1 #ifndef __lib_dvb_iservice_h
2 #define __lib_dvb_iservice_h
4 #include <lib/python/swig.h>
5 #include <lib/base/object.h>
7 #include <connection.h>
10 class eServiceReference
16 idStructure, // service_id == 0 is root
23 int flags; // flags will NOT be compared.
26 isDirectory=1, // SHOULD enter (implies mustDescent)
27 mustDescent=2, // cannot be played directly - often used with "isDirectory" (implies canDescent)
30 normal services have none of them - they can be fed directly into the "play"-handler.
31 normal directories have both of them set - you cannot play a directory directly and the UI should descent into it.
32 playlists have "mustDescent", but not "isDirectory" - you don't want the user to browse inside the playlist (unless he really wants)
33 services with sub-services have none of them, instead the have the "canDecsent" flag (as all of the above)
35 canDescent=4, // supports enterDirectory/leaveDirectory
36 flagDirectory=isDirectory|mustDescent|canDescent,
37 shouldSort=8, // should be ASCII-sorted according to service_name. great for directories.
38 hasSortKey=16, // has a sort key in data[3]. not having a sort key implies 0.
39 sort1=32 // sort key is 1 instead of 0
42 inline int getSortKey() const { return (flags & hasSortKey) ? data[3] : ((flags & sort1) ? 1 : 0); }
47 // only for override service names in bouquets or to give servicerefs a name which not have a
48 // real existing service ( for dvb eServiceDVB )
52 : type(idInvalid), flags(0)
56 eServiceReference(int type, int flags)
57 : type(type), flags(flags)
59 memset(data, 0, sizeof(data));
61 eServiceReference(int type, int flags, int data0)
62 : type(type), flags(flags)
64 memset(data, 0, sizeof(data));
67 eServiceReference(int type, int flags, int data0, int data1)
68 : type(type), flags(flags)
70 memset(data, 0, sizeof(data));
74 eServiceReference(int type, int flags, int data0, int data1, int data2)
75 : type(type), flags(flags)
77 memset(data, 0, sizeof(data));
82 eServiceReference(int type, int flags, int data0, int data1, int data2, int data3)
83 : type(type), flags(flags)
85 memset(data, 0, sizeof(data));
91 eServiceReference(int type, int flags, int data0, int data1, int data2, int data3, int data4)
92 : type(type), flags(flags)
94 memset(data, 0, sizeof(data));
101 eServiceReference(int type, int flags, const std::string &path)
102 : type(type), flags(flags), path(path)
104 memset(data, 0, sizeof(data));
106 eServiceReference(const std::string &string);
107 std::string toString() const;
108 bool operator==(const eServiceReference &c) const
112 return /* (flags == c.flags) && */ (memcmp(data, c.data, sizeof(int)*8)==0) && (path == c.path);
114 bool operator!=(const eServiceReference &c) const
116 return !(*this == c);
118 bool operator<(const eServiceReference &c) const
126 /* if (flags < c.flags)
131 int r=memcmp(data, c.data, sizeof(int)*8);
134 return path < c.path;
136 operator bool() const
143 return type != idInvalid;
147 SWIG_ALLOW_OUTPUT_SIMPLE(eServiceReference);
149 typedef unsigned long long pts_t;
151 /* the reason we have the servicereference as additional argument is
152 that we don't have to create one object for every entry in a possibly
153 large list, provided that no state information is nessesary to deliver
154 the required information. Anyway - ref *must* be the same as the argument
155 to the info() or getIServiceInformation call! */
157 /* About the usage of SWIG_VOID:
158 SWIG_VOID(real_returntype_t) hides a return value from swig. This is used for
159 the "superflouus" RESULT return values.
161 Python code has to check the returned pointer against 0. This works,
162 as all functions returning instances in smartpointers AND having a
163 RESULT have to BOTH return non-zero AND set the pointer to zero.
165 Python code thus can't check for the reason, but the reason isn't
166 user-servicable anyway. If you want to return a real reason which
167 goes beyong "it just doesn't work", use extra variables for this,
170 Hide the result only if there is another way to check for failure! */
172 class iStaticServiceInformation: public iObject
175 virtual SWIG_VOID(RESULT) getName(const eServiceReference &ref, std::string &SWIG_OUTPUT)=0;
177 // doesn't need to be implemented, should return -1 then.
178 virtual int getLength(const eServiceReference &ref)=0;
181 TEMPLATE_TYPEDEF(ePtr<iStaticServiceInformation>, iStaticServiceInformationPtr);
185 TEMPLATE_TYPEDEF(ePtr<eServiceEvent>, eServiceEventPtr);
187 class iServiceInformation: public iObject
190 virtual SWIG_VOID(RESULT) getName(std::string &SWIG_OUTPUT)=0;
191 virtual SWIG_VOID(RESULT) getEvent(ePtr<eServiceEvent> &SWIG_OUTPUT, int nownext);
194 TEMPLATE_TYPEDEF(ePtr<iServiceInformation>, iServiceInformationPtr);
196 class iPauseableService: public iObject
199 virtual RESULT pause()=0;
200 virtual RESULT unpause()=0;
203 TEMPLATE_TYPEDEF(ePtr<iPauseableService>, iPauseableServicePtr);
205 class iSeekableService: public iObject
208 virtual RESULT getLength(pts_t &SWIG_OUTPUT)=0;
209 virtual RESULT seekTo(pts_t to)=0;
210 virtual RESULT getPlayPosition(pts_t &SWIG_OUTPUT)=0;
213 TEMPLATE_TYPEDEF(ePtr<iSeekableService>, iSeekableServicePtr);
215 class iPlayableService: public iObject
217 friend class iServiceHandler;
224 // when iServiceInformation is implemented:
227 virtual RESULT connectEvent(const Slot2<void,iPlayableService*,int> &event, ePtr<eConnection> &connection)=0;
228 virtual RESULT start()=0;
229 virtual RESULT stop()=0;
230 virtual SWIG_VOID(RESULT) seek(ePtr<iSeekableService> &SWIG_OUTPUT)=0;
231 virtual SWIG_VOID(RESULT) pause(ePtr<iPauseableService> &SWIG_OUTPUT)=0;
232 virtual SWIG_VOID(RESULT) info(ePtr<iServiceInformation> &SWIG_OUTPUT)=0;
235 TEMPLATE_TYPEDEF(ePtr<iPlayableService>, iPlayableServicePtr);
237 class iRecordableService: public iObject
240 virtual RESULT prepare(const char *filename)=0;
241 virtual RESULT start()=0;
242 virtual RESULT stop()=0;
245 TEMPLATE_TYPEDEF(ePtr<iRecordableService>, iRecordableServicePtr);
247 // TEMPLATE_TYPEDEF(std::list<eServiceReference>, eServiceReferenceList);
249 class iListableService: public iObject
252 /* legacy interface: get a list */
253 virtual RESULT getContent(std::list<eServiceReference> &list)=0;
255 /* new, shiny interface: streaming. */
256 virtual SWIG_VOID(RESULT) getNext(eServiceReference &SWIG_OUTPUT)=0;
258 /* use this for sorting. output is not sorted because of either
259 - performance reasons: the whole list must be buffered or
260 - the interface would be restricted to a list. streaming
261 (as well as a future "active" extension) won't be possible.
263 virtual int compareLessEqual(const eServiceReference &, const eServiceReference &)=0;
266 TEMPLATE_TYPEDEF(ePtr<iListableService>, iListableServicePtr);
268 /* a helper class which can be used as argument to stl's sort(). */
269 class iListableServiceCompare
271 ePtr<iListableService> m_list;
273 iListableServiceCompare(iListableService *list): m_list(list) { }
274 bool operator()(const eServiceReference &a, const eServiceReference &b)
276 return m_list->compareLessEqual(a, b);
280 class iServiceOfflineOperations: public iObject
283 /* to delete a service, forever. */
284 virtual RESULT deleteFromDisk(int simulate=1)=0;
286 /* for transferring a service... */
287 virtual SWIG_VOID(RESULT) getListOfFilenames(std::list<std::string> &SWIG_OUTPUT)=0;
289 // TODO: additional stuff, like a conversion interface?
292 class iServiceHandler: public iObject
295 virtual SWIG_VOID(RESULT) play(const eServiceReference &, ePtr<iPlayableService> &SWIG_OUTPUT)=0;
296 virtual SWIG_VOID(RESULT) record(const eServiceReference &, ePtr<iRecordableService> &SWIG_OUTPUT)=0;
297 virtual SWIG_VOID(RESULT) list(const eServiceReference &, ePtr<iListableService> &SWIG_OUTPUT)=0;
298 virtual SWIG_VOID(RESULT) info(const eServiceReference &, ePtr<iStaticServiceInformation> &SWIG_OUTPUT)=0;
299 virtual SWIG_VOID(RESULT) offlineOperations(const eServiceReference &, ePtr<iServiceOfflineOperations> &SWIG_OUTPUT)=0;
302 TEMPLATE_TYPEDEF(ePtr<iServiceHandler>, iServiceHandlerPtr);