view data/model/SparseModel.h @ 1622:172bd3374adf single-point

Add (disabled by default) stress test for EventSeries
author Chris Cannam
date Mon, 11 Mar 2019 09:53:28 +0000
parents 2e14a7876945
children 628ffbb05856
line wrap: on
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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.
*/

#ifndef SV_SPARSE_MODEL_H
#define SV_SPARSE_MODEL_H

#include "Model.h"
#include "TabularModel.h"
#include "base/Command.h"
#include "base/RealTime.h"
#include "system/System.h"

#include <iostream>

#include <set>
#include <vector>
#include <algorithm>
#include <iterator>

#include <cmath>

#include <QMutex>
#include <QTextStream>

/**
 * Model containing sparse data (points with some properties).  The
 * properties depend on the point type.
 */

template <typename PointType>
class SparseModel : public Model,
                    public TabularModel
{
    // If we omit the Q_OBJECT macro, lupdate complains.

    // If we include it, moc fails (can't handle template classes).

    // If we omit it, lupdate still seems to emit translatable
    // messages for the tr() strings in here. So I guess we omit it.
    
public:
    SparseModel(sv_samplerate_t sampleRate, int resolution,
                bool notifyOnAdd = true);
    virtual ~SparseModel() { }
    
    bool isOK() const override { return true; }
    sv_frame_t getStartFrame() const override;
    sv_frame_t getEndFrame() const override;
    sv_samplerate_t getSampleRate() const override { return m_sampleRate; }

    // Number of frames of the underlying sample rate that this model
    // is capable of resolving to.  For example, if m_resolution == 10
    // then every point in this model will be at a multiple of 10
    // sample frames and should be considered to cover a window ending
    // 10 sample frames later.
    virtual int getResolution() const {
        return m_resolution ? m_resolution : 1;
    }
    virtual void setResolution(int resolution);

    // Extend the end of the model. If this is set to something beyond
    // the end of the final point in the model, then getEndFrame()
    // will return this value. Otherwise getEndFrame() will return the
    // end of the final point. (This is used by the Tony application)
    virtual void extendEndFrame(sv_frame_t to) { m_extendTo = to; }

    typedef PointType Point;
    typedef std::multiset<PointType,
                          typename PointType::OrderComparator> PointList;
    typedef typename PointList::iterator PointListIterator;
    typedef typename PointList::const_iterator PointListConstIterator;

    /**
     * Return whether the model is empty or not.
     */
    virtual bool isEmpty() const;

    /**
     * Get the total number of points in the model.
     */
    virtual int getPointCount() const;

    /**
     * Get all points.
     */
    virtual const PointList &getPoints() const;

    /**
     * Get all of the points in this model between the given
     * boundaries (in frames), as well as up to two points before and
     * after the boundaries.  If you need exact boundaries, check the
     * point coordinates in the returned list.
     */
    virtual PointList getPoints(sv_frame_t start, sv_frame_t end) const;

    /**
     * Get all points that cover the given frame number, taking the
     * resolution of the model into account.
     */
    virtual PointList getPoints(sv_frame_t frame) const;

    /**
     * Return all points that share the nearest frame number prior to
     * the given one at which there are any points.
     */
    virtual PointList getPreviousPoints(sv_frame_t frame) const;

    /**
     * Return all points that share the nearest frame number
     * subsequent to the given one at which there are any points.
     */
    virtual PointList getNextPoints(sv_frame_t frame) const;

    /**
     * Remove all points.
     */
    virtual void clear();

    /**
     * Add a point.
     */
    virtual void addPoint(const PointType &point);

    /** 
     * 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.
     */
    virtual void deletePoint(const PointType &point);

    /**
     * Return true if the given point is found in this model, false
     * otherwise.
     */
    virtual bool containsPoint(const PointType &point);
    
    bool isReady(int *completion = 0) const override {
        bool ready = isOK() && (m_completion == 100);
        if (completion) *completion = m_completion;
        return ready;
    }

    virtual void setCompletion(int completion, bool update = true);
    virtual int getCompletion() const { return m_completion; }

    virtual bool hasTextLabels() const { return m_hasTextLabels; }

    bool isSparse() const override { return true; }

    QString getTypeName() const override { return tr("Sparse"); }

    virtual QString getXmlOutputType() const { return "sparse"; }

    void toXml(QTextStream &out,
               QString indent = "",
               QString extraAttributes = "") const override;

    QString toDelimitedDataString(QString delimiter) const override {
        return toDelimitedDataStringWithOptions
            (delimiter, DataExportDefaults);
    }

    QString toDelimitedDataStringWithOptions(QString delimiter,
                                                     DataExportOptions opts) const override {
        return toDelimitedDataStringSubsetWithOptions
            (delimiter, opts,
             std::min(getStartFrame(), sv_frame_t(0)), getEndFrame());
    }

    QString toDelimitedDataStringSubset(QString delimiter, sv_frame_t f0, sv_frame_t f1) const override {
        return toDelimitedDataStringSubsetWithOptions
            (delimiter, DataExportDefaults, f0, f1);
    }

    QString toDelimitedDataStringSubsetWithOptions(QString delimiter, DataExportOptions opts, sv_frame_t f0, sv_frame_t f1) const override {
        if (opts & DataExportFillGaps) {
            return toDelimitedDataStringSubsetFilled(delimiter, opts, f0, f1);
        } else {
            QString s;
            for (PointListConstIterator i = m_points.begin(); i != m_points.end(); ++i) {
                if (i->frame >= f0 && i->frame < f1) {
                    s += i->toDelimitedDataString(delimiter, opts, m_sampleRate) + "\n";
                }
            }
            return s;
        }
    }

    /**
     * Command to add a point, with undo.
     */
    class AddPointCommand : public Command
    {
    public:
        AddPointCommand(SparseModel<PointType> *model,
                        const PointType &point,
                        QString name = "") :
            m_model(model), m_point(point), m_name(name) { }

        QString getName() const override {
            return (m_name == "" ? tr("Add Point") : m_name);
        }

        void execute() override { m_model->addPoint(m_point); }
        void unexecute() override { m_model->deletePoint(m_point); }

        const PointType &getPoint() const { return m_point; }

    private:
        SparseModel<PointType> *m_model;
        PointType m_point;
        QString m_name;
    };


    /**
     * Command to remove a point, with undo.
     */
    class DeletePointCommand : public Command
    {
    public:
        DeletePointCommand(SparseModel<PointType> *model,
                           const PointType &point) :
            m_model(model), m_point(point) { }

        QString getName() const override { return tr("Delete Point"); }

        void execute() override { m_model->deletePoint(m_point); }
        void unexecute() override { m_model->addPoint(m_point); }

        const PointType &getPoint() const { return m_point; }

    private:
        SparseModel<PointType> *m_model;
        PointType m_point;
    };

    
    /**
     * Command to add or remove a series of points, with undo.
     * Consecutive add/remove pairs for the same point are collapsed.
     */
    class EditCommand : public MacroCommand
    {
    public:
        EditCommand(SparseModel<PointType> *model, QString commandName);

        virtual void addPoint(const PointType &point);
        virtual void deletePoint(const PointType &point);

        /**
         * Stack an arbitrary other command in the same sequence.
         */
        void addCommand(Command *command) override { addCommand(command, true); }

        /**
         * If any points have been added or deleted, return this
         * command (so the caller can add it to the command history).
         * Otherwise delete the command and return NULL.
         */
        virtual EditCommand *finish();

    protected:
        virtual void addCommand(Command *command, bool executeFirst);

        SparseModel<PointType> *m_model;
    };


    /**
     * Command to relabel a point.
     */
    class RelabelCommand : public Command
    {
    public:
        RelabelCommand(SparseModel<PointType> *model,
                       const PointType &point,
                       QString newLabel) :
            m_model(model), m_oldPoint(point), m_newPoint(point) {
            m_newPoint.label = newLabel;
        }

        QString getName() const override { return tr("Re-Label Point"); }

        void execute() override { 
            m_model->deletePoint(m_oldPoint);
            m_model->addPoint(m_newPoint);
            std::swap(m_oldPoint, m_newPoint);
        }

        void unexecute() override { execute(); }

    private:
        SparseModel<PointType> *m_model;
        PointType m_oldPoint;
        PointType m_newPoint;
    };

    /**
     * TabularModel methods.  
     */

    int getRowCount() const override
    {
        return int(m_points.size());
    }

    sv_frame_t getFrameForRow(int row) const override
    {
        PointListConstIterator i = getPointListIteratorForRow(row);
        if (i == m_points.end()) return 0;
        return i->frame;
    }

    int getRowForFrame(sv_frame_t frame) const override
    {
        if (m_rows.empty()) rebuildRowVector();
        std::vector<sv_frame_t>::iterator i =
            std::lower_bound(m_rows.begin(), m_rows.end(), frame);
        ssize_t row = std::distance(m_rows.begin(), i);
        if (i != m_rows.begin() && (i == m_rows.end() || *i != frame)) {
            --row;
        }
        return int(row);
    }

    int getColumnCount() const override { return 1; }
    QVariant getData(int row, int column, int role) const override
    {
        PointListConstIterator i = getPointListIteratorForRow(row);
        if (i == m_points.end()) {
//            cerr << "no iterator for row " << row << " (have " << getRowCount() << " rows)" << endl;
            return QVariant();
        }

//        cerr << "returning data for row " << row << " col " << column << endl;
        
        switch (column) {
        case 0: {
            if (role == SortRole) return int(i->frame);
            RealTime rt = RealTime::frame2RealTime(i->frame, getSampleRate());
            if (role == Qt::EditRole) return rt.toString().c_str();
            else return rt.toText().c_str();
        }
        case 1: return int(i->frame);
        }

        return QVariant();
    }

    Command *getSetDataCommand(int row, int column,
                               const QVariant &value, int role) override
    {
        if (role != Qt::EditRole) return 0;
        PointListIterator 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 0: point.frame = lrint(value.toDouble() * getSampleRate()); break;
        case 1: point.frame = value.toInt(); break; 
        }

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

    Command *getInsertRowCommand(int row) override
    {
        EditCommand *command = new EditCommand(this, tr("Insert Data Point"));
        Point point(0);
        PointListIterator i = getPointListIteratorForRow(row);
        if (i == m_points.end() && i != m_points.begin()) --i;
        if (i != m_points.end()) point = *i;
        command->addPoint(point);
        return command->finish();
    }
            
    Command *getRemoveRowCommand(int row) override
    {
        PointListIterator i = getPointListIteratorForRow(row);
        if (i == m_points.end()) return 0;
        EditCommand *command = new EditCommand(this, tr("Delete Data Point"));
        command->deletePoint(*i);
        return command->finish();
    }
            
protected:
    sv_samplerate_t m_sampleRate;
    int m_resolution;
    sv_frame_t m_extendTo;
    bool m_notifyOnAdd;
    sv_frame_t m_sinceLastNotifyMin;
    sv_frame_t m_sinceLastNotifyMax;
    bool m_hasTextLabels;

    PointList m_points;
    int m_pointCount;
    mutable QMutex m_mutex;
    int m_completion;

    void getPointIterators(sv_frame_t frame,
                           PointListIterator &startItr,
                           PointListIterator &endItr);
    void getPointIterators(sv_frame_t frame,
                           PointListConstIterator &startItr,
                           PointListConstIterator &endItr) const;

    // This is only used if the model is called on to act in
    // TabularModel mode
    mutable std::vector<sv_frame_t> m_rows; // map from row number to frame

    void rebuildRowVector() const
    {
        m_rows.clear();
        for (PointListConstIterator i = m_points.begin(); i != m_points.end(); ++i) {
//            std::cerr << "rebuildRowVector: row " << m_rows.size() << " -> " << i->frame << std::endl;
            m_rows.push_back(i->frame);
        }
    }

    PointListIterator getPointListIteratorForRow(int row)
    {
        if (m_rows.empty()) rebuildRowVector();
        if (row < 0 || row + 1 > int(m_rows.size())) return m_points.end();

        sv_frame_t frame = m_rows[row];
        int indexAtFrame = 0;
        int ri = row;
        while (ri > 0 && m_rows[ri-1] == m_rows[row]) { --ri; ++indexAtFrame; }
        int initialIndexAtFrame = indexAtFrame;

        PointListIterator i0, i1;
        getPointIterators(frame, i0, i1);
        PointListIterator i = i0;

        for (i = i0; i != i1; ++i) {
            if (i->frame < (int)frame) { continue; }
            if (indexAtFrame > 0) { --indexAtFrame; continue; }
            return i;
        }

        if (indexAtFrame > 0) {
            std::cerr << "WARNING: SparseModel::getPointListIteratorForRow: No iterator available for row " << row << " (frame = " << frame << ", index at frame = " << initialIndexAtFrame << ", leftover index " << indexAtFrame << ")" << std::endl;
        }
        return i;
    }

    PointListConstIterator getPointListIteratorForRow(int row) const
    {
        if (m_rows.empty()) rebuildRowVector();
        if (row < 0 || row + 1 > int(m_rows.size())) return m_points.end();

        sv_frame_t frame = m_rows[row];
        int indexAtFrame = 0;
        int ri = row;
        while (ri > 0 && m_rows[ri-1] == m_rows[row]) { --ri; ++indexAtFrame; }
        int initialIndexAtFrame = indexAtFrame;

//        std::cerr << "getPointListIteratorForRow " << row << ": initialIndexAtFrame = " << initialIndexAtFrame << " for frame " << frame << std::endl;

        PointListConstIterator i0, i1;
        getPointIterators(frame, i0, i1);
        PointListConstIterator i = i0;

        for (i = i0; i != i1; ++i) {
//            std::cerr << "i->frame is " << i->frame << ", wanting " << frame << std::endl;

            if (i->frame < (int)frame) { continue; }
            if (indexAtFrame > 0) { --indexAtFrame; continue; }
            return i;
        }
/*
        if (i == m_points.end()) {
            std::cerr << "returning i at end" << std::endl;
        } else {
            std::cerr << "returning i with i->frame = " << i->frame << std::endl;
        }
*/
        if (indexAtFrame > 0) {
            std::cerr << "WARNING: SparseModel::getPointListIteratorForRow: No iterator available for row " << row << " (frame = " << frame << ", index at frame = " << initialIndexAtFrame << ", leftover index " << indexAtFrame << ")" << std::endl;
        }
        return i;
    }

    QString toDelimitedDataStringSubsetFilled(QString delimiter,
                                              DataExportOptions opts,
                                              sv_frame_t f0,
                                              sv_frame_t f1) const {

        QString s;
        opts &= ~DataExportFillGaps;

        // find frame time of first point in range (if any)
        sv_frame_t first = f0;
        for (auto &p: m_points) {
            if (p.frame >= f0) {
                first = p.frame;
                break;
            }
        }

        // project back to first frame time in range according to
        // resolution.  e.g. if f0 = 2, first = 9, resolution = 4 then
        // we start at 5 (because 1 is too early and we need to arrive
        // at 9 to match the first actual point). This method is
        // stupid but easy to understand:
        sv_frame_t f = first;
        while (f >= f0 + m_resolution) f -= m_resolution;
        
        // now progress, either writing the next point (if within
        // distance) or a default point
        PointListConstIterator itr = m_points.begin();

        while (f < f1) {
            if (itr != m_points.end() && itr->frame <= f) {
                s += itr->toDelimitedDataString(delimiter, opts, m_sampleRate);
                ++itr;
            } else {
                s += Point(f).toDelimitedDataString(delimiter, opts, m_sampleRate);
            }
            s += "\n";
            f += m_resolution;
        }

        return s;
    }
};


template <typename PointType>
SparseModel<PointType>::SparseModel(sv_samplerate_t sampleRate,
                                    int resolution,
                                    bool notifyOnAdd) :
    m_sampleRate(sampleRate),
    m_resolution(resolution),
    m_extendTo(0),
    m_notifyOnAdd(notifyOnAdd),
    m_sinceLastNotifyMin(-1),
    m_sinceLastNotifyMax(-1),
    m_hasTextLabels(false),
    m_pointCount(0),
    m_completion(100)
{
}

template <typename PointType>
sv_frame_t
SparseModel<PointType>::getStartFrame() const
{
    QMutexLocker locker(&m_mutex);
    sv_frame_t f = 0;
    if (!m_points.empty()) {
        f = m_points.begin()->frame;
    }
    return f;
}

template <typename PointType>
sv_frame_t
SparseModel<PointType>::getEndFrame() const
{
    QMutexLocker locker(&m_mutex);
    sv_frame_t f = 0;
    if (!m_points.empty()) {
        PointListConstIterator i(m_points.end());
        f = (--i)->frame + getResolution();
    }
    if (m_extendTo > f) {
        return m_extendTo;
    } else {
        return f;
    }
}

template <typename PointType>
bool
SparseModel<PointType>::isEmpty() const
{
    return m_pointCount == 0;
}

template <typename PointType>
int
SparseModel<PointType>::getPointCount() const
{
    return m_pointCount;
}

template <typename PointType>
const typename SparseModel<PointType>::PointList &
SparseModel<PointType>::getPoints() const
{
    return m_points;
}

template <typename PointType>
typename SparseModel<PointType>::PointList
SparseModel<PointType>::getPoints(sv_frame_t start, sv_frame_t end) const
{
    if (start > end) return PointList();
    QMutexLocker locker(&m_mutex);

    PointType startPoint(start), endPoint(end);
    
    PointListConstIterator startItr = m_points.lower_bound(startPoint);
    PointListConstIterator   endItr = m_points.upper_bound(endPoint);

    if (startItr != m_points.begin()) --startItr;
    if (startItr != m_points.begin()) --startItr;
    if (endItr != m_points.end()) ++endItr;
    if (endItr != m_points.end()) ++endItr;

    PointList rv;

    for (PointListConstIterator i = startItr; i != endItr; ++i) {
        rv.insert(*i);
    }

    return rv;
}

template <typename PointType>
typename SparseModel<PointType>::PointList
SparseModel<PointType>::getPoints(sv_frame_t frame) const
{
    PointListConstIterator startItr, endItr;
    getPointIterators(frame, startItr, endItr);

    PointList rv;

    for (PointListConstIterator i = startItr; i != endItr; ++i) {
        rv.insert(*i);
    }

    return rv;
}

template <typename PointType>
void
SparseModel<PointType>::getPointIterators(sv_frame_t frame,
                                          PointListIterator &startItr,
                                          PointListIterator &endItr)
{
    QMutexLocker locker(&m_mutex);

    if (m_resolution == 0) {
        startItr = m_points.end();
        endItr = m_points.end();
        return;
    }

    sv_frame_t start = (frame / m_resolution) * m_resolution;
    sv_frame_t end = start + m_resolution;

    PointType startPoint(start), endPoint(end);

    startItr = m_points.lower_bound(startPoint);
      endItr = m_points.upper_bound(endPoint);
}

template <typename PointType>
void
SparseModel<PointType>::getPointIterators(sv_frame_t frame,
                                          PointListConstIterator &startItr,
                                          PointListConstIterator &endItr) const
{
    QMutexLocker locker(&m_mutex);

    if (m_resolution == 0) {
//        std::cerr << "getPointIterators: resolution == 0, returning end()" << std::endl;
        startItr = m_points.end();
        endItr = m_points.end();
        return;
    }

    sv_frame_t start = (frame / m_resolution) * m_resolution;
    sv_frame_t end = start + m_resolution;

    PointType startPoint(start), endPoint(end);
    
//    std::cerr << "getPointIterators: start frame " << start << ", end frame " << end << ", m_resolution " << m_resolution << std::endl;

    startItr = m_points.lower_bound(startPoint);
      endItr = m_points.upper_bound(endPoint);
}

template <typename PointType>
typename SparseModel<PointType>::PointList
SparseModel<PointType>::getPreviousPoints(sv_frame_t originFrame) const
{
    QMutexLocker locker(&m_mutex);

    PointType lookupPoint(originFrame);
    PointList rv;

    PointListConstIterator i = m_points.lower_bound(lookupPoint);
    if (i == m_points.begin()) return rv;

    --i;
    sv_frame_t frame = i->frame;
    while (i->frame == frame) {
        rv.insert(*i);
        if (i == m_points.begin()) break;
        --i;
    }

    return rv;
}
 
template <typename PointType>
typename SparseModel<PointType>::PointList
SparseModel<PointType>::getNextPoints(sv_frame_t originFrame) const
{
    QMutexLocker locker(&m_mutex);

    PointType lookupPoint(originFrame);
    PointList rv;

    PointListConstIterator i = m_points.upper_bound(lookupPoint);
    if (i == m_points.end()) return rv;

    sv_frame_t frame = i->frame;
    while (i != m_points.end() && i->frame == frame) {
        rv.insert(*i);
        ++i;
    }

    return rv;
}

template <typename PointType>
void
SparseModel<PointType>::setResolution(int resolution)
{
    {
        QMutexLocker locker(&m_mutex);
        m_resolution = resolution;
        m_rows.clear();
    }
    emit modelChanged();
}

template <typename PointType>
void
SparseModel<PointType>::clear()
{
    {
        QMutexLocker locker(&m_mutex);
        m_points.clear();
        m_pointCount = 0;
        m_rows.clear();
    }
    emit modelChanged();
}

template <typename PointType>
void
SparseModel<PointType>::addPoint(const PointType &point)
{
    {
        QMutexLocker locker(&m_mutex);

        m_points.insert(point);
        m_pointCount++;
        if (point.getLabel() != "") m_hasTextLabels = true;

        // Even though this model is nominally sparse, there may still
        // be too many signals going on here (especially as they'll
        // probably be queued from one thread to another), which is
        // why we need the notifyOnAdd as an option rather than a
        // necessity (the alternative is to notify on setCompletion).

        if (m_notifyOnAdd) {
            m_rows.clear(); //!!! inefficient
        } else {
            if (m_sinceLastNotifyMin == -1 ||
                point.frame < m_sinceLastNotifyMin) {
                m_sinceLastNotifyMin = point.frame;
            }
            if (m_sinceLastNotifyMax == -1 ||
                point.frame > m_sinceLastNotifyMax) {
                m_sinceLastNotifyMax = point.frame;
            }
        }
    }

    if (m_notifyOnAdd) {
        emit modelChangedWithin(point.frame, point.frame + m_resolution);
    }
}

template <typename PointType>
bool
SparseModel<PointType>::containsPoint(const PointType &point)
{
    QMutexLocker locker(&m_mutex);

    PointListIterator i = m_points.lower_bound(point);
    typename PointType::Comparator comparator;
    while (i != m_points.end()) {
        if (i->frame > point.frame) break;
        if (!comparator(*i, point) && !comparator(point, *i)) {
            return true;
        }
        ++i;
    }

    return false;
}

template <typename PointType>
void
SparseModel<PointType>::deletePoint(const PointType &point)
{
    {
        QMutexLocker locker(&m_mutex);

        PointListIterator i = m_points.lower_bound(point);
        typename PointType::Comparator comparator;
        while (i != m_points.end()) {
            if (i->frame > point.frame) break;
            if (!comparator(*i, point) && !comparator(point, *i)) {
                m_points.erase(i);
                m_pointCount--;
                break;
            }
            ++i;
        }

//    std::cout << "SparseOneDimensionalModel: emit modelChanged("
//              << point.frame << ")" << std::endl;
        m_rows.clear(); //!!! inefficient
    }
    
    emit modelChangedWithin(point.frame, point.frame + m_resolution);
}

template <typename PointType>
void
SparseModel<PointType>::setCompletion(int completion, bool update)
{
//    std::cerr << "SparseModel::setCompletion(" << completion << ")" << std::endl;
    bool emitCompletionChanged = true;
    bool emitGeneralModelChanged = false;
    bool emitRegionChanged = false;

    {
        QMutexLocker locker(&m_mutex);

        if (m_completion != completion) {
            m_completion = completion;

            if (completion == 100) {

                if (m_notifyOnAdd) {
                    emitCompletionChanged = false;
                }

                m_notifyOnAdd = true; // henceforth
                m_rows.clear(); //!!! inefficient
                emitGeneralModelChanged = true;

            } else if (!m_notifyOnAdd) {

                if (update &&
                    m_sinceLastNotifyMin >= 0 &&
                    m_sinceLastNotifyMax >= 0) {
                    m_rows.clear(); //!!! inefficient
                    emitRegionChanged = true;
                }
            }
        }
    }

    if (emitCompletionChanged) {
        emit completionChanged();
    }
    if (emitGeneralModelChanged) {
        emit modelChanged();
    }
    if (emitRegionChanged) {
        emit modelChangedWithin(m_sinceLastNotifyMin, m_sinceLastNotifyMax);
        m_sinceLastNotifyMin = m_sinceLastNotifyMax = -1;
    }
}

template <typename PointType>
void
SparseModel<PointType>::toXml(QTextStream &out,
                              QString indent,
                              QString extraAttributes) const
{
//    std::cerr << "SparseModel::toXml: extraAttributes = \"" 
//              << extraAttributes.toStdString() << std::endl;

    QString type = getXmlOutputType();

    Model::toXml
        (out,
         indent,
         QString("type=\"%1\" dimensions=\"%2\" resolution=\"%3\" notifyOnAdd=\"%4\" dataset=\"%5\" %6")
         .arg(type)
         .arg(PointType(0).getDimensions())
         .arg(m_resolution)
         .arg(m_notifyOnAdd ? "true" : "false")
         .arg(getObjectExportId(&m_points))
         .arg(extraAttributes));

    out << indent;
    out << QString("<dataset id=\"%1\" dimensions=\"%2\">\n")
        .arg(getObjectExportId(&m_points))
        .arg(PointType(0).getDimensions());

    for (PointListConstIterator i = m_points.begin(); i != m_points.end(); ++i) {
        i->toXml(out, indent + "  ");
    }

    out << indent;
    out << "</dataset>\n";
}

template <typename PointType>
SparseModel<PointType>::EditCommand::EditCommand(SparseModel *model,
                                                 QString commandName) :
    MacroCommand(commandName),
    m_model(model)
{
}

template <typename PointType>
void
SparseModel<PointType>::EditCommand::addPoint(const PointType &point)
{
    addCommand(new AddPointCommand(m_model, point), true);
}

template <typename PointType>
void
SparseModel<PointType>::EditCommand::deletePoint(const PointType &point)
{
    addCommand(new DeletePointCommand(m_model, point), true);
}

template <typename PointType>
typename SparseModel<PointType>::EditCommand *
SparseModel<PointType>::EditCommand::finish()
{
    if (!m_commands.empty()) {
        return this;
    } else {
        delete this;
        return 0;
    }
}

template <typename PointType>
void
SparseModel<PointType>::EditCommand::addCommand(Command *command,
                                                bool executeFirst)
{
    if (executeFirst) command->execute();

    if (!m_commands.empty()) {
        DeletePointCommand *dpc = dynamic_cast<DeletePointCommand *>(command);
        if (dpc) {
            AddPointCommand *apc = dynamic_cast<AddPointCommand *>
                (m_commands[m_commands.size() - 1]);
            typename PointType::Comparator comparator;
            if (apc) {
                if (!comparator(apc->getPoint(), dpc->getPoint()) &&
                    !comparator(dpc->getPoint(), apc->getPoint())) {
                    deleteCommand(apc);
                    return;
                }
            }
        }
    }

    MacroCommand::addCommand(command);
}


#endif