haiku/headers/os/media/MediaRoster.h
Axel Dörfler f6e4cbb952 * Rewrote BeBuild.h which had "a few" consequences (got rid of all those class
definitions).
* Minor cleanup here and there.


git-svn-id: file:///srv/svn/repos/haiku/haiku/trunk@22577 a95241bf-73f2-0310-859d-f6bbb57e9c96
2007-10-15 20:13:55 +00:00

437 lines
12 KiB
C++

/*******************************************************************************
/
/ File: MediaRoster.h
/
/ Description: The BMediaRoster is the main application interface to the Media Kit
/
/ Copyright 1997-98, Be Incorporated, All Rights Reserved
/
*******************************************************************************/
#if !defined(_MEDIA_ROSTER_H)
#define _MEDIA_ROSTER_H
#include <MediaDefs.h>
#include <MediaNode.h>
#include <config_manager.h>
class BBufferGroup;
class BMediaAddOn;
class BMimeType;
class BParameterWeb;
class BString;
struct dormant_flavor_info;
struct entry_ref;
namespace BPrivate { namespace media {
class DefaultDeleter;
class BMediaRosterEx;
} } // BPrivate::media
class BMediaRoster : public BLooper
{
public:
status_t GetVideoInput(
media_node * out_node);
status_t GetAudioInput(
media_node * out_node);
status_t GetVideoOutput(
media_node * out_node);
status_t GetAudioMixer(
media_node * out_node);
status_t GetAudioOutput(
media_node * out_node); /* Use the mixer rather than the output for most needs! */
status_t GetAudioOutput(
media_node * out_node,
int32 * out_input_id,
BString * out_input_name);
status_t GetTimeSource(
media_node * out_node);
status_t SetVideoInput(
const media_node & producer);
status_t SetVideoInput(
const dormant_node_info & producer);
status_t SetAudioInput(
const media_node & producer);
status_t SetAudioInput(
const dormant_node_info & producer);
status_t SetVideoOutput(
const media_node & consumer);
status_t SetVideoOutput(
const dormant_node_info & consumer);
status_t SetAudioOutput(
const media_node & consumer);
status_t SetAudioOutput(
const media_input & input_to_output);
status_t SetAudioOutput(
const dormant_node_info & consumer);
/* Get a media_node from a node ID -- this is how you reference your own nodes! */
status_t GetNodeFor(
media_node_id node,
media_node * clone);
status_t GetSystemTimeSource( /* typically, you want to use GetTimeSource() */
media_node * clone);
status_t ReleaseNode( /* might shut down Node if you're last */
const media_node & node);
BTimeSource * MakeTimeSourceFor( /* Release() the object when done */
const media_node & for_node);
/* note that the media_source and media_destination found in */
/* out_output and out_input are the ones actually used; from and to */
/* are only "hints" that the app should not use once a real connection */
/* has been established */
status_t Connect(
const media_source & from,
const media_destination & to,
media_format * io_format,
media_output * out_output,
media_input * out_input);
enum connect_flags {
B_CONNECT_MUTED = 0x1
};
status_t Connect(
const media_source & from,
const media_destination & to,
media_format * io_format,
media_output * out_output,
media_input * out_input,
uint32 in_flags,
void * _reserved = 0);
status_t Disconnect(
media_node_id source_node,
const media_source & source,
media_node_id destination_node,
const media_destination & destination);
status_t Disconnect( /* Haiku extension, not in R5 */
const media_output &output,
const media_input &input);
status_t StartNode(
const media_node & node,
bigtime_t at_performance_time);
status_t StopNode(
const media_node & node,
bigtime_t at_performance_time,
bool immediate = false); /* immediate -> at_time is insignificant */
status_t SeekNode(
const media_node & node,
bigtime_t to_media_time,
bigtime_t at_performance_time = 0 /* if running */ );
status_t StartTimeSource(
const media_node & node,
bigtime_t at_real_time);
status_t StopTimeSource(
const media_node & node,
bigtime_t at_real_time,
bool immediate = false);
status_t SeekTimeSource(
const media_node & node,
bigtime_t to_performance_time,
bigtime_t at_real_time);
status_t SyncToNode(
const media_node & node,
bigtime_t at_time,
bigtime_t timeout = B_INFINITE_TIMEOUT);
status_t SetRunModeNode(
const media_node & node,
BMediaNode::run_mode mode);
status_t PrerollNode( /* synchronous */
const media_node & node);
status_t RollNode(
const media_node & node,
bigtime_t startPerformance,
bigtime_t stopPerformance,
bigtime_t atMediaTime = -B_INFINITE_TIMEOUT);
status_t SetProducerRunModeDelay( /* should only be used with B_RECORDING */
const media_node & node,
bigtime_t delay,
BMediaNode::run_mode mode = BMediaNode::B_RECORDING);
status_t SetProducerRate( /* not necessarily supported by node */
const media_node & producer,
int32 numer,
int32 denom);
/* Nodes will have available inputs/outputs as long as they are capable */
/* of accepting more connections. The node may create an additional */
/* output or input as the currently available is taken into usage. */
status_t GetLiveNodeInfo(
const media_node & node,
live_node_info * out_live_info);
status_t GetLiveNodes(
live_node_info * out_live_nodes,
int32 * io_total_count,
const media_format * has_input = NULL,
const media_format * has_output = NULL,
const char * name = NULL,
uint64 node_kinds = 0); /* B_BUFFER_PRODUCER etc */
status_t GetFreeInputsFor(
const media_node & node,
media_input * out_free_inputs,
int32 buf_num_inputs,
int32 * out_total_count,
media_type filter_type = B_MEDIA_UNKNOWN_TYPE);
status_t GetConnectedInputsFor(
const media_node & node,
media_input * out_active_inputs,
int32 buf_num_inputs,
int32 * out_total_count);
status_t GetAllInputsFor(
const media_node & node,
media_input * out_inputs,
int32 buf_num_inputs,
int32 * out_total_count);
status_t GetFreeOutputsFor(
const media_node & node,
media_output * out_free_outputs,
int32 buf_num_outputs,
int32 * out_total_count,
media_type filter_type = B_MEDIA_UNKNOWN_TYPE);
status_t GetConnectedOutputsFor(
const media_node & node,
media_output * out_active_outputs,
int32 buf_num_outputs,
int32 * out_total_count);
status_t GetAllOutputsFor(
const media_node & node,
media_output * out_outputs,
int32 buf_num_outputs,
int32 * out_total_count);
status_t StartWatching(
const BMessenger & where);
status_t StartWatching(
const BMessenger & where,
int32 notificationType);
status_t StartWatching(
const BMessenger & where,
const media_node & node,
int32 notificationType);
status_t StopWatching(
const BMessenger & where);
status_t StopWatching(
const BMessenger & where,
int32 notificationType);
status_t StopWatching(
const BMessenger & where,
const media_node & node,
int32 notificationType);
status_t RegisterNode(
BMediaNode * node);
status_t UnregisterNode(
BMediaNode * node);
static BMediaRoster * Roster( // will create if there isn't one
status_t * out_error = NULL); // thread safe for multiple calls to Roster()
static BMediaRoster * CurrentRoster(); // won't create it if there isn't one
// not thread safe if you call Roster() at the same time
status_t SetTimeSourceFor(
media_node_id node,
media_node_id time_source);
status_t GetParameterWebFor(
const media_node & node,
BParameterWeb ** out_web);
status_t StartControlPanel(
const media_node & node,
BMessenger * out_messenger = NULL);
status_t GetDormantNodes(
dormant_node_info * out_info,
int32 * io_count,
const media_format * has_input = NULL,
const media_format * has_output = NULL,
const char * name = NULL,
uint64 require_kinds = 0,
uint64 deny_kinds = 0);
status_t InstantiateDormantNode(
const dormant_node_info & in_info,
media_node * out_node,
uint32 flags /* currently B_FLAVOR_IS_GLOBAL or B_FLAVOR_IS_LOCAL */ );
status_t InstantiateDormantNode(
const dormant_node_info & in_info,
media_node * out_node);
status_t GetDormantNodeFor(
const media_node & node,
dormant_node_info * out_info);
status_t GetDormantFlavorInfoFor(
const dormant_node_info & in_dormant,
dormant_flavor_info * out_flavor);
status_t GetLatencyFor(
const media_node & producer,
bigtime_t * out_latency);
status_t GetInitialLatencyFor(
const media_node & producer,
bigtime_t * out_latency,
uint32 * out_flags = 0);
status_t GetStartLatencyFor(
const media_node & time_source,
bigtime_t * out_latency);
status_t GetFileFormatsFor(
const media_node & file_interface,
media_file_format * out_formats,
int32 * io_num_infos);
status_t SetRefFor(
const media_node & file_interface,
const entry_ref & file,
bool create_and_truncate,
bigtime_t * out_length); /* if create is false */
status_t GetRefFor(
const media_node & node,
entry_ref * out_file,
BMimeType * mime_type = NULL);
status_t SniffRefFor(
const media_node & file_interface,
const entry_ref & file,
BMimeType * mime_type,
float * out_capability);
/* This is the generic "here's a file, now can someone please play it" interface */
status_t SniffRef(
const entry_ref & file,
uint64 require_node_kinds, /* if you need an EntityInterface or BufferConsumer or something */
dormant_node_info * out_node,
BMimeType * mime_type = NULL);
status_t GetDormantNodeForType(
const BMimeType & type,
uint64 require_node_kinds,
dormant_node_info * out_node);
status_t GetReadFileFormatsFor(
const dormant_node_info & in_node,
media_file_format * out_read_formats,
int32 in_read_count,
int32 * out_read_count);
status_t GetWriteFileFormatsFor(
const dormant_node_info & in_node,
media_file_format * out_write_formats,
int32 in_write_count,
int32 * out_write_count);
status_t GetFormatFor(
const media_output & output,
media_format * io_format,
uint32 flags = 0);
status_t GetFormatFor(
const media_input & input,
media_format * io_format,
uint32 flags = 0);
status_t GetFormatFor(
const media_node & node,
media_format * io_format,
float quality = B_MEDIA_ANY_QUALITY);
ssize_t GetNodeAttributesFor(
const media_node & node,
media_node_attribute * outArray,
size_t inMaxCount);
media_node_id NodeIDFor(
port_id source_or_destination_port);
status_t GetInstancesFor(
media_addon_id addon,
int32 flavor,
media_node_id * out_id,
int32 * io_count = 0); // default to 1
status_t SetRealtimeFlags(
uint32 in_enabled);
status_t GetRealtimeFlags(
uint32 * out_enabled);
ssize_t AudioBufferSizeFor(
int32 channel_count,
uint32 sample_format,
float frame_rate,
bus_type bus_kind = B_UNKNOWN_BUS);
/* Use MediaFlags to inquire about specific features of the Media Kit. */
/* Returns < 0 for "not present", positive size for output data size. */
/* 0 means that the capability is present, but no data about it. */
static ssize_t MediaFlags(
media_flags cap,
void * buf,
size_t maxSize);
/* BLooper overrides */
virtual void MessageReceived(
BMessage * message);
virtual bool QuitRequested();
virtual BHandler * ResolveSpecifier(
BMessage *msg,
int32 index,
BMessage *specifier,
int32 form,
const char *property);
virtual status_t GetSupportedSuites(
BMessage *data);
~BMediaRoster();
private:
// deprecated call
status_t SetOutputBuffersFor(
const media_source & output,
BBufferGroup * group,
bool will_reclaim = false);
/* FBC stuffing (Mmmh, Stuffing!) */
virtual status_t _Reserved_MediaRoster_0(void *);
virtual status_t _Reserved_MediaRoster_1(void *);
virtual status_t _Reserved_MediaRoster_2(void *);
virtual status_t _Reserved_MediaRoster_3(void *);
virtual status_t _Reserved_MediaRoster_4(void *);
virtual status_t _Reserved_MediaRoster_5(void *);
virtual status_t _Reserved_MediaRoster_6(void *);
virtual status_t _Reserved_MediaRoster_7(void *);
friend class BPrivate::media::DefaultDeleter;
friend class BPrivate::media::BMediaRosterEx;
static bool _isMediaServer;
BMediaRoster();
static port_id _mReplyPort;
static int32 _mReplyPortRes;
static int32 _mReplyPortUnavailCount;
uint32 _reserved_media_roster_[67];
static BMediaRoster * _sDefault;
static status_t ParseCommand(
BMessage & reply);
status_t GetDefaultInfo(
media_node_id for_default,
BMessage & out_config);
status_t SetRunningDefault(
media_node_id for_default,
const media_node & node);
static port_id checkout_reply_port(
const char * name = NULL);
static void checkin_reply_port(
port_id port);
};
#endif /* _MEDIA_ROSTER_H */