Mercurial > hg > svgui
view layer/LayerFactory.cpp @ 9:561be41ad083
* Tweaked up spectrogram and added a colourmap rotation option
* Fleshed out the SV file reader code -- now we just need to hook it up
and watch it fall over
author | Chris Cannam |
---|---|
date | Mon, 16 Jan 2006 18:04:09 +0000 |
parents | 06bba0b79b1c |
children | 2d5005f2b3d9 |
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/* -*- c-basic-offset: 4 -*- vi:set ts=8 sts=4 sw=4: */ /* A waveform viewer and audio annotation editor. Chris Cannam, Queen Mary University of London, 2005-2006 This is experimental software. Not for distribution. */ #include "LayerFactory.h" #include "WaveformLayer.h" #include "SpectrogramLayer.h" #include "TimeRulerLayer.h" #include "TimeInstantLayer.h" #include "TimeValueLayer.h" #include "Colour3DPlotLayer.h" #include "model/RangeSummarisableTimeValueModel.h" #include "model/DenseTimeValueModel.h" #include "model/SparseOneDimensionalModel.h" #include "model/SparseTimeValueModel.h" #include "model/DenseThreeDimensionalModel.h" LayerFactory * LayerFactory::m_instance = new LayerFactory; LayerFactory * LayerFactory::instance() { return m_instance; } LayerFactory::~LayerFactory() { } QString LayerFactory::getLayerPresentationName(LayerType type) { switch (type) { case Waveform: return Layer::tr("Waveform"); case Spectrogram: return Layer::tr("Spectrogram"); case TimeRuler: return Layer::tr("Ruler"); case TimeInstants: return Layer::tr("Time Instants"); case TimeValues: return Layer::tr("Time Values"); case Colour3DPlot: return Layer::tr("Colour 3D Plot"); case MelodicRangeSpectrogram: // The user can change all the parameters of this after the // fact -- there's nothing permanently melodic-range about it // that should be encoded in its name return Layer::tr("Spectrogram"); } return Layer::tr("Layer"); } LayerFactory::LayerTypeSet LayerFactory::getValidLayerTypes(Model *model) { LayerTypeSet types; if (dynamic_cast<DenseThreeDimensionalModel *>(model)) { types.insert(Colour3DPlot); } if (dynamic_cast<DenseTimeValueModel *>(model)) { types.insert(Spectrogram); types.insert(MelodicRangeSpectrogram); } if (dynamic_cast<RangeSummarisableTimeValueModel *>(model)) { types.insert(Waveform); } if (dynamic_cast<SparseOneDimensionalModel *>(model)) { types.insert(TimeInstants); } if (dynamic_cast<SparseTimeValueModel *>(model)) { types.insert(TimeValues); } // We don't count TimeRuler here as it doesn't actually display // the data, although it can be backed by any model return types; } LayerFactory::LayerType LayerFactory::getLayerType(const Layer *layer) { if (dynamic_cast<const WaveformLayer *>(layer)) return Waveform; if (dynamic_cast<const SpectrogramLayer *>(layer)) return Spectrogram; if (dynamic_cast<const TimeRulerLayer *>(layer)) return TimeRuler; if (dynamic_cast<const TimeInstantLayer *>(layer)) return TimeInstants; if (dynamic_cast<const TimeValueLayer *>(layer)) return TimeValues; if (dynamic_cast<const Colour3DPlotLayer *>(layer)) return Colour3DPlot; return UnknownLayer; } QString LayerFactory::getLayerTypeName(LayerType type) { switch (type) { case Waveform: return "waveform"; case Spectrogram: return "spectrogram"; case TimeRuler: return "timeruler"; case TimeInstants: return "timeinstants"; case TimeValues: return "timevalues"; case Colour3DPlot: return "colour3dplot"; default: return "unknown"; } } LayerFactory::LayerType LayerFactory::getLayerTypeForName(QString name) { if (name == "waveform") return Waveform; if (name == "spectrogram") return Spectrogram; if (name == "timeruler") return TimeRuler; if (name == "timeinstants") return TimeInstants; if (name == "timevalues") return TimeValues; if (name == "colour3dplot") return Colour3DPlot; return UnknownLayer; } void LayerFactory::setModel(Layer *layer, Model *model) { if (trySetModel<WaveformLayer, RangeSummarisableTimeValueModel>(layer, model)) return; if (trySetModel<SpectrogramLayer, DenseTimeValueModel>(layer, model)) return; if (trySetModel<TimeRulerLayer, Model>(layer, model)) return; if (trySetModel<TimeInstantLayer, SparseOneDimensionalModel>(layer, model)) return; if (trySetModel<TimeValueLayer, SparseTimeValueModel>(layer, model)) return; if (trySetModel<Colour3DPlotLayer, DenseThreeDimensionalModel>(layer, model)) return; if (trySetModel<SpectrogramLayer, DenseTimeValueModel>(layer, model)) return; } Layer * LayerFactory::createLayer(LayerType type, View *view, Model *model, int channel) { Layer *layer = 0; switch (type) { case Waveform: layer = new WaveformLayer(view); static_cast<WaveformLayer *>(layer)->setChannel(channel); break; case Spectrogram: layer = new SpectrogramLayer(view); static_cast<SpectrogramLayer *>(layer)->setChannel(channel); break; case TimeRuler: layer = new TimeRulerLayer(view); break; case TimeInstants: layer = new TimeInstantLayer(view); break; case TimeValues: layer = new TimeValueLayer(view); break; case Colour3DPlot: layer = new Colour3DPlotLayer(view); break; case MelodicRangeSpectrogram: layer = new SpectrogramLayer(view, SpectrogramLayer::MelodicRange); static_cast<SpectrogramLayer *>(layer)->setChannel(channel); break; } if (!layer) { std::cerr << "LayerFactory::createLayer: Unknown layer type " << type << std::endl; } else { if (model) setModel(layer, model); std::cerr << "LayerFactory::createLayer: Setting object name " << getLayerPresentationName(type).toStdString() << " on " << layer << std::endl; layer->setObjectName(getLayerPresentationName(type)); } return layer; }