view layer/TimeRulerLayer.cpp @ 1024:3bce4c45b681 spectrogram-minor-refactor

Rearrange cache update calculations so as to use the actual painted width returned by paint functions (though they only ever return the same width as requested, at this point)
author Chris Cannam
date Mon, 25 Jan 2016 15:52:26 +0000
parents 33d7e1a6747b
children ee01a4062747
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.
*/

#include "TimeRulerLayer.h"

#include "LayerFactory.h"

#include "data/model/Model.h"
#include "base/RealTime.h"
#include "ColourDatabase.h"
#include "view/View.h"

#include <QPainter>

#include <iostream>
#include <cmath>
#include <stdexcept>

//#define DEBUG_TIME_RULER_LAYER 1


TimeRulerLayer::TimeRulerLayer() :
    SingleColourLayer(),
    m_model(0),
    m_labelHeight(LabelTop)
{
    
}

void
TimeRulerLayer::setModel(Model *model)
{
    if (m_model == model) return;
    m_model = model;
    emit modelReplaced();
}

bool
TimeRulerLayer::snapToFeatureFrame(LayerGeometryProvider *v, sv_frame_t &frame,
                                   int &resolution, SnapType snap) const
{
    if (!m_model) {
        resolution = 1;
        return false;
    }

    bool q;
    int tick = getMajorTickSpacing(v, q);
    RealTime rtick = RealTime::fromMilliseconds(tick);
    sv_samplerate_t rate = m_model->getSampleRate();
    
    RealTime rt = RealTime::frame2RealTime(frame, rate);
    double ratio = rt / rtick;

    int rounded = int(ratio);
    RealTime rdrt = rtick * rounded;

    sv_frame_t left = RealTime::realTime2Frame(rdrt, rate);
    resolution = int(RealTime::realTime2Frame(rtick, rate));
    sv_frame_t right = left + resolution;

//    SVDEBUG << "TimeRulerLayer::snapToFeatureFrame: type "
//              << int(snap) << ", frame " << frame << " (time "
//              << rt << ", tick " << rtick << ", rounded " << rdrt << ") ";

    switch (snap) {

    case SnapLeft:
        frame = left;
        break;

    case SnapRight:
        frame = right;
        break;
        
    case SnapNearest:
    {
        if (llabs(frame - left) > llabs(right - frame)) {
            frame = right;
        } else {
            frame = left;
        }
        break;
    }

    case SnapNeighbouring:
    {
        int dl = -1, dr = -1;
        int x = v->getXForFrame(frame);

        if (left > v->getStartFrame() &&
            left < v->getEndFrame()) {
            dl = abs(v->getXForFrame(left) - x);
        }

        if (right > v->getStartFrame() &&
            right < v->getEndFrame()) {
            dr = abs(v->getXForFrame(right) - x);
        }

        int fuzz = 2;

        if (dl >= 0 && dr >= 0) {
            if (dl < dr) {
                if (dl <= fuzz) {
                    frame = left;
                }
            } else {
                if (dr < fuzz) {
                    frame = right;
                }
            }
        } else if (dl >= 0) {
            if (dl <= fuzz) {
                frame = left;
            }
        } else if (dr >= 0) {
            if (dr <= fuzz) {
                frame = right;
            }
        }
    }
    }

//    SVDEBUG << " -> " << frame << " (resolution = " << resolution << ")" << endl;

    return true;
}

int
TimeRulerLayer::getMajorTickSpacing(LayerGeometryProvider *v, bool &quarterTicks) const
{
    // return value is in milliseconds

    if (!m_model || !v) return 1000;

    sv_samplerate_t sampleRate = m_model->getSampleRate();
    if (!sampleRate) return 1000;

    sv_frame_t startFrame = v->getStartFrame();
    sv_frame_t endFrame = v->getEndFrame();

    int minPixelSpacing = 50;

    RealTime rtStart = RealTime::frame2RealTime(startFrame, sampleRate);
    RealTime rtEnd = RealTime::frame2RealTime(endFrame, sampleRate);

    int count = v->getPaintWidth() / minPixelSpacing;
    if (count < 1) count = 1;
    RealTime rtGap = (rtEnd - rtStart) / count;

    int incms;
    quarterTicks = false;

    if (rtGap.sec > 0) {
	incms = 1000;
	int s = rtGap.sec;
	if (s > 0) { incms *= 5; s /= 5; }
	if (s > 0) { incms *= 2; s /= 2; }
	if (s > 0) { incms *= 6; s /= 6; quarterTicks = true; }
	if (s > 0) { incms *= 5; s /= 5; quarterTicks = false; }
	if (s > 0) { incms *= 2; s /= 2; }
	if (s > 0) { incms *= 6; s /= 6; quarterTicks = true; }
	while (s > 0) {
	    incms *= 10;
	    s /= 10;
	    quarterTicks = false;
	}
    } else {
	incms = 1;
	int ms = rtGap.msec();
//        cerr << "rtGap.msec = " << ms << ", rtGap = " << rtGap << ", count = " << count << endl;
//        cerr << "startFrame = " << startFrame << ", endFrame = " << endFrame << " rtStart = " << rtStart << ", rtEnd = " << rtEnd << endl;
	if (ms > 0) { incms *= 10; ms /= 10; }
	if (ms > 0) { incms *= 10; ms /= 10; }
	if (ms > 0) { incms *= 5; ms /= 5; }
	if (ms > 0) { incms *= 2; ms /= 2; }
    }

    return incms;
}

void
TimeRulerLayer::paint(LayerGeometryProvider *v, QPainter &paint, QRect rect) const
{
#ifdef DEBUG_TIME_RULER_LAYER
    SVDEBUG << "TimeRulerLayer::paint (" << rect.x() << "," << rect.y()
	      << ") [" << rect.width() << "x" << rect.height() << "]" << endl;
#endif
    
    if (!m_model || !m_model->isOK()) return;

    sv_samplerate_t sampleRate = m_model->getSampleRate();
    if (!sampleRate) return;

    sv_frame_t startFrame = v->getFrameForX(rect.x() - 50);

#ifdef DEBUG_TIME_RULER_LAYER
    cerr << "start frame = " << startFrame << endl;
#endif

    bool quarter = false;
    int incms = getMajorTickSpacing(v, quarter);

    int ms = int(lrint(1000.0 * (double(startFrame) / double(sampleRate))));
    ms = (ms / incms) * incms - incms;

#ifdef DEBUG_TIME_RULER_LAYER
    cerr << "start ms = " << ms << " at step " << incms << endl;
#endif

    // Calculate the number of ticks per increment -- approximate
    // values for x and frame counts here will do, no rounding issue.
    // We always use the exact incms in our calculations for where to
    // draw the actual ticks or lines.

    int minPixelSpacing = 50;
    sv_frame_t incFrame = lrint((incms * sampleRate) / 1000);
    int incX = int(incFrame / v->getZoomLevel());
    int ticks = 10;
    if (incX < minPixelSpacing * 2) {
	ticks = quarter ? 4 : 5;
    }

    QColor greyColour = getPartialShades(v)[1];

    paint.save();

    // Do not label time zero - we now overlay an opaque area over
    // time < 0 which would cut it in half
    int minlabel = 1; // ms

    // used for a sanity check
    sv_frame_t prevframe = 0;
    
    while (1) {

        // frame is used to determine where to draw the lines, so it
        // needs to correspond to an exact pixel (so that we don't get
        // a different pixel when scrolling a small amount and
        // re-drawing with a different start frame).

        double dms = ms;
        sv_frame_t frame = lrint((dms * sampleRate) / 1000.0);
        frame /= v->getZoomLevel();
        frame *= v->getZoomLevel(); // so frame corresponds to an exact pixel

        if (frame == prevframe && prevframe != 0) {
            cerr << "ERROR: frame == prevframe (== " << frame
                 << ") in TimeRulerLayer::paint" << endl;
            throw std::logic_error("frame == prevframe in TimeRulerLayer::paint");
        }
        prevframe = frame;
        
        int x = v->getXForFrame(frame);

#ifdef DEBUG_TIME_RULER_LAYER
        cerr << "Considering frame = " << frame << ", x = " << x << endl;
#endif

        if (x >= rect.x() + rect.width() + 50) {
#ifdef DEBUG_TIME_RULER_LAYER
            cerr << "X well out of range, ending here" << endl;
#endif
            break;
        }

	if (x >= rect.x() - 50 && ms >= minlabel) {

            RealTime rt = RealTime::fromMilliseconds(ms);

#ifdef DEBUG_TIME_RULER_LAYER
            cerr << "X in range, drawing line here for time " << rt.toText() << endl;
#endif

            QString text(QString::fromStdString(rt.toText()));
            QFontMetrics metrics = paint.fontMetrics();
            int tw = metrics.width(text);

            if (tw < 50 &&
                (x < rect.x() - tw/2 ||
                 x >= rect.x() + rect.width() + tw/2)) {
#ifdef DEBUG_TIME_RULER_LAYER
                cerr << "hm, maybe X isn't in range after all (x = " << x << ", tw = " << tw << ", rect.x() = " << rect.x() << ", rect.width() = " << rect.width() << ")" << endl;
#endif
            }

            paint.setPen(greyColour);
            paint.drawLine(x, 0, x, v->getPaintHeight());

            paint.setPen(getBaseQColor());
            paint.drawLine(x, 0, x, 5);
            paint.drawLine(x, v->getPaintHeight() - 6, x, v->getPaintHeight() - 1);

            int y;
            switch (m_labelHeight) {
            default:
            case LabelTop:
                y = 6 + metrics.ascent();
                break;
            case LabelMiddle:
                y = v->getPaintHeight() / 2 - metrics.height() / 2 + metrics.ascent();
                break;
            case LabelBottom:
                y = v->getPaintHeight() - metrics.height() + metrics.ascent() - 6;
            }

            if (v->getViewManager() && v->getViewManager()->getOverlayMode() !=
                ViewManager::NoOverlays) {

                if (v->getView()->getLayer(0) == this) {
                    // backmost layer, don't worry about outlining the text
                    paint.drawText(x+2 - tw/2, y, text);
                } else {
                    v->drawVisibleText(paint, x+2 - tw/2, y, text, View::OutlinedText);
                }
            }
        }

	paint.setPen(greyColour);

	for (int i = 1; i < ticks; ++i) {

            dms = ms + (i * double(incms)) / ticks;
            frame = lrint((dms * sampleRate) / 1000.0);
            frame /= v->getZoomLevel();
            frame *= v->getZoomLevel(); // exact pixel as above

            x = v->getXForFrame(frame);

            if (x < rect.x() || x >= rect.x() + rect.width()) {
#ifdef DEBUG_TIME_RULER_LAYER
//                cerr << "tick " << i << ": X out of range, going on to next tick" << endl;
#endif
                continue;
            }

#ifdef DEBUG_TIME_RULER_LAYER
            cerr << "tick " << i << " in range, drawing at " << x << endl;
#endif

	    int sz = 5;
	    if (ticks == 10) {
		if ((i % 2) == 1) {
		    if (i == 5) {
			paint.drawLine(x, 0, x, v->getPaintHeight());
		    } else sz = 3;
		} else {
		    sz = 7;
		}
	    }
	    paint.drawLine(x, 0, x, sz);
	    paint.drawLine(x, v->getPaintHeight() - sz - 1, x, v->getPaintHeight() - 1);
	}

	ms += incms;
    }

    paint.restore();
}

int
TimeRulerLayer::getDefaultColourHint(bool darkbg, bool &impose)
{
    impose = true;
    return ColourDatabase::getInstance()->getColourIndex
        (QString(darkbg ? "White" : "Black"));
}

QString TimeRulerLayer::getLayerPresentationName() const
{
    LayerFactory *factory = LayerFactory::getInstance();
    QString layerName = factory->getLayerPresentationName
        (factory->getLayerType(this));
    return layerName;
}

void
TimeRulerLayer::toXml(QTextStream &stream,
                      QString indent, QString extraAttributes) const
{
    SingleColourLayer::toXml(stream, indent, extraAttributes);
}

void
TimeRulerLayer::setProperties(const QXmlAttributes &attributes)
{
    SingleColourLayer::setProperties(attributes);
}