megaco_per_bin_drv_media_gateway_control_prev3b.erl

OTP是开放电信平台的简称

   ?RT_PER:encode_length(undefined,length(Val)),
   'enc_ModemDescriptor_mtl_components'(Val, [])
].
'enc_ModemDescriptor_mtl_components'([], Acc) -> lists:reverse(Acc);

'enc_ModemDescriptor_mtl_components'([H|T], Acc) ->
'enc_ModemDescriptor_mtl_components'(T, [case (case H of {_,_}->element(2,H);_->H end) of
'v18' -> [0,?RT_PER:encode_integer([{'ValueRange',{0,8}}], 0)];
'v22' -> [0,?RT_PER:encode_integer([{'ValueRange',{0,8}}], 1)];
'v22bis' -> [0,?RT_PER:encode_integer([{'ValueRange',{0,8}}], 2)];
'v32' -> [0,?RT_PER:encode_integer([{'ValueRange',{0,8}}], 3)];
'v32bis' -> [0,?RT_PER:encode_integer([{'ValueRange',{0,8}}], 4)];
'v34' -> [0,?RT_PER:encode_integer([{'ValueRange',{0,8}}], 5)];
'v90' -> [0,?RT_PER:encode_integer([{'ValueRange',{0,8}}], 6)];
'v91' -> [0,?RT_PER:encode_integer([{'ValueRange',{0,8}}], 7)];
'synchISDN' -> [0,?RT_PER:encode_integer([{'ValueRange',{0,8}}], 8)];
{asn1_enum,EnumV} when integer(EnumV), EnumV > 8 -> [1,?RT_PER:encode_small_number(EnumV)];
EnumVal -> exit({error,{asn1, {enumerated_not_in_range, EnumVal}}})
end | Acc]).

'dec_ModemDescriptor_mtl'(Bytes,_) ->

{Num,Bytes1} = ?RT_PER:decode_length(Bytes,undefined),
'dec_ModemDescriptor_mtl_components'(Num, Bytes1, telltype, []).
'dec_ModemDescriptor_mtl_components'(0, Bytes, _, Acc) ->
   {lists:reverse(Acc), Bytes};
'dec_ModemDescriptor_mtl_components'(Num, Bytes, _, Acc) ->
   {Term,Remain} = ?RT_PER:decode_enumerated(Bytes,[{'ValueRange',{0,8}}],{{v18,v22,v22bis,v32,v32bis,v34,v90,v91,synchISDN},{}}),
   'dec_ModemDescriptor_mtl_components'(Num-1, Remain, telltype, [Term|Acc]).

'enc_ModemDescriptor_mpl'({'ModemDescriptor_mpl',Val}) ->
'enc_ModemDescriptor_mpl'(Val);

'enc_ModemDescriptor_mpl'(Val) ->
[

   ?RT_PER:encode_length(undefined,length(Val)),
   'enc_ModemDescriptor_mpl_components'(Val, [])
].
'enc_ModemDescriptor_mpl_components'([], Acc) -> lists:reverse(Acc);

'enc_ModemDescriptor_mpl_components'([H|T], Acc) ->
'enc_ModemDescriptor_mpl_components'(T, ['enc_PropertyParm'(H)

 | Acc]).

'dec_ModemDescriptor_mpl'(Bytes,_) ->

{Num,Bytes1} = ?RT_PER:decode_length(Bytes,undefined),
'dec_ModemDescriptor_mpl_components'(Num, Bytes1, telltype, []).
'dec_ModemDescriptor_mpl_components'(0, Bytes, _, Acc) ->
   {lists:reverse(Acc), Bytes};
'dec_ModemDescriptor_mpl_components'(Num, Bytes, _, Acc) ->
   {Term,Remain} = 'dec_PropertyParm'(Bytes,telltype),
   'dec_ModemDescriptor_mpl_components'(Num-1, Remain, telltype, [Term|Acc]).


'dec_ModemDescriptor'(Bytes,_) ->
{Opt,Bytes1} = ?RT_PER:getoptionals2(Bytes,1), 
%% attribute number 1 with type SEQUENCE OF
{Term1,Bytes2} = 'dec_ModemDescriptor_mtl'(Bytes1, telltype),

%% attribute number 2 with type SEQUENCE OF
{Term2,Bytes3} = 'dec_ModemDescriptor_mpl'(Bytes2, telltype),

%%  attribute number 3 with type NonStandardData
{Term3,Bytes4} = case Opt band (1 bsl 0) of
_Opt1 when _Opt1 > 0 ->'dec_NonStandardData'(Bytes3,telltype);
0 ->{asn1_NOVALUE,Bytes3}

end,
{{'ModemDescriptor',Term1,Term2,Term3},Bytes4}.


'enc_RequestID'({'RequestID',Val}) ->
'enc_RequestID'(Val);

'enc_RequestID'(Val) ->
  %%INTEGER with effective constraint: [{'ValueRange',{0,4294967295}}]
  ?RT_PER:encode_integer([{'ValueRange',{0,4294967295}}],Val).


'dec_RequestID'(Bytes,_) ->
?RT_PER:decode_constrained_number(Bytes,{0,4294967295},4294967296).

'enc_SigParameter'(Val) ->
{Val1,Opt} = ?RT_PER:fixoptionals([4],1,Val),
[
?RT_PER:setext(false), Opt,

%% attribute number 1 with type OCTET STRING
  begin
    [Tmpval1,Tmpval2] = element(2,Val1),
    [[10,8,Tmpval1],[10,8,Tmpval2]]
  end,

%% attribute number 2 with type Externaltypereference822megaco_per_bin_drv_media_gateway_control_prev3bValue
'enc_Value'(element(3,Val1)),
case element(4,Val1) of
asn1_NOVALUE -> [];
Tmpval3 ->

%% attribute number 3 with type CHOICE
'enc_SigParameter_extraInfo'(Tmpval3)
end].

'enc_SigParameter_extraInfo'({'SigParameter_extraInfo',Val}) ->
'enc_SigParameter_extraInfo'(Val);

'enc_SigParameter_extraInfo'(Val) ->
[
?RT_PER:set_choice(element(1,Val),[relation,range,sublist], 3),
case element(1,Val) of
relation ->
case (case element(2,Val) of {_,_}->element(2,element(2,Val));_->element(2,Val) end) of
'greaterThan' -> [0,?RT_PER:encode_integer([{'ValueRange',{0,2}}], 0)];
'smallerThan' -> [0,?RT_PER:encode_integer([{'ValueRange',{0,2}}], 1)];
'unequalTo' -> [0,?RT_PER:encode_integer([{'ValueRange',{0,2}}], 2)];
{asn1_enum,EnumV} when integer(EnumV), EnumV > 2 -> [1,?RT_PER:encode_small_number(EnumV)];
EnumVal -> exit({error,{asn1, {enumerated_not_in_range, EnumVal}}})
end;
range ->
case element(2,Val) of
  true -> [1];
  false -> [0];
  _ -> exit({error,{asn1,{encode_boolean,element(2,Val)}}})
end;
sublist ->
case element(2,Val) of
  true -> [1];
  false -> [0];
  _ -> exit({error,{asn1,{encode_boolean,element(2,Val)}}})
end
end
].

'dec_SigParameter_extraInfo'(Bytes,_) ->
{Choice,Bytes1} = ?RT_PER:getchoice(Bytes,3, 0),
{Cname,{Val,NewBytes}} = case Choice of
0 -> {relation,
?RT_PER:decode_enumerated(Bytes1,[{'ValueRange',{0,2}}],{{greaterThan,smallerThan,unequalTo},{}})};
1 -> {range,
?RT_PER:decode_boolean(Bytes1)};
2 -> {sublist,
?RT_PER:decode_boolean(Bytes1)}
end,

{{Cname,Val},NewBytes}.


'dec_SigParameter'(Bytes,_) ->
{Ext,Bytes1} = ?RT_PER:getext(Bytes),
{Opt,Bytes2} = ?RT_PER:getoptionals2(Bytes1,1), 
%% attribute number 1 with type OCTET STRING
{Term1,Bytes3} =   ?RT_PER:decode_octet_string(Bytes2,2,false)
,

%%  attribute number 2 with type Value
{Term2,Bytes4} = 'dec_Value'(Bytes3,telltype),

%% attribute number 3 with type CHOICE
{Term3,Bytes5} = case Opt band (1 bsl 0) of
_Opt1 when _Opt1 > 0 ->'dec_SigParameter_extraInfo'(Bytes4, telltype);
0 ->{asn1_NOVALUE,Bytes4}

end,
{Extensions,Bytes6} = ?RT_PER:getextension(Ext,Bytes5),
Bytes7= ?RT_PER:skipextensions(Bytes6,1,Extensions)
,
{{'SigParameter',Term1,Term2,Term3},Bytes7}.


'enc_NotifyCompletion'({'NotifyCompletion',Val}) ->
'enc_NotifyCompletion'(Val);

'enc_NotifyCompletion'(Val) ->
?RT_PER:encode_bit_string(no,Val,[{onTimeOut,0},{onInterruptByEvent,1},{onInterruptByNewSignalDescr,2},{otherReason,3}]).


'dec_NotifyCompletion'(Bytes,_) ->
?RT_PER:decode_bit_string(Bytes,[],[{onTimeOut,0},{onInterruptByEvent,1},{onInterruptByNewSignalDescr,2},{otherReason,3}]).


'enc_SignalName'({'SignalName',Val}) ->
'enc_SignalName'(Val);

'enc_SignalName'(Val) ->
  begin
    case length(Val) of
      Tmpval1 when Tmpval1 == 4 -> [2,20,Tmpval1,Val];
      _ -> exit({error,{value_out_of_bounds,Val}})
    end
  end.


'dec_SignalName'(Bytes,_) ->
  ?RT_PER:decode_octet_string(Bytes,4,false)
.


'enc_SignalDirection'({'SignalDirection',Val}) ->
'enc_SignalDirection'(Val);

'enc_SignalDirection'(Val) ->
case (case Val of {_,_}->element(2,Val);_->Val end) of
'internal' -> [0,?RT_PER:encode_integer([{'ValueRange',{0,2}}], 0)];
'external' -> [0,?RT_PER:encode_integer([{'ValueRange',{0,2}}], 1)];
'both' -> [0,?RT_PER:encode_integer([{'ValueRange',{0,2}}], 2)];
{asn1_enum,EnumV} when integer(EnumV), EnumV > 2 -> [1,?RT_PER:encode_small_number(EnumV)];
EnumVal -> exit({error,{asn1, {enumerated_not_in_range, EnumVal}}})
end.


'dec_SignalDirection'(Bytes,_) ->
?RT_PER:decode_enumerated(Bytes,[{'ValueRange',{0,2}}],{{internal,external,both},{}}).


'enc_SignalType'({'SignalType',Val}) ->
'enc_SignalType'(Val);

'enc_SignalType'(Val) ->
case (case Val of {_,_}->element(2,Val);_->Val end) of
'brief' -> [0,?RT_PER:encode_integer([{'ValueRange',{0,2}}], 0)];
'onOff' -> [0,?RT_PER:encode_integer([{'ValueRange',{0,2}}], 1)];
'timeOut' -> [0,?RT_PER:encode_integer([{'ValueRange',{0,2}}], 2)];
{asn1_enum,EnumV} when integer(EnumV), EnumV > 2 -> [1,?RT_PER:encode_small_number(EnumV)];
EnumVal -> exit({error,{asn1, {enumerated_not_in_range, EnumVal}}})
end.


'dec_SignalType'(Bytes,_) ->
?RT_PER:decode_enumerated(Bytes,[{'ValueRange',{0,2}}],{{brief,onOff,timeOut},{}}).

'enc_Signal'(Val) ->
{Val1,Opt} = ?RT_PER:fixoptionals([3,4,5,6,7],5,Val),
Extensions = ?RT_PER:fixextensions({ext,8,2}, Val1),
[
?RT_PER:setext(Extensions =/= []), Opt,

%% attribute number 1 with type OCTET STRING
  begin
    case length(element(2,Val1)) of
      Tmpval1 when Tmpval1 == 4 -> [2,20,Tmpval1,element(2,Val1)];
      _ -> exit({error,{value_out_of_bounds,element(2,Val1)}})
    end
  end,
case element(3,Val1) of
asn1_NOVALUE -> [];
Tmpval2 ->

%% attribute number 2 with type INTEGER
  %%INTEGER with effective constraint: [{'ValueRange',{0,65535},65536,{octets,2}}]
  begin
  case Tmpval2 of
    Tmpval3 when Tmpval3=<65535,Tmpval3>=0 ->
      [20,2,<<(Tmpval3- 0):16>>];
    Tmpval3 ->
      exit({error,{value_out_of_bounds,Tmpval3}})
  end

  end
end,
case element(4,Val1) of
asn1_NOVALUE -> [];
Tmpval4 ->

%% attribute number 3 with type ENUMERATED
case (case Tmpval4 of {_,_}->element(2,Tmpval4);_->Tmpval4 end) of
'brief' -> [0,?RT_PER:encode_integer([{'ValueRange',{0,2}}], 0)];
'onOff' -> [0,?RT_PER:encode_integer([{'ValueRange',{0,2}}], 1)];
'timeOut' -> [0,?RT_PER:encode_integer([{'ValueRange',{0,2}}], 2)];
{asn1_enum,EnumV} when integer(EnumV), EnumV > 2 -> [1,?RT_PER:encode_small_number(EnumV)];
EnumVal -> exit({error,{asn1, {enumerated_not_in_range, EnumVal}}})
end
end,
case element(5,Val1) of
asn1_NOVALUE -> [];
Tmpval5 ->

%% attribute number 4 with type INTEGER
  %%INTEGER with effective constraint: [{'ValueRange',{0,65535},65536,{octets,2}}]
  begin
  case Tmpval5 of
    Tmpval6 when Tmpval6=<65535,Tmpval6>=0 ->
      [20,2,<<(Tmpval6- 0):16>>];
    Tmpval6 ->
      exit({error,{value_out_of_bounds,Tmpval6}})
  end

  end
end,
case element(6,Val1) of
asn1_NOVALUE -> [];
Tmpval7 ->

%% attribute number 5 with type BIT STRING
?RT_PER:encode_bit_string(no,Tmpval7,[{onTimeOut,0},{onInterruptByEvent,1},{onInterruptByNewSignalDescr,2},{otherReason,3}])
end,
case element(7,Val1) of
asn1_NOVALUE -> [];
Tmpval8 ->

%% attribute number 6 with type BOOLEAN
case Tmpval8 of
  true -> [1];
  false -> [0];
  _ -> exit({error,{asn1,{encode_boolean,Tmpval8}}})
end
end,

%% attribute number 7 with type SEQUENCE OF
'enc_Signal_sigParList'(element(8,Val1))
,Extensions
,
case element(9,Val1) of
asn1_NOVALUE -> [];
Tmpval9 ->

%% attribute number 8 with type ENUMERATED
?RT_PER:encode_open_type(dummy,?RT_PER:complete(case (case Tmpval9 of {_,_}->element(2,Tmpval9);_->Tmpval9 end) of
'internal' -> [0,?RT_PER:encode_integer([{'ValueRange',{0,2}}], 0)];
'external' -> [0,?RT_PER:encode_integer([{'ValueRange',{0,2}}], 1)];
'both' -> [0,?RT_PER:encode_integer([{'ValueRange',{0,2}}], 2)];
{asn1_enum,EnumV} when integer(EnumV), EnumV > 2 -> [1,?RT_PER:encode_small_number(EnumV)];
EnumVal -> exit({error,{asn1, {enumerated_not_in_range, EnumVal}}})
end))
end,
case element(10,Val1) of
asn1_NOVALUE -> [];
Tmpval10 ->

%% attribute number 9 with type INTEGER
?RT_PER:encode_open_type(dummy,?RT_PER:complete(  %%INTEGER with effective constraint: [{'ValueRange',{0,4294967295}}]
  ?RT_PER:encode_integer([{'ValueRange',{0,4294967295}}],Tmpval10)))
end].

'enc_Signal_sigParList'({'Signal_sigParList',Val}) ->
'enc_Signal_sigParList'(Val);

'enc_Signal_sigParList'(Val) ->
[

   ?RT_PER:encode_length(undefined,length(Val)),
   'enc_Signal_sigParList_components'(Val, [])
].
'enc_Signal_sigParList_components'([], Acc) -> lists:reverse(Acc);

'enc_Signal_sigParList_components'([H|T], Acc) ->
'enc_Signal_sigParList_components'(T, ['enc_SigParameter'(H)

 | Acc]).

'dec_Signal_sigParList'(Bytes,_) ->

{Num,Bytes1} = ?RT_PER:decode_length(Bytes,undefined),
'dec_Signal_sigParList_components'(Num, Bytes1, telltype, []).
'dec_Signal_sigParList_components'(0, Bytes, _, Acc) ->
   {lists:reverse(Acc), Bytes};
'dec_Signal_sigParList_components'(Num, Bytes, _, Acc) ->
   {Term,Remain} = 'dec_SigParameter'(Bytes,telltype),
   'dec_Signal_sigParList_components'(Num-1, Remain, telltype, [Term|Acc]).


'dec_Signal'(Bytes,_) ->
{Ext,Bytes1} = ?RT_PER:getext(Bytes),
{Opt,Bytes2} = ?RT_PER:getoptionals2(Bytes1,5), 
%% attribute number 1 with type OCTET STRING
{Term1,Bytes3} =   ?RT_PER:decode_octet_string(Bytes2,4,false)
,

%% attribute number 2 with type INTEGER
{Term2,Bytes4} =