open ProofEngineTypes
-(*
-let reduction_tac ~reduction (proof,goal) =
- let curi,metasenv,pbo,pty = proof in
- let metano,context,ty = CicUtil.lookup_meta goal metasenv in
- let new_ty = reduction context ty in
- let new_metasenv =
- List.map
- (function
- (n,_,_) when n = metano -> (metano,context,new_ty)
+(* Note: this code is almost identical to PrimitiveTactics.change_tac and
+* it could be unified by making the change function a callback *)
+let reduction_tac ~reduction ~pattern
+ (proof,goal)
+=
+ let curi,metasenv,pbo,pty = proof in
+ let (metano,context,ty) as conjecture = CicUtil.lookup_meta goal metasenv in
+ let change where terms =
+ if terms = [] then where
+ else
+ let terms, terms' =
+ List.split (List.map (fun (context, t) -> t, reduction context t) terms)
+ in
+ ProofEngineReduction.replace ~equality:(==) ~what:terms ~with_what:terms'
+ ~where:where in
+ let (selected_context,selected_ty) =
+ ProofEngineHelpers.select ~metasenv ~conjecture ~pattern in
+ let ty' = change ty selected_ty in
+ let context' =
+ List.fold_right2
+ (fun entry selected_entry context' ->
+ match entry,selected_entry with
+ None,None -> None::context'
+ | Some (name,Cic.Decl ty),Some (`Decl selected_ty) ->
+ let ty' = change ty selected_ty in
+ Some (name,Cic.Decl ty')::context'
+ | Some (name,Cic.Def (bo,ty)),Some (`Def (selected_bo,selected_ty)) ->
+ let bo' = change bo selected_bo in
+ let ty' =
+ match ty,selected_ty with
+ None,None -> None
+ | Some ty,Some selected_ty -> Some (change ty selected_ty)
+ | _,_ -> assert false
+ in
+ Some (name,Cic.Def (bo',ty'))::context'
+ | _,_ -> assert false
+ ) context selected_context [] in
+ let metasenv' =
+ List.map (function
+ | (n,_,_) when n = metano -> (metano,context',ty')
| _ as t -> t
) metasenv
- in
- (curi,new_metasenv,pbo,pty), [metano]
-;;
-*)
-
-(* The default of term is the thesis of the goal to be prooved *)
-let reduction_tac ~also_in_hypotheses ~reduction ~terms (proof,goal) =
- let curi,metasenv,pbo,pty = proof in
- let metano,context,ty = CicUtil.lookup_meta goal metasenv in
- let terms =
- match terms with None -> [ty] | Some l -> l
in
- (* We don't know if [term] is a subterm of [ty] or a subterm of *)
- (* the type of one metavariable. So we replace it everywhere. *)
- (*CSC: Il vero problema e' che non sapendo dove sia il term non *)
- (*CSC: sappiamo neppure quale sia il suo contesto!!!! Insomma, *)
- (*CSC: e' meglio prima cercare il termine e scoprirne il *)
- (*CSC: contesto, poi ridurre e infine rimpiazzare. *)
- let replace lift context where=
- (*CSC: Per il momento se la riduzione fallisce significa solamente che *)
- (*CSC: siamo nel contesto errato. Metto il try, ma che schifo!!!! *)
- (*CSC: Anche perche' cosi' catturo anche quelle del replace che non dovrei*)
- try
- let terms = List.fold_left
- (fun acc t ->
- try
- (CicSubstitution.delift lift t) :: acc
- with Failure _ -> acc
- ) [] terms
- in
- let terms' = List.map (reduction context) terms in
- ProofEngineReduction.replace
- ~equality:(=) ~what:terms ~with_what:terms' ~where:where
- with
- _ -> where
- in
- let ty' = replace 0 context ty in
- let context', _ =
- if also_in_hypotheses then
- List.fold_right
- (fun entry (context,i) ->
- match entry with
- | Some (name,Cic.Def (t,None)) ->
- (Some (name,Cic.Def ((replace i context t),None)))::context, i-1
- | Some (name,Cic.Decl t) ->
- (Some (name,Cic.Decl (replace i context t)))::context, i-1
- | None -> None::context, i-1
- | Some (_,Cic.Def (_,Some _)) -> assert false
- ) context ([],(List.length context))
- else
- context, 0
- in
- let metasenv' =
- List.map
- (function
- (n,_,_) when n = metano -> (metano,context',ty')
- | _ as t -> t
- ) metasenv
- in
- (curi,metasenv',pbo,pty), [metano]
+ (curi,metasenv',pbo,pty), [metano]
;;
-let simpl_tac ~also_in_hypotheses ~terms =
- mk_tactic ( reduction_tac ~reduction:ProofEngineReduction.simpl
- ~also_in_hypotheses ~terms);;
+let simpl_tac ~pattern =
+ mk_tactic (reduction_tac ~reduction:ProofEngineReduction.simpl ~pattern);;
-let reduce_tac ~also_in_hypotheses ~terms =
- mk_tactic ( reduction_tac ~reduction:ProofEngineReduction.reduce
- ~also_in_hypotheses ~terms);;
+let reduce_tac ~pattern =
+ mk_tactic (reduction_tac ~reduction:ProofEngineReduction.reduce ~pattern);;
-let whd_tac ~also_in_hypotheses ~terms =
- mk_tactic ( reduction_tac ~reduction:CicReduction.whd
- ~also_in_hypotheses ~terms);;
+let whd_tac ~pattern =
+ mk_tactic (reduction_tac ~reduction:CicReduction.whd ~pattern);;
+
+let normalize_tac ~pattern =
+ mk_tactic (reduction_tac ~reduction:CicReduction.normalize ~pattern );;
-let fold_tac ~reduction ~also_in_hypotheses ~term =
- let fold_tac ~reduction ~also_in_hypotheses ~term (proof,goal) =
+let fold_tac ~reduction ~pattern =
+(*
+ let fold_tac ~reduction ~pattern:(hyp_patterns,goal_pattern) ~term (proof,goal)
+ =
let curi,metasenv,pbo,pty = proof in
let metano,context,ty = CicUtil.lookup_meta goal metasenv in
let term' = reduction context term in
- (* We don't know if [term] is a subterm of [ty] or a subterm of *)
- (* the type of one metavariable. So we replace it everywhere. *)
- (*CSC: ma si potrebbe ovviare al problema. Ma non credo *)
- (*CSC: che si guadagni nulla in fatto di efficienza. *)
let replace =
ProofEngineReduction.replace ~equality:(=) ~what:[term'] ~with_what:[term]
in
in
(curi,metasenv',pbo,pty), [metano]
in
- mk_tactic (fold_tac ~reduction ~also_in_hypotheses ~term)
+ mk_tactic (fold_tac ~reduction ~pattern ~term)
+*) assert false
;;