diff options
Diffstat (limited to '1.1.x/src/mochiweb/mochifmt.erl')
-rw-r--r-- | 1.1.x/src/mochiweb/mochifmt.erl | 425 |
1 files changed, 425 insertions, 0 deletions
diff --git a/1.1.x/src/mochiweb/mochifmt.erl b/1.1.x/src/mochiweb/mochifmt.erl new file mode 100644 index 00000000..5bc6b9c4 --- /dev/null +++ b/1.1.x/src/mochiweb/mochifmt.erl @@ -0,0 +1,425 @@ +%% @author Bob Ippolito <bob@mochimedia.com> +%% @copyright 2008 Mochi Media, Inc. + +%% @doc String Formatting for Erlang, inspired by Python 2.6 +%% (<a href="http://www.python.org/dev/peps/pep-3101/">PEP 3101</a>). +%% +-module(mochifmt). +-author('bob@mochimedia.com'). +-export([format/2, format_field/2, convert_field/2, get_value/2, get_field/2]). +-export([tokenize/1, format/3, get_field/3, format_field/3]). +-export([bformat/2, bformat/3]). +-export([f/2, f/3]). + +-record(conversion, {length, precision, ctype, align, fill_char, sign}). + +%% @spec tokenize(S::string()) -> tokens() +%% @doc Tokenize a format string into mochifmt's internal format. +tokenize(S) -> + {?MODULE, tokenize(S, "", [])}. + +%% @spec convert_field(Arg, Conversion::conversion()) -> term() +%% @doc Process Arg according to the given explicit conversion specifier. +convert_field(Arg, "") -> + Arg; +convert_field(Arg, "r") -> + repr(Arg); +convert_field(Arg, "s") -> + str(Arg). + +%% @spec get_value(Key::string(), Args::args()) -> term() +%% @doc Get the Key from Args. If Args is a tuple then convert Key to +%% an integer and get element(1 + Key, Args). If Args is a list and Key +%% can be parsed as an integer then use lists:nth(1 + Key, Args), +%% otherwise try and look for Key in Args as a proplist, converting +%% Key to an atom or binary if necessary. +get_value(Key, Args) when is_tuple(Args) -> + element(1 + list_to_integer(Key), Args); +get_value(Key, Args) when is_list(Args) -> + try lists:nth(1 + list_to_integer(Key), Args) + catch error:_ -> + {_K, V} = proplist_lookup(Key, Args), + V + end. + +%% @spec get_field(Key::string(), Args) -> term() +%% @doc Consecutively call get_value/2 on parts of Key delimited by ".", +%% replacing Args with the result of the previous get_value. This +%% is used to implement formats such as {0.0}. +get_field(Key, Args) -> + get_field(Key, Args, ?MODULE). + +%% @spec get_field(Key::string(), Args, Module) -> term() +%% @doc Consecutively call Module:get_value/2 on parts of Key delimited by ".", +%% replacing Args with the result of the previous get_value. This +%% is used to implement formats such as {0.0}. +get_field(Key, Args, Module) -> + {Name, Next} = lists:splitwith(fun (C) -> C =/= $. end, Key), + Res = try Module:get_value(Name, Args) + catch error:undef -> get_value(Name, Args) end, + case Next of + "" -> + Res; + "." ++ S1 -> + get_field(S1, Res, Module) + end. + +%% @spec format(Format::string(), Args) -> iolist() +%% @doc Format Args with Format. +format(Format, Args) -> + format(Format, Args, ?MODULE). + +%% @spec format(Format::string(), Args, Module) -> iolist() +%% @doc Format Args with Format using Module. +format({?MODULE, Parts}, Args, Module) -> + format2(Parts, Args, Module, []); +format(S, Args, Module) -> + format(tokenize(S), Args, Module). + +%% @spec format_field(Arg, Format) -> iolist() +%% @doc Format Arg with Format. +format_field(Arg, Format) -> + format_field(Arg, Format, ?MODULE). + +%% @spec format_field(Arg, Format, _Module) -> iolist() +%% @doc Format Arg with Format. +format_field(Arg, Format, _Module) -> + F = default_ctype(Arg, parse_std_conversion(Format)), + fix_padding(fix_sign(convert2(Arg, F), F), F). + +%% @spec f(Format::string(), Args) -> string() +%% @doc Format Args with Format and return a string(). +f(Format, Args) -> + f(Format, Args, ?MODULE). + +%% @spec f(Format::string(), Args, Module) -> string() +%% @doc Format Args with Format using Module and return a string(). +f(Format, Args, Module) -> + case lists:member(${, Format) of + true -> + binary_to_list(bformat(Format, Args, Module)); + false -> + Format + end. + +%% @spec bformat(Format::string(), Args) -> binary() +%% @doc Format Args with Format and return a binary(). +bformat(Format, Args) -> + iolist_to_binary(format(Format, Args)). + +%% @spec bformat(Format::string(), Args, Module) -> binary() +%% @doc Format Args with Format using Module and return a binary(). +bformat(Format, Args, Module) -> + iolist_to_binary(format(Format, Args, Module)). + +%% Internal API + +add_raw("", Acc) -> + Acc; +add_raw(S, Acc) -> + [{raw, lists:reverse(S)} | Acc]. + +tokenize([], S, Acc) -> + lists:reverse(add_raw(S, Acc)); +tokenize("{{" ++ Rest, S, Acc) -> + tokenize(Rest, "{" ++ S, Acc); +tokenize("{" ++ Rest, S, Acc) -> + {Format, Rest1} = tokenize_format(Rest), + tokenize(Rest1, "", [{format, make_format(Format)} | add_raw(S, Acc)]); +tokenize("}}" ++ Rest, S, Acc) -> + tokenize(Rest, "}" ++ S, Acc); +tokenize([C | Rest], S, Acc) -> + tokenize(Rest, [C | S], Acc). + +tokenize_format(S) -> + tokenize_format(S, 1, []). + +tokenize_format("}" ++ Rest, 1, Acc) -> + {lists:reverse(Acc), Rest}; +tokenize_format("}" ++ Rest, N, Acc) -> + tokenize_format(Rest, N - 1, "}" ++ Acc); +tokenize_format("{" ++ Rest, N, Acc) -> + tokenize_format(Rest, 1 + N, "{" ++ Acc); +tokenize_format([C | Rest], N, Acc) -> + tokenize_format(Rest, N, [C | Acc]). + +make_format(S) -> + {Name0, Spec} = case lists:splitwith(fun (C) -> C =/= $: end, S) of + {_, ""} -> + {S, ""}; + {SN, ":" ++ SS} -> + {SN, SS} + end, + {Name, Transform} = case lists:splitwith(fun (C) -> C =/= $! end, Name0) of + {_, ""} -> + {Name0, ""}; + {TN, "!" ++ TT} -> + {TN, TT} + end, + {Name, Transform, Spec}. + +proplist_lookup(S, P) -> + A = try list_to_existing_atom(S) + catch error:_ -> make_ref() end, + B = try list_to_binary(S) + catch error:_ -> make_ref() end, + proplist_lookup2({S, A, B}, P). + +proplist_lookup2({KS, KA, KB}, [{K, V} | _]) + when KS =:= K orelse KA =:= K orelse KB =:= K -> + {K, V}; +proplist_lookup2(Keys, [_ | Rest]) -> + proplist_lookup2(Keys, Rest). + +format2([], _Args, _Module, Acc) -> + lists:reverse(Acc); +format2([{raw, S} | Rest], Args, Module, Acc) -> + format2(Rest, Args, Module, [S | Acc]); +format2([{format, {Key, Convert, Format0}} | Rest], Args, Module, Acc) -> + Format = f(Format0, Args, Module), + V = case Module of + ?MODULE -> + V0 = get_field(Key, Args), + V1 = convert_field(V0, Convert), + format_field(V1, Format); + _ -> + V0 = try Module:get_field(Key, Args) + catch error:undef -> get_field(Key, Args, Module) end, + V1 = try Module:convert_field(V0, Convert) + catch error:undef -> convert_field(V0, Convert) end, + try Module:format_field(V1, Format) + catch error:undef -> format_field(V1, Format, Module) end + end, + format2(Rest, Args, Module, [V | Acc]). + +default_ctype(_Arg, C=#conversion{ctype=N}) when N =/= undefined -> + C; +default_ctype(Arg, C) when is_integer(Arg) -> + C#conversion{ctype=decimal}; +default_ctype(Arg, C) when is_float(Arg) -> + C#conversion{ctype=general}; +default_ctype(_Arg, C) -> + C#conversion{ctype=string}. + +fix_padding(Arg, #conversion{length=undefined}) -> + Arg; +fix_padding(Arg, F=#conversion{length=Length, fill_char=Fill0, align=Align0, + ctype=Type}) -> + Padding = Length - iolist_size(Arg), + Fill = case Fill0 of + undefined -> + $\s; + _ -> + Fill0 + end, + Align = case Align0 of + undefined -> + case Type of + string -> + left; + _ -> + right + end; + _ -> + Align0 + end, + case Padding > 0 of + true -> + do_padding(Arg, Padding, Fill, Align, F); + false -> + Arg + end. + +do_padding(Arg, Padding, Fill, right, _F) -> + [lists:duplicate(Padding, Fill), Arg]; +do_padding(Arg, Padding, Fill, center, _F) -> + LPadding = lists:duplicate(Padding div 2, Fill), + RPadding = case Padding band 1 of + 1 -> + [Fill | LPadding]; + _ -> + LPadding + end, + [LPadding, Arg, RPadding]; +do_padding([$- | Arg], Padding, Fill, sign_right, _F) -> + [[$- | lists:duplicate(Padding, Fill)], Arg]; +do_padding(Arg, Padding, Fill, sign_right, #conversion{sign=$-}) -> + [lists:duplicate(Padding, Fill), Arg]; +do_padding([S | Arg], Padding, Fill, sign_right, #conversion{sign=S}) -> + [[S | lists:duplicate(Padding, Fill)], Arg]; +do_padding(Arg, Padding, Fill, sign_right, #conversion{sign=undefined}) -> + [lists:duplicate(Padding, Fill), Arg]; +do_padding(Arg, Padding, Fill, left, _F) -> + [Arg | lists:duplicate(Padding, Fill)]. + +fix_sign(Arg, #conversion{sign=$+}) when Arg >= 0 -> + [$+, Arg]; +fix_sign(Arg, #conversion{sign=$\s}) when Arg >= 0 -> + [$\s, Arg]; +fix_sign(Arg, _F) -> + Arg. + +ctype($\%) -> percent; +ctype($s) -> string; +ctype($b) -> bin; +ctype($o) -> oct; +ctype($X) -> upper_hex; +ctype($x) -> hex; +ctype($c) -> char; +ctype($d) -> decimal; +ctype($g) -> general; +ctype($f) -> fixed; +ctype($e) -> exp. + +align($<) -> left; +align($>) -> right; +align($^) -> center; +align($=) -> sign_right. + +convert2(Arg, F=#conversion{ctype=percent}) -> + [convert2(100.0 * Arg, F#conversion{ctype=fixed}), $\%]; +convert2(Arg, #conversion{ctype=string}) -> + str(Arg); +convert2(Arg, #conversion{ctype=bin}) -> + erlang:integer_to_list(Arg, 2); +convert2(Arg, #conversion{ctype=oct}) -> + erlang:integer_to_list(Arg, 8); +convert2(Arg, #conversion{ctype=upper_hex}) -> + erlang:integer_to_list(Arg, 16); +convert2(Arg, #conversion{ctype=hex}) -> + string:to_lower(erlang:integer_to_list(Arg, 16)); +convert2(Arg, #conversion{ctype=char}) when Arg < 16#80 -> + [Arg]; +convert2(Arg, #conversion{ctype=char}) -> + xmerl_ucs:to_utf8(Arg); +convert2(Arg, #conversion{ctype=decimal}) -> + integer_to_list(Arg); +convert2(Arg, #conversion{ctype=general, precision=undefined}) -> + try mochinum:digits(Arg) + catch error:undef -> io_lib:format("~g", [Arg]) end; +convert2(Arg, #conversion{ctype=fixed, precision=undefined}) -> + io_lib:format("~f", [Arg]); +convert2(Arg, #conversion{ctype=exp, precision=undefined}) -> + io_lib:format("~e", [Arg]); +convert2(Arg, #conversion{ctype=general, precision=P}) -> + io_lib:format("~." ++ integer_to_list(P) ++ "g", [Arg]); +convert2(Arg, #conversion{ctype=fixed, precision=P}) -> + io_lib:format("~." ++ integer_to_list(P) ++ "f", [Arg]); +convert2(Arg, #conversion{ctype=exp, precision=P}) -> + io_lib:format("~." ++ integer_to_list(P) ++ "e", [Arg]). + +str(A) when is_atom(A) -> + atom_to_list(A); +str(I) when is_integer(I) -> + integer_to_list(I); +str(F) when is_float(F) -> + try mochinum:digits(F) + catch error:undef -> io_lib:format("~g", [F]) end; +str(L) when is_list(L) -> + L; +str(B) when is_binary(B) -> + B; +str(P) -> + repr(P). + +repr(P) when is_float(P) -> + try mochinum:digits(P) + catch error:undef -> float_to_list(P) end; +repr(P) -> + io_lib:format("~p", [P]). + +parse_std_conversion(S) -> + parse_std_conversion(S, #conversion{}). + +parse_std_conversion("", Acc) -> + Acc; +parse_std_conversion([Fill, Align | Spec], Acc) + when Align =:= $< orelse Align =:= $> orelse Align =:= $= orelse Align =:= $^ -> + parse_std_conversion(Spec, Acc#conversion{fill_char=Fill, + align=align(Align)}); +parse_std_conversion([Align | Spec], Acc) + when Align =:= $< orelse Align =:= $> orelse Align =:= $= orelse Align =:= $^ -> + parse_std_conversion(Spec, Acc#conversion{align=align(Align)}); +parse_std_conversion([Sign | Spec], Acc) + when Sign =:= $+ orelse Sign =:= $- orelse Sign =:= $\s -> + parse_std_conversion(Spec, Acc#conversion{sign=Sign}); +parse_std_conversion("0" ++ Spec, Acc) -> + Align = case Acc#conversion.align of + undefined -> + sign_right; + A -> + A + end, + parse_std_conversion(Spec, Acc#conversion{fill_char=$0, align=Align}); +parse_std_conversion(Spec=[D|_], Acc) when D >= $0 andalso D =< $9 -> + {W, Spec1} = lists:splitwith(fun (C) -> C >= $0 andalso C =< $9 end, Spec), + parse_std_conversion(Spec1, Acc#conversion{length=list_to_integer(W)}); +parse_std_conversion([$. | Spec], Acc) -> + case lists:splitwith(fun (C) -> C >= $0 andalso C =< $9 end, Spec) of + {"", Spec1} -> + parse_std_conversion(Spec1, Acc); + {P, Spec1} -> + parse_std_conversion(Spec1, + Acc#conversion{precision=list_to_integer(P)}) + end; +parse_std_conversion([Type], Acc) -> + parse_std_conversion("", Acc#conversion{ctype=ctype(Type)}). + + +%% +%% Tests +%% +-include_lib("eunit/include/eunit.hrl"). +-ifdef(TEST). + +tokenize_test() -> + {?MODULE, [{raw, "ABC"}]} = tokenize("ABC"), + {?MODULE, [{format, {"0", "", ""}}]} = tokenize("{0}"), + {?MODULE, [{raw, "ABC"}, {format, {"1", "", ""}}, {raw, "DEF"}]} = + tokenize("ABC{1}DEF"), + ok. + +format_test() -> + <<" -4">> = bformat("{0:4}", [-4]), + <<" 4">> = bformat("{0:4}", [4]), + <<" 4">> = bformat("{0:{0}}", [4]), + <<"4 ">> = bformat("{0:4}", ["4"]), + <<"4 ">> = bformat("{0:{0}}", ["4"]), + <<"1.2yoDEF">> = bformat("{2}{0}{1}{3}", {yo, "DE", 1.2, <<"F">>}), + <<"cafebabe">> = bformat("{0:x}", {16#cafebabe}), + <<"CAFEBABE">> = bformat("{0:X}", {16#cafebabe}), + <<"CAFEBABE">> = bformat("{0:X}", {16#cafebabe}), + <<"755">> = bformat("{0:o}", {8#755}), + <<"a">> = bformat("{0:c}", {97}), + %% Horizontal ellipsis + <<226, 128, 166>> = bformat("{0:c}", {16#2026}), + <<"11">> = bformat("{0:b}", {3}), + <<"11">> = bformat("{0:b}", [3]), + <<"11">> = bformat("{three:b}", [{three, 3}]), + <<"11">> = bformat("{three:b}", [{"three", 3}]), + <<"11">> = bformat("{three:b}", [{<<"three">>, 3}]), + <<"\"foo\"">> = bformat("{0!r}", {"foo"}), + <<"2008-5-4">> = bformat("{0.0}-{0.1}-{0.2}", {{2008,5,4}}), + <<"2008-05-04">> = bformat("{0.0:04}-{0.1:02}-{0.2:02}", {{2008,5,4}}), + <<"foo6bar-6">> = bformat("foo{1}{0}-{1}", {bar, 6}), + <<"-'atom test'-">> = bformat("-{arg!r}-", [{arg, 'atom test'}]), + <<"2008-05-04">> = bformat("{0.0:0{1.0}}-{0.1:0{1.1}}-{0.2:0{1.2}}", + {{2008,5,4}, {4, 2, 2}}), + ok. + +std_test() -> + M = mochifmt_std:new(), + <<"01">> = bformat("{0}{1}", [0, 1], M), + ok. + +records_test() -> + M = mochifmt_records:new([{conversion, record_info(fields, conversion)}]), + R = #conversion{length=long, precision=hard, sign=peace}, + long = M:get_value("length", R), + hard = M:get_value("precision", R), + peace = M:get_value("sign", R), + <<"long hard">> = bformat("{length} {precision}", R, M), + <<"long hard">> = bformat("{0.length} {0.precision}", [R], M), + ok. + +-endif. |