diff options
Diffstat (limited to 'lib/stdlib/src/erl_lint.erl')
-rw-r--r-- | lib/stdlib/src/erl_lint.erl | 417 |
1 files changed, 331 insertions, 86 deletions
diff --git a/lib/stdlib/src/erl_lint.erl b/lib/stdlib/src/erl_lint.erl index f599881c07..7c064ce902 100644 --- a/lib/stdlib/src/erl_lint.erl +++ b/lib/stdlib/src/erl_lint.erl @@ -2,7 +2,7 @@ %% %% %CopyrightBegin% %% -%% Copyright Ericsson AB 1996-2013. All Rights Reserved. +%% Copyright Ericsson AB 1996-2014. 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 @@ -80,13 +80,17 @@ value_option(Flag, Default, On, OnVal, Off, OffVal, Opts) -> -type fa() :: {atom(), arity()}. % function+arity -type ta() :: {atom(), arity()}. % type+arity +-record(typeinfo, {attr, line}). + %% Usage of records, functions, and imports. The variable table, which %% is passed on as an argument, holds the usage of variables. -record(usage, { calls = dict:new(), %Who calls who imported = [], %Actually imported functions - used_records=sets:new() :: set(), %Used record definitions - used_types = dict:new() :: dict() %Used type definitions + used_records = sets:new() %Used record definitions + :: sets:set(atom()), + used_types = dict:new() %Used type definitions + :: dict:dict(ta(), line()) }). %% Define the lint state record. @@ -95,13 +99,17 @@ value_option(Flag, Default, On, OnVal, Off, OffVal, Opts) -> -record(lint, {state=start :: 'start' | 'attribute' | 'function', module=[], %Module behaviour=[], %Behaviour - exports=gb_sets:empty() :: gb_set(), %Exports - imports=[], %Imports + exports=gb_sets:empty() :: gb_sets:set(fa()),%Exports + imports=[] :: [fa()], %Imports, an orddict() compile=[], %Compile flags - records=dict:new() :: dict(), %Record definitions - locals=gb_sets:empty() :: gb_set(), %All defined functions (prescanned) - no_auto=gb_sets:empty() :: gb_set(), %Functions explicitly not autoimported - defined=gb_sets:empty() :: gb_set(), %Defined fuctions + records=dict:new() %Record definitions + :: dict:dict(atom(), {line(),Fields :: term()}), + locals=gb_sets:empty() %All defined functions (prescanned) + :: gb_sets:set(fa()), + no_auto=gb_sets:empty() %Functions explicitly not autoimported + :: gb_sets:set(fa()) | 'all', + defined=gb_sets:empty() %Defined fuctions + :: gb_sets:set(fa()), on_load=[] :: [fa()], %On-load function on_load_line=0 :: line(), %Line for on_load clashes=[], %Exported functions named as BIFs @@ -116,12 +124,16 @@ value_option(Flag, Default, On, OnVal, Off, OffVal, Opts) -> %outside any fun or lc xqlc= false :: boolean(), %true if qlc.hrl included new = false :: boolean(), %Has user-defined 'new/N' - called= [] :: [{fa(),line()}], %Called functions + called= [] :: [{fa(),line()}], %Called functions usage = #usage{} :: #usage{}, - specs = dict:new() :: dict(), %Type specifications - callbacks = dict:new() :: dict(), %Callback types - types = dict:new() :: dict(), %Type definitions - exp_types=gb_sets:empty():: gb_set() %Exported types + specs = dict:new() %Type specifications + :: dict:dict(mfa(), line()), + callbacks = dict:new() %Callback types + :: dict:dict(mfa(), line()), + types = dict:new() %Type definitions + :: dict:dict(ta(), #typeinfo{}), + exp_types=gb_sets:empty() %Exported types + :: gb_sets:set(ta()) }). -type lint_state() :: #lint{}. @@ -225,6 +237,10 @@ format_error({too_many_arguments,Arity}) -> "maximum allowed is ~w", [Arity,?MAX_ARGUMENTS]); %% --- patterns and guards --- format_error(illegal_pattern) -> "illegal pattern"; +format_error(illegal_map_key) -> + "illegal map key"; +format_error({illegal_map_key_variable,K}) -> + io_lib:format("illegal use of variable ~w in map",[K]); format_error(illegal_bin_pattern) -> "binary patterns cannot be matched in parallel using '='"; format_error(illegal_expr) -> "illegal expression"; @@ -232,6 +248,9 @@ format_error({illegal_guard_local_call, {F,A}}) -> io_lib:format("call to local/imported function ~w/~w is illegal in guard", [F,A]); format_error(illegal_guard_expr) -> "illegal guard expression"; +%% --- maps --- +format_error(illegal_map_construction) -> + "only association operators '=>' are allowed in map construction"; %% --- records --- format_error({undefined_record,T}) -> io_lib:format("record ~w undefined", [T]); @@ -281,6 +300,8 @@ format_error(utf_bittype_size_or_unit) -> "neither size nor unit must be given for segments of type utf8/utf16/utf32"; format_error({bad_bitsize,Type}) -> io_lib:format("bad ~s bit size", [Type]); +format_error(unsized_binary_in_bin_gen_pattern) -> + "binary fields without size are not allowed in patterns of bit string generators"; %% --- behaviours --- format_error({conflicting_behaviours,{Name,Arity},B,FirstL,FirstB}) -> io_lib:format("conflicting behaviours - callback ~w/~w required by both '~p' " @@ -310,10 +331,14 @@ format_error({undefined_type, {TypeName, Arity}}) -> io_lib:format("type ~w~s undefined", [TypeName, gen_type_paren(Arity)]); format_error({unused_type, {TypeName, Arity}}) -> io_lib:format("type ~w~s is unused", [TypeName, gen_type_paren(Arity)]); -format_error({new_builtin_type, {TypeName, Arity}}) -> - io_lib:format("type ~w~s is a new builtin type; " +%% format_error({new_builtin_type, {TypeName, Arity}}) -> +%% io_lib:format("type ~w~s is a new builtin type; " +%% "its (re)definition is allowed only until the next release", +%% [TypeName, gen_type_paren(Arity)]); +format_error({new_var_arity_type, TypeName}) -> + io_lib:format("type ~w is a new builtin type; " "its (re)definition is allowed only until the next release", - [TypeName, gen_type_paren(Arity)]); + [TypeName]); format_error({builtin_type, {TypeName, Arity}}) -> io_lib:format("type ~w~s is a builtin type; it cannot be redefined", [TypeName, gen_type_paren(Arity)]); @@ -337,9 +362,19 @@ format_error(spec_wrong_arity) -> "spec has the wrong arity"; format_error(callback_wrong_arity) -> "callback has the wrong arity"; -format_error({imported_predefined_type, Name}) -> - io_lib:format("referring to built-in type ~w as a remote type; " - "please take out the module name", [Name]); +format_error({deprecated_builtin_type, {Name, Arity}, + Replacement, Rel}) -> + UseS = case Replacement of + {Mod, NewName} -> + io_lib:format("use ~w:~w/~w", [Mod, NewName, Arity]); + {Mod, NewName, NewArity} -> + io_lib:format("use ~w:~w/~w or preferably ~w:~w/~w", + [Mod, NewName, Arity, + Mod, NewName, NewArity]) + end, + io_lib:format("type ~w/~w is deprecated and will be " + "removed in ~s; use ~s", + [Name, Arity, Rel, UseS]); format_error({not_exported_opaque, {TypeName, Arity}}) -> io_lib:format("opaque type ~w~s is not exported", [TypeName, gen_type_paren(Arity)]); @@ -491,6 +526,9 @@ start(File, Opts) -> {deprecated_function, bool_option(warn_deprecated_function, nowarn_deprecated_function, true, Opts)}, + {deprecated_type, + bool_option(warn_deprecated_type, nowarn_deprecated_type, + true, Opts)}, {obsolete_guard, bool_option(warn_obsolete_guard, nowarn_obsolete_guard, true, Opts)}, @@ -842,8 +880,9 @@ behaviour_callbacks(Line, B, St0) -> {[], St1} end. -behaviour_missing_callbacks([{{Line,B},Bfs}|T], #lint{exports=Exp}=St0) -> - Missing = ordsets:subtract(ordsets:from_list(Bfs), gb_sets:to_list(Exp)), +behaviour_missing_callbacks([{{Line,B},Bfs}|T], St0) -> + Exports = gb_sets:to_list(exports(St0)), + Missing = ordsets:subtract(ordsets:from_list(Bfs), Exports), St = foldl(fun (F, S0) -> add_warning(Line, {undefined_behaviour_func,F,B}, S0) end, St0, Missing), @@ -1147,6 +1186,14 @@ export_type(Line, ETs, #lint{usage = Usage, exp_types = ETs0} = St0) -> add_error(Line, {bad_export_type, ETs}, St0) end. +-spec exports(lint_state()) -> gb_sets:set(fa()). + +exports(#lint{compile = Opts, defined = Defs, exports = Es}) -> + case lists:member(export_all, Opts) of + true -> Defs; + false -> Es + end. + -type import() :: {module(), [fa()]} | module(). -spec import(line(), import(), lint_state()) -> lint_state(). @@ -1355,6 +1402,21 @@ pattern({cons,_Line,H,T}, Vt, Old, Bvt, St0) -> {vtmerge_pat(Hvt, Tvt),vtmerge_pat(Bvt1,Bvt2),St2}; pattern({tuple,_Line,Ps}, Vt, Old, Bvt, St) -> pattern_list(Ps, Vt, Old, Bvt, St); +pattern({map,_Line,Ps}, Vt, Old, Bvt, St) -> + foldl(fun + ({map_field_assoc,L,_,_}, {Psvt,Bvt0,St0}) -> + {Psvt,Bvt0,add_error(L, illegal_pattern, St0)}; + ({map_field_exact,L,KP,VP}, {Psvt,Bvt0,St0}) -> + case is_valid_map_key(KP, pattern, St0) of + true -> + {Pvt,Bvt1,St1} = pattern(VP, Vt, Old, Bvt, St0), + {vtmerge_pat(Pvt, Psvt),vtmerge_pat(Bvt0, Bvt1), St1}; + false -> + {Psvt,Bvt0,add_error(L, illegal_map_key, St0)}; + {false,variable,Var} -> + {Psvt,Bvt0,add_error(L, {illegal_map_key_variable,Var}, St0)} + end + end, {[],[],St}, Ps); %%pattern({struct,_Line,_Tag,Ps}, Vt, Old, Bvt, St) -> %% pattern_list(Ps, Vt, Old, Bvt, St); pattern({record_index,Line,Name,Field}, _Vt, _Old, _Bvt, St) -> @@ -1742,6 +1804,12 @@ gexpr({cons,_Line,H,T}, Vt, St) -> gexpr_list([H,T], Vt, St); gexpr({tuple,_Line,Es}, Vt, St) -> gexpr_list(Es, Vt, St); +gexpr({map,_Line,Es}, Vt, St) -> + map_fields(Es, Vt, check_assoc_fields(Es, St), fun gexpr_list/3); +gexpr({map,_Line,Src,Es}, Vt, St) -> + {Svt,St1} = gexpr(Src, Vt, St), + {Fvt,St2} = map_fields(Es, Vt, St1, fun gexpr_list/3), + {vtmerge(Svt, Fvt),St2}; gexpr({record_index,Line,Name,Field}, _Vt, St) -> check_record(Line, Name, St, fun (Dfs, St1) -> record_field(Field, Name, Dfs, St1) end ); @@ -1814,6 +1882,10 @@ gexpr({op,Line,Op,A}, Vt, St0) -> true -> {Avt,St1}; false -> {Avt,add_error(Line, illegal_guard_expr, St1)} end; +gexpr({op,_,'andalso',L,R}, Vt, St) -> + gexpr_list([L,R], Vt, St); +gexpr({op,_,'orelse',L,R}, Vt, St) -> + gexpr_list([L,R], Vt, St); gexpr({op,Line,Op,L,R}, Vt, St0) -> {Avt,St1} = gexpr_list([L,R], Vt, St0), case is_gexpr_op(Op, 2) of @@ -1851,7 +1923,7 @@ is_guard_test(Expression, Forms) -> end, start(), RecordAttributes), is_guard_test2(zip_file_and_line(Expression, "nofile"), St0#lint.records). -%% is_guard_test2(Expression, RecordDefs :: dict()) -> boolean(). +%% is_guard_test2(Expression, RecordDefs :: dict:dict()) -> boolean(). is_guard_test2({call,Line,{atom,Lr,record},[E,A]}, RDs) -> is_gexpr({call,Line,{atom,Lr,is_record},[E,A]}, RDs); is_guard_test2({call,_Line,{atom,_La,Test},As}=Call, RDs) -> @@ -1900,12 +1972,14 @@ is_gexpr({call,L,{tuple,Lt,[{atom,Lm,erlang},{atom,Lf,F}]},As}, RDs) -> is_gexpr({call,L,{remote,Lt,{atom,Lm,erlang},{atom,Lf,F}},As}, RDs); is_gexpr({op,_L,Op,A}, RDs) -> is_gexpr_op(Op, 1) andalso is_gexpr(A, RDs); +is_gexpr({op,_L,'andalso',A1,A2}, RDs) -> + is_gexpr_list([A1,A2], RDs); +is_gexpr({op,_L,'orelse',A1,A2}, RDs) -> + is_gexpr_list([A1,A2], RDs); is_gexpr({op,_L,Op,A1,A2}, RDs) -> is_gexpr_op(Op, 2) andalso is_gexpr_list([A1,A2], RDs); is_gexpr(_Other, _RDs) -> false. -is_gexpr_op('andalso', 2) -> true; -is_gexpr_op('orelse', 2) -> true; is_gexpr_op(Op, A) -> try erl_internal:op_type(Op, A) of arith -> true; @@ -1959,6 +2033,12 @@ expr({bc,_Line,E,Qs}, Vt, St) -> handle_comprehension(E, Qs, Vt, St); expr({tuple,_Line,Es}, Vt, St) -> expr_list(Es, Vt, St); +expr({map,_Line,Es}, Vt, St) -> + map_fields(Es, Vt, check_assoc_fields(Es, St), fun expr_list/3); +expr({map,_Line,Src,Es}, Vt, St) -> + {Svt,St1} = expr(Src, Vt, St), + {Fvt,St2} = map_fields(Es, Vt, St1, fun expr_list/3), + {vtupdate(Svt, Fvt),St2}; expr({record_index,Line,Name,Field}, _Vt, St) -> check_record(Line, Name, St, fun (Dfs, St1) -> record_field(Field, Name, Dfs, St1) end); @@ -2028,6 +2108,15 @@ expr({'fun',Line,Body}, Vt, St) -> {Bvt, St1} = expr_list([M,F,A], Vt, St), {vtupdate(Bvt, Vt),St1} end; +expr({named_fun,_,'_',Cs}, Vt, St) -> + fun_clauses(Cs, Vt, St); +expr({named_fun,Line,Name,Cs}, Vt, St0) -> + Nvt0 = [{Name,{bound,unused,[Line]}}], + St1 = shadow_vars(Nvt0, Vt, 'named fun', St0), + Nvt1 = vtupdate(vtsubtract(Vt, Nvt0), Nvt0), + {Csvt,St2} = fun_clauses(Cs, Nvt1, St1), + {_,St3} = check_unused_vars(vtupdate(Csvt, Nvt0), [], St2), + {vtold(Csvt, Vt),St3}; expr({call,_Line,{atom,_Lr,is_record},[E,{atom,Ln,Name}]}, Vt, St0) -> {Rvt,St1} = expr(E, Vt, St0), {Rvt,exist_record(Ln, Name, St1)}; @@ -2157,6 +2246,26 @@ record_expr(Line, Rec, Vt, St0) -> St1 = warn_invalid_record(Line, Rec, St0), expr(Rec, Vt, St1). +check_assoc_fields([{map_field_exact,Line,_,_}|Fs], St) -> + check_assoc_fields(Fs, add_error(Line, illegal_map_construction, St)); +check_assoc_fields([{map_field_assoc,_,_,_}|Fs], St) -> + check_assoc_fields(Fs, St); +check_assoc_fields([], St) -> + St. + +map_fields([{Tag,Line,K,V}|Fs], Vt, St, F) when Tag =:= map_field_assoc; + Tag =:= map_field_exact -> + St1 = case is_valid_map_key(K, St) of + true -> St; + false -> add_error(Line, illegal_map_key, St); + {false,variable,Var} -> add_error(Line, {illegal_map_key_variable,Var}, St) + end, + {Pvt,St2} = F([K,V], Vt, St1), + {Vts,St3} = map_fields(Fs, Vt, St2, F), + {vtupdate(Pvt, Vts),St3}; +map_fields([], Vt, St, _) -> + {Vt,St}. + %% warn_invalid_record(Line, Record, State0) -> State %% Adds warning if the record is invalid. @@ -2180,6 +2289,7 @@ is_valid_record(Rec) -> {lc, _, _, _} -> false; {record_index, _, _, _} -> false; {'fun', _, _} -> false; + {named_fun, _, _, _} -> false; _ -> true end. @@ -2208,6 +2318,70 @@ is_valid_call(Call) -> _ -> true end. +%% is_valid_map_key(K,St) -> true | false | {false, Var::atom()} +%% check for value expression without variables + +is_valid_map_key(K,St) -> + is_valid_map_key(K,expr,St). +is_valid_map_key(K,Ctx,St) -> + case expr(K,[],St) of + {[],_} -> + is_valid_map_key_value(K,Ctx); + {[Var|_],_} -> + {false,variable,element(1,Var)} + end. + +is_valid_map_key_value(K,Ctx) -> + case K of + {char,_,_} -> true; + {integer,_,_} -> true; + {float,_,_} -> true; + {string,_,_} -> true; + {nil,_} -> true; + {atom,_,_} -> true; + {cons,_,H,T} -> + is_valid_map_key_value(H,Ctx) andalso + is_valid_map_key_value(T,Ctx); + {tuple,_,Es} -> + foldl(fun(E,B) -> + B andalso is_valid_map_key_value(E,Ctx) + end,true,Es); + {map,_,Arg,Ps} -> + % only check for value expressions to be valid + % invalid map expressions are later checked in + % core and kernel + is_valid_map_key_value(Arg,Ctx) andalso foldl(fun + ({Tag,_,Ke,Ve},B) when Tag =:= map_field_assoc; + Tag =:= map_field_exact, Ctx =:= expr -> + B andalso is_valid_map_key_value(Ke,Ctx) + andalso is_valid_map_key_value(Ve,Ctx); + (_,_) -> false + end,true,Ps); + {map,_,Ps} -> + foldl(fun + ({Tag,_,Ke,Ve},B) when Tag =:= map_field_assoc; + Tag =:= map_field_exact, Ctx =:= expr -> + B andalso is_valid_map_key_value(Ke,Ctx) + andalso is_valid_map_key_value(Ve,Ctx); + (_,_) -> false + end, true, Ps); + {record,_,_,Fs} -> + foldl(fun + ({record_field,_,Ke,Ve},B) -> + B andalso is_valid_map_key_value(Ke,Ctx) + andalso is_valid_map_key_value(Ve,Ctx) + end,true,Fs); + {bin,_,Es} -> + % only check for value expressions to be valid + % invalid binary expressions are later checked in + % core and kernel + foldl(fun + ({bin_element,_,E,_,_},B) -> + B andalso is_valid_map_key_value(E,Ctx) + end,true,Es); + _ -> false + end. + %% record_def(Line, RecordName, [RecField], State) -> State. %% Add a record definition if it does not already exist. Normalise %% so that all fields have explicit initial value. @@ -2420,8 +2594,6 @@ find_field(_F, []) -> error. %% Attr :: 'type' | 'opaque' %% Checks that a type definition is valid. --record(typeinfo, {attr, line}). - type_def(_Attr, _Line, {record, _RecName}, Fields, [], St0) -> %% The record field names and such are checked in the record format. %% We only need to check the types. @@ -2438,32 +2610,46 @@ type_def(Attr, Line, TypeName, ProtoType, Args, St0) -> CheckType = {type, -1, product, [ProtoType|Args]}, check_type(CheckType, St#lint{types=NewDefs}) end, - case (dict:is_key(TypePair, TypeDefs) orelse is_var_arity_type(TypeName)) of - true -> - case is_default_type(TypePair) of - true -> - case is_newly_introduced_builtin_type(TypePair) of - %% allow some types just for bootstrapping - true -> - Warn = {new_builtin_type, TypePair}, - St1 = add_warning(Line, Warn, St0), - StoreType(St1); - false -> - add_error(Line, {builtin_type, TypePair}, St0) - end; - false -> add_error(Line, {redefine_type, TypePair}, St0) - end; - false -> - St1 = case - Attr =:= opaque andalso - is_underspecified(ProtoType, Arity) - of - true -> - Warn = {underspecified_opaque, TypePair}, - add_warning(Line, Warn, St0); - false -> St0 - end, - StoreType(St1) + case is_default_type(TypePair) of + true -> + case is_obsolete_builtin_type(TypePair) of + true -> StoreType(St0); + false -> add_error(Line, {builtin_type, TypePair}, St0) +%% case is_newly_introduced_builtin_type(TypePair) of +%% %% allow some types just for bootstrapping +%% true -> +%% Warn = {new_builtin_type, TypePair}, +%% St1 = add_warning(Line, Warn, St0), +%% StoreType(St1); +%% false -> +%% add_error(Line, {builtin_type, TypePair}, St0) +%% end + end; + false -> + case + dict:is_key(TypePair, TypeDefs) orelse + is_var_arity_type(TypeName) + of + true -> + case is_newly_introduced_var_arity_type(TypeName) of + true -> + Warn = {new_var_arity_type, TypeName}, + add_warning(Line, Warn, St0); + false -> + add_error(Line, {redefine_type, TypePair}, St0) + end; + false -> + St1 = case + Attr =:= opaque andalso + is_underspecified(ProtoType, Arity) + of + true -> + Warn = {underspecified_opaque, TypePair}, + add_warning(Line, Warn, St0); + false -> St0 + end, + StoreType(St1) + end end. is_underspecified({type,_,term,[]}, 0) -> true; @@ -2487,18 +2673,12 @@ check_type({paren_type, _L, [Type]}, SeenVars, St) -> check_type(Type, SeenVars, St); check_type({remote_type, L, [{atom, _, Mod}, {atom, _, Name}, Args]}, SeenVars, #lint{module=CurrentMod} = St) -> - St1 = - case is_default_type({Name, length(Args)}) - orelse is_var_arity_type(Name) of - true -> add_error(L, {imported_predefined_type, Name}, St); - false -> St - end, case Mod =:= CurrentMod of - true -> check_type({type, L, Name, Args}, SeenVars, St1); + true -> check_type({type, L, Name, Args}, SeenVars, St); false -> lists:foldl(fun(T, {AccSeenVars, AccSt}) -> check_type(T, AccSeenVars, AccSt) - end, {SeenVars, St1}, Args) + end, {SeenVars, St}, Args) end; check_type({integer, _L, _}, SeenVars, St) -> {SeenVars, St}; check_type({atom, _L, _}, SeenVars, St) -> {SeenVars, St}; @@ -2528,6 +2708,13 @@ check_type({type, L, range, [From, To]}, SeenVars, St) -> _ -> add_error(L, {type_syntax, range}, St) end, {SeenVars, St1}; +check_type({type, _L, map, any}, SeenVars, St) -> {SeenVars, St}; +check_type({type, _L, map, Pairs}, SeenVars, St) -> + lists:foldl(fun(Pair, {AccSeenVars, AccSt}) -> + check_type(Pair, AccSeenVars, AccSt) + end, {SeenVars, St}, Pairs); +check_type({type, _L, map_field_assoc, Dom, Range}, SeenVars, St) -> + check_type({type, -1, product, [Dom, Range]}, SeenVars, St); check_type({type, _L, tuple, any}, SeenVars, St) -> {SeenVars, St}; check_type({type, _L, any}, SeenVars, St) -> {SeenVars, St}; check_type({type, L, binary, [Base, Unit]}, SeenVars, St) -> @@ -2549,14 +2736,35 @@ check_type({type, _L, product, Args}, SeenVars, St) -> lists:foldl(fun(T, {AccSeenVars, AccSt}) -> check_type(T, AccSeenVars, AccSt) end, {SeenVars, St}, Args); -check_type({type, La, TypeName, Args}, SeenVars, #lint{usage=Usage} = St) -> +check_type({type, La, TypeName, Args}, SeenVars, St) -> + #lint{usage=Usage, module = Module, types=Types} = St, Arity = length(Args), + TypePair = {TypeName, Arity}, St1 = case is_var_arity_type(TypeName) of true -> St; false -> - OldUsed = Usage#usage.used_types, - UsedTypes = dict:store({TypeName, Arity}, La, OldUsed), - St#lint{usage=Usage#usage{used_types=UsedTypes}} + Obsolete = (is_warn_enabled(deprecated_type, St) + andalso obsolete_builtin_type(TypePair)), + IsObsolete = + case Obsolete of + {deprecated, Repl, _} when element(1, Repl) =/= Module -> + case dict:find(TypePair, Types) of + {ok, _} -> false; + error -> true + end; + _ -> false + end, + case IsObsolete of + true -> + {deprecated, Replacement, Rel} = Obsolete, + Tag = deprecated_builtin_type, + W = {Tag, TypePair, Replacement, Rel}, + add_warning(La, W, St); + false -> + OldUsed = Usage#usage.used_types, + UsedTypes = dict:store(TypePair, La, OldUsed), + St#lint{usage=Usage#usage{used_types=UsedTypes}} + end end, check_type({type, -1, product, Args}, SeenVars, St1); check_type(I, SeenVars, St) -> @@ -2601,6 +2809,7 @@ check_record_types([], _Name, _DefFields, SeenVars, St, _SeenFields) -> {SeenVars, St}. is_var_arity_type(tuple) -> true; +is_var_arity_type(map) -> true; is_var_arity_type(product) -> true; is_var_arity_type(union) -> true; is_var_arity_type(record) -> true; @@ -2663,20 +2872,32 @@ is_default_type({timeout, 0}) -> true; is_default_type({var, 1}) -> true; is_default_type(_) -> false. -%% R13 -is_newly_introduced_builtin_type({arity, 0}) -> true; -is_newly_introduced_builtin_type({array, 0}) -> true; % opaque -is_newly_introduced_builtin_type({bitstring, 0}) -> true; -is_newly_introduced_builtin_type({dict, 0}) -> true; % opaque -is_newly_introduced_builtin_type({digraph, 0}) -> true; % opaque -is_newly_introduced_builtin_type({gb_set, 0}) -> true; % opaque -is_newly_introduced_builtin_type({gb_tree, 0}) -> true; % opaque -is_newly_introduced_builtin_type({iodata, 0}) -> true; -is_newly_introduced_builtin_type({queue, 0}) -> true; % opaque -is_newly_introduced_builtin_type({set, 0}) -> true; % opaque -%% R13B01 -is_newly_introduced_builtin_type({boolean, 0}) -> true; -is_newly_introduced_builtin_type({Name, _}) when is_atom(Name) -> false. +is_newly_introduced_var_arity_type(map) -> true; +is_newly_introduced_var_arity_type(_) -> false. + +%% is_newly_introduced_builtin_type({Name, _}) when is_atom(Name) -> false. + +is_obsolete_builtin_type(TypePair) -> + obsolete_builtin_type(TypePair) =/= no. + +%% Obsolete in OTP 17.0. +obsolete_builtin_type({array, 0}) -> + {deprecated, {array, array, 1}, "OTP 18.0"}; +obsolete_builtin_type({dict, 0}) -> + {deprecated, {dict, dict, 2}, "OTP 18.0"}; +obsolete_builtin_type({digraph, 0}) -> + {deprecated, {digraph, graph}, "OTP 18.0"}; +obsolete_builtin_type({gb_set, 0}) -> + {deprecated, {gb_sets, set, 1}, "OTP 18.0"}; +obsolete_builtin_type({gb_tree, 0}) -> + {deprecated, {gb_trees, tree, 2}, "OTP 18.0"}; +obsolete_builtin_type({queue, 0}) -> + {deprecated, {queue, queue, 1}, "OTP 18.0"}; +obsolete_builtin_type({set, 0}) -> + {deprecated, {sets, set, 1}, "OTP 18.0"}; +obsolete_builtin_type({tid, 0}) -> + {deprecated, {ets, tid}, "OTP 18.0"}; +obsolete_builtin_type({Name, A}) when is_atom(Name), is_integer(A) -> no. %% spec_decl(Line, Fun, Types, State) -> State. @@ -2882,7 +3103,8 @@ lc_quals([{generate,_Line,P,E} | Qs], Vt0, Uvt0, St0) -> {Vt,Uvt,St} = handle_generator(P,E,Vt0,Uvt0,St0), lc_quals(Qs, Vt, Uvt, St); lc_quals([{b_generate,_Line,P,E} | Qs], Vt0, Uvt0, St0) -> - {Vt,Uvt,St} = handle_generator(P,E,Vt0,Uvt0,St0), + St1 = handle_bitstring_gen_pat(P,St0), + {Vt,Uvt,St} = handle_generator(P,E,Vt0,Uvt0,St1), lc_quals(Qs, Vt, Uvt, St); lc_quals([F|Qs], Vt, Uvt, St0) -> {Fvt,St1} = case is_guard_test2(F, St0#lint.records) of @@ -2910,6 +3132,22 @@ handle_generator(P,E,Vt,Uvt,St0) -> Vt3 = vtupdate(vtsubtract(Vt2, Binvt), Binvt), {Vt3,NUvt,St5}. +handle_bitstring_gen_pat({bin,_,Segments=[_|_]},St) -> + case lists:last(Segments) of + {bin_element,Line,{var,_,_},default,Flags} when is_list(Flags) -> + case member(binary, Flags) orelse member(bits, Flags) + orelse member(bitstring, Flags) of + true -> + add_error(Line, unsized_binary_in_bin_gen_pattern, St); + false -> + St + end; + _ -> + St + end; +handle_bitstring_gen_pat(_,St) -> + St. + %% fun_clauses(Clauses, ImportVarTable, State) -> %% {UsedVars, State}. %% Fun's cannot export any variables. @@ -3544,15 +3782,22 @@ is_imported_from_erlang(ImportSet,{Func,Arity}) -> {ok,erlang} -> true; _ -> false end. -%% Build set of functions where auto-import is explicitly supressed +%% Build set of functions where auto-import is explicitly suppressed auto_import_suppressed(CompileFlags) -> - L0 = [ X || {no_auto_import,X} <- CompileFlags ], - L1 = [ {Y,Z} || {Y,Z} <- lists:flatten(L0), is_atom(Y), is_integer(Z) ], - gb_sets:from_list(L1). -%% Predicate to find out if autoimport is explicitly supressed for a function + case lists:member(no_auto_import, CompileFlags) of + true -> + all; + false -> + L0 = [ X || {no_auto_import,X} <- CompileFlags ], + L1 = [ {Y,Z} || {Y,Z} <- lists:flatten(L0), is_atom(Y), is_integer(Z) ], + gb_sets:from_list(L1) + end. +%% Predicate to find out if autoimport is explicitly suppressed for a function +is_autoimport_suppressed(all,{_Func,_Arity}) -> + true; is_autoimport_suppressed(NoAutoSet,{Func,Arity}) -> gb_sets:is_element({Func,Arity},NoAutoSet). -%% Predicate to find out if a function specific bif-clash supression (old deprecated) is present +%% Predicate to find out if a function specific bif-clash suppression (old deprecated) is present bif_clash_specifically_disabled(St,{F,A}) -> Nowarn = nowarn_function(nowarn_bif_clash, St#lint.compile), lists:member({F,A},Nowarn). |