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File_Mpeg_Descriptors.h
869 lines (819 loc) · 34.3 KB
/
File_Mpeg_Descriptors.h
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/* Copyright (c) MediaArea.net SARL. All Rights Reserved.
*
* Use of this source code is governed by a BSD-style license that can
* be found in the License.html file in the root of the source tree.
*/
//+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
//
// Information about MPEG files, Descriptors
//
//+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
//---------------------------------------------------------------------------
#ifndef MediaInfo_Mpeg_DescriptorsH
#define MediaInfo_Mpeg_DescriptorsH
//---------------------------------------------------------------------------
//---------------------------------------------------------------------------
#include "MediaInfo/Multiple/File_Mpeg4_Descriptors.h"
#include "MediaInfo/Duplicate/File__Duplicate_MpegTs.h"
#if defined(MEDIAINFO_EIA608_YES) || defined(MEDIAINFO_EIA708_YES)
#include "MediaInfo/File__Analyze.h"
#endif
#include <cfloat>
#include <set>
//---------------------------------------------------------------------------
namespace MediaInfoLib
{
//***************************************************************************
// Global object
//***************************************************************************
struct complete_stream
{
//Global
int16u transport_stream_id; //The processed transport_stream_id
bool transport_stream_id_IsValid; //The processed transport_stream_id
Ztring original_network_name;
Ztring network_name;
Ztring Duration_Start;
Ztring Duration_End;
bool Duration_End_IsUpdated;
std::map<Ztring, Ztring> TimeZones; //Key is country code
#if defined(MEDIAINFO_EIA608_YES) || defined(MEDIAINFO_EIA708_YES)
class service_desc_holder
{
public:
File__Analyze::servicedescriptors* ServiceDescriptors;
service_desc_holder() : ServiceDescriptors(NULL)
{
}
~service_desc_holder()
{
reset();
}
void Clone_Desc(File__Analyze::servicedescriptors* src)
{
if (src)
{
reset(new File__Analyze::servicedescriptors);
*ServiceDescriptors = *src;
}
else
{
reset();
}
}
void reset(File__Analyze::servicedescriptors* new_ptr = NULL)
{
if(ServiceDescriptors)
delete ServiceDescriptors;
ServiceDescriptors = new_ptr;
}
};
#endif
//Per transport_stream
struct transport_stream
#if defined(MEDIAINFO_EIA608_YES) || defined(MEDIAINFO_EIA708_YES)
: public service_desc_holder
#endif
{
bool HasChanged;
std::map<std::string, Ztring> Infos;
struct program
#if defined(MEDIAINFO_EIA608_YES) || defined(MEDIAINFO_EIA708_YES)
: public service_desc_holder
#endif
{
bool HasChanged;
std::map<std::string, Ztring> Infos;
std::map<std::string, Ztring> ExtraInfos_Content;
std::map<std::string, Ztring> ExtraInfos_Option;
std::map<Ztring, Ztring> EPGs;
std::vector<int16u> elementary_PIDs;
size_t StreamPos; //Stream_Menu
int32u registration_format_identifier;
int16u pid;
int16u PCR_PID;
int16u source_id; //ATSC
bool source_id_IsValid;
bool IsParsed;
bool IsRegistered;
bool HasNotDisplayableStreams; //e.g. unknown stream, KLV, SCTE 35
bool Update_Needed_IsRegistered;
bool Update_Needed_StreamCount;
bool Update_Needed_StreamPos;
bool Update_Needed_Info;
//DVB
struct dvb_epg_block
{
struct event
{
Ztring start_time;
Ztring duration;
struct short_event_
{
Ztring event_name;
Ztring text;
};
short_event_ short_event;
Ztring content;
Ztring running_status;
};
typedef std::map<int16u, event> events; //Key is event_id
events Events; //Key is event_id
};
typedef std::map<int8u, dvb_epg_block> dvb_epg_blocks; //Key is table_id
dvb_epg_blocks DVB_EPG_Blocks; //Key is table_id
bool DVB_EPG_Blocks_IsUpdated;
//SCTE 35
struct scte35
{
struct segmentation
{
struct segment
{
int8u Status; //If it is currently in the program: 0=Running, 1=Ended, 2=Early termination
segment()
{
Status=(int8u)-1;
}
};
typedef std::map<int8u, segment> segments; //Key is segmentation_type_id
segments Segments;
;
};
typedef std::map<int32u, segmentation> segmentations; //Key is segmentation_event_id
segmentations Segmentations;
int16u pid;
scte35()
{
pid=(int16u)-1;
}
};
scte35* Scte35;
//Constructor/Destructor
program()
:
HasChanged(false),
StreamPos((size_t)-1),
registration_format_identifier(0x00000000),
pid(0x00000),
PCR_PID(0x0000),
source_id((int16u)-1),
source_id_IsValid(false),
IsParsed(false),
IsRegistered(false),
HasNotDisplayableStreams(false),
Update_Needed_IsRegistered(false),
Update_Needed_StreamCount(false),
Update_Needed_StreamPos(false),
Update_Needed_Info(false),
DVB_EPG_Blocks_IsUpdated(false),
Scte35(NULL)
{}
program(const program& p)
:
HasChanged(p.HasChanged),
Infos(p.Infos),
ExtraInfos_Content(p.ExtraInfos_Content),
ExtraInfos_Option(p.ExtraInfos_Option),
EPGs(p.EPGs),
elementary_PIDs(p.elementary_PIDs),
StreamPos(p.StreamPos),
registration_format_identifier(p.registration_format_identifier),
pid(p.pid),
PCR_PID(p.PCR_PID),
source_id(p.source_id),
source_id_IsValid(p.source_id_IsValid),
IsParsed(p.IsParsed),
IsRegistered(p.IsRegistered),
HasNotDisplayableStreams(p.HasNotDisplayableStreams),
Update_Needed_IsRegistered(p.Update_Needed_IsRegistered),
Update_Needed_StreamCount(p.Update_Needed_StreamCount),
Update_Needed_StreamPos(p.Update_Needed_StreamPos),
Update_Needed_Info(p.Update_Needed_Info),
DVB_EPG_Blocks_IsUpdated(p.DVB_EPG_Blocks_IsUpdated),
Scte35(p.Scte35)
{
#if defined(MEDIAINFO_EIA608_YES) || defined(MEDIAINFO_EIA708_YES)
Clone_Desc(p.ServiceDescriptors);
#endif
}
program& operator=(const program& p)
{
#if defined(MEDIAINFO_EIA608_YES) || defined(MEDIAINFO_EIA708_YES)
Clone_Desc(p.ServiceDescriptors);
#endif
HasChanged=p.HasChanged;
Infos=p.Infos;
ExtraInfos_Content=p.ExtraInfos_Content;
ExtraInfos_Option=p.ExtraInfos_Option;
EPGs=p.EPGs;
elementary_PIDs=p.elementary_PIDs;
StreamPos=p.StreamPos;
registration_format_identifier=p.registration_format_identifier;
pid=p.pid;
PCR_PID=p.PCR_PID;
source_id=p.source_id;
source_id_IsValid=p.source_id_IsValid;
IsParsed=p.IsParsed;
IsRegistered=p.IsRegistered;
HasNotDisplayableStreams=p.HasNotDisplayableStreams;
Update_Needed_IsRegistered=p.Update_Needed_IsRegistered;
Update_Needed_StreamCount=p.Update_Needed_StreamCount;
Update_Needed_StreamPos=p.Update_Needed_StreamPos;
Update_Needed_Info=p.Update_Needed_Info;
DVB_EPG_Blocks_IsUpdated=p.DVB_EPG_Blocks_IsUpdated;
Scte35=p.Scte35;
return *this;
}
};
typedef std::map<int16u, program> programs; //Key is program_number
programs Programs; //Key is program_number
std::vector<int16u> programs_List;
size_t Programs_NotParsedCount;
//Per IOD
struct iod_es
{
File__Analyze* Parser;
#ifdef MEDIAINFO_MPEG4_YES
File_Mpeg4_Descriptors::slconfig* SLConfig;
#endif
//Constructor/Destructor
iod_es()
{
Parser=NULL;
#ifdef MEDIAINFO_MPEG4_YES
SLConfig=NULL;
#endif
}
~iod_es()
{
delete Parser; //Parser=NULL;
#ifdef MEDIAINFO_MPEG4_YES
delete SLConfig; //SLConfig=NULL;
#endif
}
};
typedef std::map<int16u, iod_es> iod_ess; //Key is ES_ID
std::map<int16u, iod_es> IOD_ESs; //Key is ES_ID
//ATSC
int16u source_id; //Global
bool source_id_IsValid;
transport_stream()
{
HasChanged=false;
source_id=(int16u)-1;
source_id_IsValid=false;
Programs_NotParsedCount=(size_t)-1;
}
};
typedef std::map<int16u, transport_stream> transport_streams; //Key is transport_stream_id
transport_streams Transport_Streams; //Key is transport_stream_id
//Per pid
struct stream
{
File__Analyze* Parser;
enum ts_kind
{
//MPEG
unknown,
pes,
psi,
ts_kind_Max,
};
std::vector<int16u> program_numbers;
struct table_id
{
struct table_id_extension
{
typedef std::vector<bool> section_numbers; //Key is section_number
section_numbers Section_Numbers; //Key is section_number
int8u version_number;
};
typedef std::map<int16u, table_id_extension> table_id_extensions; //Key is table_id_extensions
table_id_extensions Table_ID_Extensions; //Key is table_id_extensions
bool Table_ID_Extensions_CanAdd;
table_id()
{
Table_ID_Extensions_CanAdd=true;
}
};
typedef std::vector<table_id*> table_ids;
table_ids Table_IDs; //Key is table_id
std::map<std::string, Ztring> Infos;
std::map<std::string, Ztring> Infos_Option;
#if defined(MEDIAINFO_TELETEXT_YES)
std::map<int16u, File__Analyze::teletext> Teletexts; //Key is teletext_magazine_number;
#endif
#if MEDIAINFO_TRACE
Ztring Element_Info1;
#endif //MEDIAINFO_TRACE
stream_t StreamKind;
stream_t StreamKind_FromDescriptor;
size_t StreamPos;
ts_kind Kind;
bool IsParsed;
bool IsPCR;
float64 IsPCR_Duration;
#ifdef MEDIAINFO_MPEGTS_PCR_YES
int64u TimeStamp_Start;
int64u TimeStamp_Start_Offset;
int64u TimeStamp_End;
int64u TimeStamp_End_Offset;
int16u PCR_PID; //If this pid has no PCR, decide which PCR should be used
bool TimeStamp_End_IsUpdated;
float64 TimeStamp_InstantaneousBitRate_Current_Min;
float64 TimeStamp_InstantaneousBitRate_Current_Raw;
float64 TimeStamp_InstantaneousBitRate_Current_Max;
int64u TimeStamp_InstantaneousBitRate_BitRateMode_IsCbr;
int64u TimeStamp_InstantaneousBitRate_BitRateMode_IsVbr;
#if MEDIAINFO_ADVANCED
float64 TimeStamp_InstantaneousBitRate_Min_Raw;
float64 TimeStamp_InstantaneousBitRate_Max_Raw;
int64u TimeStamp_Distance_Min;
int64u TimeStamp_Distance_Max;
int64u TimeStamp_Distance_Total;
int64u TimeStamp_Distance_Count;
int64u TimeStamp_HasProblems;
std::vector<int64u> TimeStamp_Intermediate;
#endif // MEDIAINFO_ADVANCED
#endif //MEDIAINFO_MPEGTS_PCR_YES
int32u registration_format_identifier;
int16u FMC_ES_ID;
int16u table_type; //ATSC
int8u stream_type;
int8u descriptor_tag;
int8u DtsNeural_config_id;
bool FMC_ES_ID_IsValid;
bool Searching;
bool Searching_Payload_Start;
bool Searching_Payload_Continue;
#ifdef MEDIAINFO_MPEGTS_PCR_YES
bool Searching_TimeStamp_Start;
bool Searching_TimeStamp_End;
#endif //MEDIAINFO_MPEGTS_PCR_YES
#ifdef MEDIAINFO_MPEGTS_PESTIMESTAMP_YES
bool Searching_ParserTimeStamp_Start;
bool Searching_ParserTimeStamp_End;
#endif //MEDIAINFO_MPEGTS_PESTIMESTAMP_YES
bool EndTimeStampMoreThanxSeconds;
bool ShouldDuplicate;
bool IsRegistered;
bool IsUpdated_IsRegistered;
bool IsUpdated_Info;
bool CA_system_ID_MustSkipSlices;
bool EBP_Marker_Detected;
size_t Scrambled_Count;
int16u CA_system_ID;
int16u SubStream_pid;
#if MEDIAINFO_IBIUSAGE
int64u Ibi_SynchronizationOffset_BeginOfFrame;
#endif //MEDIAINFO_IBIUSAGE
#if defined(MEDIAINFO_EIA608_YES) || defined(MEDIAINFO_EIA708_YES)
File__Analyze::servicedescriptors ServiceDescriptors;
bool ServiceDescriptors_IsPresent;
#endif
//Constructor/Destructor
stream()
{
Parser=NULL;
StreamKind=Stream_Max;
StreamKind_FromDescriptor=Stream_Max;
StreamPos=(size_t)-1;
Kind=unknown;
IsParsed=false;
IsPCR=false;
IsPCR_Duration=0;
#ifdef MEDIAINFO_MPEGTS_PCR_YES
TimeStamp_Start=(int64u)-1;
TimeStamp_Start_Offset=(int64u)-1;
TimeStamp_End=(int64u)-1;
TimeStamp_End_Offset=(int64u)-1;
PCR_PID=0x0000;
TimeStamp_End_IsUpdated=false;
TimeStamp_InstantaneousBitRate_Current_Min=0;
TimeStamp_InstantaneousBitRate_Current_Raw=0;
TimeStamp_InstantaneousBitRate_Current_Max=0;
TimeStamp_InstantaneousBitRate_BitRateMode_IsCbr=0;
TimeStamp_InstantaneousBitRate_BitRateMode_IsVbr=0;
#if MEDIAINFO_ADVANCED
TimeStamp_InstantaneousBitRate_Min_Raw=DBL_MAX;
TimeStamp_InstantaneousBitRate_Max_Raw=0;
TimeStamp_Distance_Min=(int64u)-1;
TimeStamp_Distance_Max=0;
TimeStamp_Distance_Total=0;
TimeStamp_Distance_Count=0;
TimeStamp_HasProblems=0;
#endif // MEDIAINFO_ADVANCED
#endif //MEDIAINFO_MPEGTS_PCR_YES
registration_format_identifier=0x00000000;
FMC_ES_ID=0x0000;
table_type=0x0000;
stream_type=(int8u)-1;
descriptor_tag=(int8u)-1;
DtsNeural_config_id=(int8u)-1;
FMC_ES_ID_IsValid=false;
Searching=false;
Searching_Payload_Start=false;
Searching_Payload_Continue=false;
#ifdef MEDIAINFO_MPEGTS_PCR_YES
Searching_TimeStamp_Start=false;
Searching_TimeStamp_End=false;
#endif //MEDIAINFO_MPEGTS_PCR_YES
#ifdef MEDIAINFO_MPEGTS_PESTIMESTAMP_YES
Searching_ParserTimeStamp_Start=false;
Searching_ParserTimeStamp_End=false;
#endif //MEDIAINFO_MPEGTS_PESTIMESTAMP_YES
EndTimeStampMoreThanxSeconds=false;
ShouldDuplicate=false;
IsRegistered=false;
IsUpdated_IsRegistered=false;
IsUpdated_Info=false;
Scrambled_Count=0;
CA_system_ID_MustSkipSlices=false;
CA_system_ID=0x0000;
EBP_Marker_Detected=false;
SubStream_pid=0x0000;
#if MEDIAINFO_IBIUSAGE
Ibi_SynchronizationOffset_BeginOfFrame=(int64u)-1;
#endif //MEDIAINFO_IBIUSAGE
#if defined(MEDIAINFO_EIA608_YES) || defined(MEDIAINFO_EIA708_YES)
ServiceDescriptors_IsPresent=false;
#endif
}
~stream()
{
delete Parser; //Parser=NULL;
for (size_t Pos=0; Pos<Table_IDs.size(); Pos++)
delete Table_IDs[Pos]; //Table_IDs[Pos]=NULL;
}
//Helpers
void Searching_Payload_Start_Set(bool ToSet)
{
Searching_Payload_Start=ToSet;
Searching_Test();
}
void Searching_Payload_Continue_Set(bool ToSet)
{
Searching_Payload_Continue=ToSet;
Searching_Test();
}
#ifdef MEDIAINFO_MPEGTS_PCR_YES
void Searching_TimeStamp_Start_Set(bool ToSet)
{
Searching_TimeStamp_Start=ToSet;
Searching_Test();
}
void Searching_TimeStamp_End_Set(bool ToSet)
{
Searching_TimeStamp_End=ToSet;
Searching_Test();
}
#endif //MEDIAINFO_MPEGTS_PCR_YES
#ifdef MEDIAINFO_MPEGTS_PESTIMESTAMP_YES
void Searching_ParserTimeStamp_Start_Set(bool ToSet)
{
Searching_ParserTimeStamp_Start=ToSet;
Searching_Test();
}
void Searching_ParserTimeStamp_End_Set(bool ToSet)
{
Searching_ParserTimeStamp_End=ToSet;
Searching_Test();
}
#endif //MEDIAINFO_MPEGTS_PESTIMESTAMP_YES
void Searching_Test()
{
Searching=Searching_Payload_Start
| Searching_Payload_Continue
#ifdef MEDIAINFO_MPEGTS_PCR_YES
| Searching_TimeStamp_Start
| Searching_TimeStamp_End
#endif //MEDIAINFO_MPEGTS_PCR_YES
#ifdef MEDIAINFO_MPEGTS_PESTIMESTAMP_YES
| Searching_ParserTimeStamp_Start
| Searching_ParserTimeStamp_End
#endif //MEDIAINFO_MPEGTS_PESTIMESTAMP_YES
;
}
void init(const size_t ID)
{
Searching_Payload_Start_Set(true);
Kind = complete_stream::stream::psi;
Table_IDs.resize(0x100);
Table_IDs[ID] = new complete_stream::stream::table_id;
}
};
typedef std::vector<stream*> streams;
streams Streams; //Key is pid
size_t Streams_NotParsedCount;
size_t Streams_With_StartTimeStampCount;
size_t Streams_With_EndTimeStampMoreThanxSecondsCount;
//ATSC
int8u GPS_UTC_offset;
struct source
{
std::map<int16u, Ztring> texts;
struct atsc_epg_block
{
struct event
#if defined(MEDIAINFO_EIA608_YES) || defined(MEDIAINFO_EIA708_YES)
: public service_desc_holder
#endif
{
int32u start_time;
Ztring duration;
Ztring title;
std::map<int16u, Ztring> texts;
event() : start_time((int32u)-1)
{}
event(const event& e)
:
start_time(e.start_time)
{
#if defined(MEDIAINFO_EIA608_YES) || defined(MEDIAINFO_EIA708_YES)
Clone_Desc(e.ServiceDescriptors);
#endif
}
event& operator=(const event& e)
{
#if defined(MEDIAINFO_EIA608_YES) || defined(MEDIAINFO_EIA708_YES)
Clone_Desc(e.ServiceDescriptors);
#endif
start_time=e.start_time;
return *this;
}
};
typedef std::map<int16u, event> events; //Key is event_id
events Events; //Key is event_id
};
typedef std::map<int16u, atsc_epg_block> atsc_epg_blocks; //Key is table_id
atsc_epg_blocks ATSC_EPG_Blocks; //Key is table_id
bool ATSC_EPG_Blocks_IsUpdated;
source()
{
ATSC_EPG_Blocks_IsUpdated=false;
}
};
typedef std::map<int16u, source> sources; //Key is source_id
sources Sources; //Key is source_id
bool Sources_IsUpdated; //For EPG ATSC
bool Programs_IsUpdated; //For EPG DVB
//File__Duplicate
#if MEDIAINFO_DUPLICATE
bool File__Duplicate_HasChanged_;
size_t Config_File_Duplicate_Get_AlwaysNeeded_Count;
std::vector<File__Duplicate_MpegTs*> Duplicates_Speed;
std::vector<std::vector<File__Duplicate_MpegTs*> > Duplicates_Speed_FromPID;
std::map<const String, File__Duplicate_MpegTs*> Duplicates;
bool File__Duplicate_Get_From_PID (int16u pid) const
{
if (Duplicates_Speed_FromPID.empty())
return false;
return !Duplicates_Speed_FromPID[pid].empty();
}
#endif //MEDIAINFO_DUPLICATE
//SpeedUp information
std::vector<std::vector<size_t> > StreamPos_ToRemove;
std::map<int16u, int16u> PCR_PIDs; //Key is PCR_PID, value is count of programs using it
std::set<int16u> PES_PIDs; //Key is pid
std::vector<int16u> program_number_Order;
//Constructor/Destructor
complete_stream()
{
transport_stream_id=(int16u)-1;
transport_stream_id_IsValid=false;
Duration_End_IsUpdated=false;
Streams_NotParsedCount=(size_t)-1;
Streams_With_StartTimeStampCount=0;
Streams_With_EndTimeStampMoreThanxSecondsCount=0;
GPS_UTC_offset=0;
Sources_IsUpdated=false;
Programs_IsUpdated=false;
StreamPos_ToRemove.resize(Stream_Max);
#if MEDIAINFO_DUPLICATE
File__Duplicate_HasChanged_ = false;
Config_File_Duplicate_Get_AlwaysNeeded_Count = 0;
#endif //MEDIAINFO_DUPLICATE
}
~complete_stream()
{
for (size_t StreamID=0; StreamID<Streams.size(); StreamID++)
delete Streams[StreamID]; //Streams[StreamID]=NULL;
#if MEDIAINFO_DUPLICATE
std::map<const String, File__Duplicate_MpegTs*>::iterator Duplicates_Temp=Duplicates.begin();
while (Duplicates_Temp!=Duplicates.end())
{
delete Duplicates_Temp->second; //Duplicates_Temp->second=NULL
++Duplicates_Temp;
}
#endif //MEDIAINFO_DUPLICATE
}
};
//***************************************************************************
// Class File_Mpeg_Descriptors
//***************************************************************************
class File_Mpeg_Descriptors : public File__Analyze
{
public :
//In
complete_stream* Complete_Stream;
int16u transport_stream_id;
int16u pid;
int8u table_id;
int16u table_id_extension;
int16u elementary_PID;
int16u program_number;
int32u registration_format_identifier;
int8u stream_type;
int16u event_id;
bool elementary_PID_IsValid;
bool program_number_IsValid;
bool registration_format_identifier_IsValid;
bool stream_type_IsValid;
bool event_id_IsValid;
//Out
//Constructor/Destructor
File_Mpeg_Descriptors();
private :
//Buffer - File header
void FileHeader_Parse();
//Buffer - Per element
void Header_Parse();
void Data_Parse();
//Elements
void Descriptors();
void Descriptor();
void Descriptor_00() {Skip_XX(Element_Size, "Data");};
void Descriptor_01() {Skip_XX(Element_Size, "Data");};
void Descriptor_02();
void Descriptor_03();
void Descriptor_04() {Skip_XX(Element_Size, "Data");};
void Descriptor_05();
void Descriptor_06();
void Descriptor_07();
void Descriptor_08();
void Descriptor_09();
void Descriptor_0A();
void Descriptor_0B();
void Descriptor_0C() {Skip_XX(Element_Size, "Data");};
void Descriptor_0D();
void Descriptor_0E();
void Descriptor_0F();
void Descriptor_10();
void Descriptor_11();
void Descriptor_12() {Skip_XX(Element_Size, "Data");};
void Descriptor_13() {Skip_XX(Element_Size, "Data");};
void Descriptor_14() {Skip_XX(Element_Size, "Data");};
void Descriptor_15() {Skip_XX(Element_Size, "Data");};
void Descriptor_16() {Skip_XX(Element_Size, "Data");};
void Descriptor_17() {Skip_XX(Element_Size, "Data");};
void Descriptor_18() {Skip_XX(Element_Size, "Data");};
void Descriptor_19() {Skip_XX(Element_Size, "Data");};
void Descriptor_1A() {Skip_XX(Element_Size, "Data");};
void Descriptor_1B() {Skip_XX(Element_Size, "Data");};
void Descriptor_1C();
void Descriptor_1D();
void Descriptor_1E() {Skip_XX(Element_Size, "Data");};
void Descriptor_1F();
void Descriptor_20() {Skip_XX(Element_Size, "Data");};
void Descriptor_21() {Skip_XX(Element_Size, "Data");};
void Descriptor_22() {Skip_XX(Element_Size, "Data");};
void Descriptor_23() {Skip_XX(Element_Size, "Data");};
void Descriptor_24() {Skip_XX(Element_Size, "Data");};
void Descriptor_25() {Skip_XX(Element_Size, "Data");};
void Descriptor_26() {Skip_XX(Element_Size, "Data");};
void Descriptor_27() {Skip_XX(Element_Size, "Data");};
void Descriptor_28();
void Descriptor_29() {Skip_XX(Element_Size, "Data");};
void Descriptor_2A();
void Descriptor_2B() {Skip_XX(Element_Size, "Data");};
void Descriptor_2C() {Skip_XX(Element_Size, "Data");};
void Descriptor_2D() {Skip_XX(Element_Size, "Data");};
void Descriptor_2E() {Skip_XX(Element_Size, "Data");};
void Descriptor_2F();
void Descriptor_30() {Skip_XX(Element_Size, "Data");};
void Descriptor_31() {Skip_XX(Element_Size, "Data");};
void Descriptor_32() {Skip_XX(Element_Size, "Data");};
void Descriptor_33() {Skip_XX(Element_Size, "Data");};
void Descriptor_34() {Skip_XX(Element_Size, "Data");};
void Descriptor_35() {Skip_XX(Element_Size, "Data");};
void Descriptor_36() {Skip_XX(Element_Size, "Data");};
void Descriptor_37() {Skip_XX(Element_Size, "Data");};
void Descriptor_38();
void Descriptor_3F();
void Descriptor_3F_00() {Skip_XX(Element_Size-Element_Offset, "Data");};
void Descriptor_3F_01() {Skip_XX(Element_Size-Element_Offset, "Data");};
void Descriptor_3F_02() {Skip_XX(Element_Size-Element_Offset, "Data");};
void Descriptor_3F_03();
void Descriptor_3F_04() {Skip_XX(Element_Size-Element_Offset, "Data");};
void Descriptor_3F_05() {Skip_XX(Element_Size-Element_Offset, "Data");};
void Descriptor_3F_06() {Skip_XX(Element_Size-Element_Offset, "Data");};
void Descriptor_3F_07() {Skip_XX(Element_Size-Element_Offset, "Data");};
void Descriptor_3F_08() {Skip_XX(Element_Size-Element_Offset, "Data");};
void Descriptor_3F_09() {Skip_XX(Element_Size-Element_Offset, "Data");};
void Descriptor_3F_0A() {Skip_XX(Element_Size-Element_Offset, "Data");};
void Descriptor_3F_0B() {Skip_XX(Element_Size-Element_Offset, "Data");};
void Descriptor_3F_0C() {Skip_XX(Element_Size-Element_Offset, "Data");};
void Descriptor_3F_0D() {Skip_XX(Element_Size-Element_Offset, "Data");};
void Descriptor_3F_0E() {Skip_XX(Element_Size-Element_Offset, "Data");};
void Descriptor_3F_0F() {Skip_XX(Element_Size-Element_Offset, "Data");};
void Descriptor_3F_10() {Skip_XX(Element_Size-Element_Offset, "Data");};
void Descriptor_40();
void Descriptor_41();
void Descriptor_42() {Skip_XX(Element_Size, "Data");};
void Descriptor_43();
void Descriptor_44() {Skip_XX(Element_Size, "Data");};
void Descriptor_45() {Skip_XX(Element_Size, "Data");};
void Descriptor_46() {Skip_XX(Element_Size, "Data");};
void Descriptor_47() {Skip_XX(Element_Size, "Data");};
void Descriptor_48();
void Descriptor_49() {Skip_XX(Element_Size, "Data");};
void Descriptor_4A();
void Descriptor_4B() {Skip_XX(Element_Size, "Data");};
void Descriptor_4C() {Skip_XX(Element_Size, "Data");};
void Descriptor_4D();
void Descriptor_4E() {Skip_XX(Element_Size, "Data");};
void Descriptor_4F() {Skip_XX(Element_Size, "Data");};
void Descriptor_50();
void Descriptor_51() {Skip_XX(Element_Size, "Data");};
void Descriptor_52();
void Descriptor_53() {Skip_XX(Element_Size, "Data");};
void Descriptor_54();
void Descriptor_55();
void Descriptor_56();
void Descriptor_57() {Skip_XX(Element_Size, "Data");};
void Descriptor_58();
void Descriptor_59();
void Descriptor_5A();
void Descriptor_5B() {Skip_XX(Element_Size, "Data");};
void Descriptor_5C() {Skip_XX(Element_Size, "Data");};
void Descriptor_5D();
void Descriptor_5E() {Skip_XX(Element_Size, "Data");};
void Descriptor_5F();
void Descriptor_60() {Skip_XX(Element_Size, "Data");};
void Descriptor_61() {Skip_XX(Element_Size, "Data");};
void Descriptor_62() {Skip_XX(Element_Size, "Data");};
void Descriptor_63();
void Descriptor_64() {Skip_XX(Element_Size, "Data");};
void Descriptor_65() {Skip_XX(Element_Size, "Data");};
void Descriptor_66();
void Descriptor_67() {Skip_XX(Element_Size, "Data");};
void Descriptor_68() {Skip_XX(Element_Size, "Data");};
void Descriptor_69() {Skip_XX(Element_Size, "Data");};
void Descriptor_6A();
void Descriptor_6B() {Skip_XX(Element_Size, "Data");};
void Descriptor_6C() {Skip_XX(Element_Size, "Data");};
void Descriptor_6D() {Skip_XX(Element_Size, "Data");};
void Descriptor_6E() {Skip_XX(Element_Size, "Data");};
void Descriptor_6F() {Skip_XX(Element_Size, "Data");};
void Descriptor_70() {Skip_XX(Element_Size, "Data");};
void Descriptor_71() {Skip_XX(Element_Size, "Data");};
void Descriptor_72() {Skip_XX(Element_Size, "Data");};
void Descriptor_73() {Skip_XX(Element_Size, "Data");};
void Descriptor_74() {Skip_XX(Element_Size, "Data");};
void Descriptor_75() {Skip_XX(Element_Size, "Data");};
void Descriptor_76() {Skip_XX(Element_Size, "Data");};
void Descriptor_77() {Skip_XX(Element_Size, "Data");};
void Descriptor_78() {Skip_XX(Element_Size, "Data");};
void Descriptor_79() {Skip_XX(Element_Size, "Data");};
void Descriptor_7A();
void Descriptor_7B();
void Descriptor_7C();
void Descriptor_7D() {Skip_XX(Element_Size, "Data");};
void Descriptor_7E() {Skip_XX(Element_Size, "Data");};
void Descriptor_7F();
void Descriptor_7F_0F();
void Descriptor_80() {Skip_XX(Element_Size, "Data");};
void Descriptor_81();
void Descriptor_86();
void Descriptor_87();
void Descriptor_A0();
void Descriptor_A1();
void Descriptor_A2() {Skip_XX(Element_Size, "Data");};
void Descriptor_A3();
void Descriptor_A8() {Skip_XX(Element_Size, "Data");};
void Descriptor_A9() {Skip_XX(Element_Size, "Data");};
void Descriptor_AA();
void Descriptor_AB() {Skip_XX(Element_Size, "Data");};
void Descriptor_B0();
void Descriptor_C1();
void Descriptor_C4() {Skip_XX(Element_Size, "Data");};
void Descriptor_C8();
void Descriptor_DE();
void Descriptor_E9();
void Descriptor_FC();
void Descriptor_FD();
//SCTE 35
void CUEI_00();
void CUEI_01();
void CUEI_02();
//Helpers
void ATSC_multiple_string_structure(Ztring &Value, const char* Info);
void Get_DVB_Text(int64u Size, Ztring &Value, const char* Info);
void Skip_DVB_Text(int64u Size, const char* Info) {Ztring Temp; Get_DVB_Text(Size, Temp, Info);};
static Ztring TimeHHMM_BCD(int16u Time);
static Ztring Frequency_DVB__BCD(int32u Frequency);
static Ztring OrbitalPosition_DVB__BCD(int32u OrbitalPosition);
};
} //NameSpace
#endif