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idvb.h
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idvb.h
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#ifndef __dvb_idvb_h
#define __dvb_idvb_h
#ifndef SWIG
#include <linux/dvb/frontend.h>
#include <linux/dvb/video.h>
#include <lib/base/object.h>
#include <lib/base/ebase.h>
#include <lib/base/elock.h>
#include <lib/base/itssource.h>
#include <lib/service/service.h>
#include <libsig_comp.h>
#include <connection.h>
#define CAID_LIST std::list<uint16_t>
#ifndef DMX_FILTER_SIZE
#define DMX_FILTER_SIZE 16
#endif
struct eDVBSectionFilterMask
{
int pid;
/* mode is 0 for positive, 1 for negative filtering */
uint8_t data[DMX_FILTER_SIZE], mask[DMX_FILTER_SIZE], mode[DMX_FILTER_SIZE];
enum
{
rfCRC=1,
rfNoAbort=2
};
int flags;
};
struct eDVBTableSpec
{
int pid, tid, tidext, tid_mask, tidext_mask;
int version;
int timeout; /* timeout in ms */
enum
{
tfInOrder = 1,
/*
tfAnyVersion filter ANY version
0 filter all EXCEPT given version (negative filtering)
tfThisVersion filter only THIS version
*/
tfAnyVersion = 2,
tfThisVersion = 4,
tfHaveTID = 8,
tfHaveTIDExt = 16,
tfCheckCRC = 32,
tfHaveTimeout = 64,
tfHaveTIDMask = 128,
tfHaveTIDExtMask= 256
};
int flags;
};
struct eBouquet
{
std::string m_bouquet_name;
std::string m_filename; // without path.. just name
typedef std::list<eServiceReference> list;
list m_services;
// the following five methods are implemented in db.cpp
RESULT flushChanges();
RESULT addService(const eServiceReference &, eServiceReference before=eServiceReference());
RESULT removeService(const eServiceReference &, bool renameBouquet=true);
RESULT moveService(const eServiceReference &, unsigned int);
RESULT setListName(const std::string &name);
};
/* these structures have by intention no operator int() defined.
the reason of these structures is to avoid mixing for example
a onid and a tsid (as there's no general order for them).
defining an operator int() would implicitely convert values
between them over the constructor with the int argument.
'explicit' doesn't here - eTransportStreamID(eOriginalNetworkID(n))
would still work. */
struct eTransportStreamID
{
private:
int v;
public:
int get() const { return v; }
eTransportStreamID(int i): v(i) { }
eTransportStreamID(): v(-1) { }
bool operator == (const eTransportStreamID &c) const { return v == c.v; }
bool operator != (const eTransportStreamID &c) const { return v != c.v; }
bool operator < (const eTransportStreamID &c) const { return v < c.v; }
bool operator > (const eTransportStreamID &c) const { return v > c.v; }
};
struct eServiceID
{
private:
int v;
public:
int get() const { return v; }
eServiceID(int i): v(i) { }
eServiceID(): v(-1) { }
bool operator == (const eServiceID &c) const { return v == c.v; }
bool operator != (const eServiceID &c) const { return v != c.v; }
bool operator < (const eServiceID &c) const { return v < c.v; }
bool operator > (const eServiceID &c) const { return v > c.v; }
};
struct eOriginalNetworkID
{
private:
int v;
public:
int get() const { return v; }
eOriginalNetworkID(int i): v(i) { }
eOriginalNetworkID(): v(-1) { }
bool operator == (const eOriginalNetworkID &c) const { return v == c.v; }
bool operator != (const eOriginalNetworkID &c) const { return v != c.v; }
bool operator < (const eOriginalNetworkID &c) const { return v < c.v; }
bool operator > (const eOriginalNetworkID &c) const { return v > c.v; }
};
struct eDVBNamespace
{
private:
int v;
public:
int get() const { return v; }
eDVBNamespace(int i): v(i) { }
eDVBNamespace(): v(-1) { }
bool operator == (const eDVBNamespace &c) const { return v == c.v; }
bool operator != (const eDVBNamespace &c) const { return v != c.v; }
bool operator < (const eDVBNamespace &c) const { return v < c.v; }
bool operator > (const eDVBNamespace &c) const { return v > c.v; }
};
struct eDVBChannelID
{
eDVBNamespace dvbnamespace;
eTransportStreamID transport_stream_id;
eOriginalNetworkID original_network_id;
bool operator==(const eDVBChannelID &c) const
{
return dvbnamespace == c.dvbnamespace &&
transport_stream_id == c.transport_stream_id &&
original_network_id == c.original_network_id;
}
bool operator<(const eDVBChannelID &c) const
{
if (dvbnamespace < c.dvbnamespace)
return 1;
else if (dvbnamespace == c.dvbnamespace)
{
if (original_network_id < c.original_network_id)
return 1;
else if (original_network_id == c.original_network_id)
if (transport_stream_id < c.transport_stream_id)
return 1;
}
return 0;
}
eDVBChannelID(eDVBNamespace dvbnamespace, eTransportStreamID tsid, eOriginalNetworkID onid):
dvbnamespace(dvbnamespace), transport_stream_id(tsid), original_network_id(onid)
{
}
eDVBChannelID():
dvbnamespace(-1), transport_stream_id(-1), original_network_id(-1)
{
}
operator bool() const
{
return (dvbnamespace != -1) && (transport_stream_id != -1) && (original_network_id != -1);
}
};
class eServiceReferenceDVB: public eServiceReference
{
public:
enum service_ref
{
ref_service_type= 0,
ref_service_id = 1,
};
int getServiceType() const { return data[ref_service_type]; }
void setServiceType(int service_type) { data[ref_service_type]=service_type; }
eServiceID getServiceID() const { return eServiceID(data[ref_service_id]); }
void setServiceID(eServiceID service_id) { data[ref_service_id]=service_id.get(); }
eTransportStreamID getTransportStreamID() const { return eTransportStreamID(data[2]); }
void setTransportStreamID(eTransportStreamID transport_stream_id) { data[2]=transport_stream_id.get(); }
eOriginalNetworkID getOriginalNetworkID() const { return eOriginalNetworkID(data[3]); }
void setOriginalNetworkID(eOriginalNetworkID original_network_id) { data[3]=original_network_id.get(); }
eDVBNamespace getDVBNamespace() const { return eDVBNamespace(data[4]); }
void setDVBNamespace(eDVBNamespace dvbnamespace) { data[4]=dvbnamespace.get(); }
eServiceID getParentServiceID() const { return eServiceID(data[5]); }
void setParentServiceID( eServiceID sid ) { data[5]=sid.get(); }
eTransportStreamID getParentTransportStreamID() const { return eTransportStreamID(data[6]); }
void setParentTransportStreamID( eTransportStreamID tsid ) { data[6]=tsid.get(); }
int getSourceID() const { return data[7]; }
void setSourceID(int sourceid) { data[7] = sourceid; }
eServiceReferenceDVB getParentServiceReference() const
{
eServiceReferenceDVB tmp(*this);
if (data[5] && data[6])
{
tmp.data[1] = data[5];
tmp.data[2] = data[6];
tmp.data[5] = tmp.data[6] = 0;
}
else
tmp.type = idInvalid;
return tmp;
}
eServiceReferenceDVB(eDVBNamespace dvbnamespace, eTransportStreamID transport_stream_id, eOriginalNetworkID original_network_id, eServiceID service_id, int service_type, int source_id = 0)
:eServiceReference(eServiceReference::idDVB, 0)
{
setTransportStreamID(transport_stream_id);
setOriginalNetworkID(original_network_id);
setDVBNamespace(dvbnamespace);
setServiceID(service_id);
setServiceType(service_type);
setSourceID(source_id);
}
void set(const eDVBChannelID &chid)
{
setDVBNamespace(chid.dvbnamespace);
setOriginalNetworkID(chid.original_network_id);
setTransportStreamID(chid.transport_stream_id);
}
void getChannelID(eDVBChannelID &chid) const
{
chid = eDVBChannelID(getDVBNamespace(), getTransportStreamID(), getOriginalNetworkID());
}
eServiceReferenceDVB()
:eServiceReference(eServiceReference::idDVB, 0)
{
}
eServiceReferenceDVB(const std::string &string)
:eServiceReference(string)
{
}
};
////////////////// TODO: we need an interface here, but what exactly?
#include <set>
// btw, still implemented in db.cpp. FIX THIS, TOO.
class eDVBChannelQuery;
class eDVBService: public iStaticServiceInformation
{
DECLARE_REF(eDVBService);
int *m_cache;
void initCache();
void copyCache(int *source);
public:
enum cacheID
{
cVPID, cMPEGAPID, cTPID, cPCRPID, cAC3PID,
cVTYPE, cACHANNEL, cAC3DELAY, cPCMDELAY,
cSUBTITLE, cAACHEAPID=12, cDDPPID, cAACAPID,
cDATAPID, cPMTPID, cacheMax
};
int getCacheEntry(cacheID);
void setCacheEntry(cacheID, int);
bool cacheEmpty();
eDVBService();
/* m_service_name_sort is uppercase, with special chars removed, to increase sort performance. */
std::string m_service_name, m_service_name_sort;
std::string m_provider_name;
void genSortName();
int m_flags;
enum
{
dxNoSDT=1, // don't get SDT
dxDontshow=2,
dxNoDVB=4, // dont use PMT for this service ( use cached pids )
dxHoldName=8,
dxNewFound=64,
dxIsDedicated3D=128,
dxIsParentalProtected=256,
dxHideVBI=512,
};
bool usePMT() const { return !(m_flags & dxNoDVB); }
bool isHidden() const { return (m_flags & dxDontshow || m_flags & dxIsParentalProtected); }
bool isDedicated3D() const { return m_flags & dxIsDedicated3D; }
bool doHideVBI() const { return m_flags & dxHideVBI; }
CAID_LIST m_ca;
virtual ~eDVBService();
eDVBService &operator=(const eDVBService &);
// iStaticServiceInformation
RESULT getName(const eServiceReference &ref, std::string &name);
RESULT getEvent(const eServiceReference &ref, ePtr<eServiceEvent> &ptr, time_t start_time);
bool isCrypted();
int isPlayable(const eServiceReference &ref, const eServiceReference &ignore, bool simulate=false);
ePtr<iDVBTransponderData> getTransponderData(const eServiceReference &ref);
/* for filtering: */
int checkFilter(const eServiceReferenceDVB &ref, const eDVBChannelQuery &query);
};
//////////////////
class iDVBChannel;
class iDVBDemux;
class iDVBFrontendParameters;
class iDVBChannelListQuery: public iObject
{
public:
virtual RESULT getNextResult(eServiceReferenceDVB &ref)=0;
virtual int compareLessEqual(const eServiceReferenceDVB &a, const eServiceReferenceDVB &b)=0;
};
class eDVBChannelQuery: public iObject
{
DECLARE_REF(eDVBChannelQuery);
public:
enum
{
tName,
tProvider,
tType,
tBouquet,
tSatellitePosition,
tChannelID,
tAND,
tOR,
tAny,
tFlags
};
int m_type;
int m_inverse;
std::string m_string;
int m_int;
eDVBChannelID m_channelid;
/* sort is only valid in root, and must be from the enum above. */
int m_sort;
std::string m_bouquet_name;
static RESULT compile(ePtr<eDVBChannelQuery> &res, std::string query);
ePtr<eDVBChannelQuery> m_p1, m_p2;
};
class iDVBChannelList: public iObject
{
public:
virtual RESULT removeService(const eServiceReference &service)=0;
virtual RESULT removeServices(eDVBChannelID chid=eDVBChannelID(), unsigned int orb_pos=0xFFFFFFFF)=0;
virtual RESULT removeServices(int dvb_namespace=-1, int tsid=-1, int onid=-1, unsigned int orb_pos=0xFFFFFFFF)=0;
virtual RESULT removeServices(iDVBFrontendParameters *feparm)=0;
virtual RESULT addFlag(const eServiceReference &service, unsigned int flagmask=0xFFFFFFFF)=0;
virtual RESULT removeFlag(const eServiceReference &service, unsigned int flagmask=0xFFFFFFFF)=0;
virtual RESULT removeFlags(unsigned int flagmask, eDVBChannelID chid=eDVBChannelID(), unsigned int orb_pos=0xFFFFFFFF)=0;
virtual RESULT removeFlags(unsigned int flagmask, int dvb_namespace=-1, int tsid=-1, int onid=-1, unsigned int orb_pos=0xFFFFFFFF)=0;
virtual RESULT addChannelToList(const eDVBChannelID &id, iDVBFrontendParameters *feparm)=0;
virtual RESULT removeChannel(const eDVBChannelID &id)=0;
virtual RESULT getChannelFrontendData(const eDVBChannelID &id, ePtr<iDVBFrontendParameters> &parm)=0;
virtual RESULT addService(const eServiceReferenceDVB &reference, eDVBService *service)=0;
virtual RESULT getService(const eServiceReferenceDVB &reference, ePtr<eDVBService> &service)=0;
virtual RESULT flush()=0;
virtual RESULT getBouquet(const eServiceReference &ref, eBouquet* &bouquet)=0;
virtual RESULT startQuery(ePtr<iDVBChannelListQuery> &query, eDVBChannelQuery *q, const eServiceReference &source)=0;
};
#endif // SWIG
class eDVBFrontendParametersSatellite;
class eDVBFrontendParametersCable;
class eDVBFrontendParametersTerrestrial;
class eDVBFrontendParametersATSC;
class iDVBFrontendParameters: public iObject
{
public:
#ifdef SWIG
iDVBFrontendParameters();
~iDVBFrontendParameters();
#endif
enum { flagOnlyFree = 1 };
virtual SWIG_VOID(RESULT) getSystem(int &SWIG_OUTPUT) const = 0;
virtual SWIG_VOID(RESULT) getDVBS(eDVBFrontendParametersSatellite &SWIG_OUTPUT) const = 0;
virtual SWIG_VOID(RESULT) getDVBC(eDVBFrontendParametersCable &SWIG_OUTPUT) const = 0;
virtual SWIG_VOID(RESULT) getDVBT(eDVBFrontendParametersTerrestrial &SWIG_OUTPUT) const = 0;
virtual SWIG_VOID(RESULT) getATSC(eDVBFrontendParametersATSC &SWIG_OUTPUT) const = 0;
virtual SWIG_VOID(RESULT) getFlags(unsigned int &SWIG_OUTPUT) const = 0;
virtual RESULT setDVBT(const eDVBFrontendParametersTerrestrial &p) = 0;
#ifndef SWIG
virtual SWIG_VOID(RESULT) calculateDifference(const iDVBFrontendParameters *parm, int &, bool exact) const = 0;
virtual SWIG_VOID(RESULT) getHash(unsigned long &) const = 0;
virtual SWIG_VOID(RESULT) calcLockTimeout(unsigned int &) const = 0;
#endif
};
SWIG_TEMPLATE_TYPEDEF(ePtr<iDVBFrontendParameters>, iDVBFrontendParametersPtr);
#define MAX_DISEQC_LENGTH 16
class eDVBDiseqcCommand
{
#ifndef SWIG
public:
#endif
int len;
uint8_t data[MAX_DISEQC_LENGTH];
#ifdef SWIG
public:
#endif
void setCommandString(const char *str);
};
class iDVBSatelliteEquipmentControl;
class eSecCommandList;
class iDVBFrontend_ENUMS
{
#ifdef SWIG
iDVBFrontend_ENUMS();
~iDVBFrontend_ENUMS();
#endif
public:
enum { feSatellite, feCable, feTerrestrial, feATSC };
enum { stateIdle, stateTuning, stateFailed, stateLock, stateLostLock, stateClosed };
enum { toneOff, toneOn };
enum { voltageOff, voltage13, voltage18, voltage13_5, voltage18_5 };
};
class iDVBFrontendStatus: public iDVBFrontend_ENUMS, public iObject
{
public:
virtual int getState() const = 0;
virtual std::string getStateDescription() const = 0;
virtual int getLocked() const = 0;
virtual int getSynced() const = 0;
virtual int getBER() const = 0;
virtual int getSNR() const = 0;
virtual int getSNRdB() const = 0;
virtual int getSignalPower() const = 0;
};
class iDVBTransponderData: public iObject
{
public:
virtual std::string getTunerType() const = 0;
virtual int getInversion() const = 0;
virtual unsigned int getFrequency() const = 0;
virtual unsigned int getSymbolRate() const = 0;
virtual int getOrbitalPosition() const = 0;
virtual int getFecInner() const = 0;
virtual int getModulation() const = 0;
virtual int getPolarization() const = 0;
virtual int getRolloff() const = 0;
virtual int getPilot() const = 0;
virtual int getSystem() const = 0;
virtual int getBandwidth() const = 0;
virtual int getCodeRateLp() const = 0;
virtual int getCodeRateHp() const = 0;
virtual int getConstellation() const = 0;
virtual int getTransmissionMode() const = 0;
virtual int getGuardInterval() const = 0;
virtual int getHierarchyInformation() const = 0;
virtual int getPlpId() const = 0;
};
class iDVBFrontendData: public iDVBFrontend_ENUMS, public iObject
{
public:
virtual int getNumber() const = 0;
virtual std::string getTypeDescription() const = 0;
};
class iDVBFrontend: public iDVBFrontend_ENUMS, public iObject
{
public:
virtual RESULT tune(const iDVBFrontendParameters &where)=0;
virtual int closeFrontend(bool force = false, bool no_delayed = false)=0;
virtual void reopenFrontend()=0;
#ifndef SWIG
virtual RESULT connectStateChange(const Slot1<void,iDVBFrontend*> &stateChange, ePtr<eConnection> &connection)=0;
#endif
virtual RESULT getState(int &SWIG_OUTPUT)=0;
virtual RESULT setTone(int tone)=0;
virtual RESULT setVoltage(int voltage)=0;
virtual RESULT sendDiseqc(const eDVBDiseqcCommand &diseqc)=0;
virtual RESULT sendToneburst(int burst)=0;
#ifndef SWIG
virtual RESULT setSEC(iDVBSatelliteEquipmentControl *sec)=0;
virtual RESULT setSecSequence(eSecCommandList &list)=0;
#endif
virtual int readFrontendData(int type)=0;
virtual void getFrontendStatus(ePtr<iDVBFrontendStatus> &dest)=0;
virtual void getTransponderData(ePtr<iDVBTransponderData> &dest, bool original)=0;
virtual void getFrontendData(ePtr<iDVBFrontendData> &dest)=0;
#ifndef SWIG
virtual RESULT getData(int num, long &data)=0;
virtual RESULT setData(int num, long val)=0;
/* 0 means: not compatible. other values are a priority. */
virtual int isCompatibleWith(ePtr<iDVBFrontendParameters> &feparm)=0;
#endif
virtual bool setDeliverySystem(const char *type)=0;
};
SWIG_TEMPLATE_TYPEDEF(ePtr<iDVBFrontend>, iDVBFrontendPtr);
#ifndef SWIG
class iDVBSatelliteEquipmentControl: public iObject
{
public:
virtual RESULT prepare(iDVBFrontend &frontend, const eDVBFrontendParametersSatellite &sat, int &frequency, int frontend_id, unsigned int timeout)=0;
virtual void prepareTurnOffSatCR(iDVBFrontend &frontend)=0;
virtual int canTune(const eDVBFrontendParametersSatellite &feparm, iDVBFrontend *fe, int frontend_id, int *highest_score_lnb=0)=0;
virtual void setRotorMoving(int slotid, bool)=0;
};
struct eDVBCIRouting
{
int enabled;
};
#endif // SWIG
SWIG_IGNORE(iDVBChannel);
class iDVBChannel: public iObject
{
public:
/* direct frontend access for raw channels and/or status inquiries. */
virtual SWIG_VOID(RESULT) getFrontend(ePtr<iDVBFrontend> &SWIG_OUTPUT)=0;
virtual RESULT requestTsidOnid() { return -1; }
PSignal2<void, int, int> receivedTsidOnid;
virtual int reserveDemux() { return -1; }
#ifndef SWIG
enum
{
state_idle, /* not yet tuned */
state_tuning, /* currently tuning (first time) */
state_failed, /* tuning failed. */
state_unavailable, /* currently unavailable, will be back without further interaction */
state_ok, /* ok */
state_last_instance, /* just one reference to this channel is left */
state_release /* channel is being shut down. */
};
virtual RESULT getState(int &)=0;
virtual RESULT getCurrentFrontendParameters(ePtr<iDVBFrontendParameters> &)=0;
enum
{
evtPreStart, evtEOF, evtSOF, evtFailed, evtStopped
};
virtual RESULT connectStateChange(const Slot1<void,iDVBChannel*> &stateChange, ePtr<eConnection> &connection)=0;
virtual RESULT connectEvent(const Slot2<void,iDVBChannel*,int> &eventChange, ePtr<eConnection> &connection)=0;
/* demux capabilities */
enum
{
capDecode = 1,
/* capCI = 2 */
};
virtual RESULT setCIRouting(const eDVBCIRouting &routing)=0;
virtual RESULT getDemux(ePtr<iDVBDemux> &demux, int cap=0)=0;
/* use count handling */
virtual void AddUse() = 0;
virtual void ReleaseUse() = 0;
#endif
};
SWIG_TEMPLATE_TYPEDEF(eUsePtr<iDVBChannel>, iDVBChannelPtr);
#ifndef SWIG
/* signed, so we can express deltas. */
typedef long long pts_t;
class iFilePushScatterGather;
class iTSMPEGDecoder;
/* note that a cue sheet describes the logical positions. thus
everything is specified in pts and not file positions */
/* implemented in dvb.cpp */
class eCueSheet: public iObject, public Object
{
DECLARE_REF(eCueSheet);
public:
eCueSheet();
/* frontend */
void seekTo(int relative, const pts_t &pts);
void clear();
void addSourceSpan(const pts_t &begin, const pts_t &end);
void commitSpans();
void setSkipmode(const pts_t &ratio); /* 90000 is 1:1 */
void setDecodingDemux(iDVBDemux *demux, iTSMPEGDecoder *decoder);
/* frontend and backend */
eRdWrLock m_lock;
/* backend */
enum { evtSeek, evtSkipmode, evtSpanChanged };
RESULT connectEvent(const Slot1<void, int> &event, ePtr<eConnection> &connection);
std::list<std::pair<pts_t,pts_t> > m_spans; /* begin, end */
std::list<std::pair<int, pts_t> > m_seek_requests; /* relative, delta */
pts_t m_skipmode_ratio;
Signal1<void,int> m_event;
ePtr<iDVBDemux> m_decoding_demux;
ePtr<iTSMPEGDecoder> m_decoder;
};
class iDVBPVRChannel: public iDVBChannel
{
public:
enum
{
state_eof = state_release + 1 /* end-of-file reached. */
};
virtual RESULT playFile(const char *file) = 0;
virtual RESULT playSource(ePtr<iTsSource> &source, const char *priv=NULL) = 0;
virtual void stop() = 0;
virtual void setCueSheet(eCueSheet *cuesheet) = 0;
virtual void setOfflineDecodeMode(int parityswitchdelay) = 0;
virtual RESULT getLength(pts_t &pts) = 0;
/* we explicitely ask for the decoding demux here because a channel
can be shared between multiple decoders.
*/
virtual RESULT getCurrentPosition(iDVBDemux *decoding_demux, pts_t &pos, int mode) = 0;
/* skipping must be done with a cue sheet */
};
class iDVBSectionReader;
class iDVBPESReader;
class iDVBTSRecorder;
class iTSMPEGDecoder;
class iDVBDemux: public iObject
{
public:
virtual RESULT createSectionReader(eMainloop *context, ePtr<iDVBSectionReader> &reader)=0;
virtual RESULT createPESReader(eMainloop *context, ePtr<iDVBPESReader> &reader)=0;
virtual RESULT createTSRecorder(ePtr<iDVBTSRecorder> &recorder, int packetsize = 188, bool streaming=false)=0;
virtual RESULT getMPEGDecoder(ePtr<iTSMPEGDecoder> &reader, int index = 0)=0;
virtual RESULT getSTC(pts_t &pts, int num=0)=0;
virtual RESULT getCADemuxID(uint8_t &id)=0;
virtual RESULT getCAAdapterID(uint8_t &id)=0;
virtual RESULT flush()=0;
virtual int openDVR(int flags)=0;
};
class iTSMPEGDecoder: public iObject
{
public:
enum { pidDisabled = -1 };
/** Set Displayed Video PID and type */
virtual RESULT setVideoPID(int vpid, int type)=0;
enum { af_MPEG, af_AC3, af_DTS, af_AAC, af_DTSHD };
/** Set Displayed Audio PID and type */
virtual RESULT setAudioPID(int apid, int type)=0;
enum { ac_left, ac_stereo, ac_right };
/** Set Displayed Audio Channel */
virtual RESULT setAudioChannel(int channel)=0;
virtual int getAudioChannel()=0;
virtual RESULT setPCMDelay(int delay)=0;
virtual int getPCMDelay()=0;
virtual RESULT setAC3Delay(int delay)=0;
virtual int getAC3Delay()=0;
/** Set Displayed Videotext PID */
virtual RESULT setTextPID(int vpid)=0;
/** Set Sync mode to PCR */
virtual RESULT setSyncPCR(int pcrpid)=0;
enum { sm_Audio, sm_Video };
/** Set Sync mode to either audio or video master */
virtual RESULT setSyncMaster(int who)=0;
/** Apply settings but don't change state */
virtual RESULT set()=0;
/* all those apply settings, then transition to the given state */
/** play */
virtual RESULT play()=0;
/** Freeze frame. */
virtual RESULT pause()=0;
/** fast forward by skipping frames. 0 is disabled, 2 is twice-the-speed, ... */
virtual RESULT setFastForward(int skip=0)=0;
/** Slow Motion by repeating pictures */
virtual RESULT setSlowMotion(int repeat)=0;
/** Display any complete data as fast as possible */
virtual RESULT setTrickmode()=0;
virtual RESULT getPTS(int what, pts_t &pts) = 0;
virtual RESULT showSinglePic(const char *filename) = 0;
virtual RESULT setRadioPic(const std::string &filename) = 0;
struct videoEvent
{
enum { eventUnknown = 0,
eventSizeChanged = VIDEO_EVENT_SIZE_CHANGED,
eventFrameRateChanged = VIDEO_EVENT_FRAME_RATE_CHANGED,
eventProgressiveChanged = 16
} type;
unsigned char aspect;
unsigned short height;
unsigned short width;
bool progressive;
unsigned short framerate;
};
virtual RESULT connectVideoEvent(const Slot1<void, struct videoEvent> &event, ePtr<eConnection> &connection) = 0;
virtual int getVideoWidth() = 0;
virtual int getVideoHeight() = 0;
virtual int getVideoProgressive() = 0;
virtual int getVideoFrameRate() = 0;
virtual int getVideoAspect() = 0;
};
#endif //SWIG
#endif