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508 lines
21 KiB
C++
508 lines
21 KiB
C++
/***************************************************************************
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* Copyright (c) 2003 by Marcel Wiesweg *
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* *
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* This program is free software; you can redistribute it and/or modify *
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* it under the terms of the GNU General Public License as published by *
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* the Free Software Foundation; either version 2 of the License, or *
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* (at your option) any later version. *
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* *
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* $Id: si.h 2.4 2011/12/10 15:47:15 kls Exp $
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* *
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***************************************************************************/
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#ifndef LIBSI_SI_H
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#define LIBSI_SI_H
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#include <stdint.h>
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#include "util.h"
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#include "headers.h"
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namespace SI {
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enum TableId { TableIdPAT = 0x00, //program association section
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TableIdCAT = 0x01, //conditional access section
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TableIdPMT = 0x02, //program map section
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TableIdTSDT = 0x03,//transport stream description section
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TableIdNIT = 0x40, //network information, actual network section
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TableIdNIT_other = 0x41, //network information section, other network
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TableIdSDT = 0x42, //service description section
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TableIdSDT_other = 0x46,
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TableIdBAT = 0x4A, //bouquet association section
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TableIdEIT_presentFollowing = 0x4E, //event information section
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TableIdEIT_presentFollowing_other = 0x4F,
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//range from 0x50 to 0x5F
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TableIdEIT_schedule_first = 0x50,
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TableIdEIT_schedule_last = 0x5F,
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//range from 0x60 to 0x6F
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TableIdEIT_schedule_Other_first = 0x60,
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TableIdEIT_schedule_Other_last = 0x6F,
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TableIdTDT = 0x70, //time date section
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TableIdRST = 0x71, //running status section
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TableIdST = 0x72, //stuffing section
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TableIdTOT = 0x73, //time offset section
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TableIdDIT = 0x7E, //discontinuity information section
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TableIdSIT = 0x7F, //service information section
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TableIdAIT = 0x74, //application information section
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TableIdPremiereCIT = 0xA0 //premiere content information section
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};
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enum DescriptorTag {
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// defined by ISO/IEC 13818-1
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VideoStreamDescriptorTag = 0x02,
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AudioStreamDescriptorTag = 0x03,
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HierarchyDescriptorTag = 0x04,
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RegistrationDescriptorTag = 0x05,
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DataStreamAlignmentDescriptorTag = 0x06,
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TargetBackgroundGridDescriptorTag = 0x07,
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VideoWindowDescriptorTag = 0x08,
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CaDescriptorTag = 0x09,
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ISO639LanguageDescriptorTag = 0x0A,
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SystemClockDescriptorTag = 0x0B,
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MultiplexBufferUtilizationDescriptorTag = 0x0C,
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CopyrightDescriptorTag = 0x0D,
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MaximumBitrateDescriptorTag = 0x0E,
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PrivateDataIndicatorDescriptorTag = 0x0F,
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SmoothingBufferDescriptorTag = 0x10,
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STDDescriptorTag = 0x11,
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IBPDescriptorTag = 0x12,
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// defined by ISO-13818-6 (DSM-CC)
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CarouselIdentifierDescriptorTag = 0x13,
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// 0x14 - 0x3F Reserved
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// defined by ETSI (EN 300 468)
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NetworkNameDescriptorTag = 0x40,
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ServiceListDescriptorTag = 0x41,
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StuffingDescriptorTag = 0x42,
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SatelliteDeliverySystemDescriptorTag = 0x43,
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CableDeliverySystemDescriptorTag = 0x44,
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VBIDataDescriptorTag = 0x45,
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VBITeletextDescriptorTag = 0x46,
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BouquetNameDescriptorTag = 0x47,
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ServiceDescriptorTag = 0x48,
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CountryAvailabilityDescriptorTag = 0x49,
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LinkageDescriptorTag = 0x4A,
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NVODReferenceDescriptorTag = 0x4B,
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TimeShiftedServiceDescriptorTag = 0x4C,
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ShortEventDescriptorTag = 0x4D,
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ExtendedEventDescriptorTag = 0x4E,
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TimeShiftedEventDescriptorTag = 0x4F,
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ComponentDescriptorTag = 0x50,
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MocaicDescriptorTag = 0x51,
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StreamIdentifierDescriptorTag = 0x52,
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CaIdentifierDescriptorTag = 0x53,
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ContentDescriptorTag = 0x54,
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ParentalRatingDescriptorTag = 0x55,
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TeletextDescriptorTag = 0x56,
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TelephoneDescriptorTag = 0x57,
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LocalTimeOffsetDescriptorTag = 0x58,
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SubtitlingDescriptorTag = 0x59,
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TerrestrialDeliverySystemDescriptorTag = 0x5A,
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MultilingualNetworkNameDescriptorTag = 0x5B,
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MultilingualBouquetNameDescriptorTag = 0x5C,
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MultilingualServiceNameDescriptorTag = 0x5D,
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MultilingualComponentDescriptorTag = 0x5E,
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PrivateDataSpecifierDescriptorTag = 0x5F,
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ServiceMoveDescriptorTag = 0x60,
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ShortSmoothingBufferDescriptorTag = 0x61,
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FrequencyListDescriptorTag = 0x62,
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PartialTransportStreamDescriptorTag = 0x63,
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DataBroadcastDescriptorTag = 0x64,
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ScramblingDescriptorTag = 0x65,
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DataBroadcastIdDescriptorTag = 0x66,
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TransportStreamDescriptorTag = 0x67,
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DSNGDescriptorTag = 0x68,
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PDCDescriptorTag = 0x69,
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AC3DescriptorTag = 0x6A,
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AncillaryDataDescriptorTag = 0x6B,
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CellListDescriptorTag = 0x6C,
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CellFrequencyLinkDescriptorTag = 0x6D,
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AnnouncementSupportDescriptorTag = 0x6E,
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ApplicationSignallingDescriptorTag = 0x6F,
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AdaptationFieldDataDescriptorTag = 0x70,
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ServiceIdentifierDescriptorTag = 0x71,
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ServiceAvailabilityDescriptorTag = 0x72,
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// defined by ETSI (EN 300 468) v 1.7.1
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DefaultAuthorityDescriptorTag = 0x73,
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RelatedContentDescriptorTag = 0x74,
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TVAIdDescriptorTag = 0x75,
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ContentIdentifierDescriptorTag = 0x76,
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TimeSliceFecIdentifierDescriptorTag = 0x77,
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ECMRepetitionRateDescriptorTag = 0x78,
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S2SatelliteDeliverySystemDescriptorTag = 0x79,
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EnhancedAC3DescriptorTag = 0x7A,
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DTSDescriptorTag = 0x7B,
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AACDescriptorTag = 0x7C,
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ExtensionDescriptorTag = 0x7F,
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// Defined by ETSI TS 102 812 (MHP)
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// They once again start with 0x00 (see page 234, MHP specification)
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MHP_ApplicationDescriptorTag = 0x00,
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MHP_ApplicationNameDescriptorTag = 0x01,
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MHP_TransportProtocolDescriptorTag = 0x02,
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MHP_DVBJApplicationDescriptorTag = 0x03,
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MHP_DVBJApplicationLocationDescriptorTag = 0x04,
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// 0x05 - 0x0A is unimplemented this library
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MHP_ExternalApplicationAuthorisationDescriptorTag = 0x05,
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MHP_IPv4RoutingDescriptorTag = 0x06,
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MHP_IPv6RoutingDescriptorTag = 0x07,
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MHP_DVBHTMLApplicationDescriptorTag = 0x08,
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MHP_DVBHTMLApplicationLocationDescriptorTag = 0x09,
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MHP_DVBHTMLApplicationBoundaryDescriptorTag = 0x0A,
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MHP_ApplicationIconsDescriptorTag = 0x0B,
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MHP_PrefetchDescriptorTag = 0x0C,
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MHP_DelegatedApplicationDescriptorTag = 0x0E,
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MHP_ApplicationStorageDescriptorTag = 0x10,
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MHP_SimpleApplicationLocationDescriptorTag = 0x15,
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MHP_SimpleApplicationBoundaryDescriptorTag = 0x17,
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// Premiere private Descriptor Tags
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PremiereContentTransmissionDescriptorTag = 0xF2,
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//a descriptor currently unimplemented in this library
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//the actual value 0xFF is "forbidden" according to the spec.
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UnimplementedDescriptorTag = 0xFF
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};
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enum DescriptorTagDomain { SI, MHP, PCIT };
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enum RunningStatus { RunningStatusUndefined = 0,
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RunningStatusNotRunning = 1,
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RunningStatusStartsInAFewSeconds = 2,
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RunningStatusPausing = 3,
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RunningStatusRunning = 4
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};
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enum LinkageType { LinkageTypeInformationService = 0x01,
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LinkageTypeEPGService = 0x02,
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LinkageTypeCaReplacementService = 0x03,
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LinkageTypeTSContainingCompleteNetworkBouquetSi = 0x04,
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LinkageTypeServiceReplacementService = 0x05,
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LinkageTypeDataBroadcastService = 0x06,
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LinkageTypeRCSMap = 0x07,
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LinkageTypeMobileHandover = 0x08,
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LinkageTypeSystemSoftwareUpdateService = 0x09,
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LinkageTypeTSContainingSsuBatOrNit = 0x0A
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};
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enum AudioType { AudioTypeUndefined = 0x00,
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AudioTypeCleanEffects = 0x01,
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AudioTypeHearingImpaired = 0x02,
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AudioTypeVisualImpairedCommentary = 0x03
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};
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/* Some principles:
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- Objects that return references to other objects contained in their data must make sure
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that the returned objects have been parsed.
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(the Loop subclasses take care of that.)
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Note that this does not apply to Loops and Strings (their are never returned by reference, BTW).
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*/
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class Object : public Parsable {
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public:
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Object();
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Object(CharArray &d);
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//can only be called once since data is immutable
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void setData(const unsigned char*data, int size, bool doCopy=true);
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CharArray getData() { return data; }
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//returns the valid flag which indicates if data is all right or errors have been encountered
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bool isValid() { return data.isValid(); }
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virtual int getLength() = 0;
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protected:
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CharArray data;
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//is protected - not used for sections
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template <class T> friend class StructureLoop;
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void setData(CharArray &d);
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//returns whether the given offset fits within the limits of the actual data
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//The valid flag will be set accordingly
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bool checkSize(int offset);
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};
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class Section : public Object {
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public:
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//convenience: sets data and parses if doParse
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Section(const unsigned char *data, bool doCopy=true);
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Section() {}
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TableId getTableId() const;
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virtual int getLength();
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static int getLength(const unsigned char *d);
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static TableId getTableId(const unsigned char *d);
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};
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class CRCSection : public Section {
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public:
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//convenience: sets data and parses if doParse
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CRCSection(const unsigned char *data, bool doCopy=true) : Section(data, doCopy) {}
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CRCSection() {}
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bool isCRCValid();
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//convenience: isValid+CheckParse
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bool CheckCRCAndParse();
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};
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/* A section which has the ExtendedSectionHeader
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(section_syntax_indicator==1) */
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class NumberedSection : public CRCSection {
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public:
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NumberedSection(const unsigned char *data, bool doCopy=true) : CRCSection(data, doCopy) {}
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NumberedSection() {}
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int getTableIdExtension() const;
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bool getCurrentNextIndicator() const;
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int getVersionNumber() const;
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int getSectionNumber() const;
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int getLastSectionNumber() const;
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bool moreThanOneSection() const { return getLastSectionNumber()>0; }
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static int getTableIdExtension(const unsigned char *d);
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};
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class VariableLengthPart : public Object {
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public:
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//never forget to call this
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void setData(CharArray d, int l) { Object::setData(d); checkSize(l); length=l; }
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//convenience method
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void setDataAndOffset(CharArray d, int l, int &offset) { Object::setData(d); checkSize(l); length=l; offset+=l; }
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virtual int getLength() { return length; }
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private:
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int length;
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};
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class LoopElement : public Object {
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};
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class Descriptor : public LoopElement {
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public:
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virtual int getLength();
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DescriptorTag getDescriptorTag() const;
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static int getLength(const unsigned char *d);
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static DescriptorTag getDescriptorTag(const unsigned char *d);
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protected:
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friend class DescriptorLoop;
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//returns a subclass of descriptor according to the data given.
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//The object is allocated with new and must be delete'd.
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//setData() will have been called, CheckParse() not.
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//if returnUnimplemetedDescriptor==true:
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// Never returns null - maybe the UnimplementedDescriptor.
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//if returnUnimplemetedDescriptor==false:
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// Never returns the UnimplementedDescriptor - maybe null
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static Descriptor *getDescriptor(CharArray d, DescriptorTagDomain domain, bool returnUnimplemetedDescriptor);
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};
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class Loop : public VariableLengthPart {
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public:
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class Iterator {
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public:
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Iterator() { i=0; }
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void reset() { i=0; }
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private:
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template <class T> friend class StructureLoop;
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friend class DescriptorLoop;
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template <class T> friend class TypeLoop;
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friend class ExtendedEventDescriptors;
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int i;
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};
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protected:
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virtual void Parse() {}
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};
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//contains LoopElements of one type only
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template <class T> class StructureLoop : public Loop {
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public:
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//currently you must use a while-loop testing for hasNext()
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//i must be 0 to get the first descriptor (with the first call)
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bool getNext(T &obj, Iterator &it)
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{
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if (!isValid() || it.i >= getLength())
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return false;
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CharArray d=data;
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d.addOffset(it.i);
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T ret;
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ret.setData(d);
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ret.CheckParse();
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if (!checkSize(ret.getLength()))
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return false;
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it.i+=ret.getLength();
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obj=ret;
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return true;
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}
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T* getNextAsPointer(Iterator &it)
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{
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if (!isValid() || it.i >= getLength())
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return 0;
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CharArray d=data;
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d.addOffset(it.i);
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T *ret=new T();
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ret->setData(d);
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ret->CheckParse();
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if (!checkSize(ret->getLength()))
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return 0;
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it.i+=ret->getLength();
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return ret;
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}
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//bool hasNext(Iterator &it) { return getLength() > it.i; }
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};
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//contains descriptors of different types
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class DescriptorLoop : public Loop {
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public:
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DescriptorLoop() { domain=SI; }
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//i must be 0 to get the first descriptor (with the first call)
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//All returned descriptors must be delete'd.
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//returns null if no more descriptors available
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Descriptor *getNext(Iterator &it);
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//return the next descriptor with given tag, or 0 if not available.
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//if returnUnimplemetedDescriptor==true:
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// an UnimplementedDescriptor may be returned if the next matching descriptor is unimplemented,
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// 0 will be returned if and only if no matching descriptor is found.
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//if returnUnimplemetedDescriptor==false:
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// if 0 is returned, either no descriptor with the given tag was found,
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// or descriptors were found, but the descriptor type is not implemented
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//In either case, a return value of 0 indicates that no further calls to this method
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//with the iterator shall be made.
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Descriptor *getNext(Iterator &it, DescriptorTag tag, bool returnUnimplemetedDescriptor=false);
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//return the next descriptor with one of the given tags, or 0 if not available.
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//if returnUnimplemetedDescriptor==true:
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// returns 0 if and only if no descriptor with one of the given tags was found.
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// The UnimplementedDescriptor may be returned.
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//if returnUnimplemetedDescriptor==false:
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// if 0 is returned, either no descriptor with one of the given tags was found,
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// or descriptors were found, but none of them are implemented.
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// The UnimplementedDescriptor will never be returned.
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//In either case, a return value of 0 indicates that no further calls to this method
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//with the iterator shall be made.
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Descriptor *getNext(Iterator &it, DescriptorTag *tags, int arrayLength, bool returnUnimplemetedDescriptor=false);
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//returns the number of descriptors in this loop
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int getNumberOfDescriptors();
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//writes the tags of the descriptors in this loop in the array,
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// which must at least have the size getNumberOfDescriptors().
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//The number of descriptors, i.e. getNumberOfDescriptors(), is returned.
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// You can specify the array type (Descriptor tags are 8 Bit,
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// you might e.g. choose a char, short, int or DescriptorTag array)
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template <typename T> int getDescriptorTags(T *tags)
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{
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const unsigned char *p=data.getData();
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const unsigned char *end=p+getLength();
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int count=0;
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while (p < end) {
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tags[count++]=(T)Descriptor::getDescriptorTag(p);
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p+=Descriptor::getLength(p);
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}
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return count;
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}
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protected:
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Descriptor *createDescriptor(int &i, bool returnUnimplemetedDescriptor);
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DescriptorTagDomain domain;
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};
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typedef uint8_t EightBit;
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typedef uint16_t SixteenBit;
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typedef uint32_t ThirtyTwoBit;
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typedef uint64_t SixtyFourBit;
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template <typename T> class TypeLoop : public Loop {
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public:
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int getCount() { return getLength()/sizeof(T); }
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T operator[](const int index) const
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{
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switch (sizeof(T)) {
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case 1:
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return data[index];
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case 2:
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return data.TwoBytes(index);
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case 4:
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return data.FourBytes(index);
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case 8:
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return (SixtyFourBit(data.FourBytes(index)) << 32) | data.FourBytes(index+4);
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default:
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return 0; // just to avoid a compiler warning
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}
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return 0; // just to avoid a compiler warning
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}
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T getNext(Iterator &it) const
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{
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T ret=operator[](it.i);
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it.i+=sizeof(T);
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return ret;
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}
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bool hasNext(Iterator &it) { return isValid() && (getLength() > it.i); }
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};
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class MHP_DescriptorLoop : public DescriptorLoop {
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public:
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MHP_DescriptorLoop() { domain=MHP; }
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};
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//Premiere Content Information Table
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class PCIT_DescriptorLoop : public DescriptorLoop {
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public:
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PCIT_DescriptorLoop() { domain=PCIT; }
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};
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//The content of the ExtendedEventDescriptor may be split over several
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//descriptors if the text is longer than 256 bytes.
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//The following classes provide base functionality to handle this case.
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class GroupDescriptor : public Descriptor {
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public:
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virtual int getDescriptorNumber() = 0;
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virtual int getLastDescriptorNumber() = 0;
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};
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class DescriptorGroup {
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public:
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DescriptorGroup(bool deleteOnDesctruction=true);
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~DescriptorGroup();
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void Add(GroupDescriptor *d);
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void Delete();
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int getLength() { return length; }
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GroupDescriptor **getDescriptors() { return array; }
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bool isComplete(); //if all descriptors have been added
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protected:
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int length;
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GroupDescriptor **array;
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bool deleteOnDesctruction;
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};
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class String : public VariableLengthPart {
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public:
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//A note to the length: getLength() returns the length of the raw data.
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//The text may be shorter. Its length can be obtained with one of the
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//getText functions and strlen.
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//returns text. Data is allocated with new and must be delete'd by the user.
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char *getText();
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//copies text into given buffer.
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//a buffer of size getLength()+1 is guaranteed to be sufficiently large.
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//In most descriptors the string length is an 8-bit field,
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//so the maximum there is 256.
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//returns the given buffer for convenience.
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//The emphasis marks 0x86 and 0x87 are still available.
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char *getText(char *buffer, int size);
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//The same semantics as for getText(char*) apply.
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//The short version of the text according to ETSI TR 101 211 (chapter 4.6)
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//will be written into the shortVersion buffer (which should, therefore, have the same
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//length as buffer). If no shortVersion is available, shortVersion will contain
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//an empty string.
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//The emphasis marks 0x86 and 0x87 are still available in buffer, but not in shortVersion.
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char *getText(char *buffer, char *shortVersion, int sizeBuffer, int sizeShortVersion);
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protected:
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virtual void Parse() {}
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void decodeText(char *buffer, int size);
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void decodeText(char *buffer, char *shortVersion, int sizeBuffer, int sizeShortVersion);
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};
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// Call this function to set the system character table. CharacterTable is a string
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// like "iso8859-15" or "utf-8" (case insensitive).
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// Returns true if the character table was recognized.
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bool SetSystemCharacterTable(const char *CharacterTable);
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// Determines the character table used in the given buffer and returns
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// a string indicating that table. If no table can be determined, the
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// default ISO6937 is returned. If a table can be determined, the buffer
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// and length are adjusted accordingly.
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const char *getCharacterTable(const unsigned char *&buffer, int &length, bool *isSingleByte = NULL);
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bool convertCharacterTable(const char *from, size_t fromLength, char *to, size_t toLength, const char *fromCode);
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bool systemCharacterTableIsSingleByte(void);
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} //end of namespace
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#endif //LIBSI_SI_H
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