Mercurial > hg > svgui
view layer/LayerFactory.cpp @ 1386:fc3d89f88690 spectrogramparam
Use log-frequency rather than log-bin for calculating x coord in spectrum. This has the advantage that frequency positions don't move when we change the window size or oversampling ratio, but it does give us an unhelpfully large amount of space for very low frequencies - to be considered
author | Chris Cannam |
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date | Mon, 12 Nov 2018 11:34:34 +0000 |
parents | a34a2a25907c |
children | c8a6fd3f9dff |
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/* -*- c-basic-offset: 4 indent-tabs-mode: nil -*- vi:set ts=8 sts=4 sw=4: */ /* Sonic Visualiser An audio file viewer and annotation editor. Centre for Digital Music, Queen Mary, University of London. This file copyright 2006 Chris Cannam. 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 "LayerFactory.h" #include "WaveformLayer.h" #include "SpectrogramLayer.h" #include "TimeRulerLayer.h" #include "TimeInstantLayer.h" #include "TimeValueLayer.h" #include "NoteLayer.h" #include "FlexiNoteLayer.h" #include "RegionLayer.h" #include "TextLayer.h" #include "ImageLayer.h" #include "Colour3DPlotLayer.h" #include "SpectrumLayer.h" #include "SliceLayer.h" #include "SliceableLayer.h" #include "base/Clipboard.h" #include "data/model/RangeSummarisableTimeValueModel.h" #include "data/model/DenseTimeValueModel.h" #include "data/model/SparseOneDimensionalModel.h" #include "data/model/SparseTimeValueModel.h" #include "data/model/NoteModel.h" #include "data/model/FlexiNoteModel.h" #include "data/model/RegionModel.h" #include "data/model/TextModel.h" #include "data/model/ImageModel.h" #include "data/model/DenseThreeDimensionalModel.h" #include "data/model/WaveFileModel.h" #include "data/model/WritableWaveFileModel.h" #include <QDomDocument> #include <QDomElement> #include <QDomNamedNodeMap> #include <QDomAttr> #include <QSettings> LayerFactory * LayerFactory::m_instance = new LayerFactory; LayerFactory * LayerFactory::getInstance() { 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 Notes: return Layer::tr("Notes"); case FlexiNotes: return Layer::tr("Flexible Notes"); case Regions: return Layer::tr("Regions"); case Text: return Layer::tr("Text"); case Image: return Layer::tr("Images"); case Colour3DPlot: return Layer::tr("Colour 3D Plot"); case Spectrum: return Layer::tr("Spectrum"); case Slice: return Layer::tr("Time Slice"); 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"); case PeakFrequencySpectrogram: // likewise return Layer::tr("Spectrogram"); case UnknownLayer: default: cerr << "WARNING: LayerFactory::getLayerPresentationName passed unknown layer" << endl; return Layer::tr("Unknown Layer"); } } bool LayerFactory::isLayerSliceable(const Layer *layer) { if (dynamic_cast<const SliceableLayer *>(layer)) { if (dynamic_cast<const SpectrogramLayer *>(layer)) { //!!! We can create slices of spectrograms, but there's a // problem managing the models. The source model for the // slice layer has to be one of the spectrogram's FFT // models -- that's fine, except that we can't store & // recall the slice layer with a reference to that model // because the model is internal to the spectrogram layer // and the document has no record of it. We would need // some other way of managing models that are used in this // way. For the moment we just don't allow slices of // spectrograms -- and provide a spectrum layer for this // instead. // // This business needs a bit more thought -- either come // up with a sensible way to deal with that stuff, or // simplify the existing slice layer logic so that it // doesn't have to deal with models disappearing on it at // all (and use the normal Document setModel mechanism to // set its sliceable model instead of the fancy pants // nonsense it's doing at the moment). return false; } return true; } return false; } LayerFactory::LayerTypeSet LayerFactory::getValidLayerTypes(Model *model) { LayerTypeSet types; if (dynamic_cast<DenseThreeDimensionalModel *>(model)) { types.insert(Colour3DPlot); types.insert(Slice); } if (dynamic_cast<RangeSummarisableTimeValueModel *>(model)) { types.insert(Waveform); } if (dynamic_cast<DenseTimeValueModel *>(model)) { types.insert(Spectrogram); types.insert(MelodicRangeSpectrogram); types.insert(PeakFrequencySpectrogram); } if (dynamic_cast<SparseOneDimensionalModel *>(model)) { types.insert(TimeInstants); } if (dynamic_cast<SparseTimeValueModel *>(model)) { types.insert(TimeValues); } if (dynamic_cast<NoteModel *>(model)) { types.insert(Notes); } // NOTE: GF: types is a set, so order of insertion does not matter if (dynamic_cast<FlexiNoteModel *>(model)) { types.insert(FlexiNotes); } if (dynamic_cast<RegionModel *>(model)) { types.insert(Regions); } if (dynamic_cast<TextModel *>(model)) { types.insert(Text); } if (dynamic_cast<ImageModel *>(model)) { types.insert(Image); } if (dynamic_cast<DenseTimeValueModel *>(model)) { types.insert(Spectrum); } // 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::LayerTypeSet LayerFactory::getValidEmptyLayerTypes() { LayerTypeSet types; types.insert(TimeInstants); types.insert(TimeValues); // Because this is strictly a UI function -- list the layer types // to show in a menu -- it should not contain FlexiNotes; the // layer isn't meaningfully editable in SV // types.insert(FlexiNotes); types.insert(Notes); types.insert(Regions); types.insert(Text); types.insert(Image); //!!! and in principle Colour3DPlot -- now that's a challenge 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 FlexiNoteLayer *>(layer)) return FlexiNotes; if (dynamic_cast<const NoteLayer *>(layer)) return Notes; if (dynamic_cast<const RegionLayer *>(layer)) return Regions; if (dynamic_cast<const TextLayer *>(layer)) return Text; if (dynamic_cast<const ImageLayer *>(layer)) return Image; if (dynamic_cast<const Colour3DPlotLayer *>(layer)) return Colour3DPlot; if (dynamic_cast<const SpectrumLayer *>(layer)) return Spectrum; if (dynamic_cast<const SliceLayer *>(layer)) return Slice; return UnknownLayer; } QString LayerFactory::getLayerIconName(LayerType type) { switch (type) { case Waveform: return "waveform"; case Spectrogram: return "spectrogram"; case TimeRuler: return "timeruler"; case TimeInstants: return "instants"; case TimeValues: return "values"; case Notes: return "notes"; case FlexiNotes: return "flexinotes"; case Regions: return "regions"; case Text: return "text"; case Image: return "image"; case Colour3DPlot: return "colour3d"; case Spectrum: return "spectrum"; case Slice: return "spectrum"; case MelodicRangeSpectrogram: return "spectrogram"; case PeakFrequencySpectrogram: return "spectrogram"; case UnknownLayer: default: cerr << "WARNING: LayerFactory::getLayerIconName passed unknown layer" << endl; return "unknown"; } } 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 Notes: return "notes"; case FlexiNotes: return "flexinotes"; case Regions: return "regions"; case Text: return "text"; case Image: return "image"; case Colour3DPlot: return "colour3dplot"; case Spectrum: return "spectrum"; case Slice: return "slice"; case MelodicRangeSpectrogram: return "melodicrange"; case PeakFrequencySpectrogram: return "peakfrequency"; case UnknownLayer: default: cerr << "WARNING: LayerFactory::getLayerTypeName passed unknown layer" << endl; 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 == "notes") return Notes; if (name == "flexinotes") return FlexiNotes; if (name == "regions") return Regions; if (name == "text") return Text; if (name == "image") return Image; if (name == "colour3dplot") return Colour3DPlot; if (name == "spectrum") return Spectrum; if (name == "slice") return Slice; return UnknownLayer; } void LayerFactory::setModel(Layer *layer, Model *model) { // if (trySetModel<WaveformLayer, RangeSummarisableTimeValueModel>(layer, model)) // return; if (trySetModel<WaveformLayer, WaveFileModel>(layer, model)) return; if (trySetModel<WaveformLayer, WritableWaveFileModel>(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<NoteLayer, NoteModel>(layer, model)) return; // GF: added FlexiNoteLayer if (trySetModel<FlexiNoteLayer, FlexiNoteModel>(layer, model)) return; if (trySetModel<RegionLayer, RegionModel>(layer, model)) return; if (trySetModel<TextLayer, TextModel>(layer, model)) return; if (trySetModel<ImageLayer, ImageModel>(layer, model)) return; if (trySetModel<Colour3DPlotLayer, DenseThreeDimensionalModel>(layer, model)) return; if (trySetModel<SpectrogramLayer, DenseTimeValueModel>(layer, model)) return; if (trySetModel<SpectrumLayer, DenseTimeValueModel>(layer, model)) return; // if (trySetModel<SliceLayer, DenseThreeDimensionalModel>(layer, model)) // return; } Model * LayerFactory::createEmptyModel(LayerType layerType, Model *baseModel) { if (layerType == TimeInstants) { return new SparseOneDimensionalModel(baseModel->getSampleRate(), 1); } else if (layerType == TimeValues) { return new SparseTimeValueModel(baseModel->getSampleRate(), 1, true); } else if (layerType == FlexiNotes) { return new FlexiNoteModel(baseModel->getSampleRate(), 1, true); } else if (layerType == Notes) { return new NoteModel(baseModel->getSampleRate(), 1, true); } else if (layerType == Regions) { return new RegionModel(baseModel->getSampleRate(), 1, true); } else if (layerType == Text) { return new TextModel(baseModel->getSampleRate(), 1, true); } else if (layerType == Image) { return new ImageModel(baseModel->getSampleRate(), 1, true); } else { return 0; } } int LayerFactory::getChannel(Layer *layer) { if (dynamic_cast<WaveformLayer *>(layer)) { return dynamic_cast<WaveformLayer *>(layer)->getChannel(); } if (dynamic_cast<SpectrogramLayer *>(layer)) { return dynamic_cast<SpectrogramLayer *>(layer)->getChannel(); } return -1; } void LayerFactory::setChannel(Layer *layer, int channel) { if (dynamic_cast<WaveformLayer *>(layer)) { dynamic_cast<WaveformLayer *>(layer)->setChannel(channel); return; } if (dynamic_cast<SpectrogramLayer *>(layer)) { dynamic_cast<SpectrogramLayer *>(layer)->setChannel(channel); return; } if (dynamic_cast<SpectrumLayer *>(layer)) { dynamic_cast<SpectrumLayer *>(layer)->setChannel(channel); return; } } Layer * LayerFactory::createLayer(LayerType type) { Layer *layer = 0; switch (type) { case Waveform: layer = new WaveformLayer; break; case Spectrogram: layer = new SpectrogramLayer; break; case TimeRuler: layer = new TimeRulerLayer; break; case TimeInstants: layer = new TimeInstantLayer; break; case TimeValues: layer = new TimeValueLayer; break; case FlexiNotes: layer = new FlexiNoteLayer; break; case Notes: layer = new NoteLayer; break; case Regions: layer = new RegionLayer; break; case Text: layer = new TextLayer; break; case Image: layer = new ImageLayer; break; case Colour3DPlot: layer = new Colour3DPlotLayer; break; case Spectrum: layer = new SpectrumLayer; break; case Slice: layer = new SliceLayer; break; case MelodicRangeSpectrogram: layer = new SpectrogramLayer(SpectrogramLayer::MelodicRange); break; case PeakFrequencySpectrogram: layer = new SpectrogramLayer(SpectrogramLayer::MelodicPeaks); break; case UnknownLayer: default: cerr << "WARNING: LayerFactory::createLayer passed unknown layer" << endl; break; } if (!layer) { cerr << "LayerFactory::createLayer: Unknown layer type " << type << endl; } else { // SVDEBUG << "LayerFactory::createLayer: Setting object name " // << getLayerPresentationName(type) << " on " << layer << endl; layer->setObjectName(getLayerPresentationName(type)); setLayerDefaultProperties(type, layer); } return layer; } void LayerFactory::setLayerDefaultProperties(LayerType type, Layer *layer) { // SVDEBUG << "LayerFactory::setLayerDefaultProperties: type " << type << " (name \"" << getLayerTypeName(type) << "\")" << endl; QSettings settings; settings.beginGroup("LayerDefaults"); QString defaults = settings.value(getLayerTypeName(type), "").toString(); if (defaults == "") return; // cerr << "defaults=\"" << defaults << "\"" << endl; QString xml = layer->toXmlString(); QDomDocument docOld, docNew; if (docOld.setContent(xml, false) && docNew.setContent(defaults, false)) { QXmlAttributes attrs; QDomElement layerElt = docNew.firstChildElement("layer"); QDomNamedNodeMap attrNodes = layerElt.attributes(); for (int i = 0; i < attrNodes.length(); ++i) { QDomAttr attr = attrNodes.item(i).toAttr(); if (attr.isNull()) continue; // cerr << "append \"" << attr.name() // << "\" -> \"" << attr.value() << "\"" // << endl; attrs.append(attr.name(), "", "", attr.value()); } layerElt = docOld.firstChildElement("layer"); attrNodes = layerElt.attributes(); for (int i = 0; i < attrNodes.length(); ++i) { QDomAttr attr = attrNodes.item(i).toAttr(); if (attr.isNull()) continue; if (attrs.value(attr.name()) == "") { // cerr << "append \"" << attr.name() // << "\" -> \"" << attr.value() << "\"" // << endl; attrs.append(attr.name(), "", "", attr.value()); } } layer->setProperties(attrs); } settings.endGroup(); } LayerFactory::LayerType LayerFactory::getLayerTypeForClipboardContents(const Clipboard &clip) { const Clipboard::PointList &contents = clip.getPoints(); bool haveFrame = false; bool haveValue = false; bool haveDuration = false; bool haveLevel = false; for (Clipboard::PointList::const_iterator i = contents.begin(); i != contents.end(); ++i) { if (i->haveFrame()) haveFrame = true; if (i->haveValue()) haveValue = true; if (i->haveDuration()) haveDuration = true; if (i->haveLevel()) haveLevel = true; } if (haveFrame && haveValue && haveDuration && haveLevel) return Notes; if (haveFrame && haveValue && haveDuration) return Regions; if (haveFrame && haveValue) return TimeValues; return TimeInstants; }