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|
%%
%% %CopyrightBegin%
%%
%% Copyright Ericsson AB 1996-2009. 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(lib).
-export([flush_receive/0, error_message/2, progname/0, nonl/1, send/2,
sendw/2, eval_str/1]).
-export([format_exception/6, format_stacktrace/4,
format_call/4, format_fun/1]).
-spec flush_receive() -> 'ok'.
flush_receive() ->
receive
_Any ->
flush_receive()
after
0 ->
ok
end.
%%
%% Functions for doing standard system format i/o.
%%
-spec error_message(atom() | string() | binary(), [term()]) -> 'ok'.
error_message(Format, Args) ->
io:format(<<"** ~s **\n">>, [io_lib:format(Format, Args)]).
%% Return the name of the script that starts (this) erlang
%%
-spec progname() -> atom().
progname() ->
case init:get_argument(progname) of
{ok, [[Prog]]} ->
list_to_atom(Prog);
_Other ->
no_prog_name
end.
-spec nonl(string()) -> string().
nonl([10]) -> [];
nonl([]) -> [];
nonl([H|T]) -> [H|nonl(T)].
-spec send(pid() | atom() | {atom(), node()}, term()) -> term().
send(To, Msg) -> To ! Msg.
-spec sendw(pid() | atom() | {atom(), node()}, term()) -> term().
sendw(To, Msg) ->
To ! {self(), Msg},
receive
Reply -> Reply
end.
%% eval_str(InStr) -> {ok, OutStr} | {error, ErrStr'}
%% InStr must represent a body
-define(result(F,D), lists:flatten(io_lib:format(F, D))).
-spec eval_str(string() | binary()) -> {'ok', string()} | {'error', string()}.
eval_str(Str) when is_list(Str) ->
case erl_scan:tokens([], Str, 0) of
{more, _} ->
{error, "Incomplete form (missing .<cr>)??"};
{done, {ok, Toks, _}, Rest} ->
case all_white(Rest) of
true ->
case erl_parse:parse_exprs(Toks) of
{ok, Exprs} ->
case catch erl_eval:exprs(Exprs, []) of
{value, Val, _} ->
{ok, Val};
Other ->
{error, ?result("*** eval: ~p", [Other])}
end;
{error, {_Line, Mod, Args}} ->
Msg = ?result("*** ~s",[Mod:format_error(Args)]),
{error, Msg}
end;
false ->
{error, ?result("Non-white space found after "
"end-of-form :~s", [Rest])}
end
end;
eval_str(Bin) when is_binary(Bin) ->
eval_str(binary_to_list(Bin)).
all_white([$\s|T]) -> all_white(T);
all_white([$\n|T]) -> all_white(T);
all_white([$\t|T]) -> all_white(T);
all_white([]) -> true;
all_white(_) -> false.
%%% Formatting of exceptions, mfa:s and funs.
%% -> iolist() (no \n at end)
%% I is the current column, starting from 1 (it will be used
%% as indentation whenever newline has been inserted);
%% Class, Reason and StackTrace are the exception;
%% FormatFun = fun(Term, I) -> iolist() formats terms;
%% StackFun = fun(Mod, Fun, Arity) -> bool() is used for trimming the
%% end of the stack (typically calls to erl_eval are skipped).
format_exception(I, Class, Reason, StackTrace, StackFun, FormatFun)
when is_integer(I), I >= 1, is_function(StackFun, 3),
is_function(FormatFun, 2) ->
S = n_spaces(I-1),
{Term,Trace1,Trace} = analyze_exception(Class, Reason, StackTrace),
Expl0 = explain_reason(Term, Class, Trace1, FormatFun, S),
Expl = io_lib:fwrite(<<"~s~s">>, [exited(Class), Expl0]),
case format_stacktrace1(S, Trace, FormatFun, StackFun) of
[] -> Expl;
Stack -> [Expl, $\n, Stack]
end.
%% -> iolist() (no \n at end)
format_stacktrace(I, StackTrace, StackFun, FormatFun)
when is_integer(I), I >= 1, is_function(StackFun, 3),
is_function(FormatFun, 2) ->
S = n_spaces(I-1),
format_stacktrace1(S, StackTrace, FormatFun, StackFun).
%% -> iolist() (no \n at end)
format_call(I, ForMForFun, As, FormatFun) when is_integer(I), I >= 1,
is_list(As),
is_function(FormatFun, 2) ->
format_call("", n_spaces(I-1), ForMForFun, As, FormatFun).
%% -> iolist() (no \n at end)
format_fun(Fun) when is_function(Fun) ->
{module, M} = erlang:fun_info(Fun, module),
{name, F} = erlang:fun_info(Fun, name),
{arity, A} = erlang:fun_info(Fun, arity),
case erlang:fun_info(Fun, type) of
{type, local} when F =:= "" ->
io_lib:fwrite(<<"~w">>, [Fun]);
{type, local} when M =:= erl_eval ->
io_lib:fwrite(<<"interpreted function with arity ~w">>, [A]);
{type, local} ->
mfa_to_string(M, F, A);
{type, external} ->
mfa_to_string(M, F, A)
end.
analyze_exception(error, Term, Stack) ->
case {is_stacktrace(Stack), Stack, Term} of
{true, [{_M,_F,As}=MFA|MFAs], function_clause} when is_list(As) ->
{Term,[MFA],MFAs};
{true, [{shell,F,A}], function_clause} when is_integer(A) ->
{Term, [{F,A}], []};
{true, [{_M,_F,_AorAs}=MFA|MFAs], undef} ->
{Term,[MFA],MFAs};
{true, _, _} ->
{Term,[],Stack};
{false, _, _} ->
{{Term,Stack},[],[]}
end;
analyze_exception(_Class, Term, Stack) ->
case is_stacktrace(Stack) of
true ->
{Term,[],Stack};
false ->
{{Term,Stack},[],[]}
end.
is_stacktrace([]) ->
true;
is_stacktrace([{M,F,A}|Fs]) when is_atom(M), is_atom(F), is_integer(A) ->
is_stacktrace(Fs);
is_stacktrace([{M,F,As}|Fs]) when is_atom(M), is_atom(F), length(As) >= 0 ->
is_stacktrace(Fs);
is_stacktrace(_) ->
false.
%% ERTS exit codes (some of them are also returned by erl_eval):
explain_reason(badarg, error, [], _PF, _S) ->
<<"bad argument">>;
explain_reason({badarg,V}, error=Cl, [], PF, S) -> % orelse, andalso
format_value(V, <<"bad argument: ">>, Cl, PF, S);
explain_reason(badarith, error, [], _PF, _S) ->
<<"bad argument in an arithmetic expression">>;
explain_reason({badarity,{Fun,As}}, error, [], _PF, _S)
when is_function(Fun) ->
%% Only the arity is displayed, not the arguments As.
io_lib:fwrite(<<"~s called with ~s">>,
[format_fun(Fun), argss(length(As))]);
explain_reason({badfun,Term}, error=Cl, [], PF, S) ->
format_value(Term, <<"bad function ">>, Cl, PF, S);
explain_reason({badmatch,Term}, error=Cl, [], PF, S) ->
format_value(Term, <<"no match of right hand side value ">>, Cl, PF, S);
explain_reason({case_clause,V}, error=Cl, [], PF, S) ->
%% "there is no case clause with a true guard sequence and a
%% pattern matching..."
format_value(V, <<"no case clause matching ">>, Cl, PF, S);
explain_reason(function_clause, error, [{F,A}], _PF, _S) ->
%% Shell commands
FAs = io_lib:fwrite(<<"~w/~w">>, [F, A]),
[<<"no function clause matching call to ">> | FAs];
explain_reason(function_clause, error=Cl, [{M,F,As}], PF, S) ->
Str = <<"no function clause matching ">>,
format_errstr_call(Str, Cl, {M,F}, As, PF, S);
explain_reason(if_clause, error, [], _PF, _S) ->
<<"no true branch found when evaluating an if expression">>;
explain_reason(noproc, error, [], _PF, _S) ->
<<"no such process or port">>;
explain_reason(notalive, error, [], _PF, _S) ->
<<"the node cannot be part of a distributed system">>;
explain_reason(system_limit, error, [], _PF, _S) ->
<<"a system limit has been reached">>;
explain_reason(timeout_value, error, [], _PF, _S) ->
<<"bad receive timeout value">>;
explain_reason({try_clause,V}, error=Cl, [], PF, S) ->
%% "there is no try clause with a true guard sequence and a
%% pattern matching..."
format_value(V, <<"no try clause matching ">>, Cl, PF, S);
explain_reason(undef, error, [{M,F,A}], _PF, _S) ->
%% Only the arity is displayed, not the arguments, if there are any.
io_lib:fwrite(<<"undefined function ~s">>,
[mfa_to_string(M, F, n_args(A))]);
explain_reason({shell_undef,F,A}, error, [], _PF, _S) ->
%% Give nicer reports for undefined shell functions
%% (but not when the user actively calls shell_default:F(...)).
io_lib:fwrite(<<"undefined shell command ~s/~w">>, [F, n_args(A)]);
%% Exit codes returned by erl_eval only:
explain_reason({argument_limit,_Fun}, error, [], _PF, _S) ->
io_lib:fwrite(<<"limit of number of arguments to interpreted function"
" exceeded">>, []);
explain_reason({bad_filter,V}, error=Cl, [], PF, S) ->
format_value(V, <<"bad filter ">>, Cl, PF, S);
explain_reason({bad_generator,V}, error=Cl, [], PF, S) ->
format_value(V, <<"bad generator ">>, Cl, PF, S);
explain_reason({unbound,V}, error, [], _PF, _S) ->
io_lib:fwrite(<<"variable ~w is unbound">>, [V]);
%% Exit codes local to the shell module (restricted shell):
explain_reason({restricted_shell_bad_return, V}, exit=Cl, [], PF, S) ->
Str = <<"restricted shell module returned bad value ">>,
format_value(V, Str, Cl, PF, S);
explain_reason({restricted_shell_disallowed,{ForMF,As}},
exit=Cl, [], PF, S) ->
%% ForMF can be a fun, but not a shell fun.
Str = <<"restricted shell does not allow ">>,
format_errstr_call(Str, Cl, ForMF, As, PF, S);
explain_reason(restricted_shell_started, exit, [], _PF, _S) ->
<<"restricted shell starts now">>;
explain_reason(restricted_shell_stopped, exit, [], _PF, _S) ->
<<"restricted shell stopped">>;
%% Other exit code:
explain_reason(Reason, Class, [], PF, S) ->
PF(Reason, (iolist_size(S)+1) + exited_size(Class)).
n_args(A) when is_integer(A) ->
A;
n_args(As) when is_list(As) ->
length(As).
argss(0) ->
<<"no arguments">>;
argss(1) ->
<<"one argument">>;
argss(2) ->
<<"two arguments">>;
argss(I) ->
io_lib:fwrite(<<"~w arguments">>, [I]).
format_stacktrace1(S0, Stack0, PF, SF) ->
Stack1 = lists:dropwhile(fun({M,F,A}) -> SF(M, F, A)
end, lists:reverse(Stack0)),
S = [" " | S0],
Stack = lists:reverse(Stack1),
format_stacktrace2(S, Stack, 1, PF).
format_stacktrace2(S, [{M,F,A}|Fs], N, PF) when is_integer(A) ->
[io_lib:fwrite(<<"~s~s ~s">>,
[sep(N, S), origin(N, M, F, A), mfa_to_string(M, F, A)])
| format_stacktrace2(S, Fs, N + 1, PF)];
format_stacktrace2(S, [{M,F,As}|Fs], N, PF) when is_list(As) ->
A = length(As),
CalledAs = [S,<<" called as ">>],
C = format_call("", CalledAs, {M,F}, As, PF),
[io_lib:fwrite(<<"~s~s ~s\n~s~s">>,
[sep(N, S), origin(N, M, F, A), mfa_to_string(M, F, A),
CalledAs, C])
| format_stacktrace2(S, Fs, N + 1, PF)];
format_stacktrace2(_S, [], _N, _PF) ->
"".
sep(1, S) -> S;
sep(_, S) -> [$\n | S].
origin(1, M, F, A) ->
case is_op({M, F}, n_args(A)) of
{yes, F} -> <<"in operator ">>;
no -> <<"in function ">>
end;
origin(_N, _M, _F, _A) ->
<<"in call from">>.
format_errstr_call(ErrStr, Class, ForMForFun, As, PF, Pre0) ->
Pre1 = [Pre0 | n_spaces(exited_size(Class))],
format_call(ErrStr, Pre1, ForMForFun, As, PF).
format_call(ErrStr, Pre1, ForMForFun, As, PF) ->
Arity = length(As),
[ErrStr |
case is_op(ForMForFun, Arity) of
{yes,Op} ->
format_op(ErrStr, Pre1, Op, As, PF);
no ->
MFs = mf_to_string(ForMForFun, Arity),
I1 = iolist_size([Pre1,ErrStr|MFs]),
S1 = pp_arguments(PF, As, I1),
S2 = pp_arguments(PF, As, iolist_size([Pre1|MFs])),
Long = count_nl(pp_arguments(PF, [a2345,b2345], I1)) > 0,
case Long or (count_nl(S2) < count_nl(S1)) of
true ->
[$\n, Pre1, MFs, S2];
false ->
[MFs, S1]
end
end].
format_op(ErrStr, Pre, Op, [A1], PF) ->
OpS = io_lib:fwrite(<<"~s ">>, [Op]),
I1 = iolist_size([ErrStr,Pre,OpS]),
[OpS | PF(A1, I1+1)];
format_op(ErrStr, Pre, Op, [A1, A2], PF) ->
I1 = iolist_size([ErrStr,Pre]),
S1 = PF(A1, I1+1),
S2 = PF(A2, I1+1),
OpS = atom_to_list(Op),
Pre1 = [$\n | n_spaces(I1)],
case count_nl(S1) > 0 of
true ->
[S1,Pre1,OpS,Pre1|S2];
false ->
OpS2 = io_lib:fwrite(<<" ~s ">>, [Op]),
S2_2 = PF(A2, iolist_size([ErrStr,Pre,S1|OpS2])+1),
case count_nl(S2) < count_nl(S2_2) of
true ->
[S1,Pre1,OpS,Pre1|S2];
false ->
[S1,OpS2|S2_2]
end
end.
pp_arguments(PF, As, I) ->
case {As, io_lib:printable_list(As)} of
{[Int | T], true} ->
L = integer_to_list(Int),
Ll = length(L),
A = list_to_atom(lists:duplicate(Ll, $a)),
S0 = binary_to_list(iolist_to_binary(PF([A | T], I+1))),
brackets_to_parens([$[,L,string:sub_string(S0, 2+Ll)]);
_ ->
brackets_to_parens(PF(As, I+1))
end.
brackets_to_parens(S) ->
B = iolist_to_binary(S),
Sz = byte_size(B) - 2,
<<$[,R:Sz/binary,$]>> = B,
[$(,R,$)].
mfa_to_string(M, F, A) ->
io_lib:fwrite(<<"~s/~w">>, [mf_to_string({M, F}, A), A]).
mf_to_string({M, F}, A) ->
case erl_internal:bif(M, F, A) of
true ->
io_lib:fwrite(<<"~w">>, [F]);
false ->
case is_op({M, F}, A) of
{yes, '/'} ->
io_lib:fwrite(<<"~w">>, [F]);
{yes, F} ->
atom_to_list(F);
no ->
io_lib:fwrite(<<"~w:~w">>, [M, F])
end
end;
mf_to_string(Fun, _A) when is_function(Fun) ->
format_fun(Fun);
mf_to_string(F, _A) ->
io_lib:fwrite(<<"~w">>, [F]).
format_value(V, ErrStr, Class, PF, S) ->
Pre1Sz = exited_size(Class),
S1 = PF(V, Pre1Sz + iolist_size([S, ErrStr])+1),
[ErrStr | case count_nl(S1) of
N1 when N1 > 1 ->
S2 = PF(V, iolist_size(S) + 1 + Pre1Sz),
case count_nl(S2) < N1 of
true ->
[$\n, S, n_spaces(Pre1Sz) | S2];
false ->
S1
end;
_ ->
S1
end].
%% Handles deep lists, but not all iolists.
count_nl([E | Es]) ->
count_nl(E) + count_nl(Es);
count_nl($\n) ->
1;
count_nl(Bin) when is_binary(Bin) ->
count_nl(binary_to_list(Bin));
count_nl(_) ->
0.
n_spaces(N) ->
lists:duplicate(N, $\s).
is_op(ForMForFun, A) ->
try
{erlang,F} = ForMForFun,
_ = erl_internal:op_type(F, A),
{yes,F}
catch error:_ -> no
end.
exited_size(Class) ->
iolist_size(exited(Class)).
exited(error) ->
<<"exception error: ">>;
exited(exit) ->
<<"exception exit: ">>;
exited(throw) ->
<<"exception throw: ">>.
|