Packages

Multiplayer game server framework

Current section

Files

Jump to
overworld src overworld_pb.erl
Raw

src/overworld_pb.erl

%% -*- coding: utf-8 -*-
%% @private
%% Automatically generated, do not edit
%% Generated by gpb_compile version 4.11.2
-module(overworld_pb).
-export([encode_msg/2, encode_msg/3]).
-export([decode_msg/2, decode_msg/3]).
-export([merge_msgs/3, merge_msgs/4]).
-export([verify_msg/2, verify_msg/3]).
-export([get_msg_defs/0]).
-export([get_msg_names/0]).
-export([get_group_names/0]).
-export([get_msg_or_group_names/0]).
-export([get_enum_names/0]).
-export([find_msg_def/1, fetch_msg_def/1]).
-export([find_enum_def/1, fetch_enum_def/1]).
-export([enum_symbol_by_value/2, enum_value_by_symbol/2]).
-export([
'enum_symbol_by_value_gen_response.status'/1,
'enum_value_by_symbol_gen_response.status'/1
]).
-export([get_service_names/0]).
-export([get_service_def/1]).
-export([get_rpc_names/1]).
-export([find_rpc_def/2, fetch_rpc_def/2]).
-export([fqbin_to_service_name/1]).
-export([service_name_to_fqbin/1]).
-export([fqbins_to_service_and_rpc_name/2]).
-export([service_and_rpc_name_to_fqbins/2]).
-export([fqbin_to_msg_name/1]).
-export([msg_name_to_fqbin/1]).
-export([fqbin_to_enum_name/1]).
-export([enum_name_to_fqbin/1]).
-export([get_package_name/0]).
-export([uses_packages/0]).
-export([source_basename/0]).
-export([get_all_source_basenames/0]).
-export([get_all_proto_names/0]).
-export([get_msg_containment/1]).
-export([get_pkg_containment/1]).
-export([get_service_containment/1]).
-export([get_rpc_containment/1]).
-export([get_enum_containment/1]).
-export([get_proto_by_msg_name_as_fqbin/1]).
-export([get_proto_by_service_name_as_fqbin/1]).
-export([get_proto_by_enum_name_as_fqbin/1]).
-export([get_protos_by_pkg_name_as_fqbin/1]).
-export([gpb_version_as_string/0, gpb_version_as_list/0]).
%% enumerated types
-type 'gen_response.status'() :: 'OK' | 'ERROR'.
-export_type(['gen_response.status'/0]).
%% message types
-type gen_response() ::
% = 1, enum gen_response.status
#{
status := 'OK' | 'ERROR' | integer(),
% = 2
msg => iodata()
}.
-type account_new() ::
% = 1
#{
email := iodata(),
% = 2
password := iodata()
}.
-type account_login() ::
% = 1
#{
email := iodata(),
% = 2
password := iodata()
}.
-type session_log() ::
% = 1
#{
msg := iodata(),
% = 2
color := iodata()
}.
-type session_beacon() ::
% = 1, 32 bits
#{id := non_neg_integer()}.
-type session_ping() ::
% = 1, 32 bits
#{id := non_neg_integer()}.
-type session_pong() ::
% = 1, 32 bits
#{latency := non_neg_integer()}.
-type session_id() ::
% = 1, 64 bits
#{id := integer()}.
-export_type([
'gen_response'/0,
'account_new'/0,
'account_login'/0,
'session_log'/0,
'session_beacon'/0,
'session_ping'/0,
'session_pong'/0,
'session_id'/0
]).
-spec encode_msg(
gen_response()
| account_new()
| account_login()
| session_log()
| session_beacon()
| session_ping()
| session_pong()
| session_id(),
atom()
) -> binary().
encode_msg(Msg, MsgName) when is_atom(MsgName) ->
encode_msg(Msg, MsgName, []).
-spec encode_msg(
gen_response()
| account_new()
| account_login()
| session_log()
| session_beacon()
| session_ping()
| session_pong()
| session_id(),
atom(),
list()
) -> binary().
encode_msg(Msg, MsgName, Opts) ->
case proplists:get_bool(verify, Opts) of
true -> verify_msg(Msg, MsgName, Opts);
false -> ok
end,
TrUserData = proplists:get_value(user_data, Opts),
case MsgName of
gen_response ->
encode_msg_gen_response(
id(Msg, TrUserData),
TrUserData
);
account_new ->
encode_msg_account_new(id(Msg, TrUserData), TrUserData);
account_login ->
encode_msg_account_login(
id(Msg, TrUserData),
TrUserData
);
session_log ->
encode_msg_session_log(id(Msg, TrUserData), TrUserData);
session_beacon ->
encode_msg_session_beacon(
id(Msg, TrUserData),
TrUserData
);
session_ping ->
encode_msg_session_ping(
id(Msg, TrUserData),
TrUserData
);
session_pong ->
encode_msg_session_pong(
id(Msg, TrUserData),
TrUserData
);
session_id ->
encode_msg_session_id(id(Msg, TrUserData), TrUserData)
end.
encode_msg_gen_response(Msg, TrUserData) ->
encode_msg_gen_response(Msg, <<>>, TrUserData).
encode_msg_gen_response(
#{status := F1} = M,
Bin,
TrUserData
) ->
B1 = begin
TrF1 = id(F1, TrUserData),
'e_enum_gen_response.status'(
TrF1,
<<Bin/binary, 8>>,
TrUserData
)
end,
case M of
#{msg := F2} ->
begin
TrF2 = id(F2, TrUserData),
e_type_string(TrF2, <<B1/binary, 18>>, TrUserData)
end;
_ ->
B1
end.
encode_msg_account_new(Msg, TrUserData) ->
encode_msg_account_new(Msg, <<>>, TrUserData).
encode_msg_account_new(
#{email := F1, password := F2},
Bin,
TrUserData
) ->
B1 = begin
TrF1 = id(F1, TrUserData),
e_type_string(TrF1, <<Bin/binary, 10>>, TrUserData)
end,
begin
TrF2 = id(F2, TrUserData),
e_type_string(TrF2, <<B1/binary, 18>>, TrUserData)
end.
encode_msg_account_login(Msg, TrUserData) ->
encode_msg_account_login(Msg, <<>>, TrUserData).
encode_msg_account_login(
#{email := F1, password := F2},
Bin,
TrUserData
) ->
B1 = begin
TrF1 = id(F1, TrUserData),
e_type_string(TrF1, <<Bin/binary, 10>>, TrUserData)
end,
begin
TrF2 = id(F2, TrUserData),
e_type_string(TrF2, <<B1/binary, 18>>, TrUserData)
end.
encode_msg_session_log(Msg, TrUserData) ->
encode_msg_session_log(Msg, <<>>, TrUserData).
encode_msg_session_log(
#{msg := F1, color := F2},
Bin,
TrUserData
) ->
B1 = begin
TrF1 = id(F1, TrUserData),
e_type_string(TrF1, <<Bin/binary, 10>>, TrUserData)
end,
begin
TrF2 = id(F2, TrUserData),
e_type_bytes(TrF2, <<B1/binary, 18>>, TrUserData)
end.
encode_msg_session_beacon(Msg, TrUserData) ->
encode_msg_session_beacon(Msg, <<>>, TrUserData).
encode_msg_session_beacon(
#{id := F1},
Bin,
TrUserData
) ->
begin
TrF1 = id(F1, TrUserData),
e_varint(TrF1, <<Bin/binary, 8>>, TrUserData)
end.
encode_msg_session_ping(Msg, TrUserData) ->
encode_msg_session_ping(Msg, <<>>, TrUserData).
encode_msg_session_ping(#{id := F1}, Bin, TrUserData) ->
begin
TrF1 = id(F1, TrUserData),
e_varint(TrF1, <<Bin/binary, 8>>, TrUserData)
end.
encode_msg_session_pong(Msg, TrUserData) ->
encode_msg_session_pong(Msg, <<>>, TrUserData).
encode_msg_session_pong(
#{latency := F1},
Bin,
TrUserData
) ->
begin
TrF1 = id(F1, TrUserData),
e_varint(TrF1, <<Bin/binary, 8>>, TrUserData)
end.
encode_msg_session_id(Msg, TrUserData) ->
encode_msg_session_id(Msg, <<>>, TrUserData).
encode_msg_session_id(#{id := F1}, Bin, TrUserData) ->
begin
TrF1 = id(F1, TrUserData),
e_type_int64(TrF1, <<Bin/binary, 8>>, TrUserData)
end.
'e_enum_gen_response.status'('OK', Bin, _TrUserData) ->
<<Bin/binary, 0>>;
'e_enum_gen_response.status'(
'ERROR',
Bin,
_TrUserData
) ->
<<Bin/binary, 1>>;
'e_enum_gen_response.status'(V, Bin, _TrUserData) ->
e_varint(V, Bin).
-compile({nowarn_unused_function, e_type_sint/3}).
e_type_sint(Value, Bin, _TrUserData) when Value >= 0 ->
e_varint(Value * 2, Bin);
e_type_sint(Value, Bin, _TrUserData) ->
e_varint(Value * -2 - 1, Bin).
-compile({nowarn_unused_function, e_type_int32/3}).
e_type_int32(Value, Bin, _TrUserData) when
0 =< Value, Value =< 127
->
<<Bin/binary, Value>>;
e_type_int32(Value, Bin, _TrUserData) ->
<<N:64/unsigned-native>> = <<Value:64/signed-native>>,
e_varint(N, Bin).
-compile({nowarn_unused_function, e_type_int64/3}).
e_type_int64(Value, Bin, _TrUserData) when
0 =< Value, Value =< 127
->
<<Bin/binary, Value>>;
e_type_int64(Value, Bin, _TrUserData) ->
<<N:64/unsigned-native>> = <<Value:64/signed-native>>,
e_varint(N, Bin).
-compile({nowarn_unused_function, e_type_bool/3}).
e_type_bool(true, Bin, _TrUserData) ->
<<Bin/binary, 1>>;
e_type_bool(false, Bin, _TrUserData) ->
<<Bin/binary, 0>>;
e_type_bool(1, Bin, _TrUserData) ->
<<Bin/binary, 1>>;
e_type_bool(0, Bin, _TrUserData) ->
<<Bin/binary, 0>>.
-compile({nowarn_unused_function, e_type_string/3}).
e_type_string(S, Bin, _TrUserData) ->
Utf8 = unicode:characters_to_binary(S),
Bin2 = e_varint(byte_size(Utf8), Bin),
<<Bin2/binary, Utf8/binary>>.
-compile({nowarn_unused_function, e_type_bytes/3}).
e_type_bytes(Bytes, Bin, _TrUserData) when
is_binary(Bytes)
->
Bin2 = e_varint(byte_size(Bytes), Bin),
<<Bin2/binary, Bytes/binary>>;
e_type_bytes(Bytes, Bin, _TrUserData) when
is_list(Bytes)
->
BytesBin = iolist_to_binary(Bytes),
Bin2 = e_varint(byte_size(BytesBin), Bin),
<<Bin2/binary, BytesBin/binary>>.
-compile({nowarn_unused_function, e_type_fixed32/3}).
e_type_fixed32(Value, Bin, _TrUserData) ->
<<Bin/binary, Value:32/little>>.
-compile({nowarn_unused_function, e_type_sfixed32/3}).
e_type_sfixed32(Value, Bin, _TrUserData) ->
<<Bin/binary, Value:32/little-signed>>.
-compile({nowarn_unused_function, e_type_fixed64/3}).
e_type_fixed64(Value, Bin, _TrUserData) ->
<<Bin/binary, Value:64/little>>.
-compile({nowarn_unused_function, e_type_sfixed64/3}).
e_type_sfixed64(Value, Bin, _TrUserData) ->
<<Bin/binary, Value:64/little-signed>>.
-compile({nowarn_unused_function, e_type_float/3}).
e_type_float(V, Bin, _) when is_number(V) ->
<<Bin/binary, V:32/little-float>>;
e_type_float(infinity, Bin, _) ->
<<Bin/binary, 0:16, 128, 127>>;
e_type_float('-infinity', Bin, _) ->
<<Bin/binary, 0:16, 128, 255>>;
e_type_float(nan, Bin, _) ->
<<Bin/binary, 0:16, 192, 127>>.
-compile({nowarn_unused_function, e_type_double/3}).
e_type_double(V, Bin, _) when is_number(V) ->
<<Bin/binary, V:64/little-float>>;
e_type_double(infinity, Bin, _) ->
<<Bin/binary, 0:48, 240, 127>>;
e_type_double('-infinity', Bin, _) ->
<<Bin/binary, 0:48, 240, 255>>;
e_type_double(nan, Bin, _) ->
<<Bin/binary, 0:48, 248, 127>>.
-compile({nowarn_unused_function, e_varint/3}).
e_varint(N, Bin, _TrUserData) -> e_varint(N, Bin).
-compile({nowarn_unused_function, e_varint/2}).
e_varint(N, Bin) when N =< 127 -> <<Bin/binary, N>>;
e_varint(N, Bin) ->
Bin2 = <<Bin/binary, (N band 127 bor 128)>>,
e_varint(N bsr 7, Bin2).
decode_msg(Bin, MsgName) when is_binary(Bin) ->
decode_msg(Bin, MsgName, []).
decode_msg(Bin, MsgName, Opts) when is_binary(Bin) ->
TrUserData = proplists:get_value(user_data, Opts),
decode_msg_1_catch(Bin, MsgName, TrUserData).
-ifdef('OTP_RELEASE').
decode_msg_1_catch(Bin, MsgName, TrUserData) ->
try
decode_msg_2_doit(MsgName, Bin, TrUserData)
catch
Class:Reason:StackTrace ->
error(
{gpb_error,
{decoding_failure,
{Bin, MsgName, {Class, Reason, StackTrace}}}}
)
end.
-else.
decode_msg_1_catch(Bin, MsgName, TrUserData) ->
try
decode_msg_2_doit(MsgName, Bin, TrUserData)
catch
Class:Reason ->
StackTrace = erlang:get_stacktrace(),
error(
{gpb_error,
{decoding_failure,
{Bin, MsgName, {Class, Reason, StackTrace}}}}
)
end.
-endif.
decode_msg_2_doit(gen_response, Bin, TrUserData) ->
id(
decode_msg_gen_response(Bin, TrUserData),
TrUserData
);
decode_msg_2_doit(account_new, Bin, TrUserData) ->
id(decode_msg_account_new(Bin, TrUserData), TrUserData);
decode_msg_2_doit(account_login, Bin, TrUserData) ->
id(
decode_msg_account_login(Bin, TrUserData),
TrUserData
);
decode_msg_2_doit(session_log, Bin, TrUserData) ->
id(decode_msg_session_log(Bin, TrUserData), TrUserData);
decode_msg_2_doit(session_beacon, Bin, TrUserData) ->
id(
decode_msg_session_beacon(Bin, TrUserData),
TrUserData
);
decode_msg_2_doit(session_ping, Bin, TrUserData) ->
id(
decode_msg_session_ping(Bin, TrUserData),
TrUserData
);
decode_msg_2_doit(session_pong, Bin, TrUserData) ->
id(
decode_msg_session_pong(Bin, TrUserData),
TrUserData
);
decode_msg_2_doit(session_id, Bin, TrUserData) ->
id(decode_msg_session_id(Bin, TrUserData), TrUserData).
decode_msg_gen_response(Bin, TrUserData) ->
dfp_read_field_def_gen_response(
Bin,
0,
0,
id('$undef', TrUserData),
id('$undef', TrUserData),
TrUserData
).
dfp_read_field_def_gen_response(
<<8, Rest/binary>>,
Z1,
Z2,
F@_1,
F@_2,
TrUserData
) ->
d_field_gen_response_status(
Rest,
Z1,
Z2,
F@_1,
F@_2,
TrUserData
);
dfp_read_field_def_gen_response(
<<18, Rest/binary>>,
Z1,
Z2,
F@_1,
F@_2,
TrUserData
) ->
d_field_gen_response_msg(
Rest,
Z1,
Z2,
F@_1,
F@_2,
TrUserData
);
dfp_read_field_def_gen_response(
<<>>,
0,
0,
F@_1,
F@_2,
_
) ->
S1 = #{status => F@_1},
if
F@_2 == '$undef' -> S1;
true -> S1#{msg => F@_2}
end;
dfp_read_field_def_gen_response(
Other,
Z1,
Z2,
F@_1,
F@_2,
TrUserData
) ->
dg_read_field_def_gen_response(
Other,
Z1,
Z2,
F@_1,
F@_2,
TrUserData
).
dg_read_field_def_gen_response(
<<1:1, X:7, Rest/binary>>,
N,
Acc,
F@_1,
F@_2,
TrUserData
) when
N < 32 - 7
->
dg_read_field_def_gen_response(
Rest,
N + 7,
X bsl N + Acc,
F@_1,
F@_2,
TrUserData
);
dg_read_field_def_gen_response(
<<0:1, X:7, Rest/binary>>,
N,
Acc,
F@_1,
F@_2,
TrUserData
) ->
Key = X bsl N + Acc,
case Key of
8 ->
d_field_gen_response_status(
Rest,
0,
0,
F@_1,
F@_2,
TrUserData
);
18 ->
d_field_gen_response_msg(
Rest,
0,
0,
F@_1,
F@_2,
TrUserData
);
_ ->
case Key band 7 of
0 ->
skip_varint_gen_response(
Rest,
0,
0,
F@_1,
F@_2,
TrUserData
);
1 ->
skip_64_gen_response(
Rest,
0,
0,
F@_1,
F@_2,
TrUserData
);
2 ->
skip_length_delimited_gen_response(
Rest,
0,
0,
F@_1,
F@_2,
TrUserData
);
3 ->
skip_group_gen_response(
Rest,
Key bsr 3,
0,
F@_1,
F@_2,
TrUserData
);
5 ->
skip_32_gen_response(Rest, 0, 0, F@_1, F@_2, TrUserData)
end
end;
dg_read_field_def_gen_response(
<<>>,
0,
0,
F@_1,
F@_2,
_
) ->
S1 = #{status => F@_1},
if
F@_2 == '$undef' -> S1;
true -> S1#{msg => F@_2}
end.
d_field_gen_response_status(
<<1:1, X:7, Rest/binary>>,
N,
Acc,
F@_1,
F@_2,
TrUserData
) when
N < 57
->
d_field_gen_response_status(
Rest,
N + 7,
X bsl N + Acc,
F@_1,
F@_2,
TrUserData
);
d_field_gen_response_status(
<<0:1, X:7, Rest/binary>>,
N,
Acc,
_,
F@_2,
TrUserData
) ->
{NewFValue, RestF} =
{
id(
'd_enum_gen_response.status'(begin
<<Res:32/signed-native>> = <<
(X bsl
N +
Acc):32/unsigned-native
>>,
id(Res, TrUserData)
end),
TrUserData
),
Rest
},
dfp_read_field_def_gen_response(
RestF,
0,
0,
NewFValue,
F@_2,
TrUserData
).
d_field_gen_response_msg(
<<1:1, X:7, Rest/binary>>,
N,
Acc,
F@_1,
F@_2,
TrUserData
) when
N < 57
->
d_field_gen_response_msg(
Rest,
N + 7,
X bsl N + Acc,
F@_1,
F@_2,
TrUserData
);
d_field_gen_response_msg(
<<0:1, X:7, Rest/binary>>,
N,
Acc,
F@_1,
_,
TrUserData
) ->
{NewFValue, RestF} = begin
Len = X bsl N + Acc,
<<Utf8:Len/binary, Rest2/binary>> = Rest,
{
id(
unicode:characters_to_list(Utf8, unicode),
TrUserData
),
Rest2
}
end,
dfp_read_field_def_gen_response(
RestF,
0,
0,
F@_1,
NewFValue,
TrUserData
).
skip_varint_gen_response(
<<1:1, _:7, Rest/binary>>,
Z1,
Z2,
F@_1,
F@_2,
TrUserData
) ->
skip_varint_gen_response(
Rest,
Z1,
Z2,
F@_1,
F@_2,
TrUserData
);
skip_varint_gen_response(
<<0:1, _:7, Rest/binary>>,
Z1,
Z2,
F@_1,
F@_2,
TrUserData
) ->
dfp_read_field_def_gen_response(
Rest,
Z1,
Z2,
F@_1,
F@_2,
TrUserData
).
skip_length_delimited_gen_response(
<<1:1, X:7, Rest/binary>>,
N,
Acc,
F@_1,
F@_2,
TrUserData
) when
N < 57
->
skip_length_delimited_gen_response(
Rest,
N + 7,
X bsl N + Acc,
F@_1,
F@_2,
TrUserData
);
skip_length_delimited_gen_response(
<<0:1, X:7, Rest/binary>>,
N,
Acc,
F@_1,
F@_2,
TrUserData
) ->
Length = X bsl N + Acc,
<<_:Length/binary, Rest2/binary>> = Rest,
dfp_read_field_def_gen_response(
Rest2,
0,
0,
F@_1,
F@_2,
TrUserData
).
skip_group_gen_response(
Bin,
FNum,
Z2,
F@_1,
F@_2,
TrUserData
) ->
{_, Rest} = read_group(Bin, FNum),
dfp_read_field_def_gen_response(
Rest,
0,
Z2,
F@_1,
F@_2,
TrUserData
).
skip_32_gen_response(
<<_:32, Rest/binary>>,
Z1,
Z2,
F@_1,
F@_2,
TrUserData
) ->
dfp_read_field_def_gen_response(
Rest,
Z1,
Z2,
F@_1,
F@_2,
TrUserData
).
skip_64_gen_response(
<<_:64, Rest/binary>>,
Z1,
Z2,
F@_1,
F@_2,
TrUserData
) ->
dfp_read_field_def_gen_response(
Rest,
Z1,
Z2,
F@_1,
F@_2,
TrUserData
).
decode_msg_account_new(Bin, TrUserData) ->
dfp_read_field_def_account_new(
Bin,
0,
0,
id('$undef', TrUserData),
id('$undef', TrUserData),
TrUserData
).
dfp_read_field_def_account_new(
<<10, Rest/binary>>,
Z1,
Z2,
F@_1,
F@_2,
TrUserData
) ->
d_field_account_new_email(
Rest,
Z1,
Z2,
F@_1,
F@_2,
TrUserData
);
dfp_read_field_def_account_new(
<<18, Rest/binary>>,
Z1,
Z2,
F@_1,
F@_2,
TrUserData
) ->
d_field_account_new_password(
Rest,
Z1,
Z2,
F@_1,
F@_2,
TrUserData
);
dfp_read_field_def_account_new(
<<>>,
0,
0,
F@_1,
F@_2,
_
) ->
#{email => F@_1, password => F@_2};
dfp_read_field_def_account_new(
Other,
Z1,
Z2,
F@_1,
F@_2,
TrUserData
) ->
dg_read_field_def_account_new(
Other,
Z1,
Z2,
F@_1,
F@_2,
TrUserData
).
dg_read_field_def_account_new(
<<1:1, X:7, Rest/binary>>,
N,
Acc,
F@_1,
F@_2,
TrUserData
) when
N < 32 - 7
->
dg_read_field_def_account_new(
Rest,
N + 7,
X bsl N + Acc,
F@_1,
F@_2,
TrUserData
);
dg_read_field_def_account_new(
<<0:1, X:7, Rest/binary>>,
N,
Acc,
F@_1,
F@_2,
TrUserData
) ->
Key = X bsl N + Acc,
case Key of
10 ->
d_field_account_new_email(
Rest,
0,
0,
F@_1,
F@_2,
TrUserData
);
18 ->
d_field_account_new_password(
Rest,
0,
0,
F@_1,
F@_2,
TrUserData
);
_ ->
case Key band 7 of
0 ->
skip_varint_account_new(
Rest,
0,
0,
F@_1,
F@_2,
TrUserData
);
1 ->
skip_64_account_new(Rest, 0, 0, F@_1, F@_2, TrUserData);
2 ->
skip_length_delimited_account_new(
Rest,
0,
0,
F@_1,
F@_2,
TrUserData
);
3 ->
skip_group_account_new(
Rest,
Key bsr 3,
0,
F@_1,
F@_2,
TrUserData
);
5 ->
skip_32_account_new(Rest, 0, 0, F@_1, F@_2, TrUserData)
end
end;
dg_read_field_def_account_new(
<<>>,
0,
0,
F@_1,
F@_2,
_
) ->
#{email => F@_1, password => F@_2}.
d_field_account_new_email(
<<1:1, X:7, Rest/binary>>,
N,
Acc,
F@_1,
F@_2,
TrUserData
) when
N < 57
->
d_field_account_new_email(
Rest,
N + 7,
X bsl N + Acc,
F@_1,
F@_2,
TrUserData
);
d_field_account_new_email(
<<0:1, X:7, Rest/binary>>,
N,
Acc,
_,
F@_2,
TrUserData
) ->
{NewFValue, RestF} = begin
Len = X bsl N + Acc,
<<Utf8:Len/binary, Rest2/binary>> = Rest,
{
id(
unicode:characters_to_list(Utf8, unicode),
TrUserData
),
Rest2
}
end,
dfp_read_field_def_account_new(
RestF,
0,
0,
NewFValue,
F@_2,
TrUserData
).
d_field_account_new_password(
<<1:1, X:7, Rest/binary>>,
N,
Acc,
F@_1,
F@_2,
TrUserData
) when
N < 57
->
d_field_account_new_password(
Rest,
N + 7,
X bsl N + Acc,
F@_1,
F@_2,
TrUserData
);
d_field_account_new_password(
<<0:1, X:7, Rest/binary>>,
N,
Acc,
F@_1,
_,
TrUserData
) ->
{NewFValue, RestF} = begin
Len = X bsl N + Acc,
<<Utf8:Len/binary, Rest2/binary>> = Rest,
{
id(
unicode:characters_to_list(Utf8, unicode),
TrUserData
),
Rest2
}
end,
dfp_read_field_def_account_new(
RestF,
0,
0,
F@_1,
NewFValue,
TrUserData
).
skip_varint_account_new(
<<1:1, _:7, Rest/binary>>,
Z1,
Z2,
F@_1,
F@_2,
TrUserData
) ->
skip_varint_account_new(
Rest,
Z1,
Z2,
F@_1,
F@_2,
TrUserData
);
skip_varint_account_new(
<<0:1, _:7, Rest/binary>>,
Z1,
Z2,
F@_1,
F@_2,
TrUserData
) ->
dfp_read_field_def_account_new(
Rest,
Z1,
Z2,
F@_1,
F@_2,
TrUserData
).
skip_length_delimited_account_new(
<<1:1, X:7, Rest/binary>>,
N,
Acc,
F@_1,
F@_2,
TrUserData
) when
N < 57
->
skip_length_delimited_account_new(
Rest,
N + 7,
X bsl N + Acc,
F@_1,
F@_2,
TrUserData
);
skip_length_delimited_account_new(
<<0:1, X:7, Rest/binary>>,
N,
Acc,
F@_1,
F@_2,
TrUserData
) ->
Length = X bsl N + Acc,
<<_:Length/binary, Rest2/binary>> = Rest,
dfp_read_field_def_account_new(
Rest2,
0,
0,
F@_1,
F@_2,
TrUserData
).
skip_group_account_new(
Bin,
FNum,
Z2,
F@_1,
F@_2,
TrUserData
) ->
{_, Rest} = read_group(Bin, FNum),
dfp_read_field_def_account_new(
Rest,
0,
Z2,
F@_1,
F@_2,
TrUserData
).
skip_32_account_new(
<<_:32, Rest/binary>>,
Z1,
Z2,
F@_1,
F@_2,
TrUserData
) ->
dfp_read_field_def_account_new(
Rest,
Z1,
Z2,
F@_1,
F@_2,
TrUserData
).
skip_64_account_new(
<<_:64, Rest/binary>>,
Z1,
Z2,
F@_1,
F@_2,
TrUserData
) ->
dfp_read_field_def_account_new(
Rest,
Z1,
Z2,
F@_1,
F@_2,
TrUserData
).
decode_msg_account_login(Bin, TrUserData) ->
dfp_read_field_def_account_login(
Bin,
0,
0,
id('$undef', TrUserData),
id('$undef', TrUserData),
TrUserData
).
dfp_read_field_def_account_login(
<<10, Rest/binary>>,
Z1,
Z2,
F@_1,
F@_2,
TrUserData
) ->
d_field_account_login_email(
Rest,
Z1,
Z2,
F@_1,
F@_2,
TrUserData
);
dfp_read_field_def_account_login(
<<18, Rest/binary>>,
Z1,
Z2,
F@_1,
F@_2,
TrUserData
) ->
d_field_account_login_password(
Rest,
Z1,
Z2,
F@_1,
F@_2,
TrUserData
);
dfp_read_field_def_account_login(
<<>>,
0,
0,
F@_1,
F@_2,
_
) ->
#{email => F@_1, password => F@_2};
dfp_read_field_def_account_login(
Other,
Z1,
Z2,
F@_1,
F@_2,
TrUserData
) ->
dg_read_field_def_account_login(
Other,
Z1,
Z2,
F@_1,
F@_2,
TrUserData
).
dg_read_field_def_account_login(
<<1:1, X:7, Rest/binary>>,
N,
Acc,
F@_1,
F@_2,
TrUserData
) when
N < 32 - 7
->
dg_read_field_def_account_login(
Rest,
N + 7,
X bsl N + Acc,
F@_1,
F@_2,
TrUserData
);
dg_read_field_def_account_login(
<<0:1, X:7, Rest/binary>>,
N,
Acc,
F@_1,
F@_2,
TrUserData
) ->
Key = X bsl N + Acc,
case Key of
10 ->
d_field_account_login_email(
Rest,
0,
0,
F@_1,
F@_2,
TrUserData
);
18 ->
d_field_account_login_password(
Rest,
0,
0,
F@_1,
F@_2,
TrUserData
);
_ ->
case Key band 7 of
0 ->
skip_varint_account_login(
Rest,
0,
0,
F@_1,
F@_2,
TrUserData
);
1 ->
skip_64_account_login(
Rest,
0,
0,
F@_1,
F@_2,
TrUserData
);
2 ->
skip_length_delimited_account_login(
Rest,
0,
0,
F@_1,
F@_2,
TrUserData
);
3 ->
skip_group_account_login(
Rest,
Key bsr 3,
0,
F@_1,
F@_2,
TrUserData
);
5 ->
skip_32_account_login(
Rest,
0,
0,
F@_1,
F@_2,
TrUserData
)
end
end;
dg_read_field_def_account_login(
<<>>,
0,
0,
F@_1,
F@_2,
_
) ->
#{email => F@_1, password => F@_2}.
d_field_account_login_email(
<<1:1, X:7, Rest/binary>>,
N,
Acc,
F@_1,
F@_2,
TrUserData
) when
N < 57
->
d_field_account_login_email(
Rest,
N + 7,
X bsl N + Acc,
F@_1,
F@_2,
TrUserData
);
d_field_account_login_email(
<<0:1, X:7, Rest/binary>>,
N,
Acc,
_,
F@_2,
TrUserData
) ->
{NewFValue, RestF} = begin
Len = X bsl N + Acc,
<<Utf8:Len/binary, Rest2/binary>> = Rest,
{
id(
unicode:characters_to_list(Utf8, unicode),
TrUserData
),
Rest2
}
end,
dfp_read_field_def_account_login(
RestF,
0,
0,
NewFValue,
F@_2,
TrUserData
).
d_field_account_login_password(
<<1:1, X:7, Rest/binary>>,
N,
Acc,
F@_1,
F@_2,
TrUserData
) when
N < 57
->
d_field_account_login_password(
Rest,
N + 7,
X bsl N + Acc,
F@_1,
F@_2,
TrUserData
);
d_field_account_login_password(
<<0:1, X:7, Rest/binary>>,
N,
Acc,
F@_1,
_,
TrUserData
) ->
{NewFValue, RestF} = begin
Len = X bsl N + Acc,
<<Utf8:Len/binary, Rest2/binary>> = Rest,
{
id(
unicode:characters_to_list(Utf8, unicode),
TrUserData
),
Rest2
}
end,
dfp_read_field_def_account_login(
RestF,
0,
0,
F@_1,
NewFValue,
TrUserData
).
skip_varint_account_login(
<<1:1, _:7, Rest/binary>>,
Z1,
Z2,
F@_1,
F@_2,
TrUserData
) ->
skip_varint_account_login(
Rest,
Z1,
Z2,
F@_1,
F@_2,
TrUserData
);
skip_varint_account_login(
<<0:1, _:7, Rest/binary>>,
Z1,
Z2,
F@_1,
F@_2,
TrUserData
) ->
dfp_read_field_def_account_login(
Rest,
Z1,
Z2,
F@_1,
F@_2,
TrUserData
).
skip_length_delimited_account_login(
<<1:1, X:7, Rest/binary>>,
N,
Acc,
F@_1,
F@_2,
TrUserData
) when
N < 57
->
skip_length_delimited_account_login(
Rest,
N + 7,
X bsl N + Acc,
F@_1,
F@_2,
TrUserData
);
skip_length_delimited_account_login(
<<0:1, X:7, Rest/binary>>,
N,
Acc,
F@_1,
F@_2,
TrUserData
) ->
Length = X bsl N + Acc,
<<_:Length/binary, Rest2/binary>> = Rest,
dfp_read_field_def_account_login(
Rest2,
0,
0,
F@_1,
F@_2,
TrUserData
).
skip_group_account_login(
Bin,
FNum,
Z2,
F@_1,
F@_2,
TrUserData
) ->
{_, Rest} = read_group(Bin, FNum),
dfp_read_field_def_account_login(
Rest,
0,
Z2,
F@_1,
F@_2,
TrUserData
).
skip_32_account_login(
<<_:32, Rest/binary>>,
Z1,
Z2,
F@_1,
F@_2,
TrUserData
) ->
dfp_read_field_def_account_login(
Rest,
Z1,
Z2,
F@_1,
F@_2,
TrUserData
).
skip_64_account_login(
<<_:64, Rest/binary>>,
Z1,
Z2,
F@_1,
F@_2,
TrUserData
) ->
dfp_read_field_def_account_login(
Rest,
Z1,
Z2,
F@_1,
F@_2,
TrUserData
).
decode_msg_session_log(Bin, TrUserData) ->
dfp_read_field_def_session_log(
Bin,
0,
0,
id('$undef', TrUserData),
id('$undef', TrUserData),
TrUserData
).
dfp_read_field_def_session_log(
<<10, Rest/binary>>,
Z1,
Z2,
F@_1,
F@_2,
TrUserData
) ->
d_field_session_log_msg(
Rest,
Z1,
Z2,
F@_1,
F@_2,
TrUserData
);
dfp_read_field_def_session_log(
<<18, Rest/binary>>,
Z1,
Z2,
F@_1,
F@_2,
TrUserData
) ->
d_field_session_log_color(
Rest,
Z1,
Z2,
F@_1,
F@_2,
TrUserData
);
dfp_read_field_def_session_log(
<<>>,
0,
0,
F@_1,
F@_2,
_
) ->
#{msg => F@_1, color => F@_2};
dfp_read_field_def_session_log(
Other,
Z1,
Z2,
F@_1,
F@_2,
TrUserData
) ->
dg_read_field_def_session_log(
Other,
Z1,
Z2,
F@_1,
F@_2,
TrUserData
).
dg_read_field_def_session_log(
<<1:1, X:7, Rest/binary>>,
N,
Acc,
F@_1,
F@_2,
TrUserData
) when
N < 32 - 7
->
dg_read_field_def_session_log(
Rest,
N + 7,
X bsl N + Acc,
F@_1,
F@_2,
TrUserData
);
dg_read_field_def_session_log(
<<0:1, X:7, Rest/binary>>,
N,
Acc,
F@_1,
F@_2,
TrUserData
) ->
Key = X bsl N + Acc,
case Key of
10 ->
d_field_session_log_msg(
Rest,
0,
0,
F@_1,
F@_2,
TrUserData
);
18 ->
d_field_session_log_color(
Rest,
0,
0,
F@_1,
F@_2,
TrUserData
);
_ ->
case Key band 7 of
0 ->
skip_varint_session_log(
Rest,
0,
0,
F@_1,
F@_2,
TrUserData
);
1 ->
skip_64_session_log(Rest, 0, 0, F@_1, F@_2, TrUserData);
2 ->
skip_length_delimited_session_log(
Rest,
0,
0,
F@_1,
F@_2,
TrUserData
);
3 ->
skip_group_session_log(
Rest,
Key bsr 3,
0,
F@_1,
F@_2,
TrUserData
);
5 ->
skip_32_session_log(Rest, 0, 0, F@_1, F@_2, TrUserData)
end
end;
dg_read_field_def_session_log(
<<>>,
0,
0,
F@_1,
F@_2,
_
) ->
#{msg => F@_1, color => F@_2}.
d_field_session_log_msg(
<<1:1, X:7, Rest/binary>>,
N,
Acc,
F@_1,
F@_2,
TrUserData
) when
N < 57
->
d_field_session_log_msg(
Rest,
N + 7,
X bsl N + Acc,
F@_1,
F@_2,
TrUserData
);
d_field_session_log_msg(
<<0:1, X:7, Rest/binary>>,
N,
Acc,
_,
F@_2,
TrUserData
) ->
{NewFValue, RestF} = begin
Len = X bsl N + Acc,
<<Utf8:Len/binary, Rest2/binary>> = Rest,
{
id(
unicode:characters_to_list(Utf8, unicode),
TrUserData
),
Rest2
}
end,
dfp_read_field_def_session_log(
RestF,
0,
0,
NewFValue,
F@_2,
TrUserData
).
d_field_session_log_color(
<<1:1, X:7, Rest/binary>>,
N,
Acc,
F@_1,
F@_2,
TrUserData
) when
N < 57
->
d_field_session_log_color(
Rest,
N + 7,
X bsl N + Acc,
F@_1,
F@_2,
TrUserData
);
d_field_session_log_color(
<<0:1, X:7, Rest/binary>>,
N,
Acc,
F@_1,
_,
TrUserData
) ->
{NewFValue, RestF} = begin
Len = X bsl N + Acc,
<<Bytes:Len/binary, Rest2/binary>> = Rest,
{id(binary:copy(Bytes), TrUserData), Rest2}
end,
dfp_read_field_def_session_log(
RestF,
0,
0,
F@_1,
NewFValue,
TrUserData
).
skip_varint_session_log(
<<1:1, _:7, Rest/binary>>,
Z1,
Z2,
F@_1,
F@_2,
TrUserData
) ->
skip_varint_session_log(
Rest,
Z1,
Z2,
F@_1,
F@_2,
TrUserData
);
skip_varint_session_log(
<<0:1, _:7, Rest/binary>>,
Z1,
Z2,
F@_1,
F@_2,
TrUserData
) ->
dfp_read_field_def_session_log(
Rest,
Z1,
Z2,
F@_1,
F@_2,
TrUserData
).
skip_length_delimited_session_log(
<<1:1, X:7, Rest/binary>>,
N,
Acc,
F@_1,
F@_2,
TrUserData
) when
N < 57
->
skip_length_delimited_session_log(
Rest,
N + 7,
X bsl N + Acc,
F@_1,
F@_2,
TrUserData
);
skip_length_delimited_session_log(
<<0:1, X:7, Rest/binary>>,
N,
Acc,
F@_1,
F@_2,
TrUserData
) ->
Length = X bsl N + Acc,
<<_:Length/binary, Rest2/binary>> = Rest,
dfp_read_field_def_session_log(
Rest2,
0,
0,
F@_1,
F@_2,
TrUserData
).
skip_group_session_log(
Bin,
FNum,
Z2,
F@_1,
F@_2,
TrUserData
) ->
{_, Rest} = read_group(Bin, FNum),
dfp_read_field_def_session_log(
Rest,
0,
Z2,
F@_1,
F@_2,
TrUserData
).
skip_32_session_log(
<<_:32, Rest/binary>>,
Z1,
Z2,
F@_1,
F@_2,
TrUserData
) ->
dfp_read_field_def_session_log(
Rest,
Z1,
Z2,
F@_1,
F@_2,
TrUserData
).
skip_64_session_log(
<<_:64, Rest/binary>>,
Z1,
Z2,
F@_1,
F@_2,
TrUserData
) ->
dfp_read_field_def_session_log(
Rest,
Z1,
Z2,
F@_1,
F@_2,
TrUserData
).
decode_msg_session_beacon(Bin, TrUserData) ->
dfp_read_field_def_session_beacon(
Bin,
0,
0,
id('$undef', TrUserData),
TrUserData
).
dfp_read_field_def_session_beacon(
<<8, Rest/binary>>,
Z1,
Z2,
F@_1,
TrUserData
) ->
d_field_session_beacon_id(
Rest,
Z1,
Z2,
F@_1,
TrUserData
);
dfp_read_field_def_session_beacon(
<<>>,
0,
0,
F@_1,
_
) ->
#{id => F@_1};
dfp_read_field_def_session_beacon(
Other,
Z1,
Z2,
F@_1,
TrUserData
) ->
dg_read_field_def_session_beacon(
Other,
Z1,
Z2,
F@_1,
TrUserData
).
dg_read_field_def_session_beacon(
<<1:1, X:7, Rest/binary>>,
N,
Acc,
F@_1,
TrUserData
) when
N < 32 - 7
->
dg_read_field_def_session_beacon(
Rest,
N + 7,
X bsl N + Acc,
F@_1,
TrUserData
);
dg_read_field_def_session_beacon(
<<0:1, X:7, Rest/binary>>,
N,
Acc,
F@_1,
TrUserData
) ->
Key = X bsl N + Acc,
case Key of
8 ->
d_field_session_beacon_id(Rest, 0, 0, F@_1, TrUserData);
_ ->
case Key band 7 of
0 ->
skip_varint_session_beacon(
Rest,
0,
0,
F@_1,
TrUserData
);
1 ->
skip_64_session_beacon(Rest, 0, 0, F@_1, TrUserData);
2 ->
skip_length_delimited_session_beacon(
Rest,
0,
0,
F@_1,
TrUserData
);
3 ->
skip_group_session_beacon(
Rest,
Key bsr 3,
0,
F@_1,
TrUserData
);
5 ->
skip_32_session_beacon(Rest, 0, 0, F@_1, TrUserData)
end
end;
dg_read_field_def_session_beacon(<<>>, 0, 0, F@_1, _) ->
#{id => F@_1}.
d_field_session_beacon_id(
<<1:1, X:7, Rest/binary>>,
N,
Acc,
F@_1,
TrUserData
) when
N < 57
->
d_field_session_beacon_id(
Rest,
N + 7,
X bsl N + Acc,
F@_1,
TrUserData
);
d_field_session_beacon_id(
<<0:1, X:7, Rest/binary>>,
N,
Acc,
_,
TrUserData
) ->
{NewFValue, RestF} = {id(X bsl N + Acc, TrUserData), Rest},
dfp_read_field_def_session_beacon(
RestF,
0,
0,
NewFValue,
TrUserData
).
skip_varint_session_beacon(
<<1:1, _:7, Rest/binary>>,
Z1,
Z2,
F@_1,
TrUserData
) ->
skip_varint_session_beacon(
Rest,
Z1,
Z2,
F@_1,
TrUserData
);
skip_varint_session_beacon(
<<0:1, _:7, Rest/binary>>,
Z1,
Z2,
F@_1,
TrUserData
) ->
dfp_read_field_def_session_beacon(
Rest,
Z1,
Z2,
F@_1,
TrUserData
).
skip_length_delimited_session_beacon(
<<1:1, X:7, Rest/binary>>,
N,
Acc,
F@_1,
TrUserData
) when
N < 57
->
skip_length_delimited_session_beacon(
Rest,
N + 7,
X bsl N + Acc,
F@_1,
TrUserData
);
skip_length_delimited_session_beacon(
<<0:1, X:7, Rest/binary>>,
N,
Acc,
F@_1,
TrUserData
) ->
Length = X bsl N + Acc,
<<_:Length/binary, Rest2/binary>> = Rest,
dfp_read_field_def_session_beacon(
Rest2,
0,
0,
F@_1,
TrUserData
).
skip_group_session_beacon(
Bin,
FNum,
Z2,
F@_1,
TrUserData
) ->
{_, Rest} = read_group(Bin, FNum),
dfp_read_field_def_session_beacon(
Rest,
0,
Z2,
F@_1,
TrUserData
).
skip_32_session_beacon(
<<_:32, Rest/binary>>,
Z1,
Z2,
F@_1,
TrUserData
) ->
dfp_read_field_def_session_beacon(
Rest,
Z1,
Z2,
F@_1,
TrUserData
).
skip_64_session_beacon(
<<_:64, Rest/binary>>,
Z1,
Z2,
F@_1,
TrUserData
) ->
dfp_read_field_def_session_beacon(
Rest,
Z1,
Z2,
F@_1,
TrUserData
).
decode_msg_session_ping(Bin, TrUserData) ->
dfp_read_field_def_session_ping(
Bin,
0,
0,
id('$undef', TrUserData),
TrUserData
).
dfp_read_field_def_session_ping(
<<8, Rest/binary>>,
Z1,
Z2,
F@_1,
TrUserData
) ->
d_field_session_ping_id(Rest, Z1, Z2, F@_1, TrUserData);
dfp_read_field_def_session_ping(<<>>, 0, 0, F@_1, _) ->
#{id => F@_1};
dfp_read_field_def_session_ping(
Other,
Z1,
Z2,
F@_1,
TrUserData
) ->
dg_read_field_def_session_ping(
Other,
Z1,
Z2,
F@_1,
TrUserData
).
dg_read_field_def_session_ping(
<<1:1, X:7, Rest/binary>>,
N,
Acc,
F@_1,
TrUserData
) when
N < 32 - 7
->
dg_read_field_def_session_ping(
Rest,
N + 7,
X bsl N + Acc,
F@_1,
TrUserData
);
dg_read_field_def_session_ping(
<<0:1, X:7, Rest/binary>>,
N,
Acc,
F@_1,
TrUserData
) ->
Key = X bsl N + Acc,
case Key of
8 ->
d_field_session_ping_id(Rest, 0, 0, F@_1, TrUserData);
_ ->
case Key band 7 of
0 ->
skip_varint_session_ping(Rest, 0, 0, F@_1, TrUserData);
1 ->
skip_64_session_ping(Rest, 0, 0, F@_1, TrUserData);
2 ->
skip_length_delimited_session_ping(
Rest,
0,
0,
F@_1,
TrUserData
);
3 ->
skip_group_session_ping(
Rest,
Key bsr 3,
0,
F@_1,
TrUserData
);
5 ->
skip_32_session_ping(Rest, 0, 0, F@_1, TrUserData)
end
end;
dg_read_field_def_session_ping(<<>>, 0, 0, F@_1, _) ->
#{id => F@_1}.
d_field_session_ping_id(
<<1:1, X:7, Rest/binary>>,
N,
Acc,
F@_1,
TrUserData
) when
N < 57
->
d_field_session_ping_id(
Rest,
N + 7,
X bsl N + Acc,
F@_1,
TrUserData
);
d_field_session_ping_id(
<<0:1, X:7, Rest/binary>>,
N,
Acc,
_,
TrUserData
) ->
{NewFValue, RestF} = {id(X bsl N + Acc, TrUserData), Rest},
dfp_read_field_def_session_ping(
RestF,
0,
0,
NewFValue,
TrUserData
).
skip_varint_session_ping(
<<1:1, _:7, Rest/binary>>,
Z1,
Z2,
F@_1,
TrUserData
) ->
skip_varint_session_ping(
Rest,
Z1,
Z2,
F@_1,
TrUserData
);
skip_varint_session_ping(
<<0:1, _:7, Rest/binary>>,
Z1,
Z2,
F@_1,
TrUserData
) ->
dfp_read_field_def_session_ping(
Rest,
Z1,
Z2,
F@_1,
TrUserData
).
skip_length_delimited_session_ping(
<<1:1, X:7, Rest/binary>>,
N,
Acc,
F@_1,
TrUserData
) when
N < 57
->
skip_length_delimited_session_ping(
Rest,
N + 7,
X bsl N + Acc,
F@_1,
TrUserData
);
skip_length_delimited_session_ping(
<<0:1, X:7, Rest/binary>>,
N,
Acc,
F@_1,
TrUserData
) ->
Length = X bsl N + Acc,
<<_:Length/binary, Rest2/binary>> = Rest,
dfp_read_field_def_session_ping(
Rest2,
0,
0,
F@_1,
TrUserData
).
skip_group_session_ping(
Bin,
FNum,
Z2,
F@_1,
TrUserData
) ->
{_, Rest} = read_group(Bin, FNum),
dfp_read_field_def_session_ping(
Rest,
0,
Z2,
F@_1,
TrUserData
).
skip_32_session_ping(
<<_:32, Rest/binary>>,
Z1,
Z2,
F@_1,
TrUserData
) ->
dfp_read_field_def_session_ping(
Rest,
Z1,
Z2,
F@_1,
TrUserData
).
skip_64_session_ping(
<<_:64, Rest/binary>>,
Z1,
Z2,
F@_1,
TrUserData
) ->
dfp_read_field_def_session_ping(
Rest,
Z1,
Z2,
F@_1,
TrUserData
).
decode_msg_session_pong(Bin, TrUserData) ->
dfp_read_field_def_session_pong(
Bin,
0,
0,
id('$undef', TrUserData),
TrUserData
).
dfp_read_field_def_session_pong(
<<8, Rest/binary>>,
Z1,
Z2,
F@_1,
TrUserData
) ->
d_field_session_pong_latency(
Rest,
Z1,
Z2,
F@_1,
TrUserData
);
dfp_read_field_def_session_pong(<<>>, 0, 0, F@_1, _) ->
#{latency => F@_1};
dfp_read_field_def_session_pong(
Other,
Z1,
Z2,
F@_1,
TrUserData
) ->
dg_read_field_def_session_pong(
Other,
Z1,
Z2,
F@_1,
TrUserData
).
dg_read_field_def_session_pong(
<<1:1, X:7, Rest/binary>>,
N,
Acc,
F@_1,
TrUserData
) when
N < 32 - 7
->
dg_read_field_def_session_pong(
Rest,
N + 7,
X bsl N + Acc,
F@_1,
TrUserData
);
dg_read_field_def_session_pong(
<<0:1, X:7, Rest/binary>>,
N,
Acc,
F@_1,
TrUserData
) ->
Key = X bsl N + Acc,
case Key of
8 ->
d_field_session_pong_latency(
Rest,
0,
0,
F@_1,
TrUserData
);
_ ->
case Key band 7 of
0 ->
skip_varint_session_pong(Rest, 0, 0, F@_1, TrUserData);
1 ->
skip_64_session_pong(Rest, 0, 0, F@_1, TrUserData);
2 ->
skip_length_delimited_session_pong(
Rest,
0,
0,
F@_1,
TrUserData
);
3 ->
skip_group_session_pong(
Rest,
Key bsr 3,
0,
F@_1,
TrUserData
);
5 ->
skip_32_session_pong(Rest, 0, 0, F@_1, TrUserData)
end
end;
dg_read_field_def_session_pong(<<>>, 0, 0, F@_1, _) ->
#{latency => F@_1}.
d_field_session_pong_latency(
<<1:1, X:7, Rest/binary>>,
N,
Acc,
F@_1,
TrUserData
) when
N < 57
->
d_field_session_pong_latency(
Rest,
N + 7,
X bsl N + Acc,
F@_1,
TrUserData
);
d_field_session_pong_latency(
<<0:1, X:7, Rest/binary>>,
N,
Acc,
_,
TrUserData
) ->
{NewFValue, RestF} = {id(X bsl N + Acc, TrUserData), Rest},
dfp_read_field_def_session_pong(
RestF,
0,
0,
NewFValue,
TrUserData
).
skip_varint_session_pong(
<<1:1, _:7, Rest/binary>>,
Z1,
Z2,
F@_1,
TrUserData
) ->
skip_varint_session_pong(
Rest,
Z1,
Z2,
F@_1,
TrUserData
);
skip_varint_session_pong(
<<0:1, _:7, Rest/binary>>,
Z1,
Z2,
F@_1,
TrUserData
) ->
dfp_read_field_def_session_pong(
Rest,
Z1,
Z2,
F@_1,
TrUserData
).
skip_length_delimited_session_pong(
<<1:1, X:7, Rest/binary>>,
N,
Acc,
F@_1,
TrUserData
) when
N < 57
->
skip_length_delimited_session_pong(
Rest,
N + 7,
X bsl N + Acc,
F@_1,
TrUserData
);
skip_length_delimited_session_pong(
<<0:1, X:7, Rest/binary>>,
N,
Acc,
F@_1,
TrUserData
) ->
Length = X bsl N + Acc,
<<_:Length/binary, Rest2/binary>> = Rest,
dfp_read_field_def_session_pong(
Rest2,
0,
0,
F@_1,
TrUserData
).
skip_group_session_pong(
Bin,
FNum,
Z2,
F@_1,
TrUserData
) ->
{_, Rest} = read_group(Bin, FNum),
dfp_read_field_def_session_pong(
Rest,
0,
Z2,
F@_1,
TrUserData
).
skip_32_session_pong(
<<_:32, Rest/binary>>,
Z1,
Z2,
F@_1,
TrUserData
) ->
dfp_read_field_def_session_pong(
Rest,
Z1,
Z2,
F@_1,
TrUserData
).
skip_64_session_pong(
<<_:64, Rest/binary>>,
Z1,
Z2,
F@_1,
TrUserData
) ->
dfp_read_field_def_session_pong(
Rest,
Z1,
Z2,
F@_1,
TrUserData
).
decode_msg_session_id(Bin, TrUserData) ->
dfp_read_field_def_session_id(
Bin,
0,
0,
id('$undef', TrUserData),
TrUserData
).
dfp_read_field_def_session_id(
<<8, Rest/binary>>,
Z1,
Z2,
F@_1,
TrUserData
) ->
d_field_session_id_id(Rest, Z1, Z2, F@_1, TrUserData);
dfp_read_field_def_session_id(<<>>, 0, 0, F@_1, _) ->
#{id => F@_1};
dfp_read_field_def_session_id(
Other,
Z1,
Z2,
F@_1,
TrUserData
) ->
dg_read_field_def_session_id(
Other,
Z1,
Z2,
F@_1,
TrUserData
).
dg_read_field_def_session_id(
<<1:1, X:7, Rest/binary>>,
N,
Acc,
F@_1,
TrUserData
) when
N < 32 - 7
->
dg_read_field_def_session_id(
Rest,
N + 7,
X bsl N + Acc,
F@_1,
TrUserData
);
dg_read_field_def_session_id(
<<0:1, X:7, Rest/binary>>,
N,
Acc,
F@_1,
TrUserData
) ->
Key = X bsl N + Acc,
case Key of
8 ->
d_field_session_id_id(Rest, 0, 0, F@_1, TrUserData);
_ ->
case Key band 7 of
0 ->
skip_varint_session_id(Rest, 0, 0, F@_1, TrUserData);
1 ->
skip_64_session_id(Rest, 0, 0, F@_1, TrUserData);
2 ->
skip_length_delimited_session_id(
Rest,
0,
0,
F@_1,
TrUserData
);
3 ->
skip_group_session_id(
Rest,
Key bsr 3,
0,
F@_1,
TrUserData
);
5 ->
skip_32_session_id(Rest, 0, 0, F@_1, TrUserData)
end
end;
dg_read_field_def_session_id(<<>>, 0, 0, F@_1, _) ->
#{id => F@_1}.
d_field_session_id_id(
<<1:1, X:7, Rest/binary>>,
N,
Acc,
F@_1,
TrUserData
) when
N < 57
->
d_field_session_id_id(
Rest,
N + 7,
X bsl N + Acc,
F@_1,
TrUserData
);
d_field_session_id_id(
<<0:1, X:7, Rest/binary>>,
N,
Acc,
_,
TrUserData
) ->
{NewFValue, RestF} = {
begin
<<Res:64/signed-native>> = <<
(X bsl N +
Acc):64/unsigned-native
>>,
id(Res, TrUserData)
end,
Rest
},
dfp_read_field_def_session_id(
RestF,
0,
0,
NewFValue,
TrUserData
).
skip_varint_session_id(
<<1:1, _:7, Rest/binary>>,
Z1,
Z2,
F@_1,
TrUserData
) ->
skip_varint_session_id(Rest, Z1, Z2, F@_1, TrUserData);
skip_varint_session_id(
<<0:1, _:7, Rest/binary>>,
Z1,
Z2,
F@_1,
TrUserData
) ->
dfp_read_field_def_session_id(
Rest,
Z1,
Z2,
F@_1,
TrUserData
).
skip_length_delimited_session_id(
<<1:1, X:7, Rest/binary>>,
N,
Acc,
F@_1,
TrUserData
) when
N < 57
->
skip_length_delimited_session_id(
Rest,
N + 7,
X bsl N + Acc,
F@_1,
TrUserData
);
skip_length_delimited_session_id(
<<0:1, X:7, Rest/binary>>,
N,
Acc,
F@_1,
TrUserData
) ->
Length = X bsl N + Acc,
<<_:Length/binary, Rest2/binary>> = Rest,
dfp_read_field_def_session_id(
Rest2,
0,
0,
F@_1,
TrUserData
).
skip_group_session_id(
Bin,
FNum,
Z2,
F@_1,
TrUserData
) ->
{_, Rest} = read_group(Bin, FNum),
dfp_read_field_def_session_id(
Rest,
0,
Z2,
F@_1,
TrUserData
).
skip_32_session_id(
<<_:32, Rest/binary>>,
Z1,
Z2,
F@_1,
TrUserData
) ->
dfp_read_field_def_session_id(
Rest,
Z1,
Z2,
F@_1,
TrUserData
).
skip_64_session_id(
<<_:64, Rest/binary>>,
Z1,
Z2,
F@_1,
TrUserData
) ->
dfp_read_field_def_session_id(
Rest,
Z1,
Z2,
F@_1,
TrUserData
).
'd_enum_gen_response.status'(0) -> 'OK';
'd_enum_gen_response.status'(1) -> 'ERROR';
'd_enum_gen_response.status'(V) -> V.
read_group(Bin, FieldNum) ->
{NumBytes, EndTagLen} = read_gr_b(Bin, 0, 0, 0, 0, FieldNum),
<<Group:NumBytes/binary, _:EndTagLen/binary, Rest/binary>> = Bin,
{Group, Rest}.
%% Like skipping over fields, but record the total length,
%% Each field is <(FieldNum bsl 3) bor FieldType> ++ <FieldValue>
%% Record the length because varints may be non-optimally encoded.
%%
%% Groups can be nested, but assume the same FieldNum cannot be nested
%% because group field numbers are shared with the rest of the fields
%% numbers. Thus we can search just for an group-end with the same
%% field number.
%%
%% (The only time the same group field number could occur would
%% be in a nested sub message, but then it would be inside a
%% length-delimited entry, which we skip-read by length.)
read_gr_b(<<1:1, X:7, Tl/binary>>, N, Acc, NumBytes, TagLen, FieldNum) when
N < (32 - 7)
->
read_gr_b(Tl, N + 7, X bsl N + Acc, NumBytes, TagLen + 1, FieldNum);
read_gr_b(
<<0:1, X:7, Tl/binary>>,
N,
Acc,
NumBytes,
TagLen,
FieldNum
) ->
Key = X bsl N + Acc,
TagLen1 = TagLen + 1,
case {Key bsr 3, Key band 7} of
% 4 = group_end
{FieldNum, 4} ->
{NumBytes, TagLen1};
% 0 = varint
{_, 0} ->
read_gr_vi(Tl, 0, NumBytes + TagLen1, FieldNum);
% 1 = bits64
{_, 1} ->
<<_:64, Tl2/binary>> = Tl,
read_gr_b(Tl2, 0, 0, NumBytes + TagLen1 + 8, 0, FieldNum);
% 2 = length_delimited
{_, 2} ->
read_gr_ld(Tl, 0, 0, NumBytes + TagLen1, FieldNum);
% 3 = group_start
{_, 3} ->
read_gr_b(Tl, 0, 0, NumBytes + TagLen1, 0, FieldNum);
% 4 = group_end
{_, 4} ->
read_gr_b(Tl, 0, 0, NumBytes + TagLen1, 0, FieldNum);
% 5 = bits32
{_, 5} ->
<<_:32, Tl2/binary>> = Tl,
read_gr_b(Tl2, 0, 0, NumBytes + TagLen1 + 4, 0, FieldNum)
end.
read_gr_vi(<<1:1, _:7, Tl/binary>>, N, NumBytes, FieldNum) when
N < (64 - 7)
->
read_gr_vi(Tl, N + 7, NumBytes + 1, FieldNum);
read_gr_vi(<<0:1, _:7, Tl/binary>>, _, NumBytes, FieldNum) ->
read_gr_b(Tl, 0, 0, NumBytes + 1, 0, FieldNum).
read_gr_ld(<<1:1, X:7, Tl/binary>>, N, Acc, NumBytes, FieldNum) when
N < (64 - 7)
->
read_gr_ld(Tl, N + 7, X bsl N + Acc, NumBytes + 1, FieldNum);
read_gr_ld(<<0:1, X:7, Tl/binary>>, N, Acc, NumBytes, FieldNum) ->
Len = X bsl N + Acc,
NumBytes1 = NumBytes + 1,
<<_:Len/binary, Tl2/binary>> = Tl,
read_gr_b(Tl2, 0, 0, NumBytes1 + Len, 0, FieldNum).
merge_msgs(Prev, New, MsgName) when is_atom(MsgName) ->
merge_msgs(Prev, New, MsgName, []).
merge_msgs(Prev, New, MsgName, Opts) ->
TrUserData = proplists:get_value(user_data, Opts),
case MsgName of
gen_response ->
merge_msg_gen_response(Prev, New, TrUserData);
account_new ->
merge_msg_account_new(Prev, New, TrUserData);
account_login ->
merge_msg_account_login(Prev, New, TrUserData);
session_log ->
merge_msg_session_log(Prev, New, TrUserData);
session_beacon ->
merge_msg_session_beacon(Prev, New, TrUserData);
session_ping ->
merge_msg_session_ping(Prev, New, TrUserData);
session_pong ->
merge_msg_session_pong(Prev, New, TrUserData);
session_id ->
merge_msg_session_id(Prev, New, TrUserData)
end.
-compile({nowarn_unused_function, merge_msg_gen_response/3}).
merge_msg_gen_response(
#{} = PMsg,
#{status := NFstatus} = NMsg,
_
) ->
S1 = #{status => NFstatus},
case {PMsg, NMsg} of
{_, #{msg := NFmsg}} -> S1#{msg => NFmsg};
{#{msg := PFmsg}, _} -> S1#{msg => PFmsg};
_ -> S1
end.
-compile({nowarn_unused_function, merge_msg_account_new/3}).
merge_msg_account_new(
#{},
#{email := NFemail, password := NFpassword},
_
) ->
#{email => NFemail, password => NFpassword}.
-compile({nowarn_unused_function, merge_msg_account_login/3}).
merge_msg_account_login(
#{},
#{email := NFemail, password := NFpassword},
_
) ->
#{email => NFemail, password => NFpassword}.
-compile({nowarn_unused_function, merge_msg_session_log/3}).
merge_msg_session_log(
#{},
#{msg := NFmsg, color := NFcolor},
_
) ->
#{msg => NFmsg, color => NFcolor}.
-compile({nowarn_unused_function, merge_msg_session_beacon/3}).
merge_msg_session_beacon(#{}, #{id := NFid}, _) ->
#{id => NFid}.
-compile({nowarn_unused_function, merge_msg_session_ping/3}).
merge_msg_session_ping(#{}, #{id := NFid}, _) ->
#{id => NFid}.
-compile({nowarn_unused_function, merge_msg_session_pong/3}).
merge_msg_session_pong(
#{},
#{latency := NFlatency},
_
) ->
#{latency => NFlatency}.
-compile({nowarn_unused_function, merge_msg_session_id/3}).
merge_msg_session_id(#{}, #{id := NFid}, _) ->
#{id => NFid}.
verify_msg(Msg, MsgName) when is_atom(MsgName) ->
verify_msg(Msg, MsgName, []).
verify_msg(Msg, MsgName, Opts) ->
TrUserData = proplists:get_value(user_data, Opts),
case MsgName of
gen_response ->
v_msg_gen_response(Msg, [MsgName], TrUserData);
account_new ->
v_msg_account_new(Msg, [MsgName], TrUserData);
account_login ->
v_msg_account_login(Msg, [MsgName], TrUserData);
session_log ->
v_msg_session_log(Msg, [MsgName], TrUserData);
session_beacon ->
v_msg_session_beacon(Msg, [MsgName], TrUserData);
session_ping ->
v_msg_session_ping(Msg, [MsgName], TrUserData);
session_pong ->
v_msg_session_pong(Msg, [MsgName], TrUserData);
session_id ->
v_msg_session_id(Msg, [MsgName], TrUserData);
_ ->
mk_type_error(not_a_known_message, Msg, [])
end.
-compile({nowarn_unused_function, v_msg_gen_response/3}).
-dialyzer({nowarn_function, v_msg_gen_response/3}).
v_msg_gen_response(
#{status := F1} = M,
Path,
TrUserData
) ->
'v_enum_gen_response.status'(
F1,
[status | Path],
TrUserData
),
case M of
#{msg := F2} ->
v_type_string(F2, [msg | Path], TrUserData);
_ ->
ok
end,
lists:foreach(
fun
(status) -> ok;
(msg) -> ok;
(OtherKey) -> mk_type_error({extraneous_key, OtherKey}, M, Path)
end,
maps:keys(M)
),
ok;
v_msg_gen_response(M, Path, _TrUserData) when
is_map(M)
->
mk_type_error(
{missing_fields, [status] -- maps:keys(M), gen_response},
M,
Path
);
v_msg_gen_response(X, Path, _TrUserData) ->
mk_type_error({expected_msg, gen_response}, X, Path).
-compile({nowarn_unused_function, v_msg_account_new/3}).
-dialyzer({nowarn_function, v_msg_account_new/3}).
v_msg_account_new(
#{email := F1, password := F2} = M,
Path,
TrUserData
) ->
v_type_string(F1, [email | Path], TrUserData),
v_type_string(F2, [password | Path], TrUserData),
lists:foreach(
fun
(email) -> ok;
(password) -> ok;
(OtherKey) -> mk_type_error({extraneous_key, OtherKey}, M, Path)
end,
maps:keys(M)
),
ok;
v_msg_account_new(M, Path, _TrUserData) when
is_map(M)
->
mk_type_error(
{missing_fields, [email, password] -- maps:keys(M), account_new},
M,
Path
);
v_msg_account_new(X, Path, _TrUserData) ->
mk_type_error({expected_msg, account_new}, X, Path).
-compile({nowarn_unused_function, v_msg_account_login/3}).
-dialyzer({nowarn_function, v_msg_account_login/3}).
v_msg_account_login(
#{email := F1, password := F2} = M,
Path,
TrUserData
) ->
v_type_string(F1, [email | Path], TrUserData),
v_type_string(F2, [password | Path], TrUserData),
lists:foreach(
fun
(email) -> ok;
(password) -> ok;
(OtherKey) -> mk_type_error({extraneous_key, OtherKey}, M, Path)
end,
maps:keys(M)
),
ok;
v_msg_account_login(M, Path, _TrUserData) when
is_map(M)
->
mk_type_error(
{missing_fields, [email, password] -- maps:keys(M), account_login},
M,
Path
);
v_msg_account_login(X, Path, _TrUserData) ->
mk_type_error({expected_msg, account_login}, X, Path).
-compile({nowarn_unused_function, v_msg_session_log/3}).
-dialyzer({nowarn_function, v_msg_session_log/3}).
v_msg_session_log(
#{msg := F1, color := F2} = M,
Path,
TrUserData
) ->
v_type_string(F1, [msg | Path], TrUserData),
v_type_bytes(F2, [color | Path], TrUserData),
lists:foreach(
fun
(msg) -> ok;
(color) -> ok;
(OtherKey) -> mk_type_error({extraneous_key, OtherKey}, M, Path)
end,
maps:keys(M)
),
ok;
v_msg_session_log(M, Path, _TrUserData) when
is_map(M)
->
mk_type_error(
{missing_fields, [msg, color] -- maps:keys(M), session_log},
M,
Path
);
v_msg_session_log(X, Path, _TrUserData) ->
mk_type_error({expected_msg, session_log}, X, Path).
-compile({nowarn_unused_function, v_msg_session_beacon/3}).
-dialyzer({nowarn_function, v_msg_session_beacon/3}).
v_msg_session_beacon(
#{id := F1} = M,
Path,
TrUserData
) ->
v_type_uint32(F1, [id | Path], TrUserData),
lists:foreach(
fun
(id) -> ok;
(OtherKey) -> mk_type_error({extraneous_key, OtherKey}, M, Path)
end,
maps:keys(M)
),
ok;
v_msg_session_beacon(M, Path, _TrUserData) when
is_map(M)
->
mk_type_error(
{missing_fields, [id] -- maps:keys(M), session_beacon},
M,
Path
);
v_msg_session_beacon(X, Path, _TrUserData) ->
mk_type_error({expected_msg, session_beacon}, X, Path).
-compile({nowarn_unused_function, v_msg_session_ping/3}).
-dialyzer({nowarn_function, v_msg_session_ping/3}).
v_msg_session_ping(#{id := F1} = M, Path, TrUserData) ->
v_type_uint32(F1, [id | Path], TrUserData),
lists:foreach(
fun
(id) -> ok;
(OtherKey) -> mk_type_error({extraneous_key, OtherKey}, M, Path)
end,
maps:keys(M)
),
ok;
v_msg_session_ping(M, Path, _TrUserData) when
is_map(M)
->
mk_type_error(
{missing_fields, [id] -- maps:keys(M), session_ping},
M,
Path
);
v_msg_session_ping(X, Path, _TrUserData) ->
mk_type_error({expected_msg, session_ping}, X, Path).
-compile({nowarn_unused_function, v_msg_session_pong/3}).
-dialyzer({nowarn_function, v_msg_session_pong/3}).
v_msg_session_pong(
#{latency := F1} = M,
Path,
TrUserData
) ->
v_type_uint32(F1, [latency | Path], TrUserData),
lists:foreach(
fun
(latency) -> ok;
(OtherKey) -> mk_type_error({extraneous_key, OtherKey}, M, Path)
end,
maps:keys(M)
),
ok;
v_msg_session_pong(M, Path, _TrUserData) when
is_map(M)
->
mk_type_error(
{missing_fields, [latency] -- maps:keys(M), session_pong},
M,
Path
);
v_msg_session_pong(X, Path, _TrUserData) ->
mk_type_error({expected_msg, session_pong}, X, Path).
-compile({nowarn_unused_function, v_msg_session_id/3}).
-dialyzer({nowarn_function, v_msg_session_id/3}).
v_msg_session_id(#{id := F1} = M, Path, TrUserData) ->
v_type_int64(F1, [id | Path], TrUserData),
lists:foreach(
fun
(id) -> ok;
(OtherKey) -> mk_type_error({extraneous_key, OtherKey}, M, Path)
end,
maps:keys(M)
),
ok;
v_msg_session_id(M, Path, _TrUserData) when is_map(M) ->
mk_type_error(
{missing_fields, [id] -- maps:keys(M), session_id},
M,
Path
);
v_msg_session_id(X, Path, _TrUserData) ->
mk_type_error({expected_msg, session_id}, X, Path).
-compile({nowarn_unused_function, 'v_enum_gen_response.status'/3}).
-dialyzer({nowarn_function, 'v_enum_gen_response.status'/3}).
'v_enum_gen_response.status'(
'OK',
_Path,
_TrUserData
) ->
ok;
'v_enum_gen_response.status'(
'ERROR',
_Path,
_TrUserData
) ->
ok;
'v_enum_gen_response.status'(V, Path, TrUserData) when
is_integer(V)
->
v_type_sint32(V, Path, TrUserData);
'v_enum_gen_response.status'(X, Path, _TrUserData) ->
mk_type_error(
{invalid_enum, 'gen_response.status'},
X,
Path
).
-compile({nowarn_unused_function, v_type_sint32/3}).
-dialyzer({nowarn_function, v_type_sint32/3}).
v_type_sint32(N, _Path, _TrUserData) when
-2147483648 =< N, N =< 2147483647
->
ok;
v_type_sint32(N, Path, _TrUserData) when
is_integer(N)
->
mk_type_error(
{value_out_of_range, sint32, signed, 32},
N,
Path
);
v_type_sint32(X, Path, _TrUserData) ->
mk_type_error(
{bad_integer, sint32, signed, 32},
X,
Path
).
-compile({nowarn_unused_function, v_type_int64/3}).
-dialyzer({nowarn_function, v_type_int64/3}).
v_type_int64(N, _Path, _TrUserData) when
-9223372036854775808 =< N,
N =< 9223372036854775807
->
ok;
v_type_int64(N, Path, _TrUserData) when is_integer(N) ->
mk_type_error(
{value_out_of_range, int64, signed, 64},
N,
Path
);
v_type_int64(X, Path, _TrUserData) ->
mk_type_error(
{bad_integer, int64, signed, 64},
X,
Path
).
-compile({nowarn_unused_function, v_type_uint32/3}).
-dialyzer({nowarn_function, v_type_uint32/3}).
v_type_uint32(N, _Path, _TrUserData) when
0 =< N, N =< 4294967295
->
ok;
v_type_uint32(N, Path, _TrUserData) when
is_integer(N)
->
mk_type_error(
{value_out_of_range, uint32, unsigned, 32},
N,
Path
);
v_type_uint32(X, Path, _TrUserData) ->
mk_type_error(
{bad_integer, uint32, unsigned, 32},
X,
Path
).
-compile({nowarn_unused_function, v_type_string/3}).
-dialyzer({nowarn_function, v_type_string/3}).
v_type_string(S, Path, _TrUserData) when
is_list(S); is_binary(S)
->
try unicode:characters_to_binary(S) of
B when is_binary(B) -> ok;
{error, _, _} -> mk_type_error(bad_unicode_string, S, Path)
catch
error:badarg ->
mk_type_error(bad_unicode_string, S, Path)
end;
v_type_string(X, Path, _TrUserData) ->
mk_type_error(bad_unicode_string, X, Path).
-compile({nowarn_unused_function, v_type_bytes/3}).
-dialyzer({nowarn_function, v_type_bytes/3}).
v_type_bytes(B, _Path, _TrUserData) when is_binary(B) ->
ok;
v_type_bytes(B, _Path, _TrUserData) when is_list(B) ->
ok;
v_type_bytes(X, Path, _TrUserData) ->
mk_type_error(bad_binary_value, X, Path).
-compile({nowarn_unused_function, mk_type_error/3}).
-spec mk_type_error(_, _, list()) -> no_return().
mk_type_error(Error, ValueSeen, Path) ->
Path2 = prettify_path(Path),
erlang:error(
{gpb_type_error, {Error, [{value, ValueSeen}, {path, Path2}]}}
).
-compile({nowarn_unused_function, prettify_path/1}).
-dialyzer({nowarn_function, prettify_path/1}).
prettify_path([]) ->
top_level;
prettify_path(PathR) ->
list_to_atom(
lists:append(
lists:join(
".",
lists:map(
fun atom_to_list/1,
lists:reverse(PathR)
)
)
)
).
-compile({nowarn_unused_function, id/2}).
-compile({inline, id/2}).
id(X, _TrUserData) -> X.
-compile({nowarn_unused_function, v_ok/3}).
-compile({inline, v_ok/3}).
v_ok(_Value, _Path, _TrUserData) -> ok.
-compile({nowarn_unused_function, m_overwrite/3}).
-compile({inline, m_overwrite/3}).
m_overwrite(_Prev, New, _TrUserData) -> New.
-compile({nowarn_unused_function, cons/3}).
-compile({inline, cons/3}).
cons(Elem, Acc, _TrUserData) -> [Elem | Acc].
-compile({nowarn_unused_function, lists_reverse/2}).
-compile({inline, lists_reverse/2}).
'lists_reverse'(L, _TrUserData) -> lists:reverse(L).
-compile({nowarn_unused_function, 'erlang_++'/3}).
-compile({inline, 'erlang_++'/3}).
'erlang_++'(A, B, _TrUserData) -> A ++ B.
get_msg_defs() ->
[
{{enum, 'gen_response.status'}, [{'OK', 0}, {'ERROR', 1}]},
{{msg, gen_response}, [
#{
name => status,
fnum => 1,
rnum => 2,
type => {enum, 'gen_response.status'},
occurrence => required,
opts => []
},
#{
name => msg,
fnum => 2,
rnum => 3,
type => string,
occurrence => optional,
opts => []
}
]},
{{msg, account_new}, [
#{
name => email,
fnum => 1,
rnum => 2,
type => string,
occurrence => required,
opts => []
},
#{
name => password,
fnum => 2,
rnum => 3,
type => string,
occurrence => required,
opts => []
}
]},
{{msg, account_login}, [
#{
name => email,
fnum => 1,
rnum => 2,
type => string,
occurrence => required,
opts => []
},
#{
name => password,
fnum => 2,
rnum => 3,
type => string,
occurrence => required,
opts => []
}
]},
{{msg, session_log}, [
#{
name => msg,
fnum => 1,
rnum => 2,
type => string,
occurrence => required,
opts => []
},
#{
name => color,
fnum => 2,
rnum => 3,
type => bytes,
occurrence => required,
opts => []
}
]},
{{msg, session_beacon}, [
#{
name => id,
fnum => 1,
rnum => 2,
type => uint32,
occurrence => required,
opts => []
}
]},
{{msg, session_ping}, [
#{
name => id,
fnum => 1,
rnum => 2,
type => uint32,
occurrence => required,
opts => []
}
]},
{{msg, session_pong}, [
#{
name => latency,
fnum => 1,
rnum => 2,
type => uint32,
occurrence => required,
opts => []
}
]},
{{msg, session_id}, [
#{
name => id,
fnum => 1,
rnum => 2,
type => int64,
occurrence => required,
opts => []
}
]}
].
get_msg_names() ->
[
gen_response,
account_new,
account_login,
session_log,
session_beacon,
session_ping,
session_pong,
session_id
].
get_group_names() -> [].
get_msg_or_group_names() ->
[
gen_response,
account_new,
account_login,
session_log,
session_beacon,
session_ping,
session_pong,
session_id
].
get_enum_names() -> ['gen_response.status'].
fetch_msg_def(MsgName) ->
case find_msg_def(MsgName) of
Fs when is_list(Fs) -> Fs;
error -> erlang:error({no_such_msg, MsgName})
end.
fetch_enum_def(EnumName) ->
case find_enum_def(EnumName) of
Es when is_list(Es) -> Es;
error -> erlang:error({no_such_enum, EnumName})
end.
find_msg_def(gen_response) ->
[
#{
name => status,
fnum => 1,
rnum => 2,
type => {enum, 'gen_response.status'},
occurrence => required,
opts => []
},
#{
name => msg,
fnum => 2,
rnum => 3,
type => string,
occurrence => optional,
opts => []
}
];
find_msg_def(account_new) ->
[
#{
name => email,
fnum => 1,
rnum => 2,
type => string,
occurrence => required,
opts => []
},
#{
name => password,
fnum => 2,
rnum => 3,
type => string,
occurrence => required,
opts => []
}
];
find_msg_def(account_login) ->
[
#{
name => email,
fnum => 1,
rnum => 2,
type => string,
occurrence => required,
opts => []
},
#{
name => password,
fnum => 2,
rnum => 3,
type => string,
occurrence => required,
opts => []
}
];
find_msg_def(session_log) ->
[
#{
name => msg,
fnum => 1,
rnum => 2,
type => string,
occurrence => required,
opts => []
},
#{
name => color,
fnum => 2,
rnum => 3,
type => bytes,
occurrence => required,
opts => []
}
];
find_msg_def(session_beacon) ->
[
#{
name => id,
fnum => 1,
rnum => 2,
type => uint32,
occurrence => required,
opts => []
}
];
find_msg_def(session_ping) ->
[
#{
name => id,
fnum => 1,
rnum => 2,
type => uint32,
occurrence => required,
opts => []
}
];
find_msg_def(session_pong) ->
[
#{
name => latency,
fnum => 1,
rnum => 2,
type => uint32,
occurrence => required,
opts => []
}
];
find_msg_def(session_id) ->
[
#{
name => id,
fnum => 1,
rnum => 2,
type => int64,
occurrence => required,
opts => []
}
];
find_msg_def(_) ->
error.
find_enum_def('gen_response.status') ->
[{'OK', 0}, {'ERROR', 1}];
find_enum_def(_) ->
error.
enum_symbol_by_value('gen_response.status', Value) ->
'enum_symbol_by_value_gen_response.status'(Value).
enum_value_by_symbol('gen_response.status', Sym) ->
'enum_value_by_symbol_gen_response.status'(Sym).
'enum_symbol_by_value_gen_response.status'(0) -> 'OK';
'enum_symbol_by_value_gen_response.status'(1) -> 'ERROR'.
'enum_value_by_symbol_gen_response.status'('OK') -> 0;
'enum_value_by_symbol_gen_response.status'('ERROR') -> 1.
get_service_names() -> [].
get_service_def(_) -> error.
get_rpc_names(_) -> error.
find_rpc_def(_, _) -> error.
-spec fetch_rpc_def(_, _) -> no_return().
fetch_rpc_def(ServiceName, RpcName) ->
erlang:error({no_such_rpc, ServiceName, RpcName}).
%% Convert a a fully qualified (ie with package name) service name
%% as a binary to a service name as an atom.
-spec fqbin_to_service_name(_) -> no_return().
fqbin_to_service_name(X) ->
error({gpb_error, {badservice, X}}).
%% Convert a service name as an atom to a fully qualified
%% (ie with package name) name as a binary.
-spec service_name_to_fqbin(_) -> no_return().
service_name_to_fqbin(X) ->
error({gpb_error, {badservice, X}}).
%% Convert a a fully qualified (ie with package name) service name
%% and an rpc name, both as binaries to a service name and an rpc
%% name, as atoms.
-spec fqbins_to_service_and_rpc_name(_, _) -> no_return().
fqbins_to_service_and_rpc_name(S, R) ->
error({gpb_error, {badservice_or_rpc, {S, R}}}).
%% Convert a service name and an rpc name, both as atoms,
%% to a fully qualified (ie with package name) service name and
%% an rpc name as binaries.
-spec service_and_rpc_name_to_fqbins(_, _) -> no_return().
service_and_rpc_name_to_fqbins(S, R) ->
error({gpb_error, {badservice_or_rpc, {S, R}}}).
fqbin_to_msg_name(<<"overworld.gen_response">>) -> gen_response;
fqbin_to_msg_name(<<"overworld.account_new">>) -> account_new;
fqbin_to_msg_name(<<"overworld.account_login">>) -> account_login;
fqbin_to_msg_name(<<"overworld.session_log">>) -> session_log;
fqbin_to_msg_name(<<"overworld.session_beacon">>) -> session_beacon;
fqbin_to_msg_name(<<"overworld.session_ping">>) -> session_ping;
fqbin_to_msg_name(<<"overworld.session_pong">>) -> session_pong;
fqbin_to_msg_name(<<"overworld.session_id">>) -> session_id;
fqbin_to_msg_name(E) -> error({gpb_error, {badmsg, E}}).
msg_name_to_fqbin(gen_response) -> <<"overworld.gen_response">>;
msg_name_to_fqbin(account_new) -> <<"overworld.account_new">>;
msg_name_to_fqbin(account_login) -> <<"overworld.account_login">>;
msg_name_to_fqbin(session_log) -> <<"overworld.session_log">>;
msg_name_to_fqbin(session_beacon) -> <<"overworld.session_beacon">>;
msg_name_to_fqbin(session_ping) -> <<"overworld.session_ping">>;
msg_name_to_fqbin(session_pong) -> <<"overworld.session_pong">>;
msg_name_to_fqbin(session_id) -> <<"overworld.session_id">>;
msg_name_to_fqbin(E) -> error({gpb_error, {badmsg, E}}).
fqbin_to_enum_name(<<"overworld.gen_response.status">>) ->
'gen_response.status';
fqbin_to_enum_name(E) ->
error({gpb_error, {badenum, E}}).
enum_name_to_fqbin('gen_response.status') ->
<<"overworld.gen_response.status">>;
enum_name_to_fqbin(E) ->
error({gpb_error, {badenum, E}}).
get_package_name() -> overworld.
%% Whether or not the message names
%% are prepended with package name or not.
uses_packages() -> false.
source_basename() -> "overworld.proto".
%% Retrieve all proto file names, also imported ones.
%% The order is top-down. The first element is always the main
%% source file. The files are returned with extension,
%% see get_all_proto_names/0 for a version that returns
%% the basenames sans extension
get_all_source_basenames() -> ["overworld.proto"].
%% Retrieve all proto file names, also imported ones.
%% The order is top-down. The first element is always the main
%% source file. The files are returned sans .proto extension,
%% to make it easier to use them with the various get_xyz_containment
%% functions.
get_all_proto_names() -> ["overworld"].
get_msg_containment("overworld") ->
[
account_login,
account_new,
gen_response,
session_beacon,
session_id,
session_log,
session_ping,
session_pong
];
get_msg_containment(P) ->
error({gpb_error, {badproto, P}}).
get_pkg_containment("overworld") -> undefined;
get_pkg_containment(P) -> error({gpb_error, {badproto, P}}).
get_service_containment("overworld") -> [];
get_service_containment(P) -> error({gpb_error, {badproto, P}}).
get_rpc_containment("overworld") -> [];
get_rpc_containment(P) -> error({gpb_error, {badproto, P}}).
get_enum_containment("overworld") ->
['gen_response.status'];
get_enum_containment(P) ->
error({gpb_error, {badproto, P}}).
get_proto_by_msg_name_as_fqbin(<<"overworld.session_id">>) ->
"overworld";
get_proto_by_msg_name_as_fqbin(<<"overworld.gen_response">>) ->
"overworld";
get_proto_by_msg_name_as_fqbin(<<"overworld.session_pong">>) ->
"overworld";
get_proto_by_msg_name_as_fqbin(<<"overworld.session_ping">>) ->
"overworld";
get_proto_by_msg_name_as_fqbin(<<"overworld.session_log">>) ->
"overworld";
get_proto_by_msg_name_as_fqbin(<<"overworld.account_new">>) ->
"overworld";
get_proto_by_msg_name_as_fqbin(<<"overworld.session_beacon">>) ->
"overworld";
get_proto_by_msg_name_as_fqbin(<<"overworld.account_login">>) ->
"overworld";
get_proto_by_msg_name_as_fqbin(E) ->
error({gpb_error, {badmsg, E}}).
-spec get_proto_by_service_name_as_fqbin(_) -> no_return().
get_proto_by_service_name_as_fqbin(E) ->
error({gpb_error, {badservice, E}}).
get_proto_by_enum_name_as_fqbin(<<"overworld.gen_response.status">>) ->
"overworld";
get_proto_by_enum_name_as_fqbin(E) ->
error({gpb_error, {badenum, E}}).
-spec get_protos_by_pkg_name_as_fqbin(_) -> no_return().
get_protos_by_pkg_name_as_fqbin(E) ->
error({gpb_error, {badpkg, E}}).
gpb_version_as_string() ->
"4.11.2".
gpb_version_as_list() ->
[4, 11, 2].