(************************************************************************) (* v * The Coq Proof Assistant / The Coq Development Team *) (* true | _ -> false let nf_evar = Reductionops.nf_evar let j_nf_evar sigma j = { uj_val = nf_evar sigma j.uj_val; uj_type = nf_evar sigma j.uj_type } let j_nf_betaiotaevar sigma j = { uj_val = nf_evar sigma j.uj_val; uj_type = Reductionops.nf_betaiota sigma j.uj_type } let jl_nf_evar sigma jl = List.map (j_nf_evar sigma) jl let jv_nf_betaiotaevar sigma jl = Array.map (j_nf_betaiotaevar sigma) jl let jv_nf_evar sigma = Array.map (j_nf_evar sigma) let tj_nf_evar sigma {utj_val=v;utj_type=t} = {utj_val=nf_evar sigma v;utj_type=t} let env_nf_evar sigma env = process_rel_context (fun d e -> push_rel (map_rel_declaration (nf_evar sigma) d) e) env let env_nf_betaiotaevar sigma env = process_rel_context (fun d e -> push_rel (map_rel_declaration (Reductionops.nf_betaiota sigma) d) e) env (* This simplifies the typing context of Cases clauses *) (* hope it does not disturb other typing contexts *) let contract env lc = let l = ref [] in let contract_context (na,c,t) env = match c with | Some c' when isRel c' -> l := (substl !l c') :: !l; env | _ -> let t' = substl !l t in let c' = Option.map (substl !l) c in let na' = named_hd env t' na in l := (mkRel 1) :: List.map (lift 1) !l; push_rel (na',c',t') env in let env = process_rel_context contract_context env in (env, List.map (substl !l) lc) let contract2 env a b = match contract env [a;b] with | env, [a;b] -> env,a,b | _ -> assert false let contract3 env a b c = match contract env [a;b;c] with | env, [a;b;c] -> env,a,b,c | _ -> assert false let raise_pretype_error (loc,env,sigma,te) = Loc.raise loc (PretypeError(env,sigma,te)) let raise_located_type_error (loc,env,sigma,te) = Loc.raise loc (PretypeError(env,sigma,TypingError te)) let error_actual_type_loc loc env sigma {uj_val=c;uj_type=actty} expty = let env, c, actty, expty = contract3 env c actty expty in let j = {uj_val=c;uj_type=actty} in raise_located_type_error (loc, env, sigma, ActualType (j, expty)) let error_cant_apply_not_functional_loc loc env sigma rator randl = raise_located_type_error (loc, env, sigma, CantApplyNonFunctional (rator, Array.of_list randl)) let error_cant_apply_bad_type_loc loc env sigma (n,c,t) rator randl = raise_located_type_error (loc, env, sigma, CantApplyBadType ((n,c,t), rator, Array.of_list randl)) let error_ill_formed_branch_loc loc env sigma c i actty expty = raise_located_type_error (loc, env, sigma, IllFormedBranch (c, i, actty, expty)) let error_number_branches_loc loc env sigma cj expn = raise_located_type_error (loc, env, sigma, NumberBranches (cj, expn)) let error_case_not_inductive_loc loc env sigma cj = raise_located_type_error (loc, env, sigma, CaseNotInductive cj) let error_ill_typed_rec_body_loc loc env sigma i na jl tys = raise_located_type_error (loc, env, sigma, IllTypedRecBody (i, na, jl, tys)) let error_not_a_type_loc loc env sigma j = raise_located_type_error (loc, env, sigma, NotAType j) (*s Implicit arguments synthesis errors. It is hard to find a precise location. *) let error_occur_check env sigma ev c = raise (PretypeError (env, sigma, OccurCheck (ev,c))) let error_not_clean env sigma ev c (loc,k) = Loc.raise loc (PretypeError (env, sigma, NotClean (ev,c,k))) let error_unsolvable_implicit loc env sigma evi e explain = Loc.raise loc (PretypeError (env, sigma, UnsolvableImplicit (evi, e, explain))) let error_cannot_unify env sigma (m,n) = raise (PretypeError (env, sigma,CannotUnify (m,n))) let error_cannot_unify_local env sigma (m,n,sn) = raise (PretypeError (env, sigma,CannotUnifyLocal (m,n,sn))) let error_cannot_coerce env sigma (m,n) = raise (PretypeError (env, sigma,CannotUnify (m,n))) let error_cannot_find_well_typed_abstraction env sigma p l = raise (PretypeError (env, sigma,CannotFindWellTypedAbstraction (p,l))) let error_abstraction_over_meta env sigma hdmeta metaarg = let m = Evd.meta_name sigma hdmeta and n = Evd.meta_name sigma metaarg in raise (PretypeError (env, sigma,AbstractionOverMeta (m,n))) let error_non_linear_unification env sigma hdmeta t = let m = Evd.meta_name sigma hdmeta in raise (PretypeError (env, sigma,NonLinearUnification (m,t))) (*s Ml Case errors *) let error_cant_find_case_type_loc loc env sigma expr = raise_pretype_error (loc, env, sigma, CantFindCaseType expr) (*s Pretyping errors *) let error_unexpected_type_loc loc env sigma actty expty = let env, actty, expty = contract2 env actty expty in raise_pretype_error (loc, env, sigma, UnexpectedType (actty, expty)) let error_not_product_loc loc env sigma c = raise_pretype_error (loc, env, sigma, NotProduct c) (*s Error in conversion from AST to glob_constr *) let error_var_not_found_loc loc s = raise_pretype_error (loc, empty_env, Evd.empty, VarNotFound s)