haiku/headers/os/media/BufferProducer.h

230 lines
8.0 KiB
C
Raw Normal View History

/*
* Copyright 2009, Haiku, Inc. All rights reserved.
* Distributed under the terms of the MIT License.
*/
#ifndef _BUFFER_PRODUCER_H
#define _BUFFER_PRODUCER_H
#include <MediaNode.h>
class BBuffer;
class BBufferGroup;
class BRegion;
namespace BPrivate {
namespace media {
class BMediaRosterEx;
}
}
class BBufferProducer : public virtual BMediaNode {
protected:
// NOTE: This has to be at the top to force a vtable.
virtual ~BBufferProducer();
public:
// Supported formats for low-level clipping data
enum {
B_CLIP_SHORT_RUNS = 1
};
// Handy conversion function for dealing with clip information.
static status_t ClipDataToRegion(int32 format, int32 size,
const void* data, BRegion* region);
media_type ProducerType();
protected:
explicit BBufferProducer(media_type producer_type
/* = B_MEDIA_UNKNOWN_TYPE */);
enum suggestion_quality {
B_ANY_QUALITY = 0,
B_LOW_QUALITY = 10,
B_MEDIUM_QUALITY = 50,
B_HIGH_QUALITY = 100
};
// BBufferProducer interface
virtual status_t FormatSuggestionRequested(media_type type,
int32 quality, media_format* format) = 0;
virtual status_t FormatProposal(const media_source& output,
media_format* ioFormat) = 0;
// If the format isn't good, put a good format into ioFormat and
// return error.
// If format has wildcard, specialize to what you can do (and change).
// If you can change the format, return OK.
// The request comes from your destination sychronously, so you cannot ask
// it whether it likes it -- you should assume it will since it asked.
virtual status_t FormatChangeRequested(
const media_source& source,
const media_destination& destination,
media_format* ioFormat,
int32* _deprecated_) = 0;
virtual status_t GetNextOutput(
int32* ioCookie,
media_output* _output) = 0;
virtual status_t DisposeOutputCookie(int32 cookie) = 0;
// In this function, you should either pass on the group to your upstream
// guy, or delete your current group and hang on to this group. Deleting
// the previous group (unless you passed it on with the reclaim flag set
// to false) is very important, else you will 1) leak memory and 2) block
// someone who may want to reclaim the buffers living in that group.
virtual status_t SetBufferGroup(const media_source& forSource,
BBufferGroup* group) = 0;
// Format of clipping is (as int16-s): <from line> <npairs> <startclip>
// <endclip>. Repeat for each line where the clipping is different from
// the previous line. If <npairs> is negative, use the data from line
// -<npairs> (there are 0 pairs after a negative <npairs>. Yes, we only
// support 32k*32k frame buffers for clipping. Any non-0 field of
// 'display' means that that field changed, and if you don't support that
// change, you should return an error and ignore the request. Note that
// the buffer offset values do not have wildcards; 0 (or -1, or whatever)
// are real values and must be adhered to.
virtual status_t VideoClippingChanged(
const media_source& forSource,
int16 numShorts,
int16* clipData,
const media_video_display_info& display,
int32 * _deprecated_);
// Iterates over all outputs and maxes the latency found
virtual status_t GetLatency(bigtime_t* _lantency);
virtual status_t PrepareToConnect(const media_source& what,
const media_destination& where,
media_format* format,
media_source* _source,
char* _name) = 0;
virtual void Connect(status_t error,
const media_source& source,
const media_destination& destination,
const media_format& format,
char* ioName) = 0;
virtual void Disconnect(const media_source& what,
const media_destination& where) = 0;
virtual void LateNoticeReceived(const media_source& what,
bigtime_t howMuch,
bigtime_t performanceTime) = 0;
virtual void EnableOutput(const media_source& what,
bool enabled, int32* _deprecated_) = 0;
virtual status_t SetPlayRate(int32 numer, int32 denom);
// NOTE: Call this from the thread that listens to the port!
virtual status_t HandleMessage(int32 message, const void* data,
size_t size);
virtual void AdditionalBufferRequested(
const media_source& source,
media_buffer_id previousBuffer,
bigtime_t previousTime,
const media_seek_tag* previousTag
/* = NULL */);
virtual void LatencyChanged(const media_source& source,
const media_destination& destination,
bigtime_t newLatency, uint32 flags);
// NOTE: Use this function to pass on the buffer on to the BBufferConsumer.
status_t SendBuffer(BBuffer* buffer,
const media_destination& destination);
status_t SendDataStatus(int32 status,
const media_destination& destination,
bigtime_t atTime);
// Check in advance if a target is prepared to accept a format. You may
// want to call this from Connect(), although that's not required.
status_t ProposeFormatChange(media_format* format,
const media_destination& forDestination);
// Tell consumer to accept a proposed format change
// NOTE: You must not call SendBuffer while this call is pending!
status_t ChangeFormat(const media_source& forSource,
const media_destination& forDestination,
media_format* format);
// Check how much latency the down-stream graph introduces.
status_t FindLatencyFor(
const media_destination& forDestination,
bigtime_t* _latency,
media_node_id* _timesource);
// Find the tag of a previously seen buffer to expedite seeking
status_t FindSeekTag(
const media_destination& forDestination,
bigtime_t inTargetTime,
media_seek_tag* _tag,
bigtime_t* _taggedTime, uint32* _flags = 0,
uint32 flags = 0);
// Set the initial latency, which is the maximum additional latency
// that will be imposed while starting/syncing to a signal (such as
// starting a TV capture card in the middle of a field). Most nodes
// have this at 0 (the default); only TV input Nodes need it currently
// because they slave to a low-resolution (59.94 Hz) clock that arrives
// from the outside world. Call this from the constructor if you need it.
void SetInitialLatency(bigtime_t inInitialLatency,
uint32 flags = 0);
// TODO: Needs a Perform() virtual method!
private:
// FBC padding and forbidden methods
BBufferProducer();
BBufferProducer(const BBufferProducer& other);
BBufferProducer& operator=(const BBufferProducer& other);
status_t _Reserved_BufferProducer_0(void*);
// was AdditionalBufferRequested()
status_t _Reserved_BufferProducer_1(void*);
// was LatencyChanged()
virtual status_t _Reserved_BufferProducer_2(void*);
virtual status_t _Reserved_BufferProducer_3(void*);
virtual status_t _Reserved_BufferProducer_4(void*);
virtual status_t _Reserved_BufferProducer_5(void*);
virtual status_t _Reserved_BufferProducer_6(void*);
virtual status_t _Reserved_BufferProducer_7(void*);
virtual status_t _Reserved_BufferProducer_8(void*);
virtual status_t _Reserved_BufferProducer_9(void*);
virtual status_t _Reserved_BufferProducer_10(void*);
virtual status_t _Reserved_BufferProducer_11(void*);
virtual status_t _Reserved_BufferProducer_12(void*);
virtual status_t _Reserved_BufferProducer_13(void*);
virtual status_t _Reserved_BufferProducer_14(void*);
virtual status_t _Reserved_BufferProducer_15(void*);
private:
friend class BBufferConsumer;
friend class BMediaNode;
friend class BMediaRoster;
friend class BPrivate::media::BMediaRosterEx;
static status_t clip_shorts_to_region(const int16* data,
int count, BRegion* output);
static status_t clip_region_to_shorts(const BRegion* input,
int16* data, int maxCount, int* _count);
private:
media_type fProducerType;
bigtime_t fInitialLatency;
uint32 fInitialFlags;
bigtime_t fDelay;
uint32 _reserved_buffer_producer_[12];
};
#endif // _BUFFER_PRODUCER_H