert (hyps_pat = []); (*CSC: not implemented yet *)
let eq_URI =
let with_what = CicMetaSubst.apply_subst subst with_what in
let pbo = CicMetaSubst.apply_subst subst pbo in
let pty = CicMetaSubst.apply_subst subst pty in
- let status = (uri,metasenv,pbo,pty),goal in
+ let status = (uri,metasenv,_subst,pbo,pty, attrs),goal in
let ty_of_with_what,u =
CicTypeChecker.type_of_aux'
metasenv context with_what CicUniv.empty_ugraph in
(ProofEngineTypes.Fail
(lazy "Replace: one of the selected terms and the term to be replaced with have not convertible types"))
) l in
- let rec aux n whats status =
+ let rec aux n whats (status : ProofEngineTypes.status) =
match whats with
[] -> ProofEngineTypes.apply_tactic T.id_tac status
| (what,lazy_pattern)::tl ->
- let what = CicSubstitution.lift n what in
- let with_what = CicSubstitution.lift n with_what in
- let ty_of_with_what = CicSubstitution.lift n ty_of_with_what in
+ let what = S.lift n what in
+ let with_what = S.lift n with_what in
+ let ty_of_with_what = S.lift n ty_of_with_what in
ProofEngineTypes.apply_tactic
(T.thens
~start:(
~continuations:[
T.then_
~start:(
- rewrite_tac ~direction:`LeftToRight ~pattern:lazy_pattern (C.Rel 1))
+ rewrite_tac ~direction:`LeftToRight ~pattern:lazy_pattern (C.Rel 1) [])
~continuation:(
T.then_
~start:(
ProofEngineTypes.mk_tactic
(function ((proof,goal) as status) ->
- let _,metasenv,_,_ = proof in
+ let _,metasenv,_subst,_,_, _ = proof in
let _,context,_ = CicUtil.lookup_meta goal metasenv in
let hyps =
try
with (Failure "hd") -> assert false
in
ProofEngineTypes.apply_tactic
- (ProofEngineStructuralRules.clear ~hyps) status))
+ (PESR.clear ~hyps) status))
~continuation:(aux_tac (n + 1) tl));
T.id_tac])
status
and aux_tac n tl = ProofEngineTypes.mk_tactic (aux n tl) in
- aux 0 whats status
+ aux 0 whats (status : ProofEngineTypes.status)
in
ProofEngineTypes.mk_tactic (replace_tac ~pattern ~with_what)
;;
let symmetry_tac =
let symmetry_tac (proof, goal) =
- let module C = Cic in
- let module R = CicReduction in
- let module U = UriManager in
- let (_,metasenv,_,_) = proof in
+ let (_,metasenv,_subst,_,_, _) = proof in
let metano,context,ty = CicUtil.lookup_meta goal metasenv in
match (R.whd context ty) with
(C.Appl [(C.MutInd (uri, 0, [])); _; _; _])
let transitivity_tac ~term =
let transitivity_tac ~term status =
let (proof, goal) = status in
- let module C = Cic in
- let module R = CicReduction in
- let module U = UriManager in
- let module T = Tacticals in
- let (_,metasenv,_,_) = proof in
+ let (_,metasenv,_subst,_,_, _) = proof in
let metano,context,ty = CicUtil.lookup_meta goal metasenv in
match (R.whd context ty) with
(C.Appl [(C.MutInd (uri, 0, [])); _; _; _])
ProofEngineTypes.mk_tactic (transitivity_tac ~term)
;;
-