incr next_fresh_index ;
"fresh_name" ^ string_of_int !next_fresh_index
-let reduction_tactic reduction_function term =
- let curi,metasenv,pbo,pty =
- match !proof with
- None -> assert false
- | Some (curi,metasenv,bo,ty) -> curi,metasenv,bo,ty
- in
- let metano,context,ty =
- match !goal with
- None -> assert false
- | Some metano -> List.find (function (m,_,_) -> m=metano) metasenv
- 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 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 term' = reduction_function context term in
- ProofEngineReduction.replace ~equality:(==) ~what:term ~with_what:term'
- ~where:where
- with
- _ -> where
- in
- let ty' = replace context ty in
- let context' =
- List.fold_right
- (fun entry context ->
- match entry with
- Some (name,Cic.Def t) ->
- (Some (name,Cic.Def (replace context t)))::context
- | Some (name,Cic.Decl t) ->
- (Some (name,Cic.Decl (replace context t)))::context
- | None -> None::context
- ) context []
- in
- let metasenv' =
- List.map
- (function
- (n,_,_) when n = metano -> (metano,context',ty')
- | _ as t -> t
- ) metasenv
- in
- proof := Some (curi,metasenv',pbo,pty) ;
- goal := Some metano
-
(* Reduces [term] using [reduction_function] in the current scratch goal [ty] *)
let reduction_tactic_in_scratch reduction_function term ty =
let metasenv =
let term' = reduction_function context term in
ProofEngineReduction.replace
~equality:(==) ~what:term ~with_what:term' ~where:ty
-
-let whd = reduction_tactic CicReduction.whd
-let reduce = reduction_tactic ProofEngineReduction.reduce
-let simpl = reduction_tactic ProofEngineReduction.simpl
+;;
let whd_in_scratch = reduction_tactic_in_scratch CicReduction.whd
-let reduce_in_scratch =
- reduction_tactic_in_scratch ProofEngineReduction.reduce
-let simpl_in_scratch =
- reduction_tactic_in_scratch ProofEngineReduction.simpl
-
-(* It is just the opposite of whd. The code should probably be merged. *)
-let fold term =
- let curi,metasenv,pbo,pty =
- match !proof with
- None -> assert false
- | Some (curi,metasenv,bo,ty) -> curi,metasenv,bo,ty
- in
- let metano,context,ty =
- match !goal with
- None -> assert false
- | Some metano -> List.find (function (m,_,_) -> m=metano) metasenv
- in
- let term' = CicReduction.whd 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
- let ty' = replace ty in
- let context' =
- List.map
- (function
- Some (n,Cic.Decl t) -> Some (n,Cic.Decl (replace t))
- | Some (n,Cic.Def t) -> Some (n,Cic.Def (replace t))
- | None -> None
- ) context
- in
- let metasenv' =
- List.map
- (function
- (n,_,_) when n = metano -> (metano,context',ty')
- | _ as t -> t
- ) metasenv
- in
- proof := Some (curi,metasenv',pbo,pty) ;
- goal := Some metano
+let reduce_in_scratch = reduction_tactic_in_scratch ProofEngineReduction.reduce
+let simpl_in_scratch = reduction_tactic_in_scratch ProofEngineReduction.simpl
(************************************************************)
(* Tactics defined elsewhere *)
let cut term = apply_tactic (PrimitiveTactics.cut_tac ~term)
let letin term = apply_tactic (PrimitiveTactics.letin_tac ~term)
let exact term = apply_tactic (PrimitiveTactics.exact_tac ~term)
-let elim_intros_simpl term =
- apply_tactic (PrimitiveTactics.elim_intros_simpl_tac ~term)
+let elim_simpl_intros term =
+ apply_tactic (PrimitiveTactics.elim_simpl_intros_tac ~term)
let change ~goal_input:what ~input:with_what =
apply_tactic (PrimitiveTactics.change_tac ~what ~with_what)
let clearbody hyp = apply_tactic (ProofEngineStructuralRules.clearbody ~hyp)
let clear hyp = apply_tactic (ProofEngineStructuralRules.clear ~hyp)
+ (* reduction tactics *)
+
+let whd term =
+ apply_tactic
+ (ReductionTactics.whd_tac ~also_in_hypotheses:true ~term:(Some term))
+let reduce term =
+ apply_tactic
+ (ReductionTactics.reduce_tac ~also_in_hypotheses:true ~term:(Some term))
+let simpl term =
+ apply_tactic
+ (ReductionTactics.simpl_tac ~also_in_hypotheses:true ~term:(Some term))
+
+let fold term =
+ apply_tactic (ReductionTactics.fold_tac ~also_in_hypotheses:true ~term)
+
(* other tactics *)
let elim_type term = apply_tactic (Ring.elim_type_tac ~term)
let ring () = apply_tactic Ring.ring_tac
let fourier () = apply_tactic FourierR.fourier_tac
let rewrite_simpl term = apply_tactic (FourierR.rewrite_simpl_tac ~term)
+
+let reflexivity () = apply_tactic VariousTactics.reflexivity_tac
+let symmetry () = apply_tactic VariousTactics.symmetry_tac
+let transitivity term = apply_tactic (VariousTactics.transitivity_tac ~term)
+
+let left () = apply_tactic VariousTactics.left_tac
+let right () = apply_tactic VariousTactics.right_tac
+
+let assumption () = apply_tactic VariousTactics.assumption_tac
+(*
+let prova_tatticali () = apply_tactic Tacticals.prova_tac
+*)
+
projects / helm.git / blobdiff