package gst // #include "gst.go.h" import "C" import ( "time" "unsafe" ) // Version represents information about the current GST version. type Version int const ( // VersionMajor is the major version number of the GStreamer core. VersionMajor Version = C.GST_VERSION_MAJOR // VersionMinor is the minor version number of the GStreamer core. VersionMinor Version = C.GST_VERSION_MINOR VersionMicro Version = C.GST_VERSION_MICRO ) // License represents a type of license used on a plugin. type License string // Types of licenses const ( LicenseLGPL License = "LGPL" LicenseGPL License = "GPL" LicenseQPL License = "QPL" LicenseGPLQPL License = "GPL/QPL" LicenseMPL License = "MPL" LicenseBSD License = "BSD" LicenseMIT License = "MIT/X11" LicenseProprietary License = "Proprietary" LicenseUnknown License = "unknown" ) // ClockTimeDiff is a datatype to hold a time difference, measured in nanoseconds. type ClockTimeDiff int64 // convinience function to convert the diff to a time.Duration func (ctd ClockTimeDiff) AsDuration() time.Duration { return time.Duration(ctd) } // ClockTimeNone means infinite timeout or an empty value const ClockTimeNone ClockTime = 0xffffffffffffffff // Ideally this would be set to C.GST_CLOCK_TIME_NONE but this causes issues on MacOS and Windows // ClockEntryType wraps GstClockEntryType type ClockEntryType int // Type castings of ClockEntryTypes const ( ClockEntrySingle ClockEntryType = C.GST_CLOCK_ENTRY_SINGLE // (0) – a single shot timeout ClockEntryPeriodic ClockEntryType = C.GST_CLOCK_ENTRY_PERIODIC // (1) – a periodic timeout request ) // ClockFlags wraps GstClockFlags type ClockFlags int // Type castings of ClockFlags const ( ClockFlagCanDoSingleSync ClockFlags = C.GST_CLOCK_FLAG_CAN_DO_SINGLE_SYNC // (16) – clock can do a single sync timeout request ClockFlagCanDoSingleAsync ClockFlags = C.GST_CLOCK_FLAG_CAN_DO_SINGLE_ASYNC // (32) – clock can do a single async timeout request ClockFlagCanDoPeriodicSync ClockFlags = C.GST_CLOCK_FLAG_CAN_DO_PERIODIC_SYNC // (64) – clock can do sync periodic timeout requests ClockFlagCanDoPeriodicAsync ClockFlags = C.GST_CLOCK_FLAG_CAN_DO_PERIODIC_ASYNC // (128) – clock can do async periodic timeout callbacks ClockFlagCanSetResolution ClockFlags = C.GST_CLOCK_FLAG_CAN_SET_RESOLUTION // (256) – clock's resolution can be changed ClockFlagCanSetMaster ClockFlags = C.GST_CLOCK_FLAG_CAN_SET_MASTER // (512) – clock can be slaved to a master clock ClockFlagNeedsStartupSync ClockFlags = C.GST_CLOCK_FLAG_NEEDS_STARTUP_SYNC // (1024) – clock needs to be synced before it can be used (Since: 1.6) ClockFlagLast ClockFlags = C.GST_CLOCK_FLAG_LAST // (4096) – subclasses can add additional flags starting from this flag ) // ClockReturn wraps a GstClockReturn type ClockReturn int // Type castings of clock returns const ( ClockOK ClockReturn = C.GST_CLOCK_OK // (0) – The operation succeeded. ClockEarly ClockReturn = C.GST_CLOCK_EARLY // (1) – The operation was scheduled too late. ClockUnscheduled ClockReturn = C.GST_CLOCK_UNSCHEDULED // (2) – The clockID was unscheduled ClockBusy ClockReturn = C.GST_CLOCK_BUSY // (3) – The ClockID is busy ClockBadTime ClockReturn = C.GST_CLOCK_BADTIME // (4) – A bad time was provided to a function. ClockError ClockReturn = C.GST_CLOCK_ERROR // (5) – An error occurred ClockUnsupported ClockReturn = C.GST_CLOCK_UNSUPPORTED // (6) – Operation is not supported ClockDone ClockReturn = C.GST_CLOCK_DONE // (7) – The ClockID is done waiting ) // BusSyncReply casts GstBusSyncReply to a go type type BusSyncReply int // Type castings of SyncReplies const ( BusDrop BusSyncReply = C.GST_BUS_DROP // (0) – drop the message BusPass BusSyncReply = C.GST_BUS_PASS // (1) – pass the message to the async queue BusAsync BusSyncReply = C.GST_BUS_ASYNC // (2) – pass message to async queue, continue if message is handled ) // BufferFlags casts GstBufferFlags to a go type. type BufferFlags int // Type castings of BufferFlags const ( BufferFlagLive BufferFlags = C.GST_BUFFER_FLAG_LIVE // (16) – the buffer is live data and should be discarded in the PAUSED state. BufferFlagDecodeOnly BufferFlags = C.GST_BUFFER_FLAG_DECODE_ONLY // (32) – the buffer contains data that should be dropped because it will be clipped against the segment boundaries or because it does not contain data that should be shown to the user. BufferFlagDiscont BufferFlags = C.GST_BUFFER_FLAG_DISCONT // (64) – the buffer marks a data discontinuity in the stream. This typically occurs after a seek or a dropped buffer from a live or network source. BufferFlagResync BufferFlags = C.GST_BUFFER_FLAG_RESYNC // (128) – the buffer timestamps might have a discontinuity and this buffer is a good point to resynchronize. BufferFlagCorrupted BufferFlags = C.GST_BUFFER_FLAG_CORRUPTED // (256) – the buffer data is corrupted. BufferFlagMarker BufferFlags = C.GST_BUFFER_FLAG_MARKER // (512) – the buffer contains a media specific marker. for video this is the end of a frame boundary, for audio this is the start of a talkspurt. BufferFlagHeader BufferFlags = C.GST_BUFFER_FLAG_HEADER // (1024) – the buffer contains header information that is needed to decode the following data. BufferFlagGap BufferFlags = C.GST_BUFFER_FLAG_GAP // (2048) – the buffer has been created to fill a gap in the stream and contains media neutral data (elements can switch to optimized code path that ignores the buffer content). BufferFlagDroppable BufferFlags = C.GST_BUFFER_FLAG_DROPPABLE // (4096) – the buffer can be dropped without breaking the stream, for example to reduce bandwidth. BufferFlagDeltaUnit BufferFlags = C.GST_BUFFER_FLAG_DELTA_UNIT // (8192) – this unit cannot be decoded independently. BufferFlagSyncAfter BufferFlags = C.GST_BUFFER_FLAG_SYNC_AFTER // (32768) – Elements which write to disk or permanent storage should ensure the data is synced after writing the contents of this buffer. (Since: 1.6) BufferFlagNonDroppable BufferFlags = C.GST_BUFFER_FLAG_NON_DROPPABLE // (65536) – This buffer is important and should not be dropped. This can be used to mark important buffers, e.g. to flag RTP packets carrying keyframes or codec setup data for RTP Forward Error Correction purposes, or to prevent still video frames from being dropped by elements due to QoS. (Since: 1.14) BufferFlagLast BufferFlags = C.GST_BUFFER_FLAG_LAST // (1048576) – additional media specific flags can be added starting from this flag. ) // BufferCopyFlags casts GstBufferCopyFlags to a go type. type BufferCopyFlags int // Type castings of BufferCopyFlags const ( BufferCopyNone BufferCopyFlags = C.GST_BUFFER_COPY_NONE // (0) – copy nothing BufferCopyBufferFlags BufferCopyFlags = C.GST_BUFFER_COPY_FLAGS // (1) – flag indicating that buffer flags should be copied BufferCopyTimestamps BufferCopyFlags = C.GST_BUFFER_COPY_TIMESTAMPS // (2) – flag indicating that buffer pts, dts, duration, offset and offset_end should be copied BufferCopyMeta BufferCopyFlags = C.GST_BUFFER_COPY_META // (4) – flag indicating that buffer meta should be copied BufferCopyMemory BufferCopyFlags = C.GST_BUFFER_COPY_MEMORY // (8) – flag indicating that buffer memory should be reffed and appended to already existing memory. Unless the memory is marked as NO_SHARE, no actual copy of the memory is made but it is simply reffed. Add GST_BUFFER_COPY_DEEP to force a real copy. BufferCopyMerge BufferCopyFlags = C.GST_BUFFER_COPY_MERGE // (16) – flag indicating that buffer memory should be merged BufferCopyDeep BufferCopyFlags = C.GST_BUFFER_COPY_DEEP // (32) – flag indicating that memory should always be copied instead of reffed (Since: 1.2) ) // BufferPoolAcquireFlags casts GstBufferPoolAcquireFlags to a go type. type BufferPoolAcquireFlags int // Type castings of BufferPoolAcquireFlags const ( BufferPoolAcquireFlagNone BufferPoolAcquireFlags = C.GST_BUFFER_POOL_ACQUIRE_FLAG_NONE // (0) – no flags BufferPoolAcquireFlagKeyUnit BufferPoolAcquireFlags = C.GST_BUFFER_POOL_ACQUIRE_FLAG_KEY_UNIT // (1) – buffer is keyframe BufferPoolAcquireFlagDontWait BufferPoolAcquireFlags = C.GST_BUFFER_POOL_ACQUIRE_FLAG_DONTWAIT // (2) – when the bufferpool is empty, acquire_buffer will by default block until a buffer is released into the pool again. Setting this flag makes acquire_buffer return GST_FLOW_EOS instead of blocking. BufferPoolAcquireFlagDiscont BufferPoolAcquireFlags = C.GST_BUFFER_POOL_ACQUIRE_FLAG_DISCONT // (4) – buffer is discont BufferPoolAcquireFlagLast BufferPoolAcquireFlags = C.GST_BUFFER_POOL_ACQUIRE_FLAG_LAST // (65536) – last flag, subclasses can use private flags starting from this value. ) // BufferingMode is a representation of GstBufferingMode type BufferingMode int // Type casts of buffering modes const ( BufferingStream BufferingMode = C.GST_BUFFERING_STREAM // (0) – a small amount of data is buffered BufferingDownload BufferingMode = C.GST_BUFFERING_DOWNLOAD // (1) – the stream is being downloaded BufferingTimeshift BufferingMode = C.GST_BUFFERING_TIMESHIFT // (2) – the stream is being downloaded in a ringbuffer BufferingLive BufferingMode = C.GST_BUFFERING_LIVE // (3) – the stream is a live stream ) // String implements a stringer on a BufferingMode. func (b BufferingMode) String() string { switch b { case BufferingStream: return "A small amount of data is buffered" case BufferingDownload: return "The stream is being downloaded" case BufferingTimeshift: return "The stream is being downloaded in a ringbuffer" case BufferingLive: return "The stream is live" } return "" } // SegmentFlags casts GstSegmentFlags type SegmentFlags int // Type castings const ( SegmentFlagNone SegmentFlags = C.GST_SEGMENT_FLAG_NONE // (0) – no flags SegmentFlagReset SegmentFlags = C.GST_SEGMENT_FLAG_RESET // (1) – reset the pipeline running_time to the segment running_time SegmentFlagTrickMode SegmentFlags = C.GST_SEGMENT_FLAG_TRICKMODE // (16) – perform skip playback (Since: 1.6) SegmentFlagSkip SegmentFlags = C.GST_SEGMENT_FLAG_SKIP // (16) – Deprecated backward compatibility flag, replaced by GST_SEGMENT_FLAG_TRICKMODE SegmentFlagSegment SegmentFlags = C.GST_SEGMENT_FLAG_SEGMENT // (8) – send SEGMENT_DONE instead of EOS SegmentFlagKeyUnits SegmentFlags = C.GST_SEGMENT_FLAG_TRICKMODE_KEY_UNITS // (128) – Decode only keyframes, where possible (Since: 1.6) // SegmentFlagTrickModeForwardPredicted SegmentFlags = C.GST_SEGMENT_FLAG_TRICKMODE_FORWARD_PREDICTED // (512) – Decode only keyframes or forward predicted frames, where possible (Since: 1.18) SegmentFlagTrickModeNoAudio SegmentFlags = C.GST_SEGMENT_FLAG_TRICKMODE_NO_AUDIO // (256) – Do not decode any audio, where possible (Since: 1.6) ) // EventType is a go cast for a GstEventType type EventType int // Type casts for EventTypes const ( EventTypeUnknown EventType = C.GST_EVENT_UNKNOWN //(0) – unknown event. EventTypeFlushStart EventType = C.GST_EVENT_FLUSH_START // (2563) – Start a flush operation. This event clears all data from the pipeline and unblock all streaming threads. EventTypeFlushStop EventType = C.GST_EVENT_FLUSH_STOP // (5127) – Stop a flush operation. This event resets the running-time of the pipeline. EventTypeStreamStart EventType = C.GST_EVENT_STREAM_START // (10254) – Event to mark the start of a new stream. Sent before any other serialized event and only sent at the start of a new stream, not after flushing seeks. EventTypeCaps EventType = C.GST_EVENT_CAPS // (12814) – GstCaps event. Notify the pad of a new media type. EventTypeSegment EventType = C.GST_EVENT_SEGMENT // (17934) – A new media segment follows in the dataflow. The segment events contains information for clipping buffers and converting buffer timestamps to running-time and stream-time. EventTypeStreamCollection EventType = C.GST_EVENT_STREAM_COLLECTION // (19230) – A new GstStreamCollection is available (Since: 1.10) EventTypeTag EventType = C.GST_EVENT_TAG // (20510) – A new set of metadata tags has been found in the stream. EventTypeBufferSize EventType = C.GST_EVENT_BUFFERSIZE // (23054) – Notification of buffering requirements. Currently not used yet. EventTypeSinkMessage EventType = C.GST_EVENT_SINK_MESSAGE // (25630) – An event that sinks turn into a message. Used to send messages that should be emitted in sync with rendering. EventTypeStreamGroupDone EventType = C.GST_EVENT_STREAM_GROUP_DONE // (26894) – Indicates that there is no more data for the stream group ID in the message. Sent before EOS in some instances and should be handled mostly the same. (Since: 1.10) EventTypeEOS EventType = C.GST_EVENT_EOS // (28174) – End-Of-Stream. No more data is to be expected to follow without either a STREAM_START event, or a FLUSH_STOP and a SEGMENT event. EventTypeTOC EventType = C.GST_EVENT_TOC // (30750) – An event which indicates that a new table of contents (TOC) was found or updated. EventTypeProtection EventType = C.GST_EVENT_PROTECTION // (33310) – An event which indicates that new or updated encryption information has been found in the stream. EventTypeSegmentDone EventType = C.GST_EVENT_SEGMENT_DONE // (38406) – Marks the end of a segment playback. EventTypeGap EventType = C.GST_EVENT_GAP // (40966) – Marks a gap in the datastream. // EventTypeInstantRateChange EventType = C.GST_EVENT_INSTANT_RATE_CHANGE // (46090) – Notify downstream that a playback rate override should be applied as soon as possible. (Since: 1.18) EventTypeQOS EventType = C.GST_EVENT_QOS // (48641) – A quality message. Used to indicate to upstream elements that the downstream elements should adjust their processing rate. EventTypeSeek EventType = C.GST_EVENT_SEEK // (51201) – A request for a new playback position and rate. EventTypeNavigation EventType = C.GST_EVENT_NAVIGATION // (53761) – Navigation events are usually used for communicating user requests, such as mouse or keyboard movements, to upstream elements. EventTypeLatency EventType = C.GST_EVENT_LATENCY // (56321) – Notification of new latency adjustment. Sinks will use the latency information to adjust their synchronization. EventTypeStep EventType = C.GST_EVENT_STEP // (58881) – A request for stepping through the media. Sinks will usually execute the step operation. EventTypeReconfigure EventType = C.GST_EVENT_RECONFIGURE // (61441) – A request for upstream renegotiating caps and reconfiguring. EventTypeTOCSelect EventType = C.GST_EVENT_TOC_SELECT // (64001) – A request for a new playback position based on TOC entry's UID. EventTypeSelectStreams EventType = C.GST_EVENT_SELECT_STREAMS // (66561) – A request to select one or more streams (Since: 1.10) // EventTypeInstantRateSyncTime EventType = C.GST_EVENT_INSTANT_RATE_SYNC_TIME // (66817) – Sent by the pipeline to notify elements that handle the instant-rate-change event about the running-time when the rate multiplier should be applied (or was applied). (Since: 1.18) EventTypeCustomUpstream EventType = C.GST_EVENT_CUSTOM_UPSTREAM // (69121) – Upstream custom event EventTypeCustomDownstream EventType = C.GST_EVENT_CUSTOM_DOWNSTREAM // (71686) – Downstream custom event that travels in the data flow. EventTypeCustomOOB EventType = C.GST_EVENT_CUSTOM_DOWNSTREAM_OOB // (74242) – Custom out-of-band downstream event. EventTypeCustomDownstreamSticky EventType = C.GST_EVENT_CUSTOM_DOWNSTREAM_STICKY // (76830) – Custom sticky downstream event. EventTypeCustomBoth EventType = C.GST_EVENT_CUSTOM_BOTH // (79367) – Custom upstream or downstream event. In-band when traveling downstream. EventTypeCustomBothOOB EventType = C.GST_EVENT_CUSTOM_BOTH_OOB // (81923) – Custom upstream or downstream out-of-band event. ) // String implements a stringer on event types func (e EventType) String() string { return C.GoString(C.gst_event_type_get_name(C.GstEventType(e))) } // EventTypeFlags casts GstEventTypeFlags type EventTypeFlags int // Type castings const ( EventTypeFlagUpstream EventTypeFlags = C.GST_EVENT_TYPE_UPSTREAM // (1) – Set if the event can travel upstream. EventTypeFlagDownstream EventTypeFlags = C.GST_EVENT_TYPE_DOWNSTREAM // (2) – Set if the event can travel downstream. EventTypeFlagSerialized EventTypeFlags = C.GST_EVENT_TYPE_SERIALIZED // (4) – Set if the event should be serialized with data flow. EventTypeFlagSticky EventTypeFlags = C.GST_EVENT_TYPE_STICKY // (8) – Set if the event is sticky on the pads. EventTypeFlagStickyMulti EventTypeFlags = C.GST_EVENT_TYPE_STICKY_MULTI // (16) – Multiple sticky events can be on a pad, each identified by the event name. ) // GapFlags casts GstGapFlags type GapFlags int // Type castings const ( GapFlagMissingData GapFlags = 1 ) // QOSType casts GstQOSType type QOSType int // Type castings const ( QOSTypeOverflow QOSType = C.GST_QOS_TYPE_OVERFLOW // (0) – The QoS event type that is produced when upstream elements are producing data too quickly and the element can't keep up processing the data. Upstream should reduce their production rate. This type is also used when buffers arrive early or in time. QOSTypeUnderflow QOSType = C.GST_QOS_TYPE_UNDERFLOW // (1) – The QoS event type that is produced when upstream elements are producing data too slowly and need to speed up their production rate. QOSTypeThrottle QOSType = C.GST_QOS_TYPE_THROTTLE // (2) – The QoS event type that is produced when the application enabled throttling to limit the data rate. ) // Format is a representation of GstFormat. type Format int // Type casts of formats const ( FormatUndefined Format = C.GST_FORMAT_UNDEFINED // (0) – undefined format FormatDefault Format = C.GST_FORMAT_DEFAULT // (1) – the default format of the pad/element. This can be samples for raw audio, or frames/fields for raw video. FormatBytes Format = C.GST_FORMAT_BYTES // (2) - bytes FormatTime Format = C.GST_FORMAT_TIME // (3) – time in nanoseconds ) // String implements a stringer on GstFormat types func (f Format) String() string { switch f { case FormatUndefined: return "undefined" case FormatDefault: return "default" case FormatBytes: return "bytes" case FormatTime: return "time" } return "" } // MessageType is an alias to the C equivalent of GstMessageType. // See the official documentation for definitions of the messages: // https://gstreamer.freedesktop.org/documentation/gstreamer/gstmessage.html?gi-language=c#GstMessageType type MessageType int // Type casting of GstMessageTypes // See the official documentation for definitions of the messages: // https://gstreamer.freedesktop.org/documentation/gstreamer/gstmessage.html?gi-language=c#GstMessageType const ( MessageUnknown MessageType = C.GST_MESSAGE_UNKNOWN MessageEOS MessageType = C.GST_MESSAGE_EOS MessageError MessageType = C.GST_MESSAGE_ERROR MessageWarning MessageType = C.GST_MESSAGE_WARNING MessageInfo MessageType = C.GST_MESSAGE_INFO MessageTag MessageType = C.GST_MESSAGE_TAG MessageBuffering MessageType = C.GST_MESSAGE_BUFFERING MessageStateChanged MessageType = C.GST_MESSAGE_STATE_CHANGED MessageStateDirty MessageType = C.GST_MESSAGE_STATE_DIRTY MessageStepDone MessageType = C.GST_MESSAGE_STEP_DONE MessageClockProvide MessageType = C.GST_MESSAGE_CLOCK_PROVIDE MessageClockLost MessageType = C.GST_MESSAGE_CLOCK_LOST MessageNewClock MessageType = C.GST_MESSAGE_NEW_CLOCK MessageStructureChange MessageType = C.GST_MESSAGE_STRUCTURE_CHANGE MessageStreamStatus MessageType = C.GST_MESSAGE_STREAM_STATUS MessageApplication MessageType = C.GST_MESSAGE_APPLICATION MessageElement MessageType = C.GST_MESSAGE_ELEMENT MessageSegmentStart MessageType = C.GST_MESSAGE_SEGMENT_START MessageSegmentDone MessageType = C.GST_MESSAGE_SEGMENT_DONE MessageDurationChanged MessageType = C.GST_MESSAGE_DURATION_CHANGED MessageLatency MessageType = C.GST_MESSAGE_LATENCY MessageAsyncStart MessageType = C.GST_MESSAGE_ASYNC_START MessageAsyncDone MessageType = C.GST_MESSAGE_ASYNC_DONE MessageRequestState MessageType = C.GST_MESSAGE_REQUEST_STATE MessageStepStart MessageType = C.GST_MESSAGE_STEP_START MessageQoS MessageType = C.GST_MESSAGE_QOS MessageProgress MessageType = C.GST_MESSAGE_PROGRESS MessageTOC MessageType = C.GST_MESSAGE_TOC MessageResetTime MessageType = C.GST_MESSAGE_RESET_TIME MessageStreamStart MessageType = C.GST_MESSAGE_STREAM_START MessageNeedContext MessageType = C.GST_MESSAGE_NEED_CONTEXT MessageHaveContext MessageType = C.GST_MESSAGE_HAVE_CONTEXT MessageExtended MessageType = C.GST_MESSAGE_EXTENDED MessageDeviceAdded MessageType = C.GST_MESSAGE_DEVICE_ADDED MessageDeviceRemoved MessageType = C.GST_MESSAGE_DEVICE_REMOVED MessagePropertyNotify MessageType = C.GST_MESSAGE_PROPERTY_NOTIFY MessageStreamCollection MessageType = C.GST_MESSAGE_STREAM_COLLECTION MessageStreamsSelected MessageType = C.GST_MESSAGE_STREAMS_SELECTED MessageRedirect MessageType = C.GST_MESSAGE_REDIRECT MessageDeviceChanged MessageType = C.GST_MESSAGE_DEVICE_CHANGED MessageAny MessageType = C.GST_MESSAGE_ANY ) // String implements a stringer on MessageTypes func (m MessageType) String() string { return C.GoString(C.gst_message_type_get_name((C.GstMessageType)(m))) } // PadFlags is a go cast of GstPadFlags type PadFlags int // Type casts of PadFlags const ( PadFlagBlocked PadFlags = C.GST_PAD_FLAG_BLOCKED // (16) – is dataflow on a pad blocked PadFlagFlushing PadFlags = C.GST_PAD_FLAG_FLUSHING // (32) – is pad flushing PadFlagEOS PadFlags = C.GST_PAD_FLAG_EOS // (64) – is pad in EOS state PadFlagBlocking PadFlags = C.GST_PAD_FLAG_BLOCKING // (128) – is pad currently blocking on a buffer or event PadFlagParent PadFlags = C.GST_PAD_FLAG_NEED_PARENT // (256) – ensure that there is a parent object before calling into the pad callbacks. PadFlagReconfigure PadFlags = C.GST_PAD_FLAG_NEED_RECONFIGURE // (512) – the pad should be reconfigured/renegotiated. The flag has to be unset manually after reconfiguration happened. PadFlagPendingEvents PadFlags = C.GST_PAD_FLAG_PENDING_EVENTS // (1024) – the pad has pending events PadFlagFixedCaps PadFlags = C.GST_PAD_FLAG_FIXED_CAPS // (2048) – the pad is using fixed caps. This means that once the caps are set on the pad, the default caps query function will only return those caps. PadFlagProxyCaps PadFlags = C.GST_PAD_FLAG_PROXY_CAPS // (4096) – the default event and query handler will forward all events and queries to the internally linked pads instead of discarding them. PadFlagProxyAllocation PadFlags = C.GST_PAD_FLAG_PROXY_ALLOCATION // (8192) – the default query handler will forward allocation queries to the internally linked pads instead of discarding them. PadFlagProxyScheduling PadFlags = C.GST_PAD_FLAG_PROXY_SCHEDULING // (16384) – the default query handler will forward scheduling queries to the internally linked pads instead of discarding them. PadFlagAcceptIntersect PadFlags = C.GST_PAD_FLAG_ACCEPT_INTERSECT // (32768) – the default accept-caps handler will check it the caps intersect the query-caps result instead of checking for a subset. This is interesting for parsers that can accept incompletely specified caps. PadFlagAcceptTemplate PadFlags = C.GST_PAD_FLAG_ACCEPT_TEMPLATE // (65536) – the default accept-caps handler will use the template pad caps instead of query caps to compare with the accept caps. Use this in combination with GST_PAD_FLAG_ACCEPT_INTERSECT. (Since: 1.6) PadFlagLast PadFlags = C.GST_PAD_FLAG_LAST // (1048576) – offset to define more flags ) // PadLinkCheck is a go cast of GstPadLinkCheck type PadLinkCheck int // Type casts of PadLinkChecks const ( PadLinkCheckNothing PadLinkCheck = C.GST_PAD_LINK_CHECK_NOTHING // (0) – Don't check hierarchy or caps compatibility. PadLinkCheckHierarchy PadLinkCheck = C.GST_PAD_LINK_CHECK_HIERARCHY // (1) – Check the pads have same parents/grandparents. Could be omitted if it is already known that the two elements that own the pads are in the same bin. PadLinkCheckTemplateCaps PadLinkCheck = C.GST_PAD_LINK_CHECK_TEMPLATE_CAPS // (2) – Check if the pads are compatible by using their template caps. This is much faster than GST_PAD_LINK_CHECK_CAPS, but would be unsafe e.g. if one pad has GST_CAPS_ANY. PadLinkCheckCaps PadLinkCheck = C.GST_PAD_LINK_CHECK_CAPS // (4) – Check if the pads are compatible by comparing the caps returned by gst_pad_query_caps. PadLinkCheckNoReconfigure PadLinkCheck = C.GST_PAD_LINK_CHECK_NO_RECONFIGURE // (8) – Disables pushing a reconfigure event when pads are linked. PadLinkCheckDefault PadLinkCheck = C.GST_PAD_LINK_CHECK_DEFAULT // (5) – The default checks done when linking pads (i.e. the ones used by gst_pad_link). ) // PadMode is a cast of GstPadMode. type PadMode int // Type casts of PadModes const ( PadModeNone PadMode = C.GST_PAD_MODE_NONE // (0) – Pad will not handle dataflow PadModePush PadMode = C.GST_PAD_MODE_PUSH // (1) – Pad handles dataflow in downstream push mode PadModePull PadMode = C.GST_PAD_MODE_PULL // (2) – Pad handles dataflow in upstream pull mode ) // String implements a stringer on PadMode func (p PadMode) String() string { return C.GoString(C.gst_pad_mode_get_name(C.GstPadMode(p))) } // PadDirection is a cast of GstPadDirection to a go type. type PadDirection int // Type casting of pad directions const ( PadDirectionUnknown PadDirection = C.GST_PAD_UNKNOWN // (0) - the direction is unknown PadDirectionSource PadDirection = C.GST_PAD_SRC // (1) - the pad is a source pad PadDirectionSink PadDirection = C.GST_PAD_SINK // (2) - the pad is a sink pad ) // String implements a Stringer on PadDirection. func (p PadDirection) String() string { switch p { case PadDirectionUnknown: return "unknown" case PadDirectionSource: return "src" case PadDirectionSink: return "sink" } return "" } // PadLinkReturn os a representation of GstPadLinkReturn. type PadLinkReturn int // Type casts for PadLinkReturns. const ( PadLinkOK PadLinkReturn = C.GST_PAD_LINK_OK PadLinkWrongHierarchy PadLinkReturn = C.GST_PAD_LINK_WRONG_HIERARCHY PadLinkWasLinked PadLinkReturn = C.GST_PAD_LINK_WAS_LINKED PadLinkWrongDirection PadLinkReturn = C.GST_PAD_LINK_WRONG_DIRECTION PadLinkNoFormat PadLinkReturn = C.GST_PAD_LINK_NOFORMAT PadLinkNoSched PadLinkReturn = C.GST_PAD_LINK_NOSCHED PadLinkRefused PadLinkReturn = C.GST_PAD_LINK_REFUSED ) // String implemeents a stringer on PadLinkReturn func (p PadLinkReturn) String() string { return C.GoString(C.gst_pad_link_get_name(C.GstPadLinkReturn(p))) } // PadPresence is a cast of GstPadPresence to a go type. type PadPresence int // Type casting of pad presences const ( PadPresenceAlways PadPresence = C.GST_PAD_ALWAYS // (0) - the pad is always available PadPresenceSometimes PadPresence = C.GST_PAD_SOMETIMES // (1) - the pad will become available depending on the media stream PadPresenceRequest PadPresence = C.GST_PAD_REQUEST // (2) - the pad is only available on request with gst_element_request_pad. ) // String implements a stringer on PadPresence. func (p PadPresence) String() string { switch p { case PadPresenceAlways: return "always" case PadPresenceSometimes: return "sometimes" case PadPresenceRequest: return "request" } return "" } // PadProbeReturn casts GstPadProbeReturn type PadProbeReturn int // Type castings of ProbeReturns const ( PadProbeDrop PadProbeReturn = C.GST_PAD_PROBE_DROP // (0) – drop data in data probes. For push mode this means that the data item is not sent downstream. For pull mode, it means that the data item is not passed upstream. In both cases, no other probes are called for this item and GST_FLOW_OK or TRUE is returned to the caller. PadProbeOK PadProbeReturn = C.GST_PAD_PROBE_OK // (1) – normal probe return value. This leaves the probe in place, and defers decisions about dropping or passing data to other probes, if any. If there are no other probes, the default behavior for the probe type applies ('block' for blocking probes, and 'pass' for non-blocking probes). PadProbeRemove PadProbeReturn = C.GST_PAD_PROBE_REMOVE // (2) – remove this probe. PadProbePass PadProbeReturn = C.GST_PAD_PROBE_PASS // (3) – pass the data item in the block probe and block on the next item. PadProbeHandled PadProbeReturn = C.GST_PAD_PROBE_HANDLED // (4) – Data has been handled in the probe and will not be forwarded further. For events and buffers this is the same behavior as GST_PAD_PROBE_DROP (except that in this case you need to unref the buffer or event yourself). For queries it will also return TRUE to the caller. The probe can also modify the GstFlowReturn value by using the GST_PAD_PROBE_INFO_FLOW_RETURN() accessor. Note that the resulting query must contain valid entries. Since: 1.6 ) // PadProbeType casts GstPadProbeType type PadProbeType int // Type castings of PadProbeTypes const ( PadProbeTypeInvalid PadProbeType = C.GST_PAD_PROBE_TYPE_INVALID // (0) – invalid probe type PadProbeTypeIdle PadProbeType = C.GST_PAD_PROBE_TYPE_IDLE // (1) – probe idle pads and block while the callback is called PadProbeTypeBlock PadProbeType = C.GST_PAD_PROBE_TYPE_BLOCK // (2) – probe and block pads PadProbeTypeBuffer PadProbeType = C.GST_PAD_PROBE_TYPE_BUFFER // (16) – probe buffers PadProbeTypeBufferList PadProbeType = C.GST_PAD_PROBE_TYPE_BUFFER_LIST // (32) – probe buffer lists PadProbeTypeEventDownstream PadProbeType = C.GST_PAD_PROBE_TYPE_EVENT_DOWNSTREAM // (64) – probe downstream events PadProbeTypeEventUpstream PadProbeType = C.GST_PAD_PROBE_TYPE_EVENT_UPSTREAM // (128) – probe upstream events PadProbeTypeEventFlush PadProbeType = C.GST_PAD_PROBE_TYPE_EVENT_FLUSH // (256) – probe flush events. This probe has to be explicitly enabled and is not included in the @GST_PAD_PROBE_TYPE_EVENT_DOWNSTREAM or @GST_PAD_PROBE_TYPE_EVENT_UPSTREAM probe types. PadProbeTypeQueryDownstream PadProbeType = C.GST_PAD_PROBE_TYPE_QUERY_DOWNSTREAM // (512) – probe downstream queries PadProbeTypeQueryUpstream PadProbeType = C.GST_PAD_PROBE_TYPE_QUERY_UPSTREAM // (1024) – probe upstream queries PadProbeTypePush PadProbeType = C.GST_PAD_PROBE_TYPE_PUSH // (4096) – probe push PadProbeTypePull PadProbeType = C.GST_PAD_PROBE_TYPE_PULL // (8192) – probe pull PadProbeTypeBlocking PadProbeType = C.GST_PAD_PROBE_TYPE_BLOCKING // (3) – probe and block at the next opportunity, at data flow or when idle PadProbeTypeDataDownstream PadProbeType = C.GST_PAD_PROBE_TYPE_DATA_DOWNSTREAM // (112) – probe downstream data (buffers, buffer lists, and events) PadProbeTypeDataUpstream PadProbeType = C.GST_PAD_PROBE_TYPE_DATA_UPSTREAM // (128) – probe upstream data (events) PadProbeTypeDataBoth PadProbeType = C.GST_PAD_PROBE_TYPE_DATA_BOTH // (240) – probe upstream and downstream data (buffers, buffer lists, and events) PadProbeTypeBlockDownstream PadProbeType = C.GST_PAD_PROBE_TYPE_BLOCK_DOWNSTREAM // (114) – probe and block downstream data (buffers, buffer lists, and events) PadProbeTypeBlockUpstream PadProbeType = C.GST_PAD_PROBE_TYPE_BLOCK_UPSTREAM // (130) – probe and block upstream data (events) PadProbeTypeEventBoth PadProbeType = C.GST_PAD_PROBE_TYPE_EVENT_BOTH // (192) – probe upstream and downstream events PadProbeTypeQueryBoth PadProbeType = C.GST_PAD_PROBE_TYPE_QUERY_BOTH // (1536) – probe upstream and downstream queries PadProbeTypeAllBoth PadProbeType = C.GST_PAD_PROBE_TYPE_ALL_BOTH // (1776) – probe upstream events and queries and downstream buffers, buffer lists, events and queries PadProbeTypeScheduling PadProbeType = C.GST_PAD_PROBE_TYPE_SCHEDULING // (12288) – probe push and pull ) // Rank casts GstRank type Rank uint const ( RankNone Rank = C.GST_RANK_NONE // (0) - will be chosen last or not at all RankMarginal Rank = C.GST_RANK_MARGINAL // (64) – unlikely to be chosen RankSecondary Rank = C.GST_RANK_SECONDARY // (128) – likely to be chosen RankPrimary Rank = C.GST_RANK_PRIMARY // (256) – will be chosen first ) // SchedulingFlags casts GstSchedulingFlags type SchedulingFlags int // Type casts const ( SchedulingFlagSeekable SchedulingFlags = C.GST_SCHEDULING_FLAG_SEEKABLE // (1) – if seeking is possible SchedulingFlagSequential SchedulingFlags = C.GST_SCHEDULING_FLAG_SEQUENTIAL // (2) – if sequential access is recommended SchedulingFlagBandwidthLimited SchedulingFlags = C.GST_SCHEDULING_FLAG_BANDWIDTH_LIMITED // (4) – if bandwidth is limited and buffering possible (since 1.2) ) // State is a type cast of the C GstState type State int // Type casting for GstStates const ( VoidPending State = C.GST_STATE_VOID_PENDING // (0) – no pending state. StateNull State = C.GST_STATE_NULL // (1) – the NULL state or initial state of an element. StateReady State = C.GST_STATE_READY // (2) – the element is ready to go to PAUSED. StatePaused State = C.GST_STATE_PAUSED // (3) – the element is PAUSED, it is ready to accept and process data. Sink elements however only accept one buffer and then block. StatePlaying State = C.GST_STATE_PLAYING // (4) – the element is PLAYING, the GstClock is running and the data is flowing. ) // String returns the string representation of this state. func (s State) String() string { return C.GoString(C.gst_element_state_get_name((C.GstState)(s))) } // SeekFlags is a representation of GstSeekFlags. type SeekFlags int // Type casts of SeekFlags const ( SeekFlagNone SeekFlags = C.GST_SEEK_FLAG_NONE SeekFlagFlush SeekFlags = C.GST_SEEK_FLAG_FLUSH SeekFlagAccurate SeekFlags = C.GST_SEEK_FLAG_ACCURATE SeekFlagKeyUnit SeekFlags = C.GST_SEEK_FLAG_KEY_UNIT SeekFlagSegment SeekFlags = C.GST_SEEK_FLAG_SEGMENT SeekFlagSkip SeekFlags = C.GST_SEEK_FLAG_SKIP SeekFlagSnapBefore SeekFlags = C.GST_SEEK_FLAG_SNAP_BEFORE SeekFlagSnapAfter SeekFlags = C.GST_SEEK_FLAG_SNAP_AFTER SeekFlagSnapNearest SeekFlags = C.GST_SEEK_FLAG_SNAP_NEAREST ) // SeekType is a representation of GstSeekType. type SeekType int // Type casts of seek types const ( SeekTypeNone SeekType = C.GST_SEEK_TYPE_NONE SeekTypeSet SeekType = C.GST_SEEK_TYPE_SET SeekTypeEnd SeekType = C.GST_SEEK_TYPE_END ) // StateChange is the different state changes an element goes through. StateNull ⇒ StatePlaying is called // an upwards state change and StatePlaying ⇒ StateNull a downwards state change. // // See https://gstreamer.freedesktop.org/documentation/gstreamer/gstelement.html?gi-language=c#GstStateChange // for more information on the responsibiltiies of elements during each transition. type StateChange int // StateChange castings const ( StateChangeNullToReady StateChange = C.GST_STATE_CHANGE_NULL_TO_READY StateChangeReadyToPaused StateChange = C.GST_STATE_CHANGE_READY_TO_PAUSED StateChangePausedToPlaying StateChange = C.GST_STATE_CHANGE_PAUSED_TO_PLAYING StateChangePlayingToPaused StateChange = C.GST_STATE_CHANGE_PLAYING_TO_PAUSED StateChangePausedToReady StateChange = C.GST_STATE_CHANGE_PAUSED_TO_READY StateChangeReadyToNull StateChange = C.GST_STATE_CHANGE_READY_TO_NULL StateChangeNullToNull StateChange = C.GST_STATE_CHANGE_NULL_TO_NULL StateChangeReadyToReady StateChange = C.GST_STATE_CHANGE_READY_TO_READY StateChangePausedToPaused StateChange = C.GST_STATE_CHANGE_PAUSED_TO_PAUSED StateChangePlayingToPlaying StateChange = C.GST_STATE_CHANGE_PLAYING_TO_PLAYING ) // String returns the string representation of a StateChange func (s StateChange) String() string { return C.GoString(C.gst_state_change_get_name(C.GstStateChange(s))) } // StateChangeReturn is a representation of GstStateChangeReturn. type StateChangeReturn int // Type casts of state change returns const ( StateChangeFailure StateChangeReturn = C.GST_STATE_CHANGE_FAILURE StateChangeSuccess StateChangeReturn = C.GST_STATE_CHANGE_SUCCESS StateChangeAsync StateChangeReturn = C.GST_STATE_CHANGE_ASYNC StateChangeNoPreroll StateChangeReturn = C.GST_STATE_CHANGE_NO_PREROLL ) func (s StateChangeReturn) String() string { return C.GoString(C.gst_element_state_change_return_get_name(C.GstStateChangeReturn(s))) } // ElementFlags casts C GstElementFlags to a go type type ElementFlags int // Type casting of element flags const ( ElementFlagLockedState ElementFlags = C.GST_ELEMENT_FLAG_LOCKED_STATE // (16) – ignore state changes from parent ElementFlagSink ElementFlags = C.GST_ELEMENT_FLAG_SINK // (32) – the element is a sink ElementFlagSource ElementFlags = C.GST_ELEMENT_FLAG_SOURCE // (64) – the element is a source. ElementFlagProvideClock ElementFlags = C.GST_ELEMENT_FLAG_PROVIDE_CLOCK // (128) – the element can provide a clock ElementFlagRequireClock ElementFlags = C.GST_ELEMENT_FLAG_REQUIRE_CLOCK // (256) – the element requires a clock ElementFlagIndexable ElementFlags = C.GST_ELEMENT_FLAG_INDEXABLE // (512) – the element can use an index ElementFlagLast ElementFlags = C.GST_ELEMENT_FLAG_LAST // (16384) – offset to define more flags ) // MiniObjectFlags casts GstMiniObjectFlags to a go type. type MiniObjectFlags int // Type casting of mini-object flags const ( MiniObjectFlagLockable MiniObjectFlags = C.GST_MINI_OBJECT_FLAG_LOCKABLE // (1) – the object can be locked and unlocked with gst_mini_object_lock and gst_mini_object_unlock. MiniObjectFlagLockReadOnly MiniObjectFlags = C.GST_MINI_OBJECT_FLAG_LOCK_READONLY // (2) – the object is permanently locked in READONLY mode. Only read locks can be performed on the object. MiniObjectFlagMayBeLeaked MiniObjectFlags = C.GST_MINI_OBJECT_FLAG_MAY_BE_LEAKED // (4) – the object is expected to stay alive even after gst_deinit has been called and so should be ignored by leak detection tools. (Since: 1.10) MiniObjectFlagLast MiniObjectFlags = C.GST_MINI_OBJECT_FLAG_LAST // (16) – first flag that can be used by subclasses. ) // FlowReturn is go type casting for GstFlowReturn. type FlowReturn int // Type casting of the GstFlowReturn types. Custom ones are omitted for now. const ( FlowOK FlowReturn = C.GST_FLOW_OK // Data passing was ok FlowNotLinked FlowReturn = C.GST_FLOW_NOT_LINKED // Pad is not linked FlowFlushing FlowReturn = C.GST_FLOW_FLUSHING // Pad is flushing FlowEOS FlowReturn = C.GST_FLOW_EOS // Pad is EOS FlowNotNegotiated FlowReturn = C.GST_FLOW_NOT_NEGOTIATED // Pad is not negotiated FlowError FlowReturn = C.GST_FLOW_ERROR // Some (fatal) error occurred FlowNotSupported FlowReturn = C.GST_FLOW_NOT_SUPPORTED // The operation is not supported. ) // String impelements a stringer on FlowReturn func (f FlowReturn) String() string { return C.GoString(C.gst_flow_get_name(C.GstFlowReturn(f))) } // MapFlags is a go casting of GstMapFlags type MapFlags int // Type casting of the map flag types const ( MapRead MapFlags = C.GST_MAP_READ // (1) – map for read access MapWrite MapFlags = C.GST_MAP_WRITE // (2) - map for write access MapFlagLast MapFlags = C.GST_MAP_FLAG_LAST // (65536) – first flag that can be used for custom purposes ) // StreamStatusType represents a type of change in a stream's status type StreamStatusType int // Type castings of the stream status types const ( StreamStatusCreate StreamStatusType = C.GST_STREAM_STATUS_TYPE_CREATE // (0) – A new thread need to be created. StreamStatusEnter StreamStatusType = C.GST_STREAM_STATUS_TYPE_ENTER // (1) – a thread entered its loop function StreamStatusLeave StreamStatusType = C.GST_STREAM_STATUS_TYPE_LEAVE // (2) – a thread left its loop function StreamStatusDestroy StreamStatusType = C.GST_STREAM_STATUS_TYPE_DESTROY // (3) – a thread is destroyed StreamStatusStart StreamStatusType = C.GST_STREAM_STATUS_TYPE_START // (8) – a thread is started StreamStatusPause StreamStatusType = C.GST_STREAM_STATUS_TYPE_PAUSE // (9) – a thread is paused StreamStatusStop StreamStatusType = C.GST_STREAM_STATUS_TYPE_STOP // (10) – a thread is stopped ) func (s StreamStatusType) String() string { switch s { case StreamStatusCreate: return "A new thread needs to be created" case StreamStatusEnter: return "A thread has entered its loop function" case StreamStatusLeave: return "A thread has left its loop function" case StreamStatusDestroy: return "A thread has been destroyed" case StreamStatusStart: return "A thread has started" case StreamStatusPause: return "A thread has paused" case StreamStatusStop: return "A thread has stopped" } return "" } // StructureChangeType is a go representation of a GstStructureChangeType type StructureChangeType int // Type castings of StructureChangeTypes const ( StructureChangePadLink StructureChangeType = C.GST_STRUCTURE_CHANGE_TYPE_PAD_LINK // (0) – Pad linking is starting or done. StructureChangePadUnlink StructureChangeType = C.GST_STRUCTURE_CHANGE_TYPE_PAD_UNLINK // (1) – Pad unlinking is starting or done. ) // String implements a stringer on StructureChangeTypes. func (s StructureChangeType) String() string { switch s { case StructureChangePadLink: return "pad link" case StructureChangePadUnlink: return "pad unlink" } return "" } // ProgressType is a go representation of a GstProgressType type ProgressType int // Type castings of ProgressTypes const ( ProgressTypeStart ProgressType = C.GST_PROGRESS_TYPE_START // (0) – A new task started. ProgressTypeContinue ProgressType = C.GST_PROGRESS_TYPE_CONTINUE // (1) – A task completed and a new one continues. ProgressTypeComplete ProgressType = C.GST_PROGRESS_TYPE_COMPLETE // (2) – A task completed. ProgressTypeCanceled ProgressType = C.GST_PROGRESS_TYPE_CANCELED // (3) – A task was canceled. ProgressTypeError ProgressType = C.GST_PROGRESS_TYPE_ERROR // (4) – A task caused an error. An error message is also posted on the bus. ) // String implements a stringer on ProgressTypes func (p ProgressType) String() string { switch p { case ProgressTypeStart: return "started" case ProgressTypeContinue: return "continuing" case ProgressTypeComplete: return "completed" case ProgressTypeCanceled: return "canceled" case ProgressTypeError: return "error" } return "" } // StreamType is a go representation of a GstStreamType type StreamType int // Type castings of stream types const ( StreamTypeUnknown StreamType = C.GST_STREAM_TYPE_UNKNOWN // (1) – The stream is of unknown (unclassified) type. StreamTypeAudio StreamType = C.GST_STREAM_TYPE_AUDIO // (2) – The stream is of audio data StreamTypeVideo StreamType = C.GST_STREAM_TYPE_VIDEO // (4) – The stream carries video data StreamTypeContainer StreamType = C.GST_STREAM_TYPE_CONTAINER // (8) – The stream is a muxed container type StreamTypeText StreamType = C.GST_STREAM_TYPE_TEXT // (16) – The stream contains subtitle / subpicture data. ) // String implements a stringer on StreamTypes. func (s StreamType) String() string { name := C.gst_stream_type_get_name((C.GstStreamType)(s)) defer C.free(unsafe.Pointer(name)) return C.GoString(name) } // StreamFlags represent configuration options for a new stream. type StreamFlags int // Type castings of StreamFlags const ( StreamFlagNone StreamFlags = C.GST_STREAM_FLAG_NONE // (0) – This stream has no special attributes StreamFlagSparse StreamFlags = C.GST_STREAM_FLAG_SPARSE // (1) – This stream is a sparse stream (e.g. a subtitle stream), data may flow only in irregular intervals with large gaps in between. StreamFlagSelect StreamFlags = C.GST_STREAM_FLAG_SELECT // (2) – This stream should be selected by default. This flag may be used by demuxers to signal that a stream should be selected by default in a playback scenario. StreamFlagUnselect StreamFlags = C.GST_STREAM_FLAG_UNSELECT // (4) – This stream should not be selected by default. This flag may be used by demuxers to signal that a stream should not be selected by default in a playback scenario, but only if explicitly selected by the user (e.g. an audio track for the hard of hearing or a director's commentary track). ) // MemoryFlags represent flags for wrapped memory type MemoryFlags int // Type castins of MemoryFlags const ( MemoryFlagReadOnly MemoryFlags = C.GST_MEMORY_FLAG_READONLY // (2) – memory is readonly. It is not allowed to map the memory with GST_MAP_WRITE. MemoryFlagNoShare MemoryFlags = C.GST_MEMORY_FLAG_NO_SHARE // (16) – memory must not be shared. Copies will have to be made when this memory needs to be shared between buffers. (DEPRECATED: do not use in new code, instead you should create a custom GstAllocator for memory pooling instead of relying on the GstBuffer they were originally attached to.) MemoryFlagZeroPrefixed MemoryFlags = C.GST_MEMORY_FLAG_ZERO_PREFIXED // (32) – the memory prefix is filled with 0 bytes MemoryFlagZeroPadded MemoryFlags = C.GST_MEMORY_FLAG_ZERO_PADDED // (64) – the memory padding is filled with 0 bytes MemoryFlagPhysicallyContiguous MemoryFlags = C.GST_MEMORY_FLAG_PHYSICALLY_CONTIGUOUS // (128) – the memory is physically contiguous. (Since: 1.2) MemoryFlagNotMappable MemoryFlags = C.GST_MEMORY_FLAG_NOT_MAPPABLE // (256) – the memory can't be mapped via gst_memory_map without any preconditions. (Since: 1.2) MemoryFlagLast MemoryFlags = 1048576 // first flag that can be used for custom purposes ) // URIType casts C GstURIType to a go type type URIType int // Type cast URI types const ( URIUnknown URIType = C.GST_URI_UNKNOWN // (0) – The URI direction is unknown URISink URIType = C.GST_URI_SINK // (1) – The URI is a consumer. URISource URIType = C.GST_URI_SRC // (2) - The URI is a producer. ) func (u URIType) String() string { switch u { case URIUnknown: return "Unknown" case URISink: return "Sink" case URISource: return "Source" } return "" } // MetaFlags casts C GstMetaFlags to a go type. type MetaFlags int // Type casts of GstMetaFlags const ( MetaFlagNone MetaFlags = C.GST_META_FLAG_NONE // (0) – no flags MetaFlagReadOnly MetaFlags = C.GST_META_FLAG_READONLY // (1) – metadata should not be modified MetaFlagPooled MetaFlags = C.GST_META_FLAG_POOLED // (2) – metadata is managed by a bufferpool MetaFlagLocked MetaFlags = C.GST_META_FLAG_LOCKED // (4) – metadata should not be removed MetaFlagLast MetaFlags = C.GST_META_FLAG_LAST // (65536) – additional flags can be added starting from this flag. ) // QueryType casts GstQueryType type QueryType int // Type casts const ( QueryUnknown QueryType = C.GST_QUERY_UNKNOWN // (0) – unknown query type QueryPosition QueryType = C.GST_QUERY_POSITION // (2563) – current position in stream QueryDuration QueryType = C.GST_QUERY_DURATION // (5123) – total duration of the stream QueryLatency QueryType = C.GST_QUERY_LATENCY // (7683) – latency of stream QueryJitter QueryType = C.GST_QUERY_JITTER // (10243) – current jitter of stream QueryRate QueryType = C.GST_QUERY_RATE // (12803) – current rate of the stream QuerySeeking QueryType = C.GST_QUERY_SEEKING // (15363) – seeking capabilities QuerySegment QueryType = C.GST_QUERY_SEGMENT // (17923) – segment start/stop positions QueryConvert QueryType = C.GST_QUERY_CONVERT // (20483) – convert values between formats QueryFormats QueryType = C.GST_QUERY_FORMATS // (23043) – query supported formats for convert QueryBuffering QueryType = C.GST_QUERY_BUFFERING // (28163) – query available media for efficient seeking. QueryCustom QueryType = C.GST_QUERY_CUSTOM // (30723) – a custom application or element defined que QueryType = C.ry. QueryURI QueryType = C.GST_QUERY_URI // (33283) – query the URI of the source or sink. QueryAllocation QueryType = C.GST_QUERY_ALLOCATION // (35846) – the buffer allocation properties QueryScheduling QueryType = C.GST_QUERY_SCHEDULING // (38401) – the scheduling properties QueryAcceptCaps QueryType = C.GST_QUERY_ACCEPT_CAPS // (40963) – the accept caps query QueryCaps QueryType = C.GST_QUERY_CAPS // (43523) – the caps query QueryDrain QueryType = C.GST_QUERY_DRAIN // (46086) – wait till all serialized data is consumed downstream QueryContext QueryType = C.GST_QUERY_CONTEXT // (48643) – query the pipeline-local context from downstream or upstream (since 1.2) QueryBitrate QueryType = C.GST_QUERY_BITRATE // (51202) – the bitrate query (since 1.16) ) func (q QueryType) String() string { return C.GoString(C.gst_query_type_get_name(C.GstQueryType(q))) } // QueryTypeFlags casts GstQueryTypeFlags type QueryTypeFlags int // Type casts const ( QueryTypeUpstream QueryTypeFlags = C.GST_QUERY_TYPE_UPSTREAM // (1) – Set if the query can travel upstream. QueryTypeDownstream QueryTypeFlags = C.GST_QUERY_TYPE_DOWNSTREAM // (2) – Set if the query can travel downstream. QueryTypeSerialized QueryTypeFlags = C.GST_QUERY_TYPE_SERIALIZED // (4) – Set if the query should be serialized with data flow. ) // TaskState casts GstTaskState type TaskState int // Type castings const ( TaskStarted TaskState = C.GST_TASK_STARTED // (0) – the task is started and running TaskStopped TaskState = C.GST_TASK_STOPPED // (1) – the task is stopped TaskPaused TaskState = C.GST_TASK_PAUSED // (2) – the task is paused ) // TOCScope represents the scope of a TOC. type TOCScope int // Type castings of TOCScopes. const ( // (1) – global TOC representing all selectable options (this is what applications are usually interested in) TOCScopeGlobal TOCScope = C.GST_TOC_SCOPE_GLOBAL // (2) – TOC for the currently active/selected stream (this is a TOC representing the current stream from start // to EOS, and is what a TOC writer / muxer is usually interested in; it will usually be a subset of the global // TOC, e.g. just the chapters of the current title, or the chapters selected for playback from the current title) TOCScopeCurrent TOCScope = C.GST_TOC_SCOPE_CURRENT ) // String implements a stringer on a TOCScope func (t TOCScope) String() string { switch t { case TOCScopeGlobal: return "global" case TOCScopeCurrent: return "current" } return "" } // TOCLoopType represents a GstTocLoopType type TOCLoopType int // Type castings of TOCLoopTypes const ( TOCLoopNone TOCLoopType = C.GST_TOC_LOOP_NONE // (0) – single forward playback TOCLoopForward TOCLoopType = C.GST_TOC_LOOP_FORWARD // (1) – repeat forward TOCLoopReverse TOCLoopType = C.GST_TOC_LOOP_REVERSE // (2) – repeat backward TOCLoopPingPong TOCLoopType = C.GST_TOC_LOOP_PING_PONG // (3) – repeat forward and backward ) // TOCEntryType represents a GstTocEntryType. type TOCEntryType int // Type castings of TOCEntryTypes const ( TOCEntryTypeAngle TOCEntryType = C.GST_TOC_ENTRY_TYPE_ANGLE // (-3) – entry is an angle (i.e. an alternative) TOCEntryTypeVersion TOCEntryType = C.GST_TOC_ENTRY_TYPE_VERSION // (-2) – entry is a version (i.e. alternative) TOCEntryTypeEdition TOCEntryType = C.GST_TOC_ENTRY_TYPE_EDITION // (-1) – entry is an edition (i.e. alternative) TOCEntryTypeInvalid TOCEntryType = C.GST_TOC_ENTRY_TYPE_INVALID // (0) – invalid entry type value TOCEntryTypeTitle TOCEntryType = C.GST_TOC_ENTRY_TYPE_TITLE // (1) – entry is a title (i.e. a part of a sequence) TOCEntryTypeTrack TOCEntryType = C.GST_TOC_ENTRY_TYPE_TRACK // (2) – entry is a track (i.e. a part of a sequence) TOCEntryTypeChapter TOCEntryType = C.GST_TOC_ENTRY_TYPE_CHAPTER // (3) – entry is a chapter (i.e. a part of a sequence) ) // TagFlag represents a GstTagFlag type TagFlag int // Type castins of TagFlags const ( TagFlagUndefined TagFlag = C.GST_TAG_FLAG_UNDEFINED // (0) – undefined flag TagFlagMeta TagFlag = C.GST_TAG_FLAG_META // (1) – tag is meta data TagFlagEncoded TagFlag = C.GST_TAG_FLAG_ENCODED // (2) – tag is encoded TagFlagDecoded TagFlag = C.GST_TAG_FLAG_DECODED // (3) – tag is decoded TagFlagCount TagFlag = C.GST_TAG_FLAG_COUNT // (4) – number of tag flags ) // TagMergeMode represents a GstTagMergeMode. // See: https://gstreamer.freedesktop.org/documentation/gstreamer/gsttaglist.html#GstTagMergeMode type TagMergeMode int // Type castings of TagMergeModes const ( TagMergeUndefined TagMergeMode = C.GST_TAG_MERGE_UNDEFINED // (0) – undefined merge mode TagMergeReplaceAll TagMergeMode = C.GST_TAG_MERGE_REPLACE_ALL // (1) – replace all tags (clear list and append) TagMergeReplace TagMergeMode = C.GST_TAG_MERGE_REPLACE // (2) – replace tags TagMergeAppend TagMergeMode = C.GST_TAG_MERGE_APPEND // (3) – append tags TagMergePrepend TagMergeMode = C.GST_TAG_MERGE_PREPEND // (4) – prepend tags TagMergeKeep TagMergeMode = C.GST_TAG_MERGE_KEEP // (5) – keep existing tags TagMergeKeepAll TagMergeMode = C.GST_TAG_MERGE_KEEP_ALL // (6) – keep all existing tags TagMergeCount TagMergeMode = C.GST_TAG_MERGE_COUNT // (7) – the number of merge modes ) // TagScope represents a GstTagScope type TagScope int // Type castings of tag scopes const ( TagScopeStream TagScope = C.GST_TAG_SCOPE_STREAM // (0) – tags specific to this single stream TagScopeGlobal TagScope = C.GST_TAG_SCOPE_GLOBAL // (1) – global tags for the complete medium ) // Tag wraps the builtin gstreamer tags type Tag string // Type castings of Tags // For more information see: https://gstreamer.freedesktop.org/documentation/gstreamer/gsttaglist.html?gi-language=c#constants const ( TagAlbum Tag = C.GST_TAG_ALBUM TagAlbumArtist Tag = C.GST_TAG_ALBUM_ARTIST TagAlbumArtistSortName Tag = C.GST_TAG_ALBUM_ARTIST_SORTNAME TagAlbumGain Tag = C.GST_TAG_ALBUM_GAIN TagAlbumPeak Tag = C.GST_TAG_ALBUM_PEAK TagAlbumSortName Tag = C.GST_TAG_ALBUM_SORTNAME TagAlbumVolumeCount Tag = C.GST_TAG_ALBUM_VOLUME_COUNT TagAlbumVolumeNumber Tag = C.GST_TAG_ALBUM_VOLUME_NUMBER TagApplicationData Tag = C.GST_TAG_APPLICATION_DATA TagApplicationName Tag = C.GST_TAG_APPLICATION_NAME TagArtist Tag = C.GST_TAG_ARTIST TagArtistSortName Tag = C.GST_TAG_ARTIST_SORTNAME TagAttachment Tag = C.GST_TAG_ATTACHMENT TagAudioCodec Tag = C.GST_TAG_AUDIO_CODEC TagBeatsPerMinute Tag = C.GST_TAG_BEATS_PER_MINUTE TagBitrate Tag = C.GST_TAG_BITRATE TagCodec Tag = C.GST_TAG_CODEC TagComment Tag = C.GST_TAG_COMMENT TagComposer Tag = C.GST_TAG_COMPOSER TagComposerSortName Tag = C.GST_TAG_COMPOSER_SORTNAME TagConductor Tag = C.GST_TAG_CONDUCTOR TagContact Tag = C.GST_TAG_CONTACT TagContainerFormat Tag = C.GST_TAG_CONTAINER_FORMAT TagCopyright Tag = C.GST_TAG_COPYRIGHT TagCopyrightURI Tag = C.GST_TAG_COPYRIGHT_URI TagDate Tag = C.GST_TAG_DATE TagDateTime Tag = C.GST_TAG_DATE_TIME TagDescription Tag = C.GST_TAG_DESCRIPTION TagDeviceManufacturer Tag = C.GST_TAG_DEVICE_MANUFACTURER TagDeviceModel Tag = C.GST_TAG_DEVICE_MODEL TagDuration Tag = C.GST_TAG_DURATION TagEncodedBy Tag = C.GST_TAG_ENCODED_BY TagEncoder Tag = C.GST_TAG_ENCODER TagEncoderVersion Tag = C.GST_TAG_ENCODER_VERSION TagExtendedComment Tag = C.GST_TAG_EXTENDED_COMMENT TagGenre Tag = C.GST_TAG_GENRE TagGeoLocationCaptureDirection Tag = C.GST_TAG_GEO_LOCATION_CAPTURE_DIRECTION TagGeoLocationCity Tag = C.GST_TAG_GEO_LOCATION_CITY TagGeoLocationCountry Tag = C.GST_TAG_GEO_LOCATION_COUNTRY TagGeoLocationElevation Tag = C.GST_TAG_GEO_LOCATION_ELEVATION TagGeoLocationHoriozontalError Tag = C.GST_TAG_GEO_LOCATION_HORIZONTAL_ERROR TagGeoLocationLatitude Tag = C.GST_TAG_GEO_LOCATION_LATITUDE TagGeoLocationLongitude Tag = C.GST_TAG_GEO_LOCATION_LONGITUDE TagGeoLocationMovementDirection Tag = C.GST_TAG_GEO_LOCATION_MOVEMENT_DIRECTION TagGeoLocationMovementSpeed Tag = C.GST_TAG_GEO_LOCATION_MOVEMENT_SPEED TagGeoLocationName Tag = C.GST_TAG_GEO_LOCATION_NAME TagGeoLocationSubLocation Tag = C.GST_TAG_GEO_LOCATION_SUBLOCATION TagGrouping Tag = C.GST_TAG_GROUPING TagHomepage Tag = C.GST_TAG_HOMEPAGE TagImage Tag = C.GST_TAG_IMAGE TagImageOrientation Tag = C.GST_TAG_IMAGE_ORIENTATION TagInterpretedBy Tag = C.GST_TAG_INTERPRETED_BY TagISRC Tag = C.GST_TAG_ISRC TagKeywords Tag = C.GST_TAG_KEYWORDS TagLanguageCode Tag = C.GST_TAG_LANGUAGE_CODE TagLanguageName Tag = C.GST_TAG_LANGUAGE_NAME TagLicense Tag = C.GST_TAG_LICENSE TagLicenseURI Tag = C.GST_TAG_LICENSE_URI TagLocation Tag = C.GST_TAG_LOCATION TagLyrics Tag = C.GST_TAG_LYRICS TagMaximumBitrate Tag = C.GST_TAG_MAXIMUM_BITRATE TagMIDIBaseNote Tag = C.GST_TAG_MIDI_BASE_NOTE TagMinimumBitrate Tag = C.GST_TAG_MINIMUM_BITRATE TagNominalBitrate Tag = C.GST_TAG_NOMINAL_BITRATE TagOrganization Tag = C.GST_TAG_ORGANIZATION TagPerformer Tag = C.GST_TAG_PERFORMER TagPreviewImage Tag = C.GST_TAG_PREVIEW_IMAGE TagPrivateData Tag = C.GST_TAG_PRIVATE_DATA TagPublisher Tag = C.GST_TAG_PUBLISHER TagReferenceLevel Tag = C.GST_TAG_REFERENCE_LEVEL TagSerial Tag = C.GST_TAG_SERIAL TagShowEpisodeNumber Tag = C.GST_TAG_SHOW_EPISODE_NUMBER TagShowName Tag = C.GST_TAG_SHOW_NAME TagShowSeasonNumber Tag = C.GST_TAG_SHOW_SEASON_NUMBER TagShowSortName Tag = C.GST_TAG_SHOW_SORTNAME TagSubtitleCodec Tag = C.GST_TAG_SUBTITLE_CODEC TagTitle Tag = C.GST_TAG_TITLE TagTitleSortName Tag = C.GST_TAG_TITLE_SORTNAME TagTrackCount Tag = C.GST_TAG_TRACK_COUNT TagTrackGain Tag = C.GST_TAG_TRACK_GAIN TagTrackNumber Tag = C.GST_TAG_TRACK_NUMBER TagTrackPeak Tag = C.GST_TAG_TRACK_PEAK TagUserRating Tag = C.GST_TAG_USER_RATING TagVersion Tag = C.GST_TAG_VERSION TagVideoCodec Tag = C.GST_TAG_VIDEO_CODEC ) // TypeFindProbability represents a probability for type find functions. Higher values // reflect higher certainty. type TypeFindProbability int // Type castings const ( TypeFindNone TypeFindProbability = C.GST_TYPE_FIND_NONE // (0) – type undetected. TypeFindMinimum TypeFindProbability = C.GST_TYPE_FIND_MINIMUM // (1) – unlikely typefind. TypeFindPossible TypeFindProbability = C.GST_TYPE_FIND_POSSIBLE // (50) – possible type detected. TypeFindLikely TypeFindProbability = C.GST_TYPE_FIND_LIKELY // (80) – likely a type was detected. TypeFindNearlyCertain TypeFindProbability = C.GST_TYPE_FIND_NEARLY_CERTAIN // (99) – nearly certain that a type was detected. TypeFindMaximum TypeFindProbability = C.GST_TYPE_FIND_MAXIMUM // (100) – very certain a type was detected. )