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// -*- c-indentation-style:"stroustrup" c-basic-offset: 4 -*-
/*
Rosegarden
A sequencer and musical notation editor.
This program is Copyright 2000-2008
Guillaume Laurent <[email protected]>,
Chris Cannam <[email protected]>,
Richard Bown <[email protected]>
The moral right of the authors to claim authorship of this work
has been asserted.
This program is free software; you can redistribute it and/or
modify it under the terms of the GNU General Public License as
published by the Free Software Foundation; either version 2 of the
License, or (at your option) any later version. See the file
COPYING included with this distribution for more information.
*/
#include <tqdatastream.h>
#include "Composition.h" // for RealTime
#include "Event.h"
#ifndef _MAPPEDEVENT_H_
#define _MAPPEDEVENT_H_
// Used as a transformation stage between Composition, Events and output
// at the Sequencer this class and MidiComposition eliminate the notion
// of the Segment and Track for ease of Event access. The MappedEvents
// are ready for playing or routing through an Instrument or Effects
// boxes.
//
// MappedEvents can also represent instructions for playback of audio
// samples - if the m_type is Audio then the sequencer will attempt to
// map the Pitch (m_data1) to the audio id. Note that this limits us
// to 256 audio files in the Composition unless we use a different
// parameter for storing these IDs.
//
// The MappedEvent/Instrument relationship is interesting - we don't
// want to duplicate the entire Instrument at the Sequencer level as
// it'd be messy and unnecessary. Instead we use a MappedInstrument
// which is just a very cut down Sequencer-side version of an Instrument.
//
// Some of these Events are unidirectional, some are bidirectional -
// that is they only have a meaning in one direction (they are still
// legal at either end). They are broadcast in both directions using
// the "getSequencerSlice" and "processAsync/Recorded" interfaces on
// which the control messages can piggyback and eventually stripped out.
//
namespace Rosegarden
{
class MappedEvent;
class DataBlockRepository
{
public:
friend class MappedEvent;
typedef unsigned long blockid;
static DataBlockRepository* getInstance();
static std::string getDataBlockForEvent(MappedEvent*);
static void setDataBlockForEvent(MappedEvent*, const std::string&);
/**
* Clear all block files
*/
static void clear();
bool hasDataBlock(blockid);
protected:
DataBlockRepository();
std::string getDataBlock(blockid);
void addDataByteForEvent(MidiByte byte, MappedEvent*);
void addDataStringForEvent(const std::string&, MappedEvent*);
blockid registerDataBlock(const std::string&);
void unregisterDataBlock(blockid);
void registerDataBlockForEvent(const std::string&, MappedEvent*);
void unregisterDataBlockForEvent(MappedEvent*);
//--------------- Data members ---------------------------------
static DataBlockRepository* m_instance;
};
class MappedEvent
{
public:
typedef enum
{
// INVALID
//
InvalidMappedEvent = 0,
// Keep the MidiNotes bit flaggable so that filtering works
//
MidiNote = 1 << 0,
MidiNoteOneShot = 1 << 1, // doesn't need NOTE OFFs
MidiProgramChange = 1 << 2,
MidiKeyPressure = 1 << 3,
MidiChannelPressure = 1 << 4,
MidiPitchBend = 1 << 5,
MidiController = 1 << 6,
MidiSystemMessage = 1 << 7,
// Sent from the gui to play an audio file
Audio = 1 << 8,
// Sent from gui to cancel playing an audio file
AudioCancel = 1 << 9,
// Sent to the gui with audio level on Instrument
AudioLevel = 1 << 10,
// Sent to the gui to inform an audio file stopped
AudioStopped = 1 << 11,
// The gui is clear to generate a preview for a new audio file
AudioGeneratePreview = 1 << 12,
// Update Instruments - new ALSA client detected
SystemUpdateInstruments = 1 << 13,
// Set RG as JACK master/slave
SystemJackTransport = 1 << 14,
// Set RG as MMC master/slave
SystemMMCTransport = 1 << 15,
// Set System Messages and MIDI Clock
SystemMIDIClock = 1 << 16,
// Set Record device
SystemRecordDevice = 1 << 17,
// Set Metronome device
SystemMetronomeDevice = 1 << 18,
// Set Audio inputs/outputs: data1 num inputs, data2 num submasters
SystemAudioPortCounts = 1 << 19,
// Set whether we create various Audio ports (data1 is an AudioOutMask)
SystemAudioPorts = 1 << 20,
// Some failure has occurred: data1 contains FailureCode
SystemFailure = 1 << 21,
// Time sig. event (from time sig. composition reference segment)
TimeSignature = 1 << 22,
// Tempo event (from tempo composition reference segment)
Tempo = 1 << 23,
// Panic function
Panic = 1 << 24,
// Set RG as MTC master/slave
SystemMTCTransport = 1 << 25,
// Auto-connect sync outputs
SystemMIDISyncAuto = 1 << 26,
// File format used for audio recording (data1 is 0=PCM,1=float)
SystemAudioFileFormat = 1 << 27
} MappedEventType;
typedef enum
{
// These values are OR'd to produce the data2 field in a
// SystemAudioPorts event.
FaderOuts = 1 << 0,
SubmasterOuts = 1 << 1
} MappedEventAudioOutMask;
typedef enum
{
// JACK is having some xruns - warn the user maybe
FailureXRuns = 0,
// JACK has died or kicked us out
FailureJackDied = 1,
// Audio subsystem failed to read from disc fast enough
FailureDiscUnderrun = 2,
// Audio subsystem failed to write to disc fast enough
FailureDiscOverrun = 3,
// Audio subsystem failed to mix busses fast enough
FailureBussMixUnderrun = 4,
// Audio subsystem failed to mix instruments fast enough
FailureMixUnderrun = 5,
// Using a timer that has too low a resolution (e.g. 100Hz system timer)
WarningImpreciseTimer = 6,
// Too much CPU time spent in audio processing -- risk of xruns and lockup
FailureCPUOverload = 7,
// JACK kicked us out, but we've reconnected
FailureJackRestart = 8,
// JACK kicked us out, and now the reconnection has failed
FailureJackRestartFailed = 9,
// A necessary ALSA call has returned an error code
FailureALSACallFailed = 10,
// Using a timer that has too low a resolution, but RTC might work
WarningImpreciseTimerTryRTC = 11,
} FailureCode;
MappedEvent(): m_trackId(0),
m_instrument(0),
m_type(MidiNote),
m_data1(0),
m_data2(0),
m_eventTime(0, 0),
m_duration(0, 0),
m_audioStartMarker(0, 0),
m_dataBlockId(0),
m_isPersistent(false),
m_runtimeSegmentId(-1),
m_autoFade(false),
m_fadeInTime(RealTime::zeroTime),
m_fadeOutTime(RealTime::zeroTime),
m_recordedChannel(0),
m_recordedDevice(0) {}
// Construct from Events to Internal (MIDI) type MappedEvent
//
MappedEvent(const Event &e);
// Another Internal constructor from Events
MappedEvent(InstrumentId id,
const Event &e,
const RealTime &eventTime,
const RealTime &duration);
// A general MappedEvent constructor for any MappedEvent type
//
MappedEvent(InstrumentId id,
MappedEventType type,
MidiByte pitch,
MidiByte velocity,
const RealTime &absTime,
const RealTime &duration,
const RealTime &audioStartMarker):
m_trackId(0),
m_instrument(id),
m_type(type),
m_data1(pitch),
m_data2(velocity),
m_eventTime(absTime),
m_duration(duration),
m_audioStartMarker(audioStartMarker),
m_dataBlockId(0),
m_isPersistent(false),
m_runtimeSegmentId(-1),
m_autoFade(false),
m_fadeInTime(RealTime::zeroTime),
m_fadeOutTime(RealTime::zeroTime),
m_recordedChannel(0),
m_recordedDevice(0) {}
// Audio MappedEvent shortcut constructor
//
MappedEvent(InstrumentId id,
unsigned short audioID,
const RealTime &eventTime,
const RealTime &duration,
const RealTime &audioStartMarker):
m_trackId(0),
m_instrument(id),
m_type(Audio),
m_data1(audioID % 256),
m_data2(audioID / 256),
m_eventTime(eventTime),
m_duration(duration),
m_audioStartMarker(audioStartMarker),
m_dataBlockId(0),
m_isPersistent(false),
m_runtimeSegmentId(-1),
m_autoFade(false),
m_fadeInTime(RealTime::zeroTime),
m_fadeOutTime(RealTime::zeroTime),
m_recordedChannel(0),
m_recordedDevice(0) {}
// More generalised MIDI event containers for
// large and small events (one param, two param)
//
MappedEvent(InstrumentId id,
MappedEventType type,
MidiByte data1,
MidiByte data2):
m_trackId(0),
m_instrument(id),
m_type(type),
m_data1(data1),
m_data2(data2),
m_eventTime(RealTime(0, 0)),
m_duration(RealTime(0, 0)),
m_audioStartMarker(RealTime(0, 0)),
m_dataBlockId(0),
m_isPersistent(false),
m_runtimeSegmentId(-1),
m_autoFade(false),
m_fadeInTime(RealTime::zeroTime),
m_fadeOutTime(RealTime::zeroTime),
m_recordedChannel(0),
m_recordedDevice(0) {}
MappedEvent(InstrumentId id,
MappedEventType type,
MidiByte data1):
m_trackId(0),
m_instrument(id),
m_type(type),
m_data1(data1),
m_data2(0),
m_eventTime(RealTime(0, 0)),
m_duration(RealTime(0, 0)),
m_audioStartMarker(RealTime(0, 0)),
m_dataBlockId(0),
m_isPersistent(false),
m_runtimeSegmentId(-1),
m_autoFade(false),
m_fadeInTime(RealTime::zeroTime),
m_fadeOutTime(RealTime::zeroTime),
m_recordedChannel(0),
m_recordedDevice(0) {}
// Construct SysExs say
//
MappedEvent(InstrumentId id,
MappedEventType type):
m_trackId(0),
m_instrument(id),
m_type(type),
m_data1(0),
m_data2(0),
m_eventTime(RealTime(0, 0)),
m_duration(RealTime(0, 0)),
m_audioStartMarker(RealTime(0, 0)),
m_dataBlockId(0),
m_isPersistent(false),
m_runtimeSegmentId(-1),
m_autoFade(false),
m_fadeInTime(RealTime::zeroTime),
m_fadeOutTime(RealTime::zeroTime),
m_recordedChannel(0),
m_recordedDevice(0) {}
// Copy constructor
//
// Fix for 674731 by Pedro Lopez-Cabanillas (20030531)
MappedEvent(const MappedEvent &mE):
m_trackId(mE.getTrackId()),
m_instrument(mE.getInstrument()),
m_type(mE.getType()),
m_data1(mE.getData1()),
m_data2(mE.getData2()),
m_eventTime(mE.getEventTime()),
m_duration(mE.getDuration()),
m_audioStartMarker(mE.getAudioStartMarker()),
m_dataBlockId(mE.getDataBlockId()),
m_isPersistent(false),
m_runtimeSegmentId(mE.getRuntimeSegmentId()),
m_autoFade(mE.isAutoFading()),
m_fadeInTime(mE.getFadeInTime()),
m_fadeOutTime(mE.getFadeOutTime()),
m_recordedChannel(mE.getRecordedChannel()),
m_recordedDevice(mE.getRecordedDevice()) {}
// Copy from pointer
// Fix for 674731 by Pedro Lopez-Cabanillas (20030531)
MappedEvent(MappedEvent *mE):
m_trackId(mE->getTrackId()),
m_instrument(mE->getInstrument()),
m_type(mE->getType()),
m_data1(mE->getData1()),
m_data2(mE->getData2()),
m_eventTime(mE->getEventTime()),
m_duration(mE->getDuration()),
m_audioStartMarker(mE->getAudioStartMarker()),
m_dataBlockId(mE->getDataBlockId()),
m_isPersistent(false),
m_runtimeSegmentId(mE->getRuntimeSegmentId()),
m_autoFade(mE->isAutoFading()),
m_fadeInTime(mE->getFadeInTime()),
m_fadeOutTime(mE->getFadeOutTime()),
m_recordedChannel(mE->getRecordedChannel()),
m_recordedDevice(mE->getRecordedDevice()) {}
// Construct perhaps without initialising, for placement new or equivalent
MappedEvent(bool initialise) {
if (initialise) *this = MappedEvent();
}
// Event time
//
void setEventTime(const RealTime &a) { m_eventTime = a; }
RealTime getEventTime() const { return m_eventTime; }
// Duration
//
void setDuration(const RealTime &d) { m_duration = d; }
RealTime getDuration() const { return m_duration; }
// Instrument
void setInstrument(InstrumentId id) { m_instrument = id; }
InstrumentId getInstrument() const { return m_instrument; }
// Track
void setTrackId(TrackId id) { m_trackId = id; }
TrackId getTrackId() const { return m_trackId; }
MidiByte getPitch() const { return m_data1; }
// Keep pitch within MIDI limits
//
void setPitch(MidiByte p)
{
m_data1 = p;
if (m_data1 > MidiMaxValue) m_data1 = MidiMaxValue;
}
void setVelocity(MidiByte v) { m_data2 = v; }
MidiByte getVelocity() const { return m_data2; }
// And the trendy names for them
//
MidiByte getData1() const { return m_data1; }
MidiByte getData2() const { return m_data2; }
void setData1(MidiByte d1) { m_data1 = d1; }
void setData2(MidiByte d2) { m_data2 = d2; }
void setAudioID(unsigned short id) { m_data1 = id % 256; m_data2 = id / 256; }
int getAudioID() const { return m_data1 + 256 * m_data2; }
// A sample doesn't have to be played from the beginning. When
// passing an Audio event this value may be set to indicate from
// where in the sample it should be played. Duration is measured
// against total sounding length (not absolute position).
//
void setAudioStartMarker(const RealTime &aS)
{ m_audioStartMarker = aS; }
RealTime getAudioStartMarker() const
{ return m_audioStartMarker; }
MappedEventType getType() const { return m_type; }
void setType(const MappedEventType &value) { m_type = value; }
// Data block id
//
DataBlockRepository::blockid getDataBlockId() const { return m_dataBlockId; }
void setDataBlockId(DataBlockRepository::blockid dataBlockId) { m_dataBlockId = dataBlockId; }
// How MappedEvents are ordered in the MappedComposition
//
struct MappedEventCmp
{
bool operator()(const MappedEvent *mE1, const MappedEvent *mE2) const
{
return *mE1 < *mE2;
}
};
friend bool operator<(const MappedEvent &a, const MappedEvent &b);
MappedEvent& operator=(const MappedEvent &mE);
friend TQDataStream& operator>>(TQDataStream &dS, MappedEvent *mE);
friend TQDataStream& operator<<(TQDataStream &dS, MappedEvent *mE);
friend TQDataStream& operator>>(TQDataStream &dS, MappedEvent &mE);
friend TQDataStream& operator<<(TQDataStream &dS, const MappedEvent &mE);
/// Add a single byte to the event's datablock (for SysExs)
void addDataByte(MidiByte byte);
/// Add several bytes to the event's datablock
void addDataString(const std::string& data);
void setPersistent(bool value) { m_isPersistent = value; }
bool isPersistent() const { return m_isPersistent; }
/// Size of a MappedEvent in a stream
static const size_t streamedSize;
// The runtime segment id of an audio file
//
int getRuntimeSegmentId() const { return m_runtimeSegmentId; }
void setRuntimeSegmentId(int id) { m_runtimeSegmentId = id; }
bool isAutoFading() const { return m_autoFade; }
void setAutoFade(bool value) { m_autoFade = value; }
RealTime getFadeInTime() const { return m_fadeInTime; }
void setFadeInTime(const RealTime &time)
{ m_fadeInTime = time; }
RealTime getFadeOutTime() const { return m_fadeOutTime; }
void setFadeOutTime(const RealTime &time)
{ m_fadeOutTime = time; }
// Original event input channel as it was recorded
//
unsigned int getRecordedChannel() const { return m_recordedChannel; }
void setRecordedChannel(const unsigned int channel)
{ m_recordedChannel = channel; }
// Original event record device as it was recorded
//
unsigned int getRecordedDevice() const { return m_recordedDevice; }
void setRecordedDevice(const unsigned int device) { m_recordedDevice = device; }
private:
TrackId m_trackId;
InstrumentId m_instrument;
MappedEventType m_type;
MidiByte m_data1;
MidiByte m_data2;
RealTime m_eventTime;
RealTime m_duration;
RealTime m_audioStartMarker;
// Use this when we want to store something in addition to the
// other bytes in this type, e.g. System Exclusive.
//
DataBlockRepository::blockid m_dataBlockId;
// Should a MappedComposition try and delete this MappedEvent or
// if it persistent?
//
bool m_isPersistent;
// Id of the segment that this (audio) event is derived from
//
int m_runtimeSegmentId;
// Audio autofading
//
bool m_autoFade;
RealTime m_fadeInTime;
RealTime m_fadeOutTime;
// input event original data,
// stored as it was recorded
//
unsigned int m_recordedChannel;
unsigned int m_recordedDevice;
};
}
#endif
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