%% ``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 your Erlang distribution. If not, it can be
%% retrieved via the world wide web 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.
%%
%% The Initial Developer of the Original Code is Corelatus AB.
%% Portions created by Corelatus are Copyright 2003, Corelatus
%% AB. All Rights Reserved.''
%%
%% @doc Module to print out terms for logging. Limits by length rather than depth.
%%
%% The resulting string may be slightly larger than the limit; the intention
%% is to provide predictable CPU and memory consumption for formatting
%% terms, not produce precise string lengths.
%%
%% Typical use:
%%
%% trunc_io:print(Term, 500).
%%
%% Source license: Erlang Public License.
%% Original author: Matthias Lang, <tt>matthias@corelatus.se</tt>
%%
%% Various changes to this module, most notably the format/3 implementation
%% were added by Andrew Thompson `<andrew@basho.com>'. The module has been renamed
%% to avoid conflicts with the vanilla module.
-module(lager_trunc_io).
-author('matthias@corelatus.se').
%% And thanks to Chris Newcombe for a bug fix
-export([format/3, format/4, print/2, print/3, fprint/2, fprint/3, safe/2]). % interface functions
-version("$Id: trunc_io.erl,v 1.11 2009-02-23 12:01:06 matthias Exp $").
-ifdef(TEST).
-export([perf/0, perf/3, perf1/0, test/0, test/2]). % testing functions
-include_lib("eunit/include/eunit.hrl").
-endif.
-record(print_options, {
%% negative depth means no depth limiting
depth = -1 :: integer(),
%% whether to print lists as strings, if possible
lists_as_strings = true :: boolean(),
%% force strings, or binaries to be printed as a string,
%% even if they're not printable
force_strings = false :: boolean()
}).
format(Fmt, Args, Max) ->
format(Fmt, Args, Max, []).
format(Fmt, Args, Max, Options) ->
try lager_format:format(Fmt, Args, Max, Options) of
Result -> Result
catch
_:_ ->
erlang:error(badarg, [Fmt, Args])
end.
%% @doc Returns an flattened list containing the ASCII representation of the given
%% term.
-spec fprint(term(), pos_integer()) -> string().
fprint(Term, Max) ->
fprint(Term, Max, []).
%% @doc Returns an flattened list containing the ASCII representation of the given
%% term.
-spec fprint(term(), pos_integer(), #print_options{}) -> string().
fprint(T, Max, Options) ->
{L, _} = print(T, Max, prepare_options(Options, #print_options{})),
lists:flatten(L).
%% @doc Same as print, but never crashes.
%%
%% This is a tradeoff. Print might conceivably crash if it's asked to
%% print something it doesn't understand, for example some new data
%% type in a future version of Erlang. If print crashes, we fall back
%% to io_lib to format the term, but then the formatting is
%% depth-limited instead of length limited, so you might run out
%% memory printing it. Out of the frying pan and into the fire.
%%
-spec safe(term(), pos_integer()) -> {string(), pos_integer()} | {string()}.
safe(What, Len) ->
case catch print(What, Len) of
{L, Used} when is_list(L) -> {L, Used};
_ -> {"unable to print" ++ io_lib:write(What, 99)}
end.
%% @doc Returns {List, Length}
-spec print(term(), pos_integer()) -> {iolist(), pos_integer()}.
print(Term, Max) ->
print(Term, Max, []).
%% @doc Returns {List, Length}
-spec print(term(), pos_integer(), #print_options{}) -> {iolist(), pos_integer()}.
print(Term, Max, Options) when is_list(Options) ->
%% need to convert the proplist to a record
print(Term, Max, prepare_options(Options, #print_options{}));
print(Term, _Max, #print_options{force_strings=true}) when not is_list(Term), not is_binary(Term), not is_atom(Term) ->
erlang:error(badarg);
print(_, Max, _Options) when Max < 0 -> {"...", 3};
print(_, _, #print_options{depth=0}) -> {"...", 3};
print(Tuple, Max, Options) when is_tuple(Tuple) ->
{TC, Len} = tuple_contents(Tuple, Max-2, Options),
{[${, TC, $}], Len + 2};
%% @doc We assume atoms, floats, funs, integers, PIDs, ports and refs never need
%% to be truncated. This isn't strictly true, someone could make an
%% arbitrarily long bignum. Let's assume that won't happen unless someone
%% is being malicious.
%%
print(Atom, _Max, #print_options{force_strings=NoQuote}) when is_atom(Atom) ->
L = atom_to_list(Atom),
R = case atom_needs_quoting_start(L) andalso not NoQuote of
true -> lists:flatten([$', L, $']);
false -> L
end,
{R, length(R)};
print(<<>>, _Max, _Options) ->
{"<<>>", 4};
print(Binary, 0, _Options) when is_bitstring(Binary) ->
{"<<..>>", 6};
print(Binary, Max, Options) when is_binary(Binary) ->
B = binary_to_list(Binary, 1, lists:min([Max, byte_size(Binary)])),
{L, Len} = case Options#print_options.lists_as_strings orelse
Options#print_options.force_strings of
true ->
alist_start(B, Max-4, Options);
_ ->
list_body(B, Max-4, Options, false)
end,
{Res, Length} = case L of
[91, X, 93] ->
{X, Len - 2};
X ->
{X, Len}
end,
case Options#print_options.force_strings of
true ->
{Res, Length};
_ ->
{["<<", Res, ">>"], Length+4}
end;
%% bitstrings are binary's evil brother who doesn't end on an 8 bit boundary.
%% This makes printing them extremely annoying, so list_body/list_bodyc has
%% some magic for dealing with the output of bitstring_to_list, which returns
%% a list of integers (as expected) but with a trailing binary that represents
%% the remaining bits.
print(BitString, Max, Options) when is_bitstring(BitString) ->
case byte_size(BitString) > Max of
true ->
BL = binary_to_list(BitString, 1, Max);
_ ->
BL = erlang:bitstring_to_list(BitString)
end,
{X, Len0} = list_body(BL, Max - 4, Options, false),
{["<<", X, ">>"], Len0 + 4};
print(Float, _Max, _Options) when is_float(Float) ->
%% use the same function io_lib:format uses to print floats
%% float_to_list is way too verbose.
L = io_lib_format:fwrite_g(Float),
{L, length(L)};
print(Fun, Max, _Options) when is_function(Fun) ->
L = erlang:fun_to_list(Fun),
case length(L) > Max of
true ->
S = erlang:max(5, Max),
Res = string:substr(L, 1, S) ++ "..>",
{Res, length(Res)};
_ ->
{L, length(L)}
end;
print(Integer, _Max, _Options) when is_integer(Integer) ->
L = integer_to_list(Integer),
{L, length(L)};
print(Pid, _Max, _Options) when is_pid(Pid) ->
L = pid_to_list(Pid),
{L, length(L)};
print(Ref, _Max, _Options) when is_reference(Ref) ->
L = erlang:ref_to_list(Ref),
{L, length(L)};
print(Port, _Max, _Options) when is_port(Port) ->
L = erlang:port_to_list(Port),
{L, length(L)};
print(List, Max, Options) when is_list(List) ->
case Options#print_options.lists_as_strings orelse
Options#print_options.force_strings of
true ->
alist_start(List, Max, dec_depth(Options));
_ ->
{R, Len} = list_body(List, Max - 2, dec_depth(Options), false),
{[$[, R, $]], Len + 2}
end.
%% Returns {List, Length}
tuple_contents(Tuple, Max, Options) ->
L = tuple_to_list(Tuple),
list_body(L, Max, dec_depth(Options), true).
%% Format the inside of a list, i.e. do not add a leading [ or trailing ].
%% Returns {List, Length}
list_body([], _Max, _Options, _Tuple) -> {[], 0};
list_body(_, Max, _Options, _Tuple) when Max < 4 -> {"...", 3};
list_body(_, _Max, #print_options{depth=0}, _Tuple) -> {"...", 3};
list_body([B], _Max, _Options, _Tuple) when is_bitstring(B), not is_binary(B) ->
Size = bit_size(B),
<<Value:Size>> = B,
ValueStr = integer_to_list(Value),
SizeStr = integer_to_list(Size),
{[ValueStr, $:, SizeStr], length(ValueStr) + length(SizeStr) +1};
list_body([H|T], Max, Options, Tuple) ->
{List, Len} = print(H, Max, Options),
{Final, FLen} = list_bodyc(T, Max - Len, Options, Tuple),
{[List|Final], FLen + Len};
list_body(X, Max, Options, _Tuple) -> %% improper list
{List, Len} = print(X, Max - 1, Options),
{[$|,List], Len + 1}.
list_bodyc([], _Max, _Options, _Tuple) -> {[], 0};
list_bodyc(_, Max, _Options, _Tuple) when Max < 5 -> {",...", 4};
list_bodyc([B], _Max, _Options, _Tuple) when is_bitstring(B), not is_binary(B) ->
Size = bit_size(B),
<<Value:Size>> = B,
ValueStr = integer_to_list(Value),
SizeStr = integer_to_list(Size),
{[$, , ValueStr, $:, SizeStr], length(ValueStr) + length(SizeStr) +2};
list_bodyc([H|T], Max, #print_options{depth=Depth} = Options, Tuple) ->
{List, Len} = print(H, Max, dec_depth(Options)),
{Final, FLen} = list_bodyc(T, Max - Len - 1, Options, Tuple),
Sep = case Depth == 1 andalso not Tuple of
true -> $|;
_ -> $,
end,
{[Sep, List|Final], FLen + Len + 1};
list_bodyc(X, Max, Options, _Tuple) -> %% improper list
{List, Len} = print(X, Max - 1, Options),
{[$|,List], Len + 1}.
%% The head of a list we hope is ascii. Examples:
%%
%% [65,66,67] -> "ABC"
%% [65,0,67] -> "A"[0,67]
%% [0,65,66] -> [0,65,66]
%% [65,b,66] -> "A"[b,66]
%%
alist_start([], _Max, #print_options{force_strings=true}) -> {"", 0};
alist_start([], _Max, _Options) -> {"[]", 2};
alist_start(_, Max, _Options) when Max < 4 -> {"...", 3};
alist_start(_, _Max, #print_options{depth=0}) -> {"[...]", 5};
alist_start(L, Max, #print_options{force_strings=true} = Options) ->
alist(L, Max, Options);
alist_start([H|T], Max, Options) when is_integer(H), H >= 16#20, H =< 16#7e -> % definitely printable
try alist([H|T], Max -1, Options) of
{L, Len} ->
{[$"|L], Len + 1}
catch
throw:unprintable ->
{R, Len} = list_body([H|T], Max-2, Options, false),
{[$[, R, $]], Len + 2}
end;
alist_start([H|T], Max, Options) when H =:= 9; H =:= 10; H =:= 13 ->
try alist([H|T], Max -1, Options) of
{L, Len} ->
{[$"|L], Len + 1}
catch
throw:unprintable ->
{R, Len} = list_body([H|T], Max-2, Options, false),
{[$[, R, $]], Len + 2}
end;
alist_start(L, Max, Options) ->
{R, Len} = list_body(L, Max-2, Options, false),
{[$[, R, $]], Len + 2}.
alist([], _Max, #print_options{force_strings=true}) -> {"", 0};
alist([], _Max, _Options) -> {"\"", 1};
alist(_, Max, #print_options{force_strings=true}) when Max < 4 -> {"...", 3};
alist(_, Max, #print_options{force_strings=false}) when Max < 5 -> {"...\"", 4};
alist([H|T], Max, Options) when is_integer(H), H >= 16#20, H =< 16#7e -> % definitely printable
{L, Len} = alist(T, Max-1, Options),
{[H|L], Len + 1};
alist([H|T], Max, Options) when H =:= 9; H =:= 10; H =:= 13 ->
{L, Len} = alist(T, Max-1, Options),
case Options#print_options.force_strings of
true ->
{[H|L], Len + 1};
_ ->
{[escape(H)|L], Len + 1}
end;
alist([H|T], Max, #print_options{force_strings=true} = Options) when is_integer(H) ->
{L, Len} = alist(T, Max-1, Options),
{[H|L], Len + 1};
alist(_, _, #print_options{force_strings=true}) ->
erlang:error(badarg);
alist(_L, _Max, _Options) ->
throw(unprintable).
%% is the first character in the atom alphabetic & lowercase?
atom_needs_quoting_start([H|T]) when H >= $a, H =< $z ->
atom_needs_quoting(T);
atom_needs_quoting_start(_) ->
true.
atom_needs_quoting([]) ->
false;
atom_needs_quoting([H|T]) when (H >= $a andalso H =< $z);
(H >= $A andalso H =< $Z);
(H >= $0 andalso H =< $9);
H == $@; H == $_ ->
atom_needs_quoting(T);
atom_needs_quoting(_) ->
true.
prepare_options([], Options) ->
Options;
prepare_options([{depth, Depth}|T], Options) when is_integer(Depth) ->
prepare_options(T, Options#print_options{depth=Depth});
prepare_options([{lists_as_strings, Bool}|T], Options) when is_boolean(Bool) ->
prepare_options(T, Options#print_options{lists_as_strings = Bool});
prepare_options([{force_strings, Bool}|T], Options) when is_boolean(Bool) ->
prepare_options(T, Options#print_options{force_strings = Bool}).
dec_depth(#print_options{depth=Depth} = Options) when Depth > 0 ->
Options#print_options{depth=Depth-1};
dec_depth(Options) ->
Options.
escape(9) -> "\\t";
escape(10) -> "\\n";
escape(13) -> "\\r".
-ifdef(TEST).
%%--------------------
%% The start of a test suite. So far, it only checks for not crashing.
-spec test() -> ok.
test() ->
test(trunc_io, print).
-spec test(atom(), atom()) -> ok.
test(Mod, Func) ->
Simple_items = [atom, 1234, 1234.0, {tuple}, [], [list], "string", self(),
<<1,2,3>>, make_ref(), fun() -> ok end],
F = fun(A) ->
Mod:Func(A, 100),
Mod:Func(A, 2),
Mod:Func(A, 20)
end,
G = fun(A) ->
case catch F(A) of
{'EXIT', _} -> exit({failed, A});
_ -> ok
end
end,
lists:foreach(G, Simple_items),
Tuples = [ {1,2,3,a,b,c}, {"abc", def, 1234},
{{{{a},b,c,{d},e}},f}],
Lists = [ [1,2,3,4,5,6,7], lists:seq(1,1000),
[{a}, {a,b}, {a, [b,c]}, "def"], [a|b], [$a|$b] ],
lists:foreach(G, Tuples),
lists:foreach(G, Lists).
-spec perf() -> ok.
perf() ->
{New, _} = timer:tc(trunc_io, perf, [trunc_io, print, 1000]),
{Old, _} = timer:tc(trunc_io, perf, [io_lib, write, 1000]),
io:fwrite("New code took ~p us, old code ~p\n", [New, Old]).
-spec perf(atom(), atom(), integer()) -> done.
perf(M, F, Reps) when Reps > 0 ->
test(M,F),
perf(M,F,Reps-1);
perf(_,_,_) ->
done.
%% Performance test. Needs a particularly large term I saved as a binary...
-spec perf1() -> {non_neg_integer(), non_neg_integer()}.
perf1() ->
{ok, Bin} = file:read_file("bin"),
A = binary_to_term(Bin),
{N, _} = timer:tc(trunc_io, print, [A, 1500]),
{M, _} = timer:tc(io_lib, write, [A]),
{N, M}.
format_test() ->
%% simple format strings
?assertEqual("foobar", lists:flatten(format("~s", [["foo", $b, $a, $r]], 50))),
?assertEqual("[\"foo\",98,97,114]", lists:flatten(format("~p", [["foo", $b, $a, $r]], 50))),
?assertEqual("[\"foo\",98,97,114]", lists:flatten(format("~P", [["foo", $b, $a, $r], 10], 50))),
?assertEqual("[[102,111,111],98,97,114]", lists:flatten(format("~w", [["foo", $b, $a, $r]], 50))),
%% complex ones
?assertEqual(" foobar", lists:flatten(format("~10s", [["foo", $b, $a, $r]], 50))),
?assertEqual(" [\"foo\",98,97,114]", lists:flatten(format("~22p", [["foo", $b, $a, $r]], 50))),
?assertEqual(" [\"foo\",98,97,114]", lists:flatten(format("~22P", [["foo", $b, $a, $r], 10], 50))),
?assertEqual("**********", lists:flatten(format("~10W", [["foo", $b, $a, $r], 10], 50))),
?assertEqual("[[102,111,111],98,97,114]", lists:flatten(format("~25W", [["foo", $b, $a, $r], 10], 50))),
ok.
atom_quoting_test() ->
?assertEqual("hello", lists:flatten(format("~p", [hello], 50))),
?assertEqual("'hello world'", lists:flatten(format("~p", ['hello world'], 50))),
?assertEqual("'Hello world'", lists:flatten(format("~p", ['Hello world'], 50))),
?assertEqual("hello_world", lists:flatten(format("~p", ['hello_world'], 50))),
?assertEqual("'node@127.0.0.1'", lists:flatten(format("~p", ['node@127.0.0.1'], 50))),
?assertEqual("node@nohost", lists:flatten(format("~p", [node@nohost], 50))),
?assertEqual("abc123", lists:flatten(format("~p", [abc123], 50))),
ok.
sane_float_printing_test() ->
?assertEqual("1.0", lists:flatten(format("~p", [1.0], 50))),
?assertEqual("1.23456789", lists:flatten(format("~p", [1.23456789], 50))),
?assertEqual("1.23456789", lists:flatten(format("~p", [1.234567890], 50))),
?assertEqual("0.3333333333333333", lists:flatten(format("~p", [1/3], 50))),
?assertEqual("0.1234567", lists:flatten(format("~p", [0.1234567], 50))),
ok.
float_inside_list_test() ->
?assertEqual("[97,38.233913133184835,99]", lists:flatten(format("~p", [[$a, 38.233913133184835, $c]], 50))),
?assertError(badarg, lists:flatten(format("~s", [[$a, 38.233913133184835, $c]], 50))),
ok.
quote_strip_test() ->
?assertEqual("\"hello\"", lists:flatten(format("~p", ["hello"], 50))),
?assertEqual("hello", lists:flatten(format("~s", ["hello"], 50))),
?assertEqual("hello", lists:flatten(format("~s", [hello], 50))),
?assertEqual("hello", lists:flatten(format("~p", [hello], 50))),
?assertEqual("'hello world'", lists:flatten(format("~p", ['hello world'], 50))),
?assertEqual("hello world", lists:flatten(format("~s", ['hello world'], 50))),
ok.
binary_printing_test() ->
?assertEqual("<<>>", lists:flatten(format("~p", [<<>>], 50))),
?assertEqual("<<..>>", lists:flatten(format("~p", [<<"hi">>], 0))),
?assertEqual("<<...>>", lists:flatten(format("~p", [<<"hi">>], 1))),
?assertEqual("<<\"hello\">>", lists:flatten(format("~p", [<<$h, $e, $l, $l, $o>>], 50))),
?assertEqual("<<\"hello\">>", lists:flatten(format("~p", [<<"hello">>], 50))),
?assertEqual("<<104,101,108,108,111>>", lists:flatten(format("~w", [<<"hello">>], 50))),
?assertEqual("<<1,2,3,4>>", lists:flatten(format("~p", [<<1, 2, 3, 4>>], 50))),
?assertEqual([1,2,3,4], lists:flatten(format("~s", [<<1, 2, 3, 4>>], 50))),
?assertEqual("hello", lists:flatten(format("~s", [<<"hello">>], 50))),
?assertEqual("hello\nworld", lists:flatten(format("~s", [<<"hello\nworld">>], 50))),
?assertEqual("<<\"hello\\nworld\">>", lists:flatten(format("~p", [<<"hello\nworld">>], 50))),
?assertEqual(" hello", lists:flatten(format("~10s", [<<"hello">>], 50))),
ok.
bitstring_printing_test() ->
?assertEqual("<<1,2,3,1:7>>", lists:flatten(format("~p",
[<<1, 2, 3, 1:7>>], 100))),
?assertEqual("<<1:7>>", lists:flatten(format("~p",
[<<1:7>>], 100))),
?assertEqual("<<1,2,3,...>>", lists:flatten(format("~p",
[<<1, 2, 3, 1:7>>], 12))),
?assertEqual("<<1,2,3,...>>", lists:flatten(format("~p",
[<<1, 2, 3, 1:7>>], 13))),
?assertEqual("<<1,2,3,1:7>>", lists:flatten(format("~p",
[<<1, 2, 3, 1:7>>], 14))),
?assertEqual("<<..>>", lists:flatten(format("~p", [<<1:7>>], 0))),
?assertEqual("<<...>>", lists:flatten(format("~p", [<<1:7>>], 1))),
?assertEqual("[<<1>>,<<2>>]", lists:flatten(format("~p", [[<<1>>, <<2>>]],
100))),
ok.
list_printing_test() ->
?assertEqual("[]", lists:flatten(format("~p", [[]], 50))),
?assertEqual("[]", lists:flatten(format("~w", [[]], 50))),
?assertEqual("", lists:flatten(format("~s", [[]], 50))),
?assertEqual("...", lists:flatten(format("~s", [[]], -1))),
?assertEqual("[[]]", lists:flatten(format("~p", [[[]]], 50))),
?assertEqual("[13,11,10,8,5,4]", lists:flatten(format("~p", [[13,11,10,8,5,4]], 50))),
?assertEqual("\"\\rabc\"", lists:flatten(format("~p", [[13,$a, $b, $c]], 50))),
?assertEqual("[1,2,3|4]", lists:flatten(format("~p", [[1, 2, 3|4]], 50))),
?assertEqual("[...]", lists:flatten(format("~p", [[1, 2, 3,4]], 4))),
?assertEqual("[1,...]", lists:flatten(format("~p", [[1, 2, 3, 4]], 6))),
?assertEqual("[1,...]", lists:flatten(format("~p", [[1, 2, 3, 4]], 7))),
?assertEqual("[1,2,...]", lists:flatten(format("~p", [[1, 2, 3, 4]], 8))),
?assertEqual("[1|4]", lists:flatten(format("~p", [[1|4]], 50))),
?assertEqual("[1]", lists:flatten(format("~p", [[1]], 50))),
?assertError(badarg, lists:flatten(format("~s", [[1|4]], 50))),
?assertEqual("\"hello...\"", lists:flatten(format("~p", ["hello world"], 10))),
?assertEqual("hello w...", lists:flatten(format("~s", ["hello world"], 10))),
?assertEqual("hello world\r\n", lists:flatten(format("~s", ["hello world\r\n"], 50))),
?assertEqual("\rhello world\r\n", lists:flatten(format("~s", ["\rhello world\r\n"], 50))),
?assertEqual("\"\\rhello world\\r\\n\"", lists:flatten(format("~p", ["\rhello world\r\n"], 50))),
?assertEqual("[13,104,101,108,108,111,32,119,111,114,108,100,13,10]", lists:flatten(format("~w", ["\rhello world\r\n"], 60))),
?assertEqual("...", lists:flatten(format("~s", ["\rhello world\r\n"], 3))),
?assertEqual("[22835963083295358096932575511191922182123945984,...]",
lists:flatten(format("~p", [
[22835963083295358096932575511191922182123945984,
22835963083295358096932575511191922182123945984]], 9))),
?assertEqual("[22835963083295358096932575511191922182123945984,...]",
lists:flatten(format("~p", [
[22835963083295358096932575511191922182123945984,
22835963083295358096932575511191922182123945984]], 53))),
ok.
tuple_printing_test() ->
?assertEqual("{}", lists:flatten(format("~p", [{}], 50))),
?assertEqual("{}", lists:flatten(format("~w", [{}], 50))),
?assertError(badarg, lists:flatten(format("~s", [{}], 50))),
?assertEqual("{...}", lists:flatten(format("~p", [{foo}], 1))),
?assertEqual("{...}", lists:flatten(format("~p", [{foo}], 2))),
?assertEqual("{...}", lists:flatten(format("~p", [{foo}], 3))),
?assertEqual("{...}", lists:flatten(format("~p", [{foo}], 4))),
?assertEqual("{...}", lists:flatten(format("~p", [{foo}], 5))),
?assertEqual("{foo,...}", lists:flatten(format("~p", [{foo,bar}], 6))),
?assertEqual("{foo,...}", lists:flatten(format("~p", [{foo,bar}], 7))),
?assertEqual("{foo,...}", lists:flatten(format("~p", [{foo,bar}], 9))),
?assertEqual("{foo,bar}", lists:flatten(format("~p", [{foo,bar}], 10))),
?assertEqual("{22835963083295358096932575511191922182123945984,...}",
lists:flatten(format("~w", [
{22835963083295358096932575511191922182123945984,
22835963083295358096932575511191922182123945984}], 10))),
?assertEqual("{22835963083295358096932575511191922182123945984,...}",
lists:flatten(format("~w", [
{22835963083295358096932575511191922182123945984,
bar}], 10))),
?assertEqual("{22835963083295358096932575511191922182123945984,...}",
lists:flatten(format("~w", [
{22835963083295358096932575511191922182123945984,
22835963083295358096932575511191922182123945984}], 53))),
ok.
unicode_test() ->
?assertEqual([231,167,129], lists:flatten(format("~s", [<<231,167,129>>], 50))),
?assertEqual([31169], lists:flatten(format("~ts", [<<231,167,129>>], 50))),
ok.
depth_limit_test() ->
?assertEqual("{...}", lists:flatten(format("~P", [{a, [b, [c, [d]]]}, 1], 50))),
?assertEqual("{a,...}", lists:flatten(format("~P", [{a, [b, [c, [d]]]}, 2], 50))),
?assertEqual("{a,[...]}", lists:flatten(format("~P", [{a, [b, [c, [d]]]}, 3], 50))),
?assertEqual("{a,[b|...]}", lists:flatten(format("~P", [{a, [b, [c, [d]]]}, 4], 50))),
?assertEqual("{a,[b,[...]]}", lists:flatten(format("~P", [{a, [b, [c, [d]]]}, 5], 50))),
?assertEqual("{a,[b,[c|...]]}", lists:flatten(format("~P", [{a, [b, [c, [d]]]}, 6], 50))),
?assertEqual("{a,[b,[c,[...]]]}", lists:flatten(format("~P", [{a, [b, [c, [d]]]}, 7], 50))),
?assertEqual("{a,[b,[c,[d]]]}", lists:flatten(format("~P", [{a, [b, [c, [d]]]}, 8], 50))),
?assertEqual("{a,[b,[c,[d]]]}", lists:flatten(format("~P", [{a, [b, [c, [d]]]}, 9], 50))),
?assertEqual("{a,{...}}", lists:flatten(format("~P", [{a, {b, {c, {d}}}}, 3], 50))),
?assertEqual("{a,{b,...}}", lists:flatten(format("~P", [{a, {b, {c, {d}}}}, 4], 50))),
?assertEqual("{a,{b,{...}}}", lists:flatten(format("~P", [{a, {b, {c, {d}}}}, 5], 50))),
?assertEqual("{a,{b,{c,...}}}", lists:flatten(format("~P", [{a, {b, {c, {d}}}}, 6], 50))),
?assertEqual("{a,{b,{c,{...}}}}", lists:flatten(format("~P", [{a, {b, {c, {d}}}}, 7], 50))),
?assertEqual("{a,{b,{c,{d}}}}", lists:flatten(format("~P", [{a, {b, {c, {d}}}}, 8], 50))),
?assertEqual("{\"a\",[...]}", lists:flatten(format("~P", [{"a", ["b", ["c", ["d"]]]}, 3], 50))),
?assertEqual("{\"a\",[\"b\",[[...]|...]]}", lists:flatten(format("~P", [{"a", ["b", ["c", ["d"]]]}, 6], 50))),
?assertEqual("{\"a\",[\"b\",[\"c\",[\"d\"]]]}", lists:flatten(format("~P", [{"a", ["b", ["c", ["d"]]]}, 9], 50))),
ok.
-endif.