svcore  1.9
IntervalModel< PointType > Class Template Reference

Model containing sparse data (points with some properties) of which the properties include a duration and an arbitrary float value. More...

#include <IntervalModel.h>

Inheritance diagram for IntervalModel< PointType >:
Collaboration diagram for IntervalModel< PointType >:

List of all members.

Public Types

typedef PointType Point
typedef std::multiset
< PointType, typename
PointType::OrderComparator > 
PointList
typedef PointList::iterator PointListIterator
typedef PointList::const_iterator PointListConstIterator
enum  { SortRole = Qt::UserRole }
enum  SortType { SortNumeric, SortAlphabetical }

Public Slots

void aboutToDelete ()
void sourceModelAboutToBeDeleted ()

Signals

void modelChanged ()
 Emitted when a model has been edited (or more data retrieved from cache, in the case of a cached model that generates slowly)
void modelChangedWithin (int startFrame, int endFrame)
 Emitted when a model has been edited (or more data retrieved from cache, in the case of a cached model that generates slowly)
void completionChanged ()
 Emitted when some internal processing has advanced a stage, but the model has not changed externally.
void ready ()
 Emitted when internal processing is complete (i.e.
void alignmentCompletionChanged ()
 Emitted when the completion percentage changes for the calculation of this model's alignment model.
void aboutToBeDeleted ()
 Emitted when something notifies this model (through calling aboutToDelete() that it is about to delete it.

Public Member Functions

 IntervalModel (int sampleRate, int resolution, bool notifyOnAdd=true)
 IntervalModel (int sampleRate, int resolution, float valueMinimum, float valueMaximum, bool notifyOnAdd=true)
virtual SparseValueModel
< PointType >::PointList 
getPoints (long start, long end) const
 PointTypes have a duration, so this returns all points that span any of the given range (as well as the usual additional few before and after).
virtual SparseValueModel
< PointType >::PointList 
getPoints (long frame) const
 PointTypes have a duration, so this returns all points that span the given frame.
virtual const SparseModel
< PointType >::PointList
getPoints () const
 Get all points.
virtual QVariant getData (int row, int column, int role) const
 TabularModel methods.
virtual CommandgetSetDataCommand (int row, int column, const QVariant &value, int role)
virtual bool isColumnTimeValue (int column) const
QString getTypeName () const
 Return the type of the model.
virtual float getValueMinimum () const
virtual float getValueMaximum () const
virtual QString getScaleUnits () const
virtual void setScaleUnits (QString units)
virtual void addPoint (const PointType &point)
 Add a point.
virtual void deletePoint (const PointType &point)
 Remove a point.
virtual void toXml (QTextStream &stream, QString indent="", QString extraAttributes="") const
 Stream this exportable object out to XML on a text stream.
virtual bool isOK () const
 Return true if the model was constructed successfully.
virtual int getStartFrame () const
 Return the first audio frame spanned by the model.
virtual int getEndFrame () const
 Return the last audio frame spanned by the model.
virtual int getSampleRate () const
 Return the frame rate in frames per second.
virtual Modelclone () const
 Return a copy of this model.
virtual int getResolution () const
virtual void setResolution (int resolution)
virtual bool isEmpty () const
 Return whether the model is empty or not.
virtual int getPointCount () const
 Get the total number of points in the model.
virtual PointList getPreviousPoints (long frame) const
 Return all points that share the nearest frame number prior to the given one at which there are any points.
virtual PointList getNextPoints (long frame) const
 Return all points that share the nearest frame number subsequent to the given one at which there are any points.
virtual void clear ()
 Remove all points.
virtual bool isReady (int *completion=0) const
 Return true if the model has finished loading or calculating all its data, for a model that is capable of calculating in a background thread.
virtual void setCompletion (int completion, bool update=true)
virtual int getCompletion () const
virtual bool hasTextLabels () const
virtual QString getXmlOutputType () const
virtual QString toDelimitedDataString (QString delimiter) const
virtual QString toDelimitedDataStringSubset (QString delimiter, int f0, int f1) const
virtual int getRowCount () const
 TabularModel methods.
virtual long getFrameForRow (int row) const
virtual int getRowForFrame (long frame) const
virtual int getColumnCount () const
virtual CommandgetInsertRowCommand (int row)
virtual CommandgetRemoveRowCommand (int row)
virtual int getNativeRate () const
 Return the frame rate of the underlying material, if the model itself has already been resampled.
virtual QString getTitle () const
 Return the "work title" of the model, if known.
virtual QString getMaker () const
 Return the "artist" or "maker" of the model, if known.
virtual QString getLocation () const
 Return the location of the data in this model (e.g.
virtual void abandon ()
 Mark the model as abandoning.
virtual bool isAbandoning () const
 Query whether the model has been marked as abandoning.
virtual const ZoomConstraintgetZoomConstraint () const
 If this model imposes a zoom constraint, i.e.
virtual ModelgetSourceModel () const
 If this model was derived from another, return the model it was derived from.
virtual void setSourceModel (Model *model)
 Set the source model for this model.
virtual void setAlignment (AlignmentModel *alignment)
 Specify an aligment between this model's timeline and that of a reference model.
virtual const AlignmentModelgetAlignment () const
 Retrieve the alignment model for this model.
virtual const ModelgetAlignmentReference () const
 Return the reference model for the current alignment timeline, if any.
virtual int alignToReference (int frame) const
 Return the frame number of the reference model that corresponds to the given frame number in this model.
virtual int alignFromReference (int referenceFrame) const
 Return the frame number in this model that corresponds to the given frame number of the reference model.
virtual int getAlignmentCompletion () const
 Return the completion percentage for the alignment model: 100 if there is no alignment model or it has been entirely calculated, or less than 100 if it is still being calculated.
void setRDFTypeURI (QString uri)
 Set the event, feature, or signal type URI for the features contained in this model, according to the Audio Features RDF ontology.
QString getRDFTypeURI () const
 Retrieve the event, feature, or signal type URI for the features contained in this model, if previously set with setRDFTypeURI.
virtual QString toXmlString (QString indent="", QString extraAttributes="") const
 Convert this exportable object to XML in a string.
virtual bool canPlay () const
virtual QString getDefaultPlayClipId () const
virtual bool getDefaultPlayAudible () const
virtual QString getHeading (int column) const =0
virtual SortType getSortType (int col) const =0
virtual bool isEditable () const

Static Public Member Functions

static QString encodeEntities (QString)
static QString encodeColour (int r, int g, int b)
static int getObjectExportId (const void *)

Static Public Attributes

static const int COMPLETION_UNKNOWN = -1

Protected Member Functions

void getPointIterators (long frame, PointListIterator &startItr, PointListIterator &endItr)
void getPointIterators (long frame, PointListConstIterator &startItr, PointListConstIterator &endItr) const
void rebuildRowVector () const
PointListIterator getPointListIteratorForRow (int row)
PointListConstIterator getPointListIteratorForRow (int row) const

Protected Attributes

float m_valueMinimum
float m_valueMaximum
bool m_haveExtents
QString m_units
int m_sampleRate
int m_resolution
bool m_notifyOnAdd
long m_sinceLastNotifyMin
long m_sinceLastNotifyMax
bool m_hasTextLabels
PointList m_points
int m_pointCount
QMutex m_mutex
int m_completion
std::vector< long > m_rows
Modelm_sourceModel
AlignmentModelm_alignment
QString m_typeUri
bool m_abandoning
bool m_aboutToDelete

Detailed Description

template<typename PointType>
class IntervalModel< PointType >

Model containing sparse data (points with some properties) of which the properties include a duration and an arbitrary float value.

The other properties depend on the point type.

Definition at line 29 of file IntervalModel.h.


Member Typedef Documentation

template<typename PointType>
typedef PointType SparseModel< PointType >::Point [inherited]

Definition at line 67 of file SparseModel.h.

template<typename PointType>
typedef std::multiset<PointType, typename PointType::OrderComparator> SparseModel< PointType >::PointList [inherited]

Definition at line 69 of file SparseModel.h.

template<typename PointType>
typedef PointList::iterator SparseModel< PointType >::PointListIterator [inherited]

Definition at line 70 of file SparseModel.h.

template<typename PointType>
typedef PointList::const_iterator SparseModel< PointType >::PointListConstIterator [inherited]

Definition at line 71 of file SparseModel.h.


Member Enumeration Documentation

anonymous enum [inherited]
Enumerator:
SortRole 

Definition at line 44 of file TabularModel.h.

enum TabularModel::SortType [inherited]
Enumerator:
SortNumeric 
SortAlphabetical 

Definition at line 45 of file TabularModel.h.


Constructor & Destructor Documentation

template<typename PointType>
IntervalModel< PointType >::IntervalModel ( int  sampleRate,
int  resolution,
bool  notifyOnAdd = true 
) [inline]

Definition at line 32 of file IntervalModel.h.

template<typename PointType>
IntervalModel< PointType >::IntervalModel ( int  sampleRate,
int  resolution,
float  valueMinimum,
float  valueMaximum,
bool  notifyOnAdd = true 
) [inline]

Definition at line 37 of file IntervalModel.h.


Member Function Documentation

template<typename PointType >
SparseValueModel< PointType >::PointList IntervalModel< PointType >::getPoints ( long  start,
long  end 
) const [virtual]

PointTypes have a duration, so this returns all points that span any of the given range (as well as the usual additional few before and after).

Consequently this can be very slow (optimised data structures still to be done!).

Reimplemented from SparseModel< PointType >.

Definition at line 128 of file IntervalModel.h.

References mutex.

Referenced by CSVFileReader::load(), and RDFExporter::write().

template<typename PointType >
SparseValueModel< PointType >::PointList IntervalModel< PointType >::getPoints ( long  frame) const [virtual]

PointTypes have a duration, so this returns all points that span the given frame.

Consequently this can be very slow (optimised data structures still to be done!).

Reimplemented from SparseModel< PointType >.

Definition at line 162 of file IntervalModel.h.

References mutex.

template<typename PointType>
virtual const SparseModel<PointType>::PointList& IntervalModel< PointType >::getPoints ( ) const [inline, virtual]

Get all points.

Reimplemented from SparseModel< PointType >.

Definition at line 60 of file IntervalModel.h.

Referenced by IntervalModel< RegionRec >::getPoints().

template<typename PointType>
virtual QVariant IntervalModel< PointType >::getData ( int  row,
int  column,
int  role 
) const [inline, virtual]

TabularModel methods.

!! could be better presented

Reimplemented from SparseModel< PointType >.

Reimplemented in FlexiNoteModel, NoteModel, and RegionModel.

Definition at line 68 of file IntervalModel.h.

Referenced by IntervalModel< RegionRec >::getData().

template<typename PointType>
virtual Command* IntervalModel< PointType >::getSetDataCommand ( int  row,
int  column,
const QVariant &  value,
int  role 
) [inline, virtual]

Reimplemented from SparseModel< PointType >.

Reimplemented in FlexiNoteModel, NoteModel, and RegionModel.

Definition at line 89 of file IntervalModel.h.

Referenced by IntervalModel< RegionRec >::getSetDataCommand().

template<typename PointType>
virtual bool IntervalModel< PointType >::isColumnTimeValue ( int  column) const [inline, virtual]

Implements TabularModel.

Definition at line 118 of file IntervalModel.h.

template<typename PointType>
QString SparseValueModel< PointType >::getTypeName ( ) const [inline, virtual, inherited]

Return the type of the model.

For display purposes only.

Reimplemented from SparseModel< PointType >.

Reimplemented in FlexiNoteModel, NoteModel, RegionModel, and SparseTimeValueModel.

Definition at line 56 of file SparseValueModel.h.

template<typename PointType>
virtual float SparseValueModel< PointType >::getValueMinimum ( ) const [inline, virtual, inherited]

Reimplemented in FlexiNoteModel.

Definition at line 58 of file SparseValueModel.h.

Referenced by FeatureExtractionModelTransformer::getAdditionalModel().

template<typename PointType>
virtual float SparseValueModel< PointType >::getValueMaximum ( ) const [inline, virtual, inherited]
template<typename PointType>
virtual QString SparseValueModel< PointType >::getScaleUnits ( ) const [inline, virtual, inherited]
template<typename PointType>
virtual void SparseValueModel< PointType >::setScaleUnits ( QString  units) [inline, virtual, inherited]
template<typename PointType>
virtual void SparseValueModel< PointType >::addPoint ( const PointType &  point) [inline, virtual, inherited]
template<typename PointType>
virtual void SparseValueModel< PointType >::deletePoint ( const PointType &  point) [inline, virtual, inherited]

Remove a point.

Points are not necessarily unique, so this function will remove the first point that compares equal to the supplied one using Point::Comparator. Other identical points may remain in the model.

!! inefficient

Reimplemented from SparseModel< PointType >.

Definition at line 87 of file SparseValueModel.h.

Referenced by SparseValueModel< RegionRec >::deletePoint(), and CSVFileReader::load().

template<typename PointType>
virtual void SparseValueModel< PointType >::toXml ( QTextStream &  stream,
QString  indent = "",
QString  extraAttributes = "" 
) const [inline, virtual, inherited]

Stream this exportable object out to XML on a text stream.

Reimplemented from SparseModel< PointType >.

Reimplemented in FlexiNoteModel, NoteModel, and RegionModel.

Definition at line 116 of file SparseValueModel.h.

Referenced by SparseValueModel< RegionRec >::toXml().

template<typename PointType>
virtual bool SparseModel< PointType >::isOK ( ) const [inline, virtual, inherited]

Return true if the model was constructed successfully.

Classes that refer to the model should always test this before use.

Implements Model.

Definition at line 50 of file SparseModel.h.

Referenced by AlignmentModel::isOK(), and SparseModel< RegionRec >::isReady().

template<typename PointType >
int SparseModel< PointType >::getStartFrame ( ) const [virtual, inherited]

Return the first audio frame spanned by the model.

Implements Model.

Definition at line 484 of file SparseModel.h.

template<typename PointType >
int SparseModel< PointType >::getEndFrame ( ) const [virtual, inherited]

Return the last audio frame spanned by the model.

Implements Model.

Definition at line 496 of file SparseModel.h.

template<typename PointType>
virtual int SparseModel< PointType >::getSampleRate ( ) const [inline, virtual, inherited]
template<typename PointType >
Model * SparseModel< PointType >::clone ( ) const [virtual, inherited]

Return a copy of this model.

If the model is not editable, this may be effectively a shallow copy. If the model is editable, however, this operation must properly copy all of the model's editable data.

In general this operation is not useful for non-editable dense models such as waveforms, because there may be no efficient copy operation implemented -- for such models it is better not to copy at all.

Caller owns the returned value.

!! is this ever used?

Implements Model.

Definition at line 509 of file SparseModel.h.

Referenced by AlignmentModel::clone().

template<typename PointType>
virtual int SparseModel< PointType >::getResolution ( ) const [inline, virtual, inherited]
template<typename PointType >
void SparseModel< PointType >::setResolution ( int  resolution) [virtual, inherited]

Definition at line 679 of file SparseModel.h.

template<typename PointType >
bool SparseModel< PointType >::isEmpty ( ) const [virtual, inherited]

Return whether the model is empty or not.

Definition at line 523 of file SparseModel.h.

template<typename PointType >
int SparseModel< PointType >::getPointCount ( ) const [virtual, inherited]

Get the total number of points in the model.

Definition at line 530 of file SparseModel.h.

Referenced by AlignmentModel::constructPath(), and AlignmentModel::constructReversePath().

template<typename PointType >
SparseModel< PointType >::PointList SparseModel< PointType >::getPreviousPoints ( long  frame) const [virtual, inherited]

Return all points that share the nearest frame number prior to the given one at which there are any points.

Definition at line 635 of file SparseModel.h.

template<typename PointType >
SparseModel< PointType >::PointList SparseModel< PointType >::getNextPoints ( long  frame) const [virtual, inherited]

Return all points that share the nearest frame number subsequent to the given one at which there are any points.

Definition at line 658 of file SparseModel.h.

template<typename PointType >
void SparseModel< PointType >::clear ( ) [virtual, inherited]

Remove all points.

Definition at line 691 of file SparseModel.h.

Referenced by AlignmentModel::constructPath(), and AlignmentModel::constructReversePath().

template<typename PointType>
virtual bool SparseModel< PointType >::isReady ( int *  completion = 0) const [inline, virtual, inherited]

Return true if the model has finished loading or calculating all its data, for a model that is capable of calculating in a background thread.

The default implementation is appropriate for a thread that does not background any work but carries out all its calculation from the constructor or accessors.

If "completion" is non-NULL, this function should return through it an estimated percentage value showing how far through the background operation it thinks it is (for progress reporting). If it has no way to calculate progress, it may return the special value COMPLETION_UNKNOWN.

Reimplemented from Model.

Definition at line 132 of file SparseModel.h.

Referenced by AlignmentModel::AlignmentModel(), AlignmentModel::isReady(), and AlignmentModel::pathCompletionChanged().

template<typename PointType >
void SparseModel< PointType >::setCompletion ( int  completion,
bool  update = true 
) [virtual, inherited]
template<typename PointType>
virtual int SparseModel< PointType >::getCompletion ( ) const [inline, virtual, inherited]

Definition at line 139 of file SparseModel.h.

template<typename PointType>
virtual bool SparseModel< PointType >::hasTextLabels ( ) const [inline, virtual, inherited]

Definition at line 141 of file SparseModel.h.

template<typename PointType>
virtual QString SparseModel< PointType >::getXmlOutputType ( ) const [inline, virtual, inherited]

Definition at line 145 of file SparseModel.h.

template<typename PointType>
virtual QString SparseModel< PointType >::toDelimitedDataString ( QString  delimiter) const [inline, virtual, inherited]

Reimplemented from Model.

Definition at line 151 of file SparseModel.h.

template<typename PointType>
virtual QString SparseModel< PointType >::toDelimitedDataStringSubset ( QString  delimiter,
int  f0,
int  f1 
) const [inline, virtual, inherited]

Reimplemented from Model.

Definition at line 160 of file SparseModel.h.

template<typename PointType>
virtual int SparseModel< PointType >::getRowCount ( ) const [inline, virtual, inherited]

TabularModel methods.

Implements TabularModel.

Definition at line 285 of file SparseModel.h.

template<typename PointType>
virtual long SparseModel< PointType >::getFrameForRow ( int  row) const [inline, virtual, inherited]

Implements TabularModel.

Definition at line 290 of file SparseModel.h.

template<typename PointType>
virtual int SparseModel< PointType >::getRowForFrame ( long  frame) const [inline, virtual, inherited]

Implements TabularModel.

Definition at line 297 of file SparseModel.h.

template<typename PointType>
virtual int SparseModel< PointType >::getColumnCount ( ) const [inline, virtual, inherited]
template<typename PointType>
virtual Command* SparseModel< PointType >::getInsertRowCommand ( int  row) [inline, virtual, inherited]

Reimplemented from TabularModel.

Definition at line 353 of file SparseModel.h.

template<typename PointType>
virtual Command* SparseModel< PointType >::getRemoveRowCommand ( int  row) [inline, virtual, inherited]

Reimplemented from TabularModel.

Definition at line 364 of file SparseModel.h.

template<typename PointType >
void SparseModel< PointType >::getPointIterators ( long  frame,
PointListIterator startItr,
PointListIterator endItr 
) [protected, inherited]

Definition at line 586 of file SparseModel.h.

Referenced by SparseModel< RegionRec >::getPointListIteratorForRow().

template<typename PointType >
void SparseModel< PointType >::getPointIterators ( long  frame,
PointListConstIterator startItr,
PointListConstIterator endItr 
) const [protected, inherited]

Definition at line 609 of file SparseModel.h.

template<typename PointType>
void SparseModel< PointType >::rebuildRowVector ( ) const [inline, protected, inherited]
template<typename PointType>
PointListConstIterator SparseModel< PointType >::getPointListIteratorForRow ( int  row) const [inline, protected, inherited]

Definition at line 432 of file SparseModel.h.

virtual int Model::getNativeRate ( ) const [inline, virtual, inherited]

Return the frame rate of the underlying material, if the model itself has already been resampled.

Reimplemented in WaveFileModel.

Definition at line 69 of file Model.h.

References Model::getSampleRate().

QString Model::getTitle ( ) const [virtual, inherited]

Return the "work title" of the model, if known.

Reimplemented in WaveFileModel.

Definition at line 153 of file Model.cpp.

References Model::getTitle(), and Model::m_sourceModel.

Referenced by Model::getTitle().

QString Model::getMaker ( ) const [virtual, inherited]

Return the "artist" or "maker" of the model, if known.

Reimplemented in WaveFileModel.

Definition at line 160 of file Model.cpp.

References Model::getMaker(), and Model::m_sourceModel.

Referenced by Model::getMaker().

QString Model::getLocation ( ) const [virtual, inherited]

Return the location of the data in this model (e.g.

source URL). This should not normally be returned for editable models that have been edited.

Reimplemented in WaveFileModel.

Definition at line 167 of file Model.cpp.

References Model::getLocation(), and Model::m_sourceModel.

Referenced by Model::getLocation().

virtual void Model::abandon ( ) [inline, virtual, inherited]

Mark the model as abandoning.

This means that the application no longer needs it, so it can stop doing any background calculations it may be involved in. Note that as far as the model API is concerned, this does nothing more than tell the model to return true from isAbandoning(). The actual response to this will depend on the model's context -- it's possible nothing at all will change.

Definition at line 118 of file Model.h.

References Model::m_abandoning.

virtual bool Model::isAbandoning ( ) const [inline, virtual, inherited]

Query whether the model has been marked as abandoning.

Definition at line 125 of file Model.h.

References Model::m_abandoning.

Referenced by FeatureExtractionModelTransformer::setCompletion().

virtual const ZoomConstraint* Model::getZoomConstraint ( ) const [inline, virtual, inherited]

If this model imposes a zoom constraint, i.e.

some limit to the set of resolutions at which its data can meaningfully be displayed, then return it.

Reimplemented in AggregateWaveModel, WritableWaveFileModel, AlignmentModel, and WaveFileModel.

Definition at line 154 of file Model.h.

virtual Model* Model::getSourceModel ( ) const [inline, virtual, inherited]

If this model was derived from another, return the model it was derived from.

The assumption is that the source model's alignment will also apply to this model, unless some other property (such as a specific alignment model set on this model) indicates otherwise.

Definition at line 165 of file Model.h.

References Model::m_sourceModel.

void Model::setAlignment ( AlignmentModel alignment) [virtual, inherited]

Specify an aligment between this model's timeline and that of a reference model.

The alignment model records both the reference and the alignment. This model takes ownership of the alignment model.

Definition at line 82 of file Model.cpp.

References Model::aboutToDelete(), Model::alignmentCompletionChanged(), Model::completionChanged(), and Model::m_alignment.

const AlignmentModel * Model::getAlignment ( ) const [virtual, inherited]

Retrieve the alignment model for this model.

This is not a generally useful function, as the alignment you really want may be performed by the source model instead. You should normally use getAlignmentReference, alignToReference and alignFromReference instead of this. The main intended application for this function is in streaming out alignments to the session file.

Definition at line 94 of file Model.cpp.

References Model::m_alignment.

const Model * Model::getAlignmentReference ( ) const [virtual, inherited]

Return the reference model for the current alignment timeline, if any.

Definition at line 100 of file Model.cpp.

References Model::getAlignmentReference(), AlignmentModel::getReferenceModel(), Model::m_alignment, and Model::m_sourceModel.

Referenced by Model::getAlignmentReference().

int Model::alignToReference ( int  frame) const [virtual, inherited]

Return the frame number of the reference model that corresponds to the given frame number in this model.

Definition at line 110 of file Model.cpp.

References Model::alignToReference(), Model::getEndFrame(), AlignmentModel::getReferenceModel(), Model::m_alignment, Model::m_sourceModel, and AlignmentModel::toReference().

Referenced by Model::alignToReference().

int Model::alignFromReference ( int  referenceFrame) const [virtual, inherited]

Return the frame number in this model that corresponds to the given frame number of the reference model.

Definition at line 125 of file Model.cpp.

References Model::alignFromReference(), AlignmentModel::fromReference(), Model::getEndFrame(), Model::m_alignment, and Model::m_sourceModel.

Referenced by Model::alignFromReference().

int Model::getAlignmentCompletion ( ) const [virtual, inherited]

Return the completion percentage for the alignment model: 100 if there is no alignment model or it has been entirely calculated, or less than 100 if it is still being calculated.

Definition at line 139 of file Model.cpp.

References Model::getAlignmentCompletion(), AlignmentModel::isReady(), Model::m_alignment, and Model::m_sourceModel.

Referenced by Model::getAlignmentCompletion().

void Model::setRDFTypeURI ( QString  uri) [inline, inherited]

Set the event, feature, or signal type URI for the features contained in this model, according to the Audio Features RDF ontology.

Definition at line 223 of file Model.h.

References Model::m_typeUri.

Referenced by FeatureExtractionModelTransformer::createOutputModels(), FeatureExtractionModelTransformer::getAdditionalModel(), RDFImporterImpl::getDataModelsDense(), and RDFImporterImpl::getDataModelsSparse().

QString Model::getRDFTypeURI ( ) const [inline, inherited]

Retrieve the event, feature, or signal type URI for the features contained in this model, if previously set with setRDFTypeURI.

Definition at line 230 of file Model.h.

References Model::m_typeUri.

Referenced by FeatureExtractionModelTransformer::getAdditionalModel().

void Model::sourceModelAboutToBeDeleted ( ) [slot, inherited]

Reimplemented in FFTModel, and Dense3DModelPeakCache.

Definition at line 76 of file Model.cpp.

References Model::m_sourceModel.

Referenced by Model::setSourceModel().

void Model::modelChangedWithin ( int  startFrame,
int  endFrame 
) [signal, inherited]

Emitted when a model has been edited (or more data retrieved from cache, in the case of a cached model that generates slowly)

Reimplemented in AggregateWaveModel, and AlignmentModel.

Referenced by WaveFileModel::cacheFilled(), WaveFileModel::fillTimerTimedOut(), EditableDenseThreeDimensionalModel::setColumn(), EditableDenseThreeDimensionalModel::setCompletion(), and WritableWaveFileModel::WritableWaveFileModel().

void Model::completionChanged ( ) [signal, inherited]

Emitted when some internal processing has advanced a stage, but the model has not changed externally.

Views should respond by updating any progress meters or other monitoring, but not refreshing the actual view.

Reimplemented in AggregateWaveModel, and AlignmentModel.

Referenced by Model::setAlignment(), and EditableDenseThreeDimensionalModel::setCompletion().

void Model::ready ( ) [signal, inherited]

Emitted when internal processing is complete (i.e.

when isReady() would return true, with completion at 100).

Referenced by WaveFileModel::cacheFilled(), WaveFileModel::isReady(), AggregateWaveModel::isReady(), and SparseModel< RegionRec >::isReady().

void Model::alignmentCompletionChanged ( ) [signal, inherited]

Emitted when the completion percentage changes for the calculation of this model's alignment model.

Referenced by Model::setAlignment(), and Model::setSourceModel().

void Model::aboutToBeDeleted ( ) [signal, inherited]

Emitted when something notifies this model (through calling aboutToDelete() that it is about to delete it.

Note that this depends on an external agent such as a Document object or owning model telling the model that it is about to delete it; there is nothing in the model to guarantee that this signal will be emitted before the actual deletion.

Referenced by Model::aboutToDelete(), Dense3DModelPeakCache::Dense3DModelPeakCache(), and Model::setSourceModel().

QString XmlExportable::toXmlString ( QString  indent = "",
QString  extraAttributes = "" 
) const [virtual, inherited]

Convert this exportable object to XML in a string.

The default implementation calls toXml and returns the result as a string. Do not override this unless you really know what you're doing.

Definition at line 25 of file XmlExportable.cpp.

References XmlExportable::toXml().

Referenced by ModelTransformerFactory::getConfigurationForTransform(), and RDFTransformFactoryImpl::getTransforms().

QString XmlExportable::encodeColour ( int  r,
int  g,
int  b 
) [static, inherited]

Definition at line 54 of file XmlExportable.cpp.

int XmlExportable::getObjectExportId ( const void *  object) [static, inherited]
virtual bool Playable::canPlay ( ) const [inline, virtual, inherited]
virtual QString Playable::getDefaultPlayClipId ( ) const [inline, virtual, inherited]
virtual bool Playable::getDefaultPlayAudible ( ) const [inline, virtual, inherited]

Reimplemented in SparseTimeValueModel.

Definition at line 28 of file Playable.h.

Referenced by PlayParameterRepository::addPlayable().

virtual bool TabularModel::isEditable ( ) const [inline, virtual, inherited]

Definition at line 54 of file TabularModel.h.


Member Data Documentation

template<typename PointType>
bool SparseValueModel< PointType >::m_haveExtents [protected, inherited]

Definition at line 134 of file SparseValueModel.h.

Referenced by SparseValueModel< RegionRec >::addPoint().

template<typename PointType>
QString SparseValueModel< PointType >::m_units [protected, inherited]
template<typename PointType>
int SparseModel< PointType >::m_sampleRate [protected, inherited]
template<typename PointType>
int SparseModel< PointType >::m_resolution [protected, inherited]

Definition at line 375 of file SparseModel.h.

Referenced by SparseModel< RegionRec >::getResolution().

template<typename PointType>
bool SparseModel< PointType >::m_notifyOnAdd [protected, inherited]

Definition at line 376 of file SparseModel.h.

template<typename PointType>
long SparseModel< PointType >::m_sinceLastNotifyMin [protected, inherited]

Definition at line 377 of file SparseModel.h.

template<typename PointType>
long SparseModel< PointType >::m_sinceLastNotifyMax [protected, inherited]

Definition at line 378 of file SparseModel.h.

template<typename PointType>
bool SparseModel< PointType >::m_hasTextLabels [protected, inherited]

Definition at line 379 of file SparseModel.h.

Referenced by SparseModel< RegionRec >::hasTextLabels().

template<typename PointType>
int SparseModel< PointType >::m_pointCount [protected, inherited]

Definition at line 382 of file SparseModel.h.

template<typename PointType>
QMutex SparseModel< PointType >::m_mutex [mutable, protected, inherited]

Definition at line 383 of file SparseModel.h.

template<typename PointType>
int SparseModel< PointType >::m_completion [protected, inherited]
template<typename PointType>
std::vector<long> SparseModel< PointType >::m_rows [mutable, protected, inherited]
const int Model::COMPLETION_UNKNOWN = -1 [static, inherited]

Definition at line 147 of file Model.h.

QString Model::m_typeUri [protected, inherited]

Definition at line 303 of file Model.h.

Referenced by Model::getRDFTypeURI(), and Model::setRDFTypeURI().

bool Model::m_abandoning [protected, inherited]

Definition at line 304 of file Model.h.

Referenced by Model::abandon(), and Model::isAbandoning().

bool Model::m_aboutToDelete [protected, inherited]

Definition at line 305 of file Model.h.

Referenced by Model::aboutToDelete(), and Model::~Model().


The documentation for this class was generated from the following file: