(************************************************************************) (* v * The Coq Proof Assistant / The Coq Development Team *) (* { uj_val = applist (j_val funj,argl); uj_type = typ } | h::restl -> (* On devrait pouvoir s'arranger pour qu'on n'ait pas à faire hnf_constr *) match kind_of_term (whd_betadeltaiota env Evd.empty typ) with | Prod (_,c1,c2) -> (* Typage garanti par l'appel à app_coercion*) apply_rec (h::acc) (subst1 h c2) restl | _ -> anomaly "apply_coercion_args" in apply_rec [] funj.uj_type argl exception NoCoercion (* appliquer le chemin de coercions de patterns p *) let apply_pattern_coercion loc pat p = List.fold_left (fun pat (co,n) -> let f i = if i let fv,isid = coercion_value i in let argl = (class_args_of typ_cl)@[ja.uj_val] in let jres = apply_coercion_args env argl fv in (if isid then { uj_val = ja.uj_val; uj_type = jres.uj_type } else jres), jres.uj_type) (hj,typ_cl) p) with _ -> anomaly "apply_coercion" let inh_app_fun env isevars j = let t = whd_betadeltaiota env (evars_of isevars) j.uj_type in match kind_of_term t with | Prod (_,_,_) -> (isevars,j) | Evar ev when not (is_defined_evar isevars ev) -> let (isevars',t) = define_evar_as_arrow isevars ev in (isevars',{ uj_val = j.uj_val; uj_type = t }) | _ -> (try let t,i1 = class_of1 env (evars_of isevars) j.uj_type in let p = lookup_path_to_fun_from i1 in (isevars,apply_coercion env p j t) with Not_found -> (isevars,j)) let inh_tosort_force loc env isevars j = try let t,i1 = class_of1 env (evars_of isevars) j.uj_type in let p = lookup_path_to_sort_from i1 in let j1 = apply_coercion env p j t in (isevars,type_judgment env (j_nf_evar (evars_of isevars) j1)) with Not_found -> error_not_a_type_loc loc env (evars_of isevars) j let inh_coerce_to_sort loc env isevars j = let typ = whd_betadeltaiota env (evars_of isevars) j.uj_type in match kind_of_term typ with | Sort s -> (isevars,{ utj_val = j.uj_val; utj_type = s }) | Evar ev when not (is_defined_evar isevars ev) -> let (isevars',s) = define_evar_as_sort isevars ev in (isevars',{ utj_val = j.uj_val; utj_type = s }) | _ -> inh_tosort_force loc env isevars j let inh_coerce_to_fail env isevars c1 hj = let hj' = try let t1,i1 = class_of1 env (evars_of isevars) c1 in let t2,i2 = class_of1 env (evars_of isevars) hj.uj_type in let p = lookup_path_between (i2,i1) in apply_coercion env p hj t2 with Not_found -> raise NoCoercion in try (the_conv_x_leq env hj'.uj_type c1 isevars, hj') with Reduction.NotConvertible -> raise NoCoercion let rec inh_conv_coerce_to_fail env isevars hj c1 = let {uj_val = v; uj_type = t} = hj in try (the_conv_x_leq env t c1 isevars, hj) with Reduction.NotConvertible -> (try inh_coerce_to_fail env isevars c1 hj with NoCoercion -> (match kind_of_term (whd_betadeltaiota env (evars_of isevars) t), kind_of_term (whd_betadeltaiota env (evars_of isevars) c1) with | Prod (_,t1,t2), Prod (name,u1,u2) -> let v' = whd_betadeltaiota env (evars_of isevars) v in let (evd',b) = match kind_of_term v' with | Lambda (_,v1,v2) -> (try the_conv_x env v1 u1 isevars, true (* leq v1 u1? *) with Reduction.NotConvertible -> (isevars, false)) | _ -> (isevars,false) in if b then let (x,v1,v2) = destLambda v' in let env1 = push_rel (x,None,v1) env in let (evd'',h2) = inh_conv_coerce_to_fail env1 evd' {uj_val = v2; uj_type = t2 } u2 in (evd'',{ uj_val = mkLambda (x, v1, h2.uj_val); uj_type = mkProd (x, v1, h2.uj_type) }) else (* Mismatch on t1 and u1 or not a lambda: we eta-expand *) (* we look for a coercion c:u1->t1 s.t. [name:u1](v' (c x)) *) (* has type (name:u1)u2 (with v' recursively obtained) *) let name = (match name with | Anonymous -> Name (id_of_string "x") | _ -> name) in let env1 = push_rel (name,None,u1) env in let (evd',h1) = inh_conv_coerce_to_fail env1 isevars {uj_val = mkRel 1; uj_type = (lift 1 u1) } (lift 1 t1) in let (evd'',h2) = inh_conv_coerce_to_fail env1 evd' { uj_val = mkApp (lift 1 v, [|h1.uj_val|]); uj_type = subst1 h1.uj_val t2 } u2 in (evd'', { uj_val = mkLambda (name, u1, h2.uj_val); uj_type = mkProd (name, u1, h2.uj_type) }) | _ -> raise NoCoercion)) (* Look for cj' obtained from cj by inserting coercions, s.t. cj'.typ = t *) let inh_conv_coerce_to loc env isevars cj t = let (evd',cj') = try inh_conv_coerce_to_fail env isevars cj t with NoCoercion -> let sigma = evars_of isevars in error_actual_type_loc loc env sigma cj t in (evd',{ uj_val = cj'.uj_val; uj_type = t })