diff options
Diffstat (limited to 'tactics/hiddentac.ml')
-rw-r--r-- | tactics/hiddentac.ml | 115 |
1 files changed, 72 insertions, 43 deletions
diff --git a/tactics/hiddentac.ml b/tactics/hiddentac.ml index 4133a3f6..190a7ba2 100644 --- a/tactics/hiddentac.ml +++ b/tactics/hiddentac.ml @@ -6,7 +6,7 @@ (* * GNU Lesser General Public License Version 2.1 *) (************************************************************************) -(* $Id: hiddentac.ml 9551 2007-01-29 15:13:35Z bgregoir $ *) +(* $Id: hiddentac.ml 11094 2008-06-10 19:35:23Z herbelin $ *) open Term open Proof_type @@ -20,34 +20,58 @@ open Tactics open Util let inj_id id = (dummy_loc,id) +let inj_open c = (Evd.empty,c) +let inj_open_wb (c,b) = ((Evd.empty,c),b) +let inj_ia = function + | ElimOnConstr c -> ElimOnConstr (inj_open_wb c) + | ElimOnIdent id -> ElimOnIdent id + | ElimOnAnonHyp n -> ElimOnAnonHyp n +let inj_occ (occ,c) = (occ,inj_open c) (* Basic tactics *) let h_intro_move x y = - abstract_tactic (TacIntroMove (x, option_map inj_id y)) (intro_move x y) + abstract_tactic (TacIntroMove (x, Option.map inj_id y)) (intro_move x y) let h_intro x = h_intro_move (Some x) None let h_intros_until x = abstract_tactic (TacIntrosUntil x) (intros_until x) let h_assumption = abstract_tactic TacAssumption assumption -let h_exact c = abstract_tactic (TacExact c) (exact_check c) -let h_exact_no_check c = abstract_tactic (TacExactNoCheck c) (exact_no_check c) +let h_exact c = abstract_tactic (TacExact (inj_open c)) (exact_check c) +let h_exact_no_check c = + abstract_tactic (TacExactNoCheck (inj_open c)) (exact_no_check c) let h_vm_cast_no_check c = - abstract_tactic (TacVmCastNoCheck c) (vm_cast_no_check c) -let h_apply cb = abstract_tactic (TacApply cb) (apply_with_bindings cb) -let h_elim cb cbo = abstract_tactic (TacElim (cb,cbo)) (elim cb cbo) -let h_elim_type c = abstract_tactic (TacElimType c) (elim_type c) -let h_case cb = abstract_tactic (TacCase cb) (general_case_analysis cb) -let h_case_type c = abstract_tactic (TacCaseType c) (case_type c) + abstract_tactic (TacVmCastNoCheck (inj_open c)) (vm_cast_no_check c) +let h_apply simple ev cb = + abstract_tactic (TacApply (simple,ev,inj_open_wb cb)) + (apply_with_ebindings_gen simple ev cb) +let h_elim ev cb cbo = + abstract_tactic (TacElim (ev,inj_open_wb cb,Option.map inj_open_wb cbo)) + (elim ev cb cbo) +let h_elim_type c = abstract_tactic (TacElimType (inj_open c)) (elim_type c) +let h_case ev cb = abstract_tactic (TacCase (ev,inj_open_wb cb)) (general_case_analysis ev cb) +let h_case_type c = abstract_tactic (TacCaseType (inj_open c)) (case_type c) let h_fix ido n = abstract_tactic (TacFix (ido,n)) (fix ido n) -let h_mutual_fix id n l = - abstract_tactic (TacMutualFix (id,n,l)) (mutual_fix id n l) +let h_mutual_fix b id n l = + abstract_tactic + (TacMutualFix (b,id,n,List.map (fun (id,n,c) -> (id,n,inj_open c)) l)) + (mutual_fix id n l) + let h_cofix ido = abstract_tactic (TacCofix ido) (cofix ido) -let h_mutual_cofix id l = - abstract_tactic (TacMutualCofix (id,l)) (mutual_cofix id l) +let h_mutual_cofix b id l = + abstract_tactic + (TacMutualCofix (b,id,List.map (fun (id,c) -> (id,inj_open c)) l)) + (mutual_cofix id l) -let h_cut c = abstract_tactic (TacCut c) (cut c) -let h_generalize cl = abstract_tactic (TacGeneralize cl) (generalize cl) -let h_generalize_dep c = abstract_tactic (TacGeneralizeDep c)(generalize_dep c) -let h_let_tac na c cl = - abstract_tactic (TacLetTac (na,c,cl)) (letin_tac true na c cl) +let h_cut c = abstract_tactic (TacCut (inj_open c)) (cut c) +let h_generalize_gen cl = + abstract_tactic (TacGeneralize (List.map (on_fst inj_occ) cl)) + (generalize_gen (List.map (on_fst Redexpr.out_with_occurrences) cl)) +let h_generalize cl = + h_generalize_gen (List.map (fun c -> ((all_occurrences_expr,c),Names.Anonymous)) + cl) +let h_generalize_dep c = + abstract_tactic (TacGeneralizeDep (inj_open c))(generalize_dep c) +let h_let_tac b na c cl = + let with_eq = if b then None else Some true in + abstract_tactic (TacLetTac (na,inj_open c,cl,b)) (letin_tac with_eq na c cl) let h_instantiate n c ido = (Evar_tactics.instantiate n c ido) (* abstract_tactic (TacInstantiate (n,c,cls)) @@ -58,12 +82,14 @@ let h_simple_induction h = abstract_tactic (TacSimpleInduction h) (simple_induct h) let h_simple_destruct h = abstract_tactic (TacSimpleDestruct h) (simple_destruct h) -let h_new_induction c e idl = - abstract_tactic (TacNewInduction (c,e,idl)) (new_induct c e idl) -let h_new_destruct c e idl = - abstract_tactic (TacNewDestruct (c,e,idl)) (new_destruct c e idl) -let h_specialize n d = abstract_tactic (TacSpecialize (n,d)) (new_hyp n d) -let h_lapply c = abstract_tactic (TacLApply c) (cut_and_apply c) +let h_new_induction ev c e idl cl = + abstract_tactic (TacNewInduction (ev,List.map inj_ia c,Option.map inj_open_wb e,idl,cl)) + (new_induct ev c e idl cl) +let h_new_destruct ev c e idl cl = + abstract_tactic (TacNewDestruct (ev,List.map inj_ia c,Option.map inj_open_wb e,idl,cl)) + (new_destruct ev c e idl cl) +let h_specialize n d = abstract_tactic (TacSpecialize (n,inj_open_wb d)) (specialize n d) +let h_lapply c = abstract_tactic (TacLApply (inj_open c)) (cut_and_apply c) (* Context management *) let h_clear b l = abstract_tactic (TacClear (b,l)) @@ -71,38 +97,41 @@ let h_clear b l = abstract_tactic (TacClear (b,l)) let h_clear_body l = abstract_tactic (TacClearBody l) (clear_body l) let h_move dep id1 id2 = abstract_tactic (TacMove (dep,id1,id2)) (move_hyp dep id1 id2) -let h_rename id1 id2 = - abstract_tactic (TacRename (id1,id2)) (rename_hyp id1 id2) +let h_rename l = + abstract_tactic (TacRename l) (rename_hyp l) +let h_revert l = abstract_tactic (TacRevert l) (revert l) (* Constructors *) -let h_left l = abstract_tactic (TacLeft l) (left l) -let h_right l = abstract_tactic (TacLeft l) (right l) -let h_split l = abstract_tactic (TacSplit (false,l)) (split l) -(* Moved to tacinterp because of dependence in Tacinterp.interp +let h_left ev l = abstract_tactic (TacLeft (ev,l)) (left_with_ebindings ev l) +let h_right ev l = abstract_tactic (TacLeft (ev,l)) (right_with_ebindings ev l) +let h_split ev l = abstract_tactic (TacSplit (ev,false,l)) (split_with_ebindings ev l) +(* Moved to tacinterp because of dependencies in Tacinterp.interp let h_any_constructor t = abstract_tactic (TacAnyConstructor t) (any_constructor t) *) -let h_constructor n l = - abstract_tactic (TacConstructor(AI n,l))(constructor_tac None n l) -let h_one_constructor n = h_constructor n NoBindings -let h_simplest_left = h_left NoBindings -let h_simplest_right = h_right NoBindings +let h_constructor ev n l = + abstract_tactic (TacConstructor(ev,AI n,l))(constructor_tac ev None n l) +let h_one_constructor n = h_constructor false n NoBindings +let h_simplest_left = h_left false NoBindings +let h_simplest_right = h_right false NoBindings (* Conversion *) -let h_reduce r cl = abstract_tactic (TacReduce (r,cl)) (reduce r cl) +let h_reduce r cl = + abstract_tactic (TacReduce (inj_red_expr r,cl)) (reduce r cl) let h_change oc c cl = - abstract_tactic (TacChange (oc,c,cl)) - (change (option_map Redexpr.out_with_occurrences oc) c cl) + abstract_tactic (TacChange (Option.map inj_occ oc,inj_open c,cl)) + (change (Option.map Redexpr.out_with_occurrences oc) c cl) (* Equivalence relations *) let h_reflexivity = abstract_tactic TacReflexivity intros_reflexivity let h_symmetry c = abstract_tactic (TacSymmetry c) (intros_symmetry c) let h_transitivity c = - abstract_tactic (TacTransitivity c) (intros_transitivity c) + abstract_tactic (TacTransitivity (inj_open c)) (intros_transitivity c) -let h_simplest_apply c = h_apply (c,NoBindings) -let h_simplest_elim c = h_elim (c,NoBindings) None -let h_simplest_case c = h_case (c,NoBindings) +let h_simplest_apply c = h_apply false false (c,NoBindings) +let h_simplest_eapply c = h_apply false true (c,NoBindings) +let h_simplest_elim c = h_elim false (c,NoBindings) None +let h_simplest_case c = h_case false (c,NoBindings) let h_intro_patterns l = abstract_tactic (TacIntroPattern l) (intro_patterns l) |