view data/model/Labeller.h @ 1008:d9e0e59a1581

When using an aggregate model to pass data to a transform, zero-pad the shorter input to the duration of the longer rather than truncating the longer. (This is better behaviour for e.g. MATCH, and in any case the code was previously truncating incorrectly and ending up with garbage data at the end.)
author Chris Cannam
date Fri, 14 Nov 2014 13:51:33 +0000
parents 59e7fe1b1003
children 2f49be7d4264
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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 2006-2007 Chris Cannam and QMUL.
    
    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 _LABELLER_H_
#define _LABELLER_H_

#include "SparseModel.h"
#include "SparseValueModel.h"

#include "base/Selection.h"

#include <QObject>

#include <map>
#include <iostream>

class Labeller : public QObject
{
    Q_OBJECT

public:
    enum ValueType {
        ValueNone,
        ValueFromSimpleCounter,
        ValueFromCyclicalCounter,
        ValueFromTwoLevelCounter,
        ValueFromFrameNumber,
        ValueFromRealTime,
        ValueFromDurationFromPrevious,
        ValueFromDurationToNext,
        ValueFromTempoFromPrevious,
        ValueFromTempoToNext,
        ValueFromExistingNeighbour,
        ValueFromLabel
    };

    // uses:
    //
    // 1. when adding points to a time-value model, generate values
    // for those points based on their times or labels or a counter
    //
    // 2. when adding a single point to a time-instant model, generate
    // a label for it based on its time and that of the previous point
    // or a counter
    //
    // 3. when adding a single point to a time-instant model, generate
    // a label for the previous point based on its time and that of
    // the point just added (as tempo is based on time to the next
    // point, not the previous one)
    //
    // 4. re-label a set of points that have already been added to a
    // model

    Labeller(ValueType type = ValueNone) :
        m_type(type),
        m_counter(1),
        m_counter2(1),
        m_cycle(4),
        m_dp(10),
        m_rate(0) { }

    Labeller(const Labeller &l) :
        QObject(),
        m_type(l.m_type),
        m_counter(l.m_counter),
        m_counter2(l.m_counter2),
        m_cycle(l.m_cycle),
        m_dp(l.m_dp),
        m_rate(l.m_rate) { }

    virtual ~Labeller() { }

    typedef std::map<ValueType, QString> TypeNameMap;
    TypeNameMap getTypeNames() const {
        TypeNameMap m;
        m[ValueNone]
            = tr("No numbering");
        m[ValueFromSimpleCounter]
            = tr("Simple counter");
        m[ValueFromCyclicalCounter]
            = tr("Cyclical counter");
        m[ValueFromTwoLevelCounter]
            = tr("Cyclical two-level counter (bar/beat)");
        m[ValueFromFrameNumber]
            = tr("Audio sample frame number");
        m[ValueFromRealTime]
            = tr("Time in seconds");
        m[ValueFromDurationToNext]
            = tr("Duration to the following item");
        m[ValueFromTempoToNext]
            = tr("Tempo (bpm) based on duration to following item");
        m[ValueFromDurationFromPrevious]
            = tr("Duration since the previous item");
        m[ValueFromTempoFromPrevious]
            = tr("Tempo (bpm) based on duration since previous item");
        m[ValueFromExistingNeighbour]
            = tr("Same as the nearest previous item");
        m[ValueFromLabel]
            = tr("Value extracted from the item's label (where possible)");
        return m;
    }

    ValueType getType() const { return m_type; }
    void setType(ValueType type) { m_type = type; }

    int getCounterValue() const { return m_counter; }
    void setCounterValue(int v) { m_counter = v; }

    int getSecondLevelCounterValue() const { return m_counter2; }
    void setSecondLevelCounterValue(int v) { m_counter2 = v; }

    int getCounterCycleSize() const { return m_cycle; }
    void setCounterCycleSize(int s) {
        m_cycle = s;
        m_dp = 1;
        while (s > 0) {
            s /= 10;
            m_dp *= 10;
        }
        if (m_counter > m_cycle) m_counter = 1;
    }

    void setSampleRate(float rate) { m_rate = rate; }

    void resetCounters() {
        m_counter = 1;
        m_counter2 = 1;
        m_cycle = 4;
    }

    void incrementCounter() {
        m_counter++;
        if (m_type == ValueFromCyclicalCounter ||
            m_type == ValueFromTwoLevelCounter) {
            if (m_counter > m_cycle) {
                m_counter = 1;
                m_counter2++;
            }
        }
    }

    template <typename PointType>
    void label(PointType &newPoint, PointType *prevPoint = 0) {
        if (m_type == ValueNone) {
            newPoint.label = "";
        } else if (m_type == ValueFromTwoLevelCounter) {
            newPoint.label = tr("%1.%2").arg(m_counter2).arg(m_counter);
            incrementCounter();
        } else if (m_type == ValueFromFrameNumber) {
            // avoid going through floating-point value
            newPoint.label = tr("%1").arg(newPoint.frame);
        } else {
            float value = getValueFor<PointType>(newPoint, prevPoint);
            if (actingOnPrevPoint() && prevPoint) {
                prevPoint->label = QString("%1").arg(value);
            } else {
                newPoint.label = QString("%1").arg(value);
            }
        }
    }
        
    template <typename PointType>
    void labelAll(SparseModel<PointType> &model, MultiSelection *ms) {

        typename SparseModel<PointType>::PointList::iterator i;
        typename SparseModel<PointType>::PointList pl(model.getPoints());

        typename SparseModel<PointType>::EditCommand *command =
            new typename SparseModel<PointType>::EditCommand
            (&model, tr("Label Points"));

        PointType prevPoint(0);

        for (i = pl.begin(); i != pl.end(); ++i) {

            bool inRange = true;
            if (ms) {
                Selection s(ms->getContainingSelection(i->frame, false));
                if (s.isEmpty() || !s.contains(i->frame)) {
                    inRange = false;
                }
            }

            PointType p(*i);

            if (!inRange) {
                prevPoint = p;
                continue;
            }

            if (actingOnPrevPoint()) {
                if (i != pl.begin()) {
                    command->deletePoint(prevPoint);
                    label<PointType>(p, &prevPoint);
                    command->addPoint(prevPoint);
                }
            } else {
                command->deletePoint(p);
                label<PointType>(p, &prevPoint);
                command->addPoint(p);
            }

            prevPoint = p;
        }

        command->finish();
    }

    template <typename PointType>
    void setValue(PointType &newPoint, PointType *prevPoint = 0) {
        if (m_type == ValueFromExistingNeighbour) {
            if (!prevPoint) {
                std::cerr << "ERROR: Labeller::setValue: Previous point required but not provided" << std::endl;
            } else {
                newPoint.value = prevPoint->value;
            }
        } else {
            float value = getValueFor<PointType>(newPoint, prevPoint);
            if (actingOnPrevPoint() && prevPoint) {
                prevPoint->value = value;
            } else {
                newPoint.value = value;
            }
        }
    }

    bool requiresPrevPoint() const {
        return (m_type == ValueFromDurationFromPrevious ||
                m_type == ValueFromDurationToNext ||
                m_type == ValueFromTempoFromPrevious ||
                m_type == ValueFromDurationToNext);
    }

    bool actingOnPrevPoint() const {
        return (m_type == ValueFromDurationToNext ||
                m_type == ValueFromTempoToNext);
    }

protected:
    template <typename PointType>
    float getValueFor(PointType &newPoint, PointType *prevPoint)
    {
        float value = 0.f;

        switch (m_type) {

        case ValueNone:
            value = 0;
            break;

        case ValueFromSimpleCounter:
        case ValueFromCyclicalCounter:
            value = m_counter;
            incrementCounter();
            break;

        case ValueFromTwoLevelCounter:
            value = m_counter2 + double(m_counter) / double(m_dp);
            incrementCounter();
            break;

        case ValueFromFrameNumber:
            value = newPoint.frame;
            break;
            
        case ValueFromRealTime: 
            if (m_rate == 0.f) {
                std::cerr << "ERROR: Labeller::getValueFor: Real-time conversion required, but no sample rate set" << std::endl;
            } else {
                value = float(newPoint.frame) / float(m_rate);
            }
            break;

        case ValueFromDurationToNext:
        case ValueFromTempoToNext:
        case ValueFromDurationFromPrevious:
        case ValueFromTempoFromPrevious:
            if (m_rate == 0.f) {
                std::cerr << "ERROR: Labeller::getValueFor: Real-time conversion required, but no sample rate set" << std::endl;
            } else if (!prevPoint) {
                std::cerr << "ERROR: Labeller::getValueFor: Time difference required, but only one point provided" << std::endl;
            } else {
                int f0 = prevPoint->frame, f1 = newPoint.frame;
                if (m_type == ValueFromDurationToNext ||
                    m_type == ValueFromDurationFromPrevious) {
                    value = float(f1 - f0) / m_rate;
                } else {
                    if (f1 > f0) {
                        value = (60.f * m_rate) / (f1 - f0);
                    }
                }
            }
            break;

        case ValueFromExistingNeighbour:
            // need to deal with this in the calling function, as this
            // function must handle points that don't have values to
            // read from
            break;

        case ValueFromLabel:
            if (newPoint.label != "") {
                // more forgiving than QString::toFloat()
                value = atof(newPoint.label.toLocal8Bit());
            } else {
                value = 0.f;
            }
            break;
        }

        return value;
    }

    ValueType m_type;
    int m_counter;
    int m_counter2;
    int m_cycle;
    int m_dp;
    float m_rate;
};

#endif