%% -*- erlang-indent-level: 2 -*- %%----------------------------------------------------------------------- %% %CopyrightBegin% %% %% Copyright Ericsson AB 2007-2011. All Rights Reserved. %% %% The contents of this file are subject to the Erlang Public License, %% Version 1.1, (the "License"); you may not use this file except in %% compliance with the License. You should have received a copy of the %% Erlang Public License along with this software. If not, it can be %% retrieved online at http://www.erlang.org/. %% %% Software distributed under the License is distributed on an "AS IS" %% basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See %% the License for the specific language governing rights and limitations %% under the License. %% %% %CopyrightEnd% %% -module(dialyzer_contracts). -export([check_contract/2, check_contracts/3, contracts_without_fun/3, contract_to_string/1, get_invalid_contract_warnings/3, get_contract_args/1, get_contract_return/1, get_contract_return/2, %% get_contract_signature/1, is_overloaded/1, process_contract_remote_types/1, store_tmp_contract/5]). -export_type([file_contract/0, plt_contracts/0]). %%----------------------------------------------------------------------- -include("dialyzer.hrl"). %%----------------------------------------------------------------------- %% Types used in other parts of the system below %%----------------------------------------------------------------------- -type file_contract() :: {file_line(), #contract{}}. -type plt_contracts() :: [{mfa(), #contract{}}]. % actually, an orddict() %%----------------------------------------------------------------------- %% Internal record for contracts whose components have not been processed %% to expand records and/or remote types that they might contain. %%----------------------------------------------------------------------- -type tmp_contract_fun() :: fun((set(), dict()) -> contract_pair()). -record(tmp_contract, {contract_funs = [] :: [tmp_contract_fun()], forms = [] :: [{_, _}]}). %%----------------------------------------------------------------------- %%-define(DEBUG, true). -ifdef(DEBUG). -define(debug(X__, Y__), io:format(X__, Y__)). -else. -define(debug(X__, Y__), ok). -endif. %%----------------------------------------------------------------------- -spec get_contract_return(#contract{}) -> erl_types:erl_type(). get_contract_return(#contract{contracts = Cs, args = GenArgs}) -> process_contracts(Cs, GenArgs). -spec get_contract_return(#contract{}, [erl_types:erl_type()]) -> erl_types:erl_type(). get_contract_return(#contract{contracts = Cs}, Args) -> process_contracts(Cs, Args). -spec get_contract_args(#contract{}) -> [erl_types:erl_type()]. get_contract_args(#contract{args = Args}) -> Args. -spec get_contract_signature(#contract{}) -> erl_types:erl_type(). get_contract_signature(#contract{contracts = Cs, args = GeneralDomain}) -> Range = process_contracts(Cs, GeneralDomain), erl_types:t_fun(GeneralDomain, Range). -spec is_overloaded(#contract{}) -> boolean(). is_overloaded(#contract{contracts = Cs}) -> case Cs of [_] -> true; [_,_|_] -> false end. -spec contract_to_string(#contract{}) -> string(). contract_to_string(#contract{forms = Forms}) -> contract_to_string_1(Forms). contract_to_string_1([{Contract, []}]) -> strip_fun(erl_types:t_form_to_string(Contract)); contract_to_string_1([{Contract, []}|Rest]) -> strip_fun(erl_types:t_form_to_string(Contract)) ++ "\n ; " ++ contract_to_string_1(Rest); contract_to_string_1([{Contract, Constraints}]) -> strip_fun(erl_types:t_form_to_string(Contract)) ++ " when " ++ constraints_to_string(Constraints); contract_to_string_1([{Contract, Constraints}|Rest]) -> strip_fun(erl_types:t_form_to_string(Contract)) ++ " when " ++ constraints_to_string(Constraints) ++ ";" ++ contract_to_string_1(Rest). strip_fun("fun(" ++ String) -> butlast(String). butlast([]) -> []; butlast([_]) -> []; butlast([H|T]) -> [H|butlast(T)]. constraints_to_string([]) -> ""; constraints_to_string([{type, _, constraint, [{atom, _, What}, Types]}]) -> atom_to_list(What) ++ "(" ++ sequence([erl_types:t_form_to_string(T) || T <- Types], ",") ++ ")"; constraints_to_string([{type, _, constraint, [{atom, _, What}, Types]}|Rest]) -> atom_to_list(What) ++ "(" ++ sequence([erl_types:t_form_to_string(T) || T <- Types], ",") ++ "), " ++ constraints_to_string(Rest). sequence([], _Delimiter) -> ""; sequence([H], _Delimiter) -> H; sequence([H|T], Delimiter) -> H ++ Delimiter ++ sequence(T, Delimiter). -spec process_contract_remote_types(dialyzer_codeserver:codeserver()) -> dialyzer_codeserver:codeserver(). process_contract_remote_types(CodeServer) -> {TmpContractDict, TmpCallbackDict} = dialyzer_codeserver:get_temp_contracts(CodeServer), ExpTypes = dialyzer_codeserver:get_exported_types(CodeServer), RecordDict = dialyzer_codeserver:get_records(CodeServer), ContractFun = fun({_M, _F, _A}, {File, #tmp_contract{contract_funs = CFuns, forms = Forms}}) -> NewCs = [CFun(ExpTypes, RecordDict) || CFun <- CFuns], Args = general_domain(NewCs), {File, #contract{contracts = NewCs, args = Args, forms = Forms}} end, ModuleFun = fun(_ModuleName, ContractDict) -> dict:map(ContractFun, ContractDict) end, NewContractDict = dict:map(ModuleFun, TmpContractDict), NewCallbackDict = dict:map(ModuleFun, TmpCallbackDict), dialyzer_codeserver:finalize_contracts(NewContractDict, NewCallbackDict, CodeServer). -spec check_contracts([{mfa(), file_contract()}], dialyzer_callgraph:callgraph(), dict()) -> plt_contracts(). check_contracts(Contracts, Callgraph, FunTypes) -> FoldFun = fun(Label, Type, NewContracts) -> case dialyzer_callgraph:lookup_name(Label, Callgraph) of {ok, {M,F,A} = MFA} -> case orddict:find(MFA, Contracts) of {ok, {_FileLine, Contract}} -> case check_contract(Contract, Type) of ok -> case erl_bif_types:is_known(M, F, A) of true -> %% Disregard the contracts since %% this is a known function. NewContracts; false -> [{MFA, Contract}|NewContracts] end; {error, _Error} -> NewContracts end; error -> NewContracts end; error -> NewContracts end end, dict:fold(FoldFun, [], FunTypes). %% Checks all components of a contract -spec check_contract(#contract{}, erl_types:erl_type()) -> 'ok' | {'error', term()}. check_contract(#contract{contracts = Contracts}, SuccType) -> try Contracts1 = [{Contract, insert_constraints(Constraints, dict:new())} || {Contract, Constraints} <- Contracts], Contracts2 = [erl_types:t_subst(Contract, Dict) || {Contract, Dict} <- Contracts1], GenDomains = [erl_types:t_fun_args(C) || C <- Contracts2], case check_domains(GenDomains) of error -> {error, {overlapping_contract, []}}; ok -> InfList = [erl_types:t_inf(Contract, SuccType, opaque) || Contract <- Contracts2], case check_contract_inf_list(InfList, SuccType) of {error, _} = Invalid -> Invalid; ok -> check_extraneous(Contracts2, SuccType) end end catch throw:{error, _} = Error -> Error end. check_domains([_]) -> ok; check_domains([Dom|Doms]) -> Fun = fun(D) -> erl_types:any_none_or_unit(erl_types:t_inf_lists(Dom, D, opaque)) end, case lists:all(Fun, Doms) of true -> check_domains(Doms); false -> error end. %% Allow a contract if one of the overloaded contracts is possible. %% We used to be more strict, e.g., all overloaded contracts had to be %% possible. check_contract_inf_list([FunType|Left], SuccType) -> FunArgs = erl_types:t_fun_args(FunType), case lists:any(fun erl_types:t_is_none_or_unit/1, FunArgs) of true -> check_contract_inf_list(Left, SuccType); false -> STRange = erl_types:t_fun_range(SuccType), case erl_types:t_is_none_or_unit(STRange) of true -> ok; false -> Range = erl_types:t_fun_range(FunType), case erl_types:t_is_none(erl_types:t_inf(STRange, Range, opaque)) of true -> check_contract_inf_list(Left, SuccType); false -> ok end end end; check_contract_inf_list([], _SuccType) -> {error, invalid_contract}. check_extraneous([], _SuccType) -> ok; check_extraneous([C|Cs], SuccType) -> case check_extraneous_1(C, SuccType) of ok -> check_extraneous(Cs, SuccType); Error -> Error end. check_extraneous_1(Contract, SuccType) -> CRngs = erl_types:t_elements(erl_types:t_fun_range(Contract)), STRng = erl_types:t_fun_range(SuccType), ?debug("CR = ~p\nSR = ~p\n", [CRngs, STRng]), case [CR || CR <- CRngs, erl_types:t_is_none(erl_types:t_inf(CR, STRng, opaque))] of [] -> ok; CRs -> {error, {extra_range, erl_types:t_sup(CRs), STRng}} end. %% This is the heart of the "range function" -spec process_contracts([contract_pair()], [erl_types:erl_type()]) -> erl_types:erl_type(). process_contracts(OverContracts, Args) -> process_contracts(OverContracts, Args, erl_types:t_none()). process_contracts([OverContract|Left], Args, AccRange) -> NewAccRange = case process_contract(OverContract, Args) of error -> AccRange; {ok, Range} -> erl_types:t_sup(AccRange, Range) end, process_contracts(Left, Args, NewAccRange); process_contracts([], _Args, AccRange) -> AccRange. -spec process_contract(contract_pair(), [erl_types:erl_type()]) -> 'error' | {'ok', erl_types:erl_type()}. process_contract({Contract, Constraints}, CallTypes0) -> CallTypesFun = erl_types:t_fun(CallTypes0, erl_types:t_any()), ContArgsFun = erl_types:t_fun(erl_types:t_fun_args(Contract), erl_types:t_any()), ?debug("Instance: Contract: ~s\n Arguments: ~s\n", [erl_types:t_to_string(ContArgsFun), erl_types:t_to_string(CallTypesFun)]), case solve_constraints(ContArgsFun, CallTypesFun, Constraints) of {ok, VarDict} -> {ok, erl_types:t_subst(erl_types:t_fun_range(Contract), VarDict)}; error -> error end. solve_constraints(Contract, Call, Constraints) -> %% First make sure the call follows the constraints CDict = insert_constraints(Constraints, dict:new()), Contract1 = erl_types:t_subst(Contract, CDict), %% Just a safe over-approximation. %% TODO: Find the types for type variables properly ContrArgs = erl_types:t_fun_args(Contract1), CallArgs = erl_types:t_fun_args(Call), InfList = erl_types:t_inf_lists(ContrArgs, CallArgs), case erl_types:any_none_or_unit(InfList) of true -> error; false -> {ok, CDict} end. %%Inf = erl_types:t_inf(Contract1, Call), %% Then unify with the constrained call type. %% ?debug("Call: ~s\n", [erl_types:t_to_string(Call)]), %% ?debug("Contract: ~s\n", [erl_types:t_to_string(Contract)]), %% ?debug("Contract1: ~s\n", [erl_types:t_to_string(Contract1)]), %% ?debug("Inf: ~s\n", [erl_types:t_to_string(Inf)]), %% erl_types:t_assign_variables_to_subtype(Contract, Inf). %% Checks the contracts for functions that are not implemented -spec contracts_without_fun(dict(), [_], dialyzer_callgraph:callgraph()) -> [dial_warning()]. contracts_without_fun(Contracts, AllFuns0, Callgraph) -> AllFuns1 = [{dialyzer_callgraph:lookup_name(Label, Callgraph), Arity} || {Label, Arity} <- AllFuns0], AllFuns2 = [{M, F, A} || {{ok, {M, F, _}}, A} <- AllFuns1], AllContractMFAs = dict:fetch_keys(Contracts), ErrorContractMFAs = AllContractMFAs -- AllFuns2, [warn_spec_missing_fun(MFA, Contracts) || MFA <- ErrorContractMFAs]. warn_spec_missing_fun({M, F, A} = MFA, Contracts) -> {FileLine, _Contract} = dict:fetch(MFA, Contracts), {?WARN_CONTRACT_SYNTAX, FileLine, {spec_missing_fun, [M, F, A]}}. %% This treats the "when" constraints. It will be extended, we hope. insert_constraints([{subtype, Type1, Type2}|Left], Dict) -> case erl_types:t_is_var(Type1) of true -> Name = erl_types:t_var_name(Type1), Dict1 = case dict:find(Name, Dict) of error -> dict:store(Name, Type2, Dict); {ok, VarType} -> dict:store(Name, erl_types:t_inf(VarType, Type2), Dict) end, insert_constraints(Left, Dict1); false -> %% A lot of things should change to add supertypes throw({error, io_lib:format("First argument of is_subtype constraint " "must be a type variable: ~p\n", [Type1])}) end; insert_constraints([], Dict) -> Dict. -spec store_tmp_contract(mfa(), file_line(), [_], dict(), dict()) -> dict(). store_tmp_contract(MFA, FileLine, TypeSpec, SpecDict, RecordsDict) -> %% io:format("contract from form: ~p\n", [TypeSpec]), TmpContract = contract_from_form(TypeSpec, RecordsDict, FileLine), %% io:format("contract: ~p\n", [Contract]), dict:store(MFA, {FileLine, TmpContract}, SpecDict). contract_from_form(Forms, RecDict, FileLine) -> {CFuns, Forms1} = contract_from_form(Forms, RecDict, FileLine, [], []), #tmp_contract{contract_funs = CFuns, forms = Forms1}. contract_from_form([{type, _, 'fun', [_, _]} = Form | Left], RecDict, FileLine, TypeAcc, FormAcc) -> TypeFun = fun(ExpTypes, AllRecords) -> Type = try erl_types:t_from_form(Form, RecDict) catch throw:{error, Msg} -> {File, Line} = FileLine, NewMsg = io_lib:format("~s:~p: ~s", [filename:basename(File), Line, Msg]), throw({error, NewMsg}) end, NewType = erl_types:t_solve_remote(Type, ExpTypes, AllRecords), {NewType, []} end, NewTypeAcc = [TypeFun | TypeAcc], NewFormAcc = [{Form, []} | FormAcc], contract_from_form(Left, RecDict, FileLine, NewTypeAcc, NewFormAcc); contract_from_form([{type, _L1, bounded_fun, [{type, _L2, 'fun', [_, _]} = Form, Constr]}| Left], RecDict, FileLine, TypeAcc, FormAcc) -> TypeFun = fun(ExpTypes, AllRecords) -> {Constr1, VarDict} = process_constraints(Constr, RecDict, ExpTypes, AllRecords), Type = erl_types:t_from_form(Form, RecDict, VarDict), NewType = erl_types:t_solve_remote(Type, ExpTypes, AllRecords), {NewType, Constr1} end, NewTypeAcc = [TypeFun | TypeAcc], NewFormAcc = [{Form, Constr} | FormAcc], contract_from_form(Left, RecDict, FileLine, NewTypeAcc, NewFormAcc); contract_from_form([], _RecDict, _FileLine, TypeAcc, FormAcc) -> {lists:reverse(TypeAcc), lists:reverse(FormAcc)}. process_constraints(Constrs, RecDict, ExpTypes, AllRecords) -> Init = initialize_constraints(Constrs, RecDict, ExpTypes, AllRecords), constraints_fixpoint(Init, RecDict, ExpTypes, AllRecords). initialize_constraints(Constrs, RecDict, ExpTypes, AllRecords) -> initialize_constraints(Constrs, RecDict, ExpTypes, AllRecords, []). initialize_constraints([], _RecDict, _ExpTypes, _AllRecords, Acc) -> Acc; initialize_constraints([Constr|Rest], RecDict, ExpTypes, AllRecords, Acc) -> case Constr of {type, _, constraint, [{atom, _, is_subtype}, [Type1, Type2]]} -> T1 = final_form(Type1, RecDict, ExpTypes, AllRecords, dict:new()), Entry = {T1, Type2}, initialize_constraints(Rest, RecDict, ExpTypes, AllRecords, [Entry|Acc]); {type, _, constraint, [{atom,_,Name}, List]} -> N = length(List), throw({error, io_lib:format("Unsupported type guard ~w/~w\n", [Name, N])}) end. constraints_fixpoint(Constrs, RecDict, ExpTypes, AllRecords) -> VarDict = constraints_to_dict(Constrs, RecDict, ExpTypes, AllRecords, dict:new()), constraints_fixpoint(VarDict, Constrs, RecDict, ExpTypes, AllRecords). constraints_fixpoint(OldVarDict, Constrs, RecDict, ExpTypes, AllRecords) -> NewVarDict = constraints_to_dict(Constrs, RecDict, ExpTypes, AllRecords, OldVarDict), case NewVarDict of OldVarDict -> DictFold = fun(Key, Value, Acc) -> [{subtype, erl_types:t_var(Key), Value}|Acc] end, FinalConstrs = dict:fold(DictFold, [], NewVarDict), {FinalConstrs, NewVarDict}; _Other -> constraints_fixpoint(NewVarDict, Constrs, RecDict, ExpTypes, AllRecords) end. -define(TYPE_LIMIT, 4). final_form(Form, RecDict, ExpTypes, AllRecords, VarDict) -> T1 = erl_types:t_from_form(Form, RecDict, VarDict), T2 = erl_types:t_solve_remote(T1, ExpTypes, AllRecords), erl_types:t_limit(T2, ?TYPE_LIMIT). constraints_to_dict(Constrs, RecDict, ExpTypes, AllRecords, VarDict) -> Subtypes = constraints_to_subs(Constrs, RecDict, ExpTypes, AllRecords, VarDict, []), insert_constraints(Subtypes, dict:new()). constraints_to_subs([], _RecDict, _ExpTypes, _AllRecords, _VarDict, Acc) -> Acc; constraints_to_subs([C|Rest], RecDict, ExpTypes, AllRecords, VarDict, Acc) -> {T1, Form2} = C, T2 = final_form(Form2, RecDict, ExpTypes, AllRecords, VarDict), NewAcc = [{subtype, T1, T2}|Acc], constraints_to_subs(Rest, RecDict, ExpTypes, AllRecords, VarDict, NewAcc). %% Gets the most general domain of a list of domains of all %% the overloaded contracts general_domain(List) -> general_domain(List, erl_types:t_none()). general_domain([{Sig, Constraints}|Left], AccSig) -> Dict = insert_constraints(Constraints, dict:new()), Sig1 = erl_types:t_subst(Sig, Dict), general_domain(Left, erl_types:t_sup(AccSig, Sig1)); general_domain([], AccSig) -> %% Get rid of all variables in the domain. AccSig1 = erl_types:subst_all_vars_to_any(AccSig), erl_types:t_fun_args(AccSig1). -spec get_invalid_contract_warnings([module()], dialyzer_codeserver:codeserver(), dialyzer_plt:plt()) -> [dial_warning()]. get_invalid_contract_warnings(Modules, CodeServer, Plt) -> get_invalid_contract_warnings_modules(Modules, CodeServer, Plt, []). get_invalid_contract_warnings_modules([Mod|Mods], CodeServer, Plt, Acc) -> Contracts1 = dialyzer_codeserver:lookup_mod_contracts(Mod, CodeServer), Contracts2 = dict:to_list(Contracts1), Records = dialyzer_codeserver:lookup_mod_records(Mod, CodeServer), NewAcc = get_invalid_contract_warnings_funs(Contracts2, Plt, Records, Acc), get_invalid_contract_warnings_modules(Mods, CodeServer, Plt, NewAcc); get_invalid_contract_warnings_modules([], _CodeServer, _Plt, Acc) -> Acc. get_invalid_contract_warnings_funs([{MFA, {FileLine, Contract}}|Left], Plt, RecDict, Acc) -> case dialyzer_plt:lookup(Plt, MFA) of none -> %% This must be a contract for a non-available function. Just accept it. get_invalid_contract_warnings_funs(Left, Plt, RecDict, Acc); {value, {Ret, Args}} -> Sig = erl_types:t_fun(Args, Ret), NewAcc = case check_contract(Contract, Sig) of {error, invalid_contract} -> [invalid_contract_warning(MFA, FileLine, Sig, RecDict)|Acc]; {error, {extra_range, ExtraRanges, STRange}} -> Warn = case t_from_forms_without_remote(Contract#contract.forms, RecDict) of {ok, NoRemoteType} -> CRet = erl_types:t_fun_range(NoRemoteType), erl_types:t_is_subtype(ExtraRanges, CRet); unsupported -> true end, case Warn of true -> [extra_range_warning(MFA, FileLine, ExtraRanges, STRange)|Acc]; false -> Acc end; {error, Msg} -> [{?WARN_CONTRACT_SYNTAX, FileLine, Msg}|Acc]; ok -> {M, F, A} = MFA, CSig0 = get_contract_signature(Contract), CSig = erl_types:subst_all_vars_to_any(CSig0), case erl_bif_types:is_known(M, F, A) of true -> %% This is strictly for contracts of functions also in %% erl_bif_types BifArgs = erl_bif_types:arg_types(M, F, A), BifRet = erl_bif_types:type(M, F, A), BifSig = erl_types:t_fun(BifArgs, BifRet), case check_contract(Contract, BifSig) of {error, _} -> [invalid_contract_warning(MFA, FileLine, BifSig, RecDict) |Acc]; ok -> picky_contract_check(CSig, BifSig, MFA, FileLine, Contract, RecDict, Acc) end; false -> picky_contract_check(CSig, Sig, MFA, FileLine, Contract, RecDict, Acc) end end, get_invalid_contract_warnings_funs(Left, Plt, RecDict, NewAcc) end; get_invalid_contract_warnings_funs([], _Plt, _RecDict, Acc) -> Acc. invalid_contract_warning({M, F, A}, FileLine, SuccType, RecDict) -> SuccTypeStr = dialyzer_utils:format_sig(SuccType, RecDict), {?WARN_CONTRACT_TYPES, FileLine, {invalid_contract, [M, F, A, SuccTypeStr]}}. extra_range_warning({M, F, A}, FileLine, ExtraRanges, STRange) -> ERangesStr = erl_types:t_to_string(ExtraRanges), STRangeStr = erl_types:t_to_string(STRange), {?WARN_CONTRACT_SUPERTYPE, FileLine, {extra_range, [M, F, A, ERangesStr, STRangeStr]}}. picky_contract_check(CSig0, Sig0, MFA, FileLine, Contract, RecDict, Acc) -> CSig = erl_types:t_abstract_records(CSig0, RecDict), Sig = erl_types:t_abstract_records(Sig0, RecDict), case erl_types:t_is_equal(CSig, Sig) of true -> Acc; false -> case (erl_types:t_is_none(erl_types:t_fun_range(Sig)) andalso erl_types:t_is_unit(erl_types:t_fun_range(CSig))) of true -> Acc; false -> case extra_contract_warning(MFA, FileLine, Contract, CSig, Sig, RecDict) of no_warning -> Acc; {warning, Warning} -> [Warning|Acc] end end end. extra_contract_warning({M, F, A}, FileLine, Contract, CSig, Sig, RecDict) -> SigString = lists:flatten(dialyzer_utils:format_sig(Sig, RecDict)), ContractString0 = lists:flatten(dialyzer_utils:format_sig(CSig, RecDict)), %% The only difference is in record fields containing 'undefined' or not. IsUndefRecordFieldsRelated = SigString =:= ContractString0, {IsRemoteTypesRelated, SubtypeRelation} = is_remote_types_related(Contract, CSig, Sig, RecDict), case IsUndefRecordFieldsRelated orelse IsRemoteTypesRelated of true -> no_warning; false -> ContractString = contract_to_string(Contract), {Tag, Msg} = case SubtypeRelation of contract_is_subtype -> {?WARN_CONTRACT_SUBTYPE, {contract_subtype, [M, F, A, ContractString, SigString]}}; contract_is_supertype -> {?WARN_CONTRACT_SUPERTYPE, {contract_supertype, [M, F, A, ContractString, SigString]}}; neither -> {?WARN_CONTRACT_NOT_EQUAL, {contract_diff, [M, F, A, ContractString, SigString]}} end, {warning, {Tag, FileLine, Msg}} end. is_remote_types_related(Contract, CSig, Sig, RecDict) -> case erl_types:t_is_subtype(CSig, Sig) of true -> {false, contract_is_subtype}; false -> case erl_types:t_is_subtype(Sig, CSig) of true -> case t_from_forms_without_remote(Contract#contract.forms, RecDict) of {ok, NoRemoteTypeSig} -> case blame_remote(CSig, NoRemoteTypeSig, Sig) of true -> {true, neither}; false -> {false, contract_is_supertype} end; unsupported -> {false, contract_is_supertype} end; false -> {false, neither} end end. t_from_forms_without_remote([{FType, []}], RecDict) -> Type0 = erl_types:t_from_form(FType, RecDict), Map = fun(Type) -> case erl_types:t_is_remote(Type) of true -> erl_types:t_none(); false -> Type end end, {ok, erl_types:t_map(Map, Type0)}; t_from_forms_without_remote([{_FType, _Constrs}], _RecDict) -> %% 'When' constraints unsupported; t_from_forms_without_remote(_Forms, _RecDict) -> %% Lots of forms unsupported. blame_remote(ContractSig, NoRemoteContractSig, Sig) -> CArgs = erl_types:t_fun_args(ContractSig), CRange = erl_types:t_fun_range(ContractSig), NRArgs = erl_types:t_fun_args(NoRemoteContractSig), NRRange = erl_types:t_fun_range(NoRemoteContractSig), SArgs = erl_types:t_fun_args(Sig), SRange = erl_types:t_fun_range(Sig), blame_remote_list([CRange|CArgs], [NRRange|NRArgs], [SRange|SArgs]). blame_remote_list([], [], []) -> true; blame_remote_list([CArg|CArgs], [NRArg|NRArgs], [SArg|SArgs]) -> case erl_types:t_is_equal(CArg, NRArg) of true -> case not erl_types:t_is_equal(CArg, SArg) of true -> false; false -> blame_remote_list(CArgs, NRArgs, SArgs) end; false -> case erl_types:t_is_subtype(SArg, NRArg) andalso not erl_types:t_is_subtype(NRArg, SArg) of true -> false; false -> blame_remote_list(CArgs, NRArgs, SArgs) end end.