/* -*- 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 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_TIME_VALUE_MODEL_H
#define SV_SPARSE_TIME_VALUE_MODEL_H

#include "EventCommands.h"
#include "TabularModel.h"
#include "Model.h"
#include "DeferredNotifier.h"

#include "base/RealTime.h"
#include "base/EventSeries.h"
#include "base/UnitDatabase.h"
#include "base/PlayParameterRepository.h"

#include "system/System.h"

namespace sv {

/**
 * A model representing a wiggly-line plot with points at arbitrary
 * intervals of the model resolution.
 */
class SparseTimeValueModel : public Model,
                             public TabularModel,
                             public EventEditable
{
    Q_OBJECT
    
public:
    SparseTimeValueModel(sv_samplerate_t sampleRate,
                         int resolution,
                         bool notifyOnAdd = true) :
        m_sampleRate(sampleRate),
        m_resolution(resolution),
        m_valueMinimum(0.f),
        m_valueMaximum(0.f),
        m_haveExtents(false),
        m_haveTextLabels(false),
        m_notifier(this,
                   getId(),
                   notifyOnAdd ?
                   DeferredNotifier::NOTIFY_ALWAYS :
                   DeferredNotifier::NOTIFY_DEFERRED),
        m_completion(100) {
        // Model is playable, but may not sound (if units not Hz or
        // range unsuitable)
        PlayParameterRepository::getInstance()->addPlayable
            (getId().untyped, this);
    }

    SparseTimeValueModel(sv_samplerate_t sampleRate, int resolution,
                         float valueMinimum, float valueMaximum,
                         bool notifyOnAdd = true) :
        m_sampleRate(sampleRate),
        m_resolution(resolution),
        m_valueMinimum(valueMinimum),
        m_valueMaximum(valueMaximum),
        m_haveExtents(true),
        m_haveTextLabels(false),
        m_notifier(this,
                   getId(),
                   notifyOnAdd ?
                   DeferredNotifier::NOTIFY_ALWAYS :
                   DeferredNotifier::NOTIFY_DEFERRED),
        m_completion(100) {
        // Model is playable, but may not sound (if units not Hz or
        // range unsuitable)
        PlayParameterRepository::getInstance()->addPlayable
            (getId().untyped, this);
    }

    virtual ~SparseTimeValueModel() {
        PlayParameterRepository::getInstance()->removePlayable
            (getId().untyped);
    }

    QString getTypeName() const override { return tr("Sparse Time-Value"); }
    bool isSparse() const override { return true; }
    bool isOK() const override { return true; }

    sv_frame_t getStartFrame() const override {
        return m_events.getStartFrame();
    }
    sv_frame_t getTrueEndFrame() const override {
        if (m_events.isEmpty()) return 0;
        sv_frame_t e = m_events.getEndFrame() + 1;
        if (e % m_resolution == 0) return e;
        else return (e / m_resolution + 1) * m_resolution;
    }
    
    sv_samplerate_t getSampleRate() const override { return m_sampleRate; }
    int getResolution() const { return m_resolution; }

    bool canPlay() const override { return true; }
    bool getDefaultPlayAudible() const override { return false; } // user must unmute

    QString getScaleUnits() const {
        QMutexLocker locker(&m_mutex);
        return m_units;
    }
    void setScaleUnits(QString units) {
        QMutexLocker locker(&m_mutex);
        m_units = units;
        UnitDatabase::getInstance()->registerUnit(units);
    }

    bool hasTextLabels() const { return m_haveTextLabels; }
    
    float getValueMinimum() const { return m_valueMinimum; }
    float getValueMaximum() const { return m_valueMaximum; }
    
    int getCompletion() const override { return m_completion; }

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

        if (update) {
            m_notifier.makeDeferredNotifications();
        }
        
        emit completionChanged(getId());

        if (completion == 100) {
            // henceforth:
            m_notifier.switchMode(DeferredNotifier::NOTIFY_ALWAYS);
            emit modelChanged(getId());
            emit ready(getId());
        }
    }
    
    /**
     * Query methods.
     */

    int getEventCount() const {
        return m_events.count();
    }
    bool isEmpty() const {
        return m_events.isEmpty();
    }
    bool containsEvent(const Event &e) const {
        return m_events.contains(e);
    }
    EventVector getAllEvents() const {
        return m_events.getAllEvents();
    }
    EventVector getEventsSpanning(sv_frame_t f, sv_frame_t duration) const {
        return m_events.getEventsSpanning(f, duration);
    }
    EventVector getEventsCovering(sv_frame_t f) const {
        return m_events.getEventsCovering(f);
    }
    EventVector getEventsWithin(sv_frame_t f, sv_frame_t duration,
                                int overspill = 0) const {
        return m_events.getEventsWithin(f, duration, overspill);
    }
    EventVector getEventsStartingWithin(sv_frame_t f, sv_frame_t duration) const {
        return m_events.getEventsStartingWithin(f, duration);
    }
    EventVector getEventsStartingAt(sv_frame_t f) const {
        return m_events.getEventsStartingAt(f);
    }
    bool getNearestEventMatching(sv_frame_t startSearchAt,
                                 std::function<bool(Event)> predicate,
                                 EventSeries::Direction direction,
                                 Event &found) const {
        return m_events.getNearestEventMatching
            (startSearchAt, predicate, direction, found);
    }
    
    /**
     * Editing methods.
     */
    void add(Event e) override {

        bool allChange = false;
           
        m_events.add(e.withoutDuration()); // can't have duration here

        if (e.getLabel() != "") {
            m_haveTextLabels = true;
        }

        float v = e.getValue();
        if (!std::isnan(v) && !std::isinf(v)) {
            if (!m_haveExtents || v < m_valueMinimum) {
                m_valueMinimum = v; allChange = true;
            }
            if (!m_haveExtents || v > m_valueMaximum) {
                m_valueMaximum = v; allChange = true;
            }
            m_haveExtents = true;
        }
        
        m_notifier.update(e.getFrame(), m_resolution);

        if (allChange) {
            emit modelChanged(getId());
        }
    }
    
    void remove(Event e) override {
        m_events.remove(e);
        emit modelChangedWithin(getId(),
                                e.getFrame(), e.getFrame() + m_resolution);
    }
    
    /**
     * TabularModel methods.  
     */
    
    int getRowCount() const override {
        return m_events.count();
    }

    int getColumnCount() const override {
        return 4;
    }

    bool isColumnTimeValue(int column) const override {
        return (column < 2);
    }

    sv_frame_t getFrameForRow(int row) const override {
        if (row < 0 || row >= m_events.count()) {
            return 0;
        }
        Event e = m_events.getEventByIndex(row);
        return e.getFrame();
    }

    int getRowForFrame(sv_frame_t frame) const override {
        return m_events.getIndexForEvent(Event(frame));
    }
    
    QString getHeading(int column) const override {
        switch (column) {
        case 0: return tr("Time");
        case 1: return tr("Frame");
        case 2: return tr("Value");
        case 3: return tr("Label");
        default: return tr("Unknown");
        }
    }

    SortType getSortType(int column) const override {
        if (column == 3) return SortAlphabetical;
        return SortNumeric;
    }

    QVariant getData(int row, int column, int role) const override {
        
        if (row < 0 || row >= m_events.count()) {
            return QVariant();
        }

        Event e = m_events.getEventByIndex(row);

        switch (column) {
        case 0: return adaptFrameForRole(e.getFrame(), getSampleRate(), role);
        case 1: return int(e.getFrame());
        case 2: return adaptValueForRole(e.getValue(), getScaleUnits(), role);
        case 3: return e.getLabel();
        default: return QVariant();
        }
    }

    bool isEditable() const override { return true; }

    Command *getSetDataCommand(int row, int column, const QVariant &value,
                               int role) override {
        if (row < 0 || row >= m_events.count()) return nullptr;
        if (role != Qt::EditRole) return nullptr;

        Event e0 = m_events.getEventByIndex(row);
        Event e1;

        switch (column) {
        case 0: e1 = e0.withFrame(sv_frame_t(round(value.toDouble() *
                                                   getSampleRate()))); break;
        case 1: e1 = e0.withFrame(value.toInt()); break;
        case 2: e1 = e0.withValue(float(value.toDouble())); break;
        case 3: e1 = e0.withLabel(value.toString()); break;
        }

        auto command = new ChangeEventsCommand(getId().untyped, tr("Edit Data"));
        command->remove(e0);
        command->add(e1);
        return command->finish();
    }

    Command *getInsertRowCommand(int row) override {
        if (row < 0 || row >= m_events.count()) return nullptr;
        auto command = new ChangeEventsCommand(getId().untyped,
                                               tr("Add Point"));
        Event e = m_events.getEventByIndex(row);
        command->add(e);
        return command->finish();
    }

    Command *getRemoveRowCommand(int row) override {
        if (row < 0 || row >= m_events.count()) return nullptr;
        auto command = new ChangeEventsCommand(getId().untyped,
                                               tr("Delete Point"));
        Event e = m_events.getEventByIndex(row);
        command->remove(e);
        return command->finish();
    }
    
    /**
     * XmlExportable methods.
     */
    void toXml(QTextStream &out,
               QString indent = "",
               QString extraAttributes = "") const override {

        Model::toXml
            (out,
             indent,
             QString("type=\"sparse\" dimensions=\"2\" resolution=\"%1\" "
                     "notifyOnAdd=\"%2\" dataset=\"%3\" "
                     "minimum=\"%4\" maximum=\"%5\" "
                     "units=\"%6\" %7")
             .arg(m_resolution)
             .arg("true") // always true after model reaches 100% -
                          // subsequent events are always notified
             .arg(m_events.getExportId())
             .arg(m_valueMinimum.load())
             .arg(m_valueMaximum.load())
             .arg(encodeEntities(m_units))
             .arg(extraAttributes));
        
        m_events.toXml(out, indent, QString("dimensions=\"2\""));
    }

    QVector<QString>
    getStringExportHeaders(DataExportOptions options) const override {
        return m_events.getStringExportHeaders(options, {});
    }
    
    QVector<QVector<QString>>
    toStringExportRows(DataExportOptions options,
                       sv_frame_t startFrame,
                       sv_frame_t duration) const override {
        return m_events.toStringExportRows(options,
                                           startFrame,
                                           duration,
                                           m_sampleRate,
                                           m_resolution,
                                           Event().withValue(0.f));
    }
  
protected:
    sv_samplerate_t m_sampleRate;
    int m_resolution;

    std::atomic<float> m_valueMinimum;
    std::atomic<float> m_valueMaximum;
    std::atomic<bool> m_haveExtents;
    std::atomic<bool> m_haveTextLabels;
    QString m_units;
    DeferredNotifier m_notifier;
    std::atomic<int> m_completion;

    EventSeries m_events;
};

} // end namespace sv

#endif