diff options
Diffstat (limited to 'lib/dialyzer/src/dialyzer.erl')
-rw-r--r-- | lib/dialyzer/src/dialyzer.erl | 169 |
1 files changed, 85 insertions, 84 deletions
diff --git a/lib/dialyzer/src/dialyzer.erl b/lib/dialyzer/src/dialyzer.erl index ab137bd170..c319acb2fb 100644 --- a/lib/dialyzer/src/dialyzer.erl +++ b/lib/dialyzer/src/dialyzer.erl @@ -111,13 +111,13 @@ get_plt_info([PLT|PLTs]) -> String = case dialyzer_plt:included_files(PLT) of {ok, Files} -> - io_lib:format("The PLT ~s includes the following files:\n~p\n\n", + io_lib:format("The PLT ~ts includes the following files:\n~tp\n\n", [PLT, Files]); {error, read_error} -> - Msg = io_lib:format("Could not read the PLT file ~p\n\n", [PLT]), + Msg = io_lib:format("Could not read the PLT file ~tp\n\n", [PLT]), throw({dialyzer_error, Msg}); {error, no_such_file} -> - Msg = io_lib:format("The PLT file ~p does not exist\n\n", [PLT]), + Msg = io_lib:format("The PLT file ~tp does not exist\n\n", [PLT]), throw({dialyzer_error, Msg}) end, String ++ get_plt_info(PLTs); @@ -126,16 +126,16 @@ get_plt_info([]) -> "". do_print_plt_info(PLTInfo, OutputFile) -> case OutputFile =:= none of true -> - io:format("~s", [PLTInfo]), + io:format("~ts", [PLTInfo]), ?RET_NOTHING_SUSPICIOUS; false -> case file:open(OutputFile, [write]) of {ok, FileDesc} -> - io:format(FileDesc, "~s", [PLTInfo]), + io:format(FileDesc, "~ts", [PLTInfo]), ok = file:close(FileDesc), ?RET_NOTHING_SUSPICIOUS; {error, Reason} -> - Msg1 = io_lib:format("Could not open output file ~p, Reason: ~p\n", + Msg1 = io_lib:format("Could not open output file ~tp, Reason: ~p\n", [OutputFile, Reason]), throw({dialyzer_error, Msg1}) end @@ -264,7 +264,7 @@ cl_halt({ok, R = ?RET_DISCREPANCIES}, #options{output_file = Output}) -> halt(R); cl_halt({error, Msg1}, #options{output_file = Output}) -> %% Msg2 = "dialyzer: Internal problems were encountered in the analysis", - io:format("\ndialyzer: ~s\n", [Msg1]), + io:format("\ndialyzer: ~ts\n", [Msg1]), cl_check_log(Output), halt(?RET_INTERNAL_ERROR). @@ -273,7 +273,7 @@ cl_halt({error, Msg1}, #options{output_file = Output}) -> cl_check_log(none) -> ok; cl_check_log(Output) -> - io:format(" Check output file `~s' for details\n", [Output]). + io:format(" Check output file `~ts' for details\n", [Output]). -spec format_warning(raw_warning() | dial_warning()) -> string(). @@ -291,7 +291,7 @@ format_warning({_Tag, {File, Line}, Msg}, FOpt) when is_list(File), basename -> filename:basename(File) end, String = lists:flatten(message_to_string(Msg)), - lists:flatten(io_lib:format("~s:~w: ~s", [F, Line, String])). + lists:flatten(io_lib:format("~ts:~w: ~ts", [F, Line, String])). %%----------------------------------------------------------------------------- @@ -302,54 +302,55 @@ format_warning({_Tag, {File, Line}, Msg}, FOpt) when is_list(File), %%----- Warnings for general discrepancies ---------------- message_to_string({apply, [Args, ArgNs, FailReason, SigArgs, SigRet, Contract]}) -> - io_lib:format("Fun application with arguments ~s ", [Args]) ++ + io_lib:format("Fun application with arguments ~ts ", [Args]) ++ call_or_apply_to_string(ArgNs, FailReason, SigArgs, SigRet, Contract); message_to_string({app_call, [M, F, Args, Culprit, ExpectedType, FoundType]}) -> - io_lib:format("The call ~s:~s~s requires that ~s is of type ~s not ~s\n", + io_lib:format("The call ~s:~ts~ts requires that ~ts is of type ~ts not ~ts\n", [M, F, Args, Culprit, ExpectedType, FoundType]); message_to_string({bin_construction, [Culprit, Size, Seg, Type]}) -> io_lib:format("Binary construction will fail since the ~s field ~s in" " segment ~s has type ~s\n", [Culprit, Size, Seg, Type]); message_to_string({call, [M, F, Args, ArgNs, FailReason, SigArgs, SigRet, Contract]}) -> - io_lib:format("The call ~w:~w~s ", [M, F, Args]) ++ + io_lib:format("The call ~w:~tw~ts ", [M, F, Args]) ++ call_or_apply_to_string(ArgNs, FailReason, SigArgs, SigRet, Contract); message_to_string({call_to_missing, [M, F, A]}) -> - io_lib:format("Call to missing or unexported function ~w:~w/~w\n", [M, F, A]); + io_lib:format("Call to missing or unexported function ~w:~tw/~w\n", + [M, F, A]); message_to_string({exact_eq, [Type1, Op, Type2]}) -> - io_lib:format("The test ~s ~s ~s can never evaluate to 'true'\n", + io_lib:format("The test ~ts ~s ~ts can never evaluate to 'true'\n", [Type1, Op, Type2]); message_to_string({fun_app_args, [Args, Type]}) -> - io_lib:format("Fun application with arguments ~s will fail" - " since the function has type ~s\n", [Args, Type]); + io_lib:format("Fun application with arguments ~ts will fail" + " since the function has type ~ts\n", [Args, Type]); message_to_string({fun_app_no_fun, [Op, Type, Arity]}) -> - io_lib:format("Fun application will fail since ~s :: ~s" + io_lib:format("Fun application will fail since ~ts :: ~ts" " is not a function of arity ~w\n", [Op, Type, Arity]); message_to_string({guard_fail, []}) -> "Clause guard cannot succeed.\n"; message_to_string({guard_fail, [Arg1, Infix, Arg2]}) -> - io_lib:format("Guard test ~s ~s ~s can never succeed\n", [Arg1, Infix, Arg2]); + io_lib:format("Guard test ~ts ~s ~ts can never succeed\n", [Arg1, Infix, Arg2]); message_to_string({map_update, [Type, Key]}) -> - io_lib:format("A key of type ~s cannot exist " - "in a map of type ~s\n", [Key, Type]); + io_lib:format("A key of type ~ts cannot exist " + "in a map of type ~ts\n", [Key, Type]); message_to_string({neg_guard_fail, [Arg1, Infix, Arg2]}) -> - io_lib:format("Guard test not(~s ~s ~s) can never succeed\n", + io_lib:format("Guard test not(~ts ~s ~ts) can never succeed\n", [Arg1, Infix, Arg2]); message_to_string({guard_fail, [Guard, Args]}) -> - io_lib:format("Guard test ~w~s can never succeed\n", [Guard, Args]); + io_lib:format("Guard test ~w~ts can never succeed\n", [Guard, Args]); message_to_string({neg_guard_fail, [Guard, Args]}) -> - io_lib:format("Guard test not(~w~s) can never succeed\n", [Guard, Args]); + io_lib:format("Guard test not(~w~ts) can never succeed\n", [Guard, Args]); message_to_string({guard_fail_pat, [Pat, Type]}) -> - io_lib:format("Clause guard cannot succeed. The ~s was matched" - " against the type ~s\n", [Pat, Type]); + io_lib:format("Clause guard cannot succeed. The ~ts was matched" + " against the type ~ts\n", [Pat, Type]); message_to_string({improper_list_constr, [TlType]}) -> io_lib:format("Cons will produce an improper list" - " since its 2nd argument is ~s\n", [TlType]); + " since its 2nd argument is ~ts\n", [TlType]); message_to_string({no_return, [Type|Name]}) -> NameString = case Name of [] -> "The created fun "; - [F, A] -> io_lib:format("Function ~w/~w ", [F, A]) + [F, A] -> io_lib:format("Function ~tw/~w ", [F, A]) end, case Type of no_match -> NameString ++ "has no clauses that will ever match\n"; @@ -358,129 +359,129 @@ message_to_string({no_return, [Type|Name]}) -> both -> NameString ++ "has no local return\n" end; message_to_string({record_constr, [RecConstr, FieldDiffs]}) -> - io_lib:format("Record construction ~s violates the" - " declared type of field ~s\n", [RecConstr, FieldDiffs]); + io_lib:format("Record construction ~ts violates the" + " declared type of field ~ts\n", [RecConstr, FieldDiffs]); message_to_string({record_constr, [Name, Field, Type]}) -> - io_lib:format("Record construction violates the declared type for #~w{}" - " since ~s cannot be of type ~s\n", [Name, Field, Type]); + io_lib:format("Record construction violates the declared type for #~tw{}" + " since ~ts cannot be of type ~ts\n", [Name, Field, Type]); message_to_string({record_matching, [String, Name]}) -> - io_lib:format("The ~s violates the" - " declared type for #~w{}\n", [String, Name]); + io_lib:format("The ~ts violates the" + " declared type for #~tw{}\n", [String, Name]); message_to_string({record_match, [Pat, Type]}) -> - io_lib:format("Matching of ~s tagged with a record name violates the declared" - " type of ~s\n", [Pat, Type]); + io_lib:format("Matching of ~ts tagged with a record name violates" + " the declared type of ~ts\n", [Pat, Type]); message_to_string({pattern_match, [Pat, Type]}) -> - io_lib:format("The ~s can never match the type ~s\n", [Pat, Type]); + io_lib:format("The ~ts can never match the type ~ts\n", [Pat, Type]); message_to_string({pattern_match_cov, [Pat, Type]}) -> - io_lib:format("The ~s can never match since previous" - " clauses completely covered the type ~s\n", + io_lib:format("The ~ts can never match since previous" + " clauses completely covered the type ~ts\n", [Pat, Type]); message_to_string({unmatched_return, [Type]}) -> - io_lib:format("Expression produces a value of type ~s," + io_lib:format("Expression produces a value of type ~ts," " but this value is unmatched\n", [Type]); message_to_string({unused_fun, [F, A]}) -> - io_lib:format("Function ~w/~w will never be called\n", [F, A]); + io_lib:format("Function ~tw/~w will never be called\n", [F, A]); %%----- Warnings for specs and contracts ------------------- message_to_string({contract_diff, [M, F, _A, Contract, Sig]}) -> - io_lib:format("Type specification ~w:~w~s" - " is not equal to the success typing: ~w:~w~s\n", + io_lib:format("Type specification ~w:~tw~ts" + " is not equal to the success typing: ~w:~tw~ts\n", [M, F, Contract, M, F, Sig]); message_to_string({contract_subtype, [M, F, _A, Contract, Sig]}) -> - io_lib:format("Type specification ~w:~w~s" - " is a subtype of the success typing: ~w:~w~s\n", + io_lib:format("Type specification ~w:~tw~ts" + " is a subtype of the success typing: ~w:~tw~ts\n", [M, F, Contract, M, F, Sig]); message_to_string({contract_supertype, [M, F, _A, Contract, Sig]}) -> - io_lib:format("Type specification ~w:~w~s" - " is a supertype of the success typing: ~w:~w~s\n", + io_lib:format("Type specification ~w:~tw~ts" + " is a supertype of the success typing: ~w:~tw~ts\n", [M, F, Contract, M, F, Sig]); message_to_string({contract_range, [Contract, M, F, ArgStrings, Line, CRet]}) -> - io_lib:format("The contract ~w:~w~s cannot be right because the inferred" - " return for ~w~s on line ~w is ~s\n", + io_lib:format("The contract ~w:~tw~ts cannot be right because the inferred" + " return for ~tw~ts on line ~w is ~ts\n", [M, F, Contract, F, ArgStrings, Line, CRet]); message_to_string({invalid_contract, [M, F, A, Sig]}) -> - io_lib:format("Invalid type specification for function ~w:~w/~w." - " The success typing is ~s\n", [M, F, A, Sig]); + io_lib:format("Invalid type specification for function ~w:~tw/~w." + " The success typing is ~ts\n", [M, F, A, Sig]); message_to_string({contract_with_opaque, [M, F, A, OpaqueType, SigType]}) -> - io_lib:format("The specification for ~w:~w/~w" - " has an opaque subtype ~s which is violated by the" - " success typing ~s\n", [M, F, A, OpaqueType, SigType]); + io_lib:format("The specification for ~w:~tw/~w" + " has an opaque subtype ~ts which is violated by the" + " success typing ~ts\n", [M, F, A, OpaqueType, SigType]); message_to_string({extra_range, [M, F, A, ExtraRanges, SigRange]}) -> - io_lib:format("The specification for ~w:~w/~w states that the function" - " might also return ~s but the inferred return is ~s\n", + io_lib:format("The specification for ~w:~tw/~w states that the function" + " might also return ~ts but the inferred return is ~ts\n", [M, F, A, ExtraRanges, SigRange]); message_to_string({overlapping_contract, [M, F, A]}) -> - io_lib:format("Overloaded contract for ~w:~w/~w has overlapping domains;" + io_lib:format("Overloaded contract for ~w:~tw/~w has overlapping domains;" " such contracts are currently unsupported and are simply ignored\n", [M, F, A]); message_to_string({spec_missing_fun, [M, F, A]}) -> - io_lib:format("Contract for function that does not exist: ~w:~w/~w\n", + io_lib:format("Contract for function that does not exist: ~w:~tw/~w\n", [M, F, A]); %%----- Warnings for opaque type violations ------------------- message_to_string({call_with_opaque, [M, F, Args, ArgNs, ExpArgs]}) -> - io_lib:format("The call ~w:~w~s contains ~s when ~s\n", + io_lib:format("The call ~w:~tw~ts contains ~ts when ~ts\n", [M, F, Args, form_positions(ArgNs), form_expected(ExpArgs)]); message_to_string({call_without_opaque, [M, F, Args, ExpectedTriples]}) -> - io_lib:format("The call ~w:~w~s does not have ~s\n", + io_lib:format("The call ~w:~tw~ts does not have ~ts\n", [M, F, Args, form_expected_without_opaque(ExpectedTriples)]); message_to_string({opaque_eq, [Type, _Op, OpaqueType]}) -> - io_lib:format("Attempt to test for equality between a term of type ~s" - " and a term of opaque type ~s\n", [Type, OpaqueType]); + io_lib:format("Attempt to test for equality between a term of type ~ts" + " and a term of opaque type ~ts\n", [Type, OpaqueType]); message_to_string({opaque_guard, [Arg1, Infix, Arg2, ArgNs]}) -> - io_lib:format("Guard test ~s ~s ~s contains ~s\n", + io_lib:format("Guard test ~ts ~s ~ts contains ~s\n", [Arg1, Infix, Arg2, form_positions(ArgNs)]); message_to_string({opaque_guard, [Guard, Args]}) -> - io_lib:format("Guard test ~w~s breaks the opacity of its argument\n", + io_lib:format("Guard test ~w~ts breaks the opacity of its argument\n", [Guard, Args]); message_to_string({opaque_match, [Pat, OpaqueType, OpaqueTerm]}) -> Term = if OpaqueType =:= OpaqueTerm -> "the term"; true -> OpaqueTerm end, - io_lib:format("The attempt to match a term of type ~s against the ~s" - " breaks the opacity of ~s\n", [OpaqueType, Pat, Term]); + io_lib:format("The attempt to match a term of type ~s against the ~ts" + " breaks the opacity of ~ts\n", [OpaqueType, Pat, Term]); message_to_string({opaque_neq, [Type, _Op, OpaqueType]}) -> - io_lib:format("Attempt to test for inequality between a term of type ~s" - " and a term of opaque type ~s\n", [Type, OpaqueType]); + io_lib:format("Attempt to test for inequality between a term of type ~ts" + " and a term of opaque type ~ts\n", [Type, OpaqueType]); message_to_string({opaque_type_test, [Fun, Args, Arg, ArgType]}) -> - io_lib:format("The type test ~s~s breaks the opacity of the term ~s~s\n", + io_lib:format("The type test ~ts~ts breaks the opacity of the term ~ts~ts\n", [Fun, Args, Arg, ArgType]); message_to_string({opaque_size, [SizeType, Size]}) -> - io_lib:format("The size ~s breaks the opacity of ~s\n", + io_lib:format("The size ~ts breaks the opacity of ~ts\n", [SizeType, Size]); message_to_string({opaque_call, [M, F, Args, Culprit, OpaqueType]}) -> - io_lib:format("The call ~s:~s~s breaks the opacity of the term ~s :: ~s\n", + io_lib:format("The call ~s:~ts~ts breaks the opacity of the term ~ts :: ~ts\n", [M, F, Args, Culprit, OpaqueType]); %%----- Warnings for concurrency errors -------------------- message_to_string({race_condition, [M, F, Args, Reason]}) -> - io_lib:format("The call ~w:~w~s ~s\n", [M, F, Args, Reason]); + io_lib:format("The call ~w:~tw~ts ~ts\n", [M, F, Args, Reason]); %%----- Warnings for behaviour errors -------------------- message_to_string({callback_type_mismatch, [B, F, A, ST, CT]}) -> - io_lib:format("The inferred return type of ~w/~w (~s) has nothing in common" - " with ~s, which is the expected return type for the callback of" - " ~w behaviour\n", [F, A, ST, CT, B]); + io_lib:format("The inferred return type of ~tw/~w (~ts) has nothing in" + " common with ~ts, which is the expected return type for" + " the callback of the ~w behaviour\n", [F, A, ST, CT, B]); message_to_string({callback_arg_type_mismatch, [B, F, A, N, ST, CT]}) -> - io_lib:format("The inferred type for the ~s argument of ~w/~w (~s) is" - " not a supertype of ~s, which is expected type for this" + io_lib:format("The inferred type for the ~s argument of ~tw/~w (~ts) is" + " not a supertype of ~ts, which is expected type for this" " argument in the callback of the ~w behaviour\n", [ordinal(N), F, A, ST, CT, B]); message_to_string({callback_spec_type_mismatch, [B, F, A, ST, CT]}) -> - io_lib:format("The return type ~s in the specification of ~w/~w is not a" - " subtype of ~s, which is the expected return type for the" - " callback of ~w behaviour\n", [ST, F, A, CT, B]); + io_lib:format("The return type ~ts in the specification of ~tw/~w is not a" + " subtype of ~ts, which is the expected return type for the" + " callback of the ~w behaviour\n", [ST, F, A, CT, B]); message_to_string({callback_spec_arg_type_mismatch, [B, F, A, N, ST, CT]}) -> - io_lib:format("The specified type for the ~s argument of ~w/~w (~s) is" - " not a supertype of ~s, which is expected type for this" + io_lib:format("The specified type for the ~ts argument of ~tw/~w (~ts) is" + " not a supertype of ~ts, which is expected type for this" " argument in the callback of the ~w behaviour\n", [ordinal(N), F, A, ST, CT, B]); message_to_string({callback_missing, [B, F, A]}) -> - io_lib:format("Undefined callback function ~w/~w (behaviour '~w')\n", + io_lib:format("Undefined callback function ~tw/~w (behaviour ~w)\n", [F, A, B]); message_to_string({callback_info_missing, [B]}) -> io_lib:format("Callback info about the ~w behaviour is not available\n", [B]); %%----- Warnings for unknown functions, types, and behaviours ------------- message_to_string({unknown_type, {M, F, A}}) -> - io_lib:format("Unknown type ~w:~w/~w", [M, F, A]); + io_lib:format("Unknown type ~w:~tw/~w", [M, F, A]); message_to_string({unknown_function, {M, F, A}}) -> - io_lib:format("Unknown function ~w:~w/~w", [M, F, A]); + io_lib:format("Unknown function ~w:~tw/~w", [M, F, A]); message_to_string({unknown_behaviour, B}) -> io_lib:format("Unknown behaviour ~w", [B]). |