Mercurial > hg > svcore

view data/model/FlexiNoteModel.h @ 1196:c7b9c902642f spectrogram-minor-refactor

Find changesets by keywords (author, files, the commit message), revision number or hash, or revset expression.
Fix threshold in spectrogram -- it wasn't working in the last release. There is a new protocol for this. Formerly the threshold parameter had a range from -50dB to 0 with the default at -50, and -50 treated internally as "no threshold". However, there was a hardcoded, hidden internal threshold for spectrogram colour mapping at -80dB with anything below this being rounded to zero. Now the threshold parameter has range -81 to -1 with the default at -80, -81 is treated internally as "no threshold", and there is no hidden internal threshold. So the default behaviour is the same as before, an effective -80dB threshold, but it is now possible to change this in both directions. Sessions reloaded from prior versions may look slightly different because, if the session says there should be no threshold, there will now actually be no threshold instead of having the hidden internal one. Still need to do something in the UI to make it apparent that the -81dB setting removes the threshold entirely. This is at least no worse than the previous, also obscured, magic -50dB setting.
author Chris Cannam
date Mon, 01 Aug 2016 16:21:01 +0100
parents 57633d605547
children 48e9f538e6e9
line wrap: on
line source
/* -*- 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.
*/

#ifndef _FLEXINOTE_MODEL_H_
#define _FLEXINOTE_MODEL_H_

#include "IntervalModel.h"
#include "NoteData.h"
#include "base/RealTime.h"
#include "base/Pitch.h"
#include "base/PlayParameterRepository.h"

/**
 * FlexiNoteModel -- a concrete IntervalModel for notes.
 */

/**
 * Extension of the NoteModel for more flexible note interaction. 
 * The original NoteModel rationale is given below, will need to be
 * updated for FlexiNoteModel:
 *
 * Note type for use in a sparse model.  All we mean by a "note" is
 * something that has an onset time, a single value, a duration, and a
 * level.  Like other points, it can also have a label.  With this
 * point type, the model can be thought of as representing a simple
 * MIDI-type piano roll, except that the y coordinates (values) do not
 * have to be discrete integers.
 */

struct FlexiNote
{
public:
    FlexiNote(sv_frame_t _frame) : frame(_frame), value(0.0f), duration(0), level(1.f) { }
    FlexiNote(sv_frame_t _frame, float _value, sv_frame_t _duration, float _level, QString _label) :
	frame(_frame), value(_value), duration(_duration), level(_level), label(_label) { }

    int getDimensions() const { return 3; }

    sv_frame_t frame;
    float value;
    sv_frame_t duration;
    float level;
    QString label;

    QString getLabel() const { return label; }
    
    void toXml(QTextStream &stream,
               QString indent = "",
               QString extraAttributes = "") const
    {
	stream <<
            QString("%1<point frame=\"%2\" value=\"%3\" duration=\"%4\" level=\"%5\" label=\"%6\" %7/>\n")
	    .arg(indent).arg(frame).arg(value).arg(duration).arg(level)
            .arg(XmlExportable::encodeEntities(label)).arg(extraAttributes);
    }

    QString toDelimitedDataString(QString delimiter, DataExportOptions opts, sv_samplerate_t sampleRate) const
    {
        QStringList list;
        list << RealTime::frame2RealTime(frame, sampleRate).toString().c_str();
        list << QString("%1").arg(value);
        list << RealTime::frame2RealTime(duration, sampleRate).toString().c_str();
        if (!(opts & DataExportOmitLevels)) {
            list << QString("%1").arg(level);
        }
        if (label != "") list << label;
        return list.join(delimiter);
    }

    struct Comparator {
	bool operator()(const FlexiNote &p1,
			const FlexiNote &p2) const {
	    if (p1.frame != p2.frame) return p1.frame < p2.frame;
	    if (p1.value != p2.value) return p1.value < p2.value;
	    if (p1.duration != p2.duration) return p1.duration < p2.duration;
            if (p1.level != p2.level) return p1.level < p2.level;
	    return p1.label < p2.label;
	}
    };
    
    struct OrderComparator {
	bool operator()(const FlexiNote &p1,
			const FlexiNote &p2) const {
	    return p1.frame < p2.frame;
	}
    };
};


class FlexiNoteModel : public IntervalModel<FlexiNote>, public NoteExportable
{
    Q_OBJECT
    
public:
    FlexiNoteModel(sv_samplerate_t sampleRate, int resolution,
                   bool notifyOnAdd = true) :
	IntervalModel<FlexiNote>(sampleRate, resolution, notifyOnAdd),
	m_valueQuantization(0)
    {
	PlayParameterRepository::getInstance()->addPlayable(this);
    }

    FlexiNoteModel(sv_samplerate_t sampleRate, int resolution,
	      float valueMinimum, float valueMaximum,
	      bool notifyOnAdd = true) :
	IntervalModel<FlexiNote>(sampleRate, resolution,
                            valueMinimum, valueMaximum,
                            notifyOnAdd),
	m_valueQuantization(0)
    {
	PlayParameterRepository::getInstance()->addPlayable(this);
    }

    virtual ~FlexiNoteModel()
    {
        PlayParameterRepository::getInstance()->removePlayable(this);
    }

    float getValueQuantization() const { return m_valueQuantization; }
    void setValueQuantization(float q) { m_valueQuantization = q; }
    float getValueMinimum() const { return 33; }
    float getValueMaximum() const { return 88; }

    QString getTypeName() const { return tr("FlexiNote"); }

    virtual bool canPlay() const { return true; }

    virtual QString getDefaultPlayClipId() const
    {
        return "elecpiano";
    }

    virtual void toXml(QTextStream &out,
                       QString indent = "",
                       QString extraAttributes = "") const
    {
        std::cerr << "FlexiNoteModel::toXml: extraAttributes = \"" 
                  << extraAttributes.toStdString() << std::endl;

        IntervalModel<FlexiNote>::toXml
	    (out,
             indent,
	     QString("%1 subtype=\"flexinote\" valueQuantization=\"%2\"")
	     .arg(extraAttributes).arg(m_valueQuantization));
    }

    /**
     * TabularModel methods.  
     */
    
    virtual int getColumnCount() const
    {
        return 6;
    }

    virtual QString getHeading(int column) const
    {
        switch (column) {
        case 0: return tr("Time");
        case 1: return tr("Frame");
        case 2: return tr("Pitch");
        case 3: return tr("Duration");
        case 4: return tr("Level");
        case 5: return tr("Label");
        default: return tr("Unknown");
        }
    }

    virtual QVariant getData(int row, int column, int role) const
    {
        if (column < 4) {
            return IntervalModel<FlexiNote>::getData(row, column, role);
        }

        PointListConstIterator i = getPointListIteratorForRow(row);
        if (i == m_points.end()) return QVariant();

        switch (column) {
        case 4: return i->level;
        case 5: return i->label;
        default: return QVariant();
        }
    }

    virtual Command *getSetDataCommand(int row, int column, const QVariant &value, int role)
    {
        if (column < 4) {
            return IntervalModel<FlexiNote>::getSetDataCommand
                (row, column, value, role);
        }

        if (role != Qt::EditRole) return 0;
        PointListConstIterator i = getPointListIteratorForRow(row);
        if (i == m_points.end()) return 0;
        EditCommand *command = new EditCommand(this, tr("Edit Data"));

        Point point(*i);
        command->deletePoint(point);

        switch (column) {
        case 4: point.level = float(value.toDouble()); break;
        case 5: point.label = value.toString(); break;
        }

        command->addPoint(point);
        return command->finish();
    }

    virtual SortType getSortType(int column) const
    {
        if (column == 5) return SortAlphabetical;
        return SortNumeric;
    }

    /**
     * NoteExportable methods.
     */

    NoteList getNotes() const 
    {
        return getNotesWithin(getStartFrame(), getEndFrame());
    }

    NoteList getNotesWithin(sv_frame_t startFrame, sv_frame_t endFrame) const 
    {    
    	PointList points = getPoints(startFrame, endFrame);
        NoteList notes;
        for (PointList::iterator pli = points.begin(); pli != points.end(); ++pli) {
    	    sv_frame_t duration = pli->duration;
            if (duration == 0 || duration == 1) {
                duration = sv_frame_t(getSampleRate() / 20);
            }
            int pitch = int(lrintf(pli->value));

            int velocity = 100;
            if (pli->level > 0.f && pli->level <= 1.f) {
                velocity = int(lrintf(pli->level * 127));
            }

            NoteData note(pli->frame, duration, pitch, velocity);

            if (getScaleUnits() == "Hz") {
                note.frequency = pli->value;
                note.midiPitch = Pitch::getPitchForFrequency(note.frequency);
                note.isMidiPitchQuantized = false;
            }
            notes.push_back(note);
        }
        return notes;
    }

protected:
    float m_valueQuantization;
};

#endif