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RulerScale.h

/* -*- c-basic-offset: 4 indent-tabs-mode: nil -*- vi:set ts=8 sts=4 sw=4: */

/*
    Rosegarden
    A MIDI and audio sequencer and musical notation editor.
    Copyright 2000-2011 the Rosegarden development team.

    Other copyrights also apply to some parts of this work.  Please
    see the AUTHORS file and individual file headers for details.

    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 _RG_RULER_SCALE_H_
#define _RG_RULER_SCALE_H_

#include "Event.h"
#include "base/Segment.h"
#include "Selection.h"

namespace Rosegarden {

class Composition;

/**
 * RulerScale is a base for classes that may be queried in order to
 * discover the correct x-coordinates for bar lines and bar
 * subdivisions.
 *
 * RulerScale does not contain any methods that relate bar numbers
 * to times, time signature or duration -- those are in Composition.
 *
 * The methods in RulerScale should return extrapolated (but valid)
 * results even when passed a bar number outside the theoretically
 * visible or existant bar range.
 *
 * Apart from getBarPosition, every method in this class has a
 * default implementation, which should work correctly provided
 * the subclass maintains spacing proportional to time within a
 * bar, but which may not be an efficient implementation for any
 * given subclass.
 * 
 * (Potential to-do: At the moment all our RulerScales are used in
 * contexts where spacing proportional to time within a bar is the
 * only interpretation that makes sense, so this is okay.  In
 * theory though we should probably subclass out these "default"
 * implementations into an intermediate abstract class.)
 */

00054 class RulerScale
{
public:
    virtual ~RulerScale();
    Composition *getComposition() const { return m_composition; }

    /**
     * Return the number of the first visible bar.
     */
    virtual int getFirstVisibleBar() const;

    /**
     * Return the number of the last visible bar.  (The last
     * visible bar_line_ will be at the end of this bar.)
     */
    virtual int getLastVisibleBar() const;

    /**
     * Return the x-coordinate at which bar number n starts.
     */
    virtual double getBarPosition(int n) const = 0;

    /**
     * Return the width of bar number n.
     */
    virtual double getBarWidth(int n) const;

    /**
     * Return the width of each beat subdivision in bar n.
     */
    virtual double getBeatWidth(int n) const;

    /**
     * Return the number of the bar containing the given x-coord.
     */
    virtual int getBarForX(double x) const;

    /**
     * Return the nearest time value to the given x-coord.
     */
    virtual timeT getTimeForX(double x) const;

    /**
     * Return the x-coord corresponding to the given time value.
     */
    virtual double getXForTime(timeT time) const;

    /**
     * Return the duration corresponding to the given delta-x
     * starting at the given x-coord.
     */
    virtual timeT getDurationForWidth(double x, double width) const;

    /**
     * Return the width corresponding to the given duration
     * starting at the given time.
     */
    virtual double getWidthForDuration(timeT startTime, timeT duration) const;

    /**
     * Return the width of the entire scale.
     */
    virtual double getTotalWidth() const;

protected:
    RulerScale(Composition *c);
    Composition *m_composition;
};


/**
 * SimpleRulerScale is an implementation of RulerScale that maintains
 * a strict proportional correspondence between x-coordinate and time.
 */

00129 class SimpleRulerScale : public RulerScale
{
public:
    /**
     * Construct a SimpleRulerScale for the given Composition, with a
     * given origin and x-coord/time ratio.  (For example, a ratio of
     * 10 means that one pixel equals 10 time units.)
     */
    SimpleRulerScale(Composition *composition,
                     double origin, double unitsPerPixel);
    virtual ~SimpleRulerScale();

    double getOrigin() const { return m_origin; }
    void   setOrigin(double origin) { m_origin = origin; }

    double getUnitsPerPixel() const { return m_ratio; }
    void   setUnitsPerPixel(double ratio) { m_ratio = ratio; }

    virtual double getBarPosition(int n) const;
    virtual double getBarWidth(int n) const;
    virtual double getBeatWidth(int n) const;
    virtual int getBarForX(double x) const;
    virtual timeT getTimeForX(double x) const;
    virtual double getXForTime(timeT time) const;

protected:
    double m_origin;
    double m_ratio;

private:
    SimpleRulerScale(const SimpleRulerScale &ruler);
    SimpleRulerScale &operator=(const SimpleRulerScale &ruler);
};


/**
 * SegmentsRulerScale is an implementation of RulerScale covering the
 * period spanned by a set of segments, using a linear scale similar
 * to that of SimpleRulerScale.
 */
00169 class SegmentsRulerScale : public RulerScale, public SegmentObserver
{
public:
    /**
     * Construct a SegmentsRulerScale for the given set of segments
     * in the given composition.
     */
    SegmentsRulerScale(Composition *composition, SegmentSelection segments,
                       double origin, double unitsPerPixel);
    virtual ~SegmentsRulerScale();

    double getOrigin() const { return m_origin; }
    void   setOrigin(double origin) { m_origin = origin; }

    double getUnitsPerPixel() const { return m_ratio; }
    void   setUnitsPerPixel(double ratio) { m_ratio = ratio; }

    virtual int getFirstVisibleBar() const;
    virtual int getLastVisibleBar() const;
    virtual double getBarPosition(int n) const;

    void addSegment(Segment *s);

protected:
    double m_origin;
    double m_ratio;

    void segmentDeleted(const Segment *); // from SegmentObserver

    SegmentSelection m_segments;

private:
    SegmentsRulerScale(const SimpleRulerScale &ruler);
    SegmentsRulerScale &operator=(const SimpleRulerScale &ruler);
};
    

/**
 * ZoomableRulerScale uses one RulerScale to provide another one that
 * has the same underlying behaviour but additional horizontal and/or
 * vertical scaling factors.  This may be useful if the underlying
 * ruler scale is not to be modified (e.g. if one view's scale is
 * based on the possibly varying scale of another view).
 */
00213 class ZoomableRulerScale : public RulerScale
{
public:
    /**
     * Construct a ZoomableRulerScale based upon the given reference
     * scale.  The reference scale must outlive this class (this class
     * does not delete it, and does not get any notification if it is
     * deleted).
     */
    ZoomableRulerScale(const RulerScale *reference);
    virtual ~ZoomableRulerScale();

    virtual double getBarPosition(int n) const;
    virtual double getBarWidth(int n) const;
    virtual double getBeatWidth(int n) const;
    virtual int getBarForX(double x) const;
    virtual timeT getTimeForX(double x) const;
    virtual double getXForTime(timeT time) const;
    virtual int getFirstVisibleBar() const;
    virtual int getLastVisibleBar() const;

    void setXZoomFactor(double f) { m_xfactor = f; }
    double getXZoomFactor() const { return m_xfactor; }

    void setYZoomFactor(double f) { m_yfactor = f; }
    double getYZoomFactor() const { return m_yfactor; }

protected:
    const RulerScale *m_reference;
    double m_xfactor;
    double m_yfactor;

private:
    ZoomableRulerScale(const ZoomableRulerScale &ruler);
    ZoomableRulerScale &operator=(const ZoomableRulerScale &ruler);
};    


}

#endif

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