view layer/LayerFactory.cpp @ 314:7b96a3261e1c

* "Align mode"
author Chris Cannam
date Tue, 16 Oct 2007 18:42:51 +0000
parents 46faec7aae12
children 4f4f38a11cd2
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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 "TextLayer.h"
#include "ImageLayer.h"
#include "Colour3DPlotLayer.h"
#include "SpectrumLayer.h"
#include "SliceLayer.h"
#include "SliceableLayer.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/TextModel.h"
#include "data/model/ImageModel.h"
#include "data/model/DenseThreeDimensionalModel.h"
#include "data/model/WaveFileModel.h"
#include "data/model/WritableWaveFileModel.h"

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 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");

    default: break;
    }

    return Layer::tr("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);
    }

    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);
    types.insert(Notes);
    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 NoteLayer *>(layer)) return Notes;
    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 Text: return "text";
    case Image: return "image";
    case Colour3DPlot: return "colour3d";
    case Spectrum: return "spectrum";
    case Slice: return "spectrum";
    default: 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 Text: return "text";
    case Image: return "image";
    case Colour3DPlot: return "colour3dplot";
    case Spectrum: return "spectrum";
    case Slice: return "slice";
    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 == "notes") return Notes;
    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;

    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 == Notes) {
	return new NoteModel(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;
    }
}

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 Notes:
	layer = new NoteLayer;
	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;

    default: break;
    }

    if (!layer) {
	std::cerr << "LayerFactory::createLayer: Unknown layer type " 
		  << type << std::endl;
    } else {
//	std::cerr << "LayerFactory::createLayer: Setting object name "
//		  << getLayerPresentationName(type).toStdString() << " on " << layer << std::endl;
	layer->setObjectName(getLayerPresentationName(type));
    }

    return layer;
}