Mercurial > hg > svgui
view layer/RegionLayer.cpp @ 568:a8e145ea726b
* Hugely simplify Qt search -- all we need is qmake...
author | Chris Cannam |
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date | Thu, 07 Oct 2010 17:57:03 +0100 |
parents | 5bcfc5606528 |
children | f4960f8ce798 |
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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 2006-2008 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. */ #include "RegionLayer.h" #include "data/model/Model.h" #include "base/RealTime.h" #include "base/Profiler.h" #include "base/LogRange.h" #include "ColourDatabase.h" #include "ColourMapper.h" #include "view/View.h" #include "data/model/RegionModel.h" #include "widgets/ItemEditDialog.h" #include <QPainter> #include <QPainterPath> #include <QMouseEvent> #include <QTextStream> #include <QMessageBox> #include <iostream> #include <cmath> RegionLayer::RegionLayer() : SingleColourLayer(), m_model(0), m_editing(false), m_originalPoint(0, 0.0, 0, tr("New Region")), m_editingPoint(0, 0.0, 0, tr("New Region")), m_editingCommand(0), m_verticalScale(EqualSpaced), m_colourMap(0), m_plotStyle(PlotLines) { } void RegionLayer::setModel(RegionModel *model) { if (m_model == model) return; m_model = model; connectSignals(m_model); connect(m_model, SIGNAL(modelChanged()), this, SLOT(recalcSpacing())); recalcSpacing(); // std::cerr << "RegionLayer::setModel(" << model << ")" << std::endl; emit modelReplaced(); } Layer::PropertyList RegionLayer::getProperties() const { PropertyList list = SingleColourLayer::getProperties(); list.push_back("Vertical Scale"); list.push_back("Scale Units"); list.push_back("Plot Type"); return list; } QString RegionLayer::getPropertyLabel(const PropertyName &name) const { if (name == "Vertical Scale") return tr("Vertical Scale"); if (name == "Scale Units") return tr("Scale Units"); if (name == "Plot Type") return tr("Plot Type"); return SingleColourLayer::getPropertyLabel(name); } Layer::PropertyType RegionLayer::getPropertyType(const PropertyName &name) const { if (name == "Scale Units") return UnitsProperty; if (name == "Vertical Scale") return ValueProperty; if (name == "Plot Type") return ValueProperty; if (name == "Colour" && m_plotStyle == PlotSegmentation) return ValueProperty; return SingleColourLayer::getPropertyType(name); } QString RegionLayer::getPropertyGroupName(const PropertyName &name) const { if (name == "Vertical Scale" || name == "Scale Units") { return tr("Scale"); } return SingleColourLayer::getPropertyGroupName(name); } int RegionLayer::getPropertyRangeAndValue(const PropertyName &name, int *min, int *max, int *deflt) const { int val = 0; if (name == "Colour" && m_plotStyle == PlotSegmentation) { if (min) *min = 0; if (max) *max = ColourMapper::getColourMapCount() - 1; if (deflt) *deflt = 0; val = m_colourMap; } else if (name == "Plot Type") { if (min) *min = 0; if (max) *max = 1; if (deflt) *deflt = 0; val = int(m_plotStyle); } else if (name == "Vertical Scale") { if (min) *min = 0; if (max) *max = 3; if (deflt) *deflt = int(EqualSpaced); val = int(m_verticalScale); } else if (name == "Scale Units") { if (deflt) *deflt = 0; if (m_model) { val = UnitDatabase::getInstance()->getUnitId (m_model->getScaleUnits()); } } else { val = SingleColourLayer::getPropertyRangeAndValue(name, min, max, deflt); } return val; } QString RegionLayer::getPropertyValueLabel(const PropertyName &name, int value) const { if (name == "Colour" && m_plotStyle == PlotSegmentation) { return ColourMapper::getColourMapName(value); } else if (name == "Plot Type") { switch (value) { default: case 0: return tr("Bars"); case 1: return tr("Segmentation"); } } else if (name == "Vertical Scale") { switch (value) { default: case 0: return tr("Auto-Align"); case 1: return tr("Equal Spaced"); case 2: return tr("Linear"); case 3: return tr("Log"); } } return SingleColourLayer::getPropertyValueLabel(name, value); } void RegionLayer::setProperty(const PropertyName &name, int value) { if (name == "Colour" && m_plotStyle == PlotSegmentation) { setFillColourMap(value); } else if (name == "Plot Type") { setPlotStyle(PlotStyle(value)); } else if (name == "Vertical Scale") { setVerticalScale(VerticalScale(value)); } else if (name == "Scale Units") { if (m_model) { m_model->setScaleUnits (UnitDatabase::getInstance()->getUnitById(value)); emit modelChanged(); } } else { return SingleColourLayer::setProperty(name, value); } } void RegionLayer::setFillColourMap(int map) { if (m_colourMap == map) return; m_colourMap = map; emit layerParametersChanged(); } void RegionLayer::setPlotStyle(PlotStyle style) { if (m_plotStyle == style) return; bool colourTypeChanged = (style == PlotSegmentation || m_plotStyle == PlotSegmentation); m_plotStyle = style; if (colourTypeChanged) { emit layerParameterRangesChanged(); } emit layerParametersChanged(); } void RegionLayer::setVerticalScale(VerticalScale scale) { if (m_verticalScale == scale) return; m_verticalScale = scale; emit layerParametersChanged(); } bool RegionLayer::isLayerScrollable(const View *v) const { QPoint discard; return !v->shouldIlluminateLocalFeatures(this, discard); } void RegionLayer::recalcSpacing() { m_spacingMap.clear(); m_distributionMap.clear(); if (!m_model) return; // std::cerr << "RegionLayer::recalcSpacing" << std::endl; for (RegionModel::PointList::const_iterator i = m_model->getPoints().begin(); i != m_model->getPoints().end(); ++i) { m_distributionMap[i->value]++; // std::cerr << "RegionLayer::recalcSpacing: value found: " << i->value << " (now have " << m_distributionMap[i->value] << " of this value)" << std::endl; } int n = 0; for (SpacingMap::const_iterator i = m_distributionMap.begin(); i != m_distributionMap.end(); ++i) { m_spacingMap[i->first] = n++; // std::cerr << "RegionLayer::recalcSpacing: " << i->first << " -> " << m_spacingMap[i->first] << std::endl; } } bool RegionLayer::getValueExtents(float &min, float &max, bool &logarithmic, QString &unit) const { if (!m_model) return false; min = m_model->getValueMinimum(); max = m_model->getValueMaximum(); unit = m_model->getScaleUnits(); if (m_verticalScale == LogScale) logarithmic = true; return true; } bool RegionLayer::getDisplayExtents(float &min, float &max) const { if (!m_model || m_verticalScale == AutoAlignScale || m_verticalScale == EqualSpaced) return false; min = m_model->getValueMinimum(); max = m_model->getValueMaximum(); return true; } RegionModel::PointList RegionLayer::getLocalPoints(View *v, int x) const { if (!m_model) return RegionModel::PointList(); long frame = v->getFrameForX(x); RegionModel::PointList onPoints = m_model->getPoints(frame); if (!onPoints.empty()) { return onPoints; } RegionModel::PointList prevPoints = m_model->getPreviousPoints(frame); RegionModel::PointList nextPoints = m_model->getNextPoints(frame); RegionModel::PointList usePoints = prevPoints; if (prevPoints.empty()) { usePoints = nextPoints; } else if (long(prevPoints.begin()->frame) < v->getStartFrame() && !(nextPoints.begin()->frame > v->getEndFrame())) { usePoints = nextPoints; } else if (long(nextPoints.begin()->frame) - frame < frame - long(prevPoints.begin()->frame)) { usePoints = nextPoints; } if (!usePoints.empty()) { int fuzz = 2; int px = v->getXForFrame(usePoints.begin()->frame); if ((px > x && px - x > fuzz) || (px < x && x - px > fuzz + 1)) { usePoints.clear(); } } return usePoints; } bool RegionLayer::getPointToDrag(View *v, int x, int y, RegionModel::Point &p) const { if (!m_model) return false; long frame = v->getFrameForX(x); RegionModel::PointList onPoints = m_model->getPoints(frame); if (onPoints.empty()) return false; int nearestDistance = -1; for (RegionModel::PointList::const_iterator i = onPoints.begin(); i != onPoints.end(); ++i) { int distance = getYForValue(v, (*i).value) - y; if (distance < 0) distance = -distance; if (nearestDistance == -1 || distance < nearestDistance) { nearestDistance = distance; p = *i; } } return true; } QString RegionLayer::getLabelPreceding(size_t frame) const { if (!m_model) return ""; RegionModel::PointList points = m_model->getPreviousPoints(frame); for (RegionModel::PointList::const_iterator i = points.begin(); i != points.end(); ++i) { if (i->label != "") return i->label; } return ""; } QString RegionLayer::getFeatureDescription(View *v, QPoint &pos) const { int x = pos.x(); if (!m_model || !m_model->getSampleRate()) return ""; RegionModel::PointList points = getLocalPoints(v, x); if (points.empty()) { if (!m_model->isReady()) { return tr("In progress"); } else { return tr("No local points"); } } RegionRec region(0); RegionModel::PointList::iterator i; //!!! harmonise with whatever decision is made about point y //!!! coords in paint method for (i = points.begin(); i != points.end(); ++i) { int y = getYForValue(v, i->value); int h = 3; if (m_model->getValueQuantization() != 0.0) { h = y - getYForValue(v, i->value + m_model->getValueQuantization()); if (h < 3) h = 3; } if (pos.y() >= y - h && pos.y() <= y) { region = *i; break; } } if (i == points.end()) return tr("No local points"); RealTime rt = RealTime::frame2RealTime(region.frame, m_model->getSampleRate()); RealTime rd = RealTime::frame2RealTime(region.duration, m_model->getSampleRate()); QString valueText; valueText = tr("%1 %2").arg(region.value).arg(m_model->getScaleUnits()); QString text; if (region.label == "") { text = QString(tr("Time:\t%1\nValue:\t%2\nDuration:\t%3\nNo label")) .arg(rt.toText(true).c_str()) .arg(valueText) .arg(rd.toText(true).c_str()); } else { text = QString(tr("Time:\t%1\nValue:\t%2\nDuration:\t%3\nLabel:\t%4")) .arg(rt.toText(true).c_str()) .arg(valueText) .arg(rd.toText(true).c_str()) .arg(region.label); } pos = QPoint(v->getXForFrame(region.frame), getYForValue(v, region.value)); return text; } bool RegionLayer::snapToFeatureFrame(View *v, int &frame, size_t &resolution, SnapType snap) const { if (!m_model) { return Layer::snapToFeatureFrame(v, frame, resolution, snap); } resolution = m_model->getResolution(); RegionModel::PointList points; if (snap == SnapNeighbouring) { points = getLocalPoints(v, v->getXForFrame(frame)); if (points.empty()) return false; frame = points.begin()->frame; return true; } points = m_model->getPoints(frame, frame); int snapped = frame; bool found = false; for (RegionModel::PointList::const_iterator i = points.begin(); i != points.end(); ++i) { if (snap == SnapRight) { // The best frame to snap to is the end frame of whichever // feature we would have snapped to the start frame of if // we had been snapping left. if (i->frame <= frame) { if (i->frame + i->duration > frame) { snapped = i->frame + i->duration; found = true; // don't break, as the next may be better } } else { if (!found) { snapped = i->frame; found = true; } break; } } else if (snap == SnapLeft) { if (i->frame <= frame) { snapped = i->frame; found = true; // don't break, as the next may be better } else { break; } } else { // nearest RegionModel::PointList::const_iterator j = i; ++j; if (j == points.end()) { snapped = i->frame; found = true; break; } else if (j->frame >= frame) { if (j->frame - frame < frame - i->frame) { snapped = j->frame; } else { snapped = i->frame; } found = true; break; } } } frame = snapped; return found; } bool RegionLayer::snapToSimilarFeature(View *v, int &frame, size_t &resolution, SnapType snap) const { if (!m_model) { return Layer::snapToSimilarFeature(v, frame, resolution, snap); } resolution = m_model->getResolution(); const RegionModel::PointList &points = m_model->getPoints(); RegionModel::PointList close = m_model->getPoints(frame, frame); RegionModel::PointList::const_iterator i; int matchframe = frame; float matchvalue = 0.f; for (i = close.begin(); i != close.end(); ++i) { if (i->frame > frame) break; matchvalue = i->value; matchframe = i->frame; } int snapped = frame; bool found = false; bool distant = false; float epsilon = 0.0001; i = close.begin(); // Scan through the close points first, then the more distant ones // if no suitable close one is found while (i != points.end()) { if (i == close.end()) { i = points.begin(); distant = true; } if (snap == SnapRight) { if (i->frame > matchframe && fabsf(i->value - matchvalue) < epsilon) { snapped = i->frame; found = true; break; } } else if (snap == SnapLeft) { if (i->frame < matchframe) { if (fabsf(i->value - matchvalue) < epsilon) { snapped = i->frame; found = true; // don't break, as the next may be better } } else if (found || distant) { break; } } else { // no other snap types supported } ++i; } frame = snapped; return found; } void RegionLayer::getScaleExtents(View *v, float &min, float &max, bool &log) const { min = 0.0; max = 0.0; log = false; QString queryUnits; queryUnits = m_model->getScaleUnits(); if (m_verticalScale == AutoAlignScale) { if (!v->getValueExtents(queryUnits, min, max, log)) { min = m_model->getValueMinimum(); max = m_model->getValueMaximum(); // std::cerr << "RegionLayer[" << this << "]::getScaleExtents: min = " << min << ", max = " << max << ", log = " << log << std::endl; } else if (log) { LogRange::mapRange(min, max); // std::cerr << "RegionLayer[" << this << "]::getScaleExtents: min = " << min << ", max = " << max << ", log = " << log << std::endl; } } else if (m_verticalScale == EqualSpaced) { if (!m_spacingMap.empty()) { SpacingMap::const_iterator i = m_spacingMap.begin(); min = i->second; i = m_spacingMap.end(); --i; max = i->second; // std::cerr << "RegionLayer[" << this << "]::getScaleExtents: equal spaced; min = " << min << ", max = " << max << ", log = " << log << std::endl; } } else { min = m_model->getValueMinimum(); max = m_model->getValueMaximum(); if (m_verticalScale == LogScale) { LogRange::mapRange(min, max); log = true; } } if (max == min) max = min + 1.0; } int RegionLayer::spacingIndexToY(View *v, int i) const { int h = v->height(); int n = m_spacingMap.size(); // this maps from i (spacing of the value from the spacing // map) and n (number of region types) to y int y = h - (((h * i) / n) + (h / (2 * n))); return y; } float RegionLayer::yToSpacingIndex(View *v, int y) const { // we return an inexact result here (float rather than int) int h = v->height(); int n = m_spacingMap.size(); // from y = h - ((h * i) / n) + (h / (2 * n)) as above (vh taking place of i) float vh = float(2*h*n - h - 2*n*y) / float(2*h); return vh; } int RegionLayer::getYForValue(View *v, float val) const { float min = 0.0, max = 0.0; bool logarithmic = false; int h = v->height(); if (m_verticalScale == EqualSpaced) { if (m_spacingMap.empty()) return h/2; SpacingMap::const_iterator i = m_spacingMap.lower_bound(val); //!!! what now, if i->first != v? int y = spacingIndexToY(v, i->second); // std::cerr << "RegionLayer::getYForValue: value " << val << " -> i->second " << i->second << " -> y " << y << std::endl; return y; } else { getScaleExtents(v, min, max, logarithmic); // std::cerr << "RegionLayer[" << this << "]::getYForValue(" << val << "): min = " << min << ", max = " << max << ", log = " << logarithmic << std::endl; // std::cerr << "h = " << h << ", margin = " << margin << std::endl; if (logarithmic) { val = LogRange::map(val); } return int(h - ((val - min) * h) / (max - min)); } } float RegionLayer::getValueForY(View *v, int y, int avoid) const { float min = 0.0, max = 0.0; bool logarithmic = false; int h = v->height(); if (m_verticalScale == EqualSpaced) { // if we're equal spaced, we probably want to snap to the // nearest item when close to it, and give some notification // that we're doing so if (m_spacingMap.empty()) return 1.f; // n is the number of distinct regions. if we are close to // one of the m/n divisions in the y scale, we should snap to // the value of the mth region. float vh = yToSpacingIndex(v, y); // spacings in the map are integral, so find the closest one, // map it back to its y coordinate, and see how far we are // from it int n = m_spacingMap.size(); int ivh = lrintf(vh); if (ivh < 0) ivh = 0; if (ivh > n-1) ivh = n-1; int iy = spacingIndexToY(v, ivh); int dist = iy - y; int gap = h / n; // between region lines // std::cerr << "getValueForY: y = " << y << ", vh = " << vh << ", ivh = " << ivh << " of " << n << ", iy = " << iy << ", dist = " << dist << ", gap = " << gap << std::endl; SpacingMap::const_iterator i = m_spacingMap.begin(); while (i != m_spacingMap.end()) { if (i->second == ivh) break; ++i; } if (i == m_spacingMap.end()) i = m_spacingMap.begin(); // std::cerr << "nearest existing value = " << i->first << " at " << iy << std::endl; float val = 0; // std::cerr << "note: avoid = " << avoid << ", i->second = " << i->second << std::endl; if (dist < -gap/3 && ((avoid == -1) || (avoid != i->second && avoid != i->second - 1))) { // bisect gap to prior if (i == m_spacingMap.begin()) { val = i->first - 1.f; // std::cerr << "extended down to " << val << std::endl; } else { SpacingMap::const_iterator j = i; --j; val = (i->first + j->first) / 2; // std::cerr << "bisected down to " << val << std::endl; } } else if (dist > gap/3 && ((avoid == -1) || (avoid != i->second && avoid != i->second + 1))) { // bisect gap to following SpacingMap::const_iterator j = i; ++j; if (j == m_spacingMap.end()) { val = i->first + 1.f; // std::cerr << "extended up to " << val << std::endl; } else { val = (i->first + j->first) / 2; // std::cerr << "bisected up to " << val << std::endl; } } else { // snap val = i->first; // std::cerr << "snapped to " << val << std::endl; } return val; } else { getScaleExtents(v, min, max, logarithmic); float val = min + (float(h - y) * float(max - min)) / h; if (logarithmic) { val = powf(10.f, val); } return val; } } QColor RegionLayer::getColourForValue(View *v, float val) const { float min, max; bool log; getScaleExtents(v, min, max, log); if (min > max) std::swap(min, max); if (max == min) max = min + 1; if (log) { LogRange::mapRange(min, max); val = LogRange::map(val); } // std::cerr << "RegionLayer::getColourForValue: min " << min << ", max " // << max << ", log " << log << ", value " << val << std::endl; QColor solid = ColourMapper(m_colourMap, min, max).map(val); return QColor(solid.red(), solid.green(), solid.blue(), 120); } int RegionLayer::getDefaultColourHint(bool darkbg, bool &impose) { impose = false; return ColourDatabase::getInstance()->getColourIndex (QString(darkbg ? "Bright Blue" : "Blue")); } void RegionLayer::paint(View *v, QPainter &paint, QRect rect) const { if (!m_model || !m_model->isOK()) return; int sampleRate = m_model->getSampleRate(); if (!sampleRate) return; // Profiler profiler("RegionLayer::paint", true); int x0 = rect.left() - 40, x1 = rect.right(); long frame0 = v->getFrameForX(x0); long frame1 = v->getFrameForX(x1); RegionModel::PointList points(m_model->getPoints(frame0, frame1)); if (points.empty()) return; paint.setPen(getBaseQColor()); QColor brushColour(getBaseQColor()); brushColour.setAlpha(80); // std::cerr << "RegionLayer::paint: resolution is " // << m_model->getResolution() << " frames" << std::endl; float min = m_model->getValueMinimum(); float max = m_model->getValueMaximum(); if (max == min) max = min + 1.0; QPoint localPos; RegionModel::Point illuminatePoint(0); bool shouldIlluminate = false; if (v->shouldIlluminateLocalFeatures(this, localPos)) { shouldIlluminate = getPointToDrag(v, localPos.x(), localPos.y(), illuminatePoint); } paint.save(); paint.setRenderHint(QPainter::Antialiasing, false); //!!! point y coords if model does not haveDistinctValues() should //!!! be assigned to avoid overlaps //!!! if it does have distinct values, we should still ensure y //!!! coord is never completely flat on the top or bottom int fontHeight = paint.fontMetrics().height(); int fontAscent = paint.fontMetrics().ascent(); for (RegionModel::PointList::const_iterator i = points.begin(); i != points.end(); ++i) { const RegionModel::Point &p(*i); int x = v->getXForFrame(p.frame); int y = getYForValue(v, p.value); int w = v->getXForFrame(p.frame + p.duration) - x; int h = 9; int ex = x + w; RegionModel::PointList::const_iterator j = i; ++j; if (j != points.end()) { const RegionModel::Point &q(*j); int nx = v->getXForFrame(q.frame); if (nx < ex) ex = nx; } if (m_model->getValueQuantization() != 0.0) { h = y - getYForValue(v, p.value + m_model->getValueQuantization()); if (h < 3) h = 3; } if (w < 1) w = 1; if (m_plotStyle == PlotSegmentation) { paint.setPen(getForegroundQColor(v)); paint.setBrush(getColourForValue(v, p.value)); } else { paint.setPen(getBaseQColor()); paint.setBrush(brushColour); } if (m_plotStyle == PlotSegmentation) { if (ex <= x) continue; if (!shouldIlluminate || // "illuminatePoint != p" RegionModel::Point::Comparator()(illuminatePoint, p) || RegionModel::Point::Comparator()(p, illuminatePoint)) { paint.setPen(QPen(getForegroundQColor(v), 1)); paint.drawLine(x, 0, x, v->height()); paint.setPen(Qt::NoPen); } else { paint.setPen(QPen(getForegroundQColor(v), 2)); } paint.drawRect(x, -1, ex - x, v->height() + 2); } else { if (shouldIlluminate && // "illuminatePoint == p" !RegionModel::Point::Comparator()(illuminatePoint, p) && !RegionModel::Point::Comparator()(p, illuminatePoint)) { paint.setPen(v->getForeground()); paint.setBrush(v->getForeground()); QString vlabel = QString("%1%2").arg(p.value).arg(m_model->getScaleUnits()); v->drawVisibleText(paint, x - paint.fontMetrics().width(vlabel) - 2, y + paint.fontMetrics().height()/2 - paint.fontMetrics().descent(), vlabel, View::OutlinedText); QString hlabel = RealTime::frame2RealTime (p.frame, m_model->getSampleRate()).toText(true).c_str(); v->drawVisibleText(paint, x, y - h/2 - paint.fontMetrics().descent() - 2, hlabel, View::OutlinedText); } paint.drawLine(x, y-1, x + w, y-1); paint.drawLine(x, y+1, x + w, y+1); paint.drawLine(x, y - h/2, x, y + h/2); paint.drawLine(x+w, y - h/2, x + w, y + h/2); } } int nextLabelMinX = -100; int lastLabelY = 0; for (RegionModel::PointList::const_iterator i = points.begin(); i != points.end(); ++i) { const RegionModel::Point &p(*i); int x = v->getXForFrame(p.frame); int y = getYForValue(v, p.value); bool illuminated = false; if (m_plotStyle != PlotSegmentation) { if (shouldIlluminate && // "illuminatePoint == p" !RegionModel::Point::Comparator()(illuminatePoint, p) && !RegionModel::Point::Comparator()(p, illuminatePoint)) { illuminated = true; } } if (!illuminated) { QString label = p.label; if (label == "") { label = QString("%1%2").arg(p.value).arg(m_model->getScaleUnits()); } int labelX, labelY; if (m_plotStyle != PlotSegmentation) { labelX = x - paint.fontMetrics().width(label) - 2; labelY = y + paint.fontMetrics().height()/2 - paint.fontMetrics().descent(); } else { labelX = x + 5; labelY = v->getTextLabelHeight(this, paint); if (labelX < nextLabelMinX) { if (lastLabelY < v->height()/2) { labelY = lastLabelY + fontHeight; } } lastLabelY = labelY; nextLabelMinX = labelX + paint.fontMetrics().width(label); } v->drawVisibleText(paint, labelX, labelY, label, View::OutlinedText); } } paint.restore(); } void RegionLayer::drawStart(View *v, QMouseEvent *e) { if (!m_model) return; long frame = v->getFrameForX(e->x()); if (frame < 0) frame = 0; frame = frame / m_model->getResolution() * m_model->getResolution(); float value = getValueForY(v, e->y()); m_editingPoint = RegionModel::Point(frame, value, 0, ""); m_originalPoint = m_editingPoint; if (m_editingCommand) finish(m_editingCommand); m_editingCommand = new RegionModel::EditCommand(m_model, tr("Draw Region")); m_editingCommand->addPoint(m_editingPoint); recalcSpacing(); m_editing = true; } void RegionLayer::drawDrag(View *v, QMouseEvent *e) { if (!m_model || !m_editing) return; long frame = v->getFrameForX(e->x()); if (frame < 0) frame = 0; frame = frame / m_model->getResolution() * m_model->getResolution(); float newValue = m_editingPoint.value; if (m_verticalScale != EqualSpaced) newValue = getValueForY(v, e->y()); long newFrame = m_editingPoint.frame; long newDuration = frame - newFrame; if (newDuration < 0) { newFrame = frame; newDuration = -newDuration; } else if (newDuration == 0) { newDuration = 1; } m_editingCommand->deletePoint(m_editingPoint); m_editingPoint.frame = newFrame; m_editingPoint.value = newValue; m_editingPoint.duration = newDuration; m_editingCommand->addPoint(m_editingPoint); recalcSpacing(); } void RegionLayer::drawEnd(View *, QMouseEvent *) { if (!m_model || !m_editing) return; finish(m_editingCommand); m_editingCommand = 0; m_editing = false; recalcSpacing(); } void RegionLayer::eraseStart(View *v, QMouseEvent *e) { if (!m_model) return; if (!getPointToDrag(v, e->x(), e->y(), m_editingPoint)) return; if (m_editingCommand) { finish(m_editingCommand); m_editingCommand = 0; } m_editing = true; recalcSpacing(); } void RegionLayer::eraseDrag(View *v, QMouseEvent *e) { } void RegionLayer::eraseEnd(View *v, QMouseEvent *e) { if (!m_model || !m_editing) return; m_editing = false; RegionModel::Point p(0); if (!getPointToDrag(v, e->x(), e->y(), p)) return; if (p.frame != m_editingPoint.frame || p.value != m_editingPoint.value) return; m_editingCommand = new RegionModel::EditCommand (m_model, tr("Erase Region")); m_editingCommand->deletePoint(m_editingPoint); finish(m_editingCommand); m_editingCommand = 0; m_editing = false; recalcSpacing(); } void RegionLayer::editStart(View *v, QMouseEvent *e) { if (!m_model) return; if (!getPointToDrag(v, e->x(), e->y(), m_editingPoint)) { return; } m_dragPointX = v->getXForFrame(m_editingPoint.frame); m_dragPointY = getYForValue(v, m_editingPoint.value); m_originalPoint = m_editingPoint; if (m_editingCommand) { finish(m_editingCommand); m_editingCommand = 0; } m_editing = true; m_dragStartX = e->x(); m_dragStartY = e->y(); recalcSpacing(); } void RegionLayer::editDrag(View *v, QMouseEvent *e) { if (!m_model || !m_editing) return; int xdist = e->x() - m_dragStartX; int ydist = e->y() - m_dragStartY; int newx = m_dragPointX + xdist; int newy = m_dragPointY + ydist; long frame = v->getFrameForX(newx); if (frame < 0) frame = 0; frame = frame / m_model->getResolution() * m_model->getResolution(); // Do not bisect between two values, if one of those values is // that of the point we're actually moving ... int avoid = m_spacingMap[m_editingPoint.value]; // ... unless there are other points with the same value if (m_distributionMap[m_editingPoint.value] > 1) avoid = -1; float value = getValueForY(v, newy, avoid); if (!m_editingCommand) { m_editingCommand = new RegionModel::EditCommand(m_model, tr("Drag Region")); } m_editingCommand->deletePoint(m_editingPoint); m_editingPoint.frame = frame; m_editingPoint.value = value; m_editingCommand->addPoint(m_editingPoint); recalcSpacing(); } void RegionLayer::editEnd(View *, QMouseEvent *e) { if (!m_model || !m_editing) return; if (m_editingCommand) { QString newName = m_editingCommand->getName(); if (m_editingPoint.frame != m_originalPoint.frame) { if (m_editingPoint.value != m_originalPoint.value) { newName = tr("Edit Region"); } else { newName = tr("Relocate Region"); } } else { newName = tr("Change Point Value"); } m_editingCommand->setName(newName); finish(m_editingCommand); } m_editingCommand = 0; m_editing = false; recalcSpacing(); } bool RegionLayer::editOpen(View *v, QMouseEvent *e) { if (!m_model) return false; RegionModel::Point region(0); if (!getPointToDrag(v, e->x(), e->y(), region)) return false; ItemEditDialog *dialog = new ItemEditDialog (m_model->getSampleRate(), ItemEditDialog::ShowTime | ItemEditDialog::ShowDuration | ItemEditDialog::ShowValue | ItemEditDialog::ShowText, m_model->getScaleUnits()); dialog->setFrameTime(region.frame); dialog->setValue(region.value); dialog->setFrameDuration(region.duration); dialog->setText(region.label); if (dialog->exec() == QDialog::Accepted) { RegionModel::Point newRegion = region; newRegion.frame = dialog->getFrameTime(); newRegion.value = dialog->getValue(); newRegion.duration = dialog->getFrameDuration(); newRegion.label = dialog->getText(); RegionModel::EditCommand *command = new RegionModel::EditCommand (m_model, tr("Edit Region")); command->deletePoint(region); command->addPoint(newRegion); finish(command); } delete dialog; recalcSpacing(); return true; } void RegionLayer::moveSelection(Selection s, size_t newStartFrame) { if (!m_model) return; RegionModel::EditCommand *command = new RegionModel::EditCommand(m_model, tr("Drag Selection")); RegionModel::PointList points = m_model->getPoints(s.getStartFrame(), s.getEndFrame()); for (RegionModel::PointList::iterator i = points.begin(); i != points.end(); ++i) { if (s.contains(i->frame)) { RegionModel::Point newPoint(*i); newPoint.frame = i->frame + newStartFrame - s.getStartFrame(); command->deletePoint(*i); command->addPoint(newPoint); } } finish(command); recalcSpacing(); } void RegionLayer::resizeSelection(Selection s, Selection newSize) { if (!m_model) return; RegionModel::EditCommand *command = new RegionModel::EditCommand(m_model, tr("Resize Selection")); RegionModel::PointList points = m_model->getPoints(s.getStartFrame(), s.getEndFrame()); double ratio = double(newSize.getEndFrame() - newSize.getStartFrame()) / double(s.getEndFrame() - s.getStartFrame()); for (RegionModel::PointList::iterator i = points.begin(); i != points.end(); ++i) { if (s.contains(i->frame)) { double targetStart = i->frame; targetStart = newSize.getStartFrame() + double(targetStart - s.getStartFrame()) * ratio; double targetEnd = i->frame + i->duration; targetEnd = newSize.getStartFrame() + double(targetEnd - s.getStartFrame()) * ratio; RegionModel::Point newPoint(*i); newPoint.frame = lrint(targetStart); newPoint.duration = lrint(targetEnd - targetStart); command->deletePoint(*i); command->addPoint(newPoint); } } finish(command); recalcSpacing(); } void RegionLayer::deleteSelection(Selection s) { if (!m_model) return; RegionModel::EditCommand *command = new RegionModel::EditCommand(m_model, tr("Delete Selected Points")); RegionModel::PointList points = m_model->getPoints(s.getStartFrame(), s.getEndFrame()); for (RegionModel::PointList::iterator i = points.begin(); i != points.end(); ++i) { if (s.contains(i->frame)) { command->deletePoint(*i); } } finish(command); recalcSpacing(); } void RegionLayer::copy(View *v, Selection s, Clipboard &to) { if (!m_model) return; RegionModel::PointList points = m_model->getPoints(s.getStartFrame(), s.getEndFrame()); for (RegionModel::PointList::iterator i = points.begin(); i != points.end(); ++i) { if (s.contains(i->frame)) { Clipboard::Point point(i->frame, i->value, i->duration, i->label); point.setReferenceFrame(alignToReference(v, i->frame)); to.addPoint(point); } } } bool RegionLayer::paste(View *v, const Clipboard &from, int frameOffset, bool /* interactive */) { if (!m_model) return false; const Clipboard::PointList &points = from.getPoints(); bool realign = false; if (clipboardHasDifferentAlignment(v, from)) { QMessageBox::StandardButton button = QMessageBox::question(v, tr("Re-align pasted items?"), tr("The items you are pasting came from a layer with different source material from this one. Do you want to re-align them in time, to match the source material for this layer?"), QMessageBox::Yes | QMessageBox::No | QMessageBox::Cancel, QMessageBox::Yes); if (button == QMessageBox::Cancel) { return false; } if (button == QMessageBox::Yes) { realign = true; } } RegionModel::EditCommand *command = new RegionModel::EditCommand(m_model, tr("Paste")); for (Clipboard::PointList::const_iterator i = points.begin(); i != points.end(); ++i) { if (!i->haveFrame()) continue; size_t frame = 0; if (!realign) { frame = i->getFrame(); } else { if (i->haveReferenceFrame()) { frame = i->getReferenceFrame(); frame = alignFromReference(v, frame); } else { frame = i->getFrame(); } } RegionModel::Point newPoint(frame); if (i->haveLabel()) newPoint.label = i->getLabel(); if (i->haveValue()) newPoint.value = i->getValue(); else newPoint.value = (m_model->getValueMinimum() + m_model->getValueMaximum()) / 2; if (i->haveDuration()) newPoint.duration = i->getDuration(); else { size_t nextFrame = frame; Clipboard::PointList::const_iterator j = i; for (; j != points.end(); ++j) { if (!j->haveFrame()) continue; if (j != i) break; } if (j != points.end()) { nextFrame = j->getFrame(); } if (nextFrame == frame) { newPoint.duration = m_model->getResolution(); } else { newPoint.duration = nextFrame - frame; } } command->addPoint(newPoint); } finish(command); recalcSpacing(); return true; } void RegionLayer::toXml(QTextStream &stream, QString indent, QString extraAttributes) const { SingleColourLayer::toXml(stream, indent, extraAttributes + QString(" verticalScale=\"%1\" plotStyle=\"%2\"") .arg(m_verticalScale) .arg(m_plotStyle)); } void RegionLayer::setProperties(const QXmlAttributes &attributes) { SingleColourLayer::setProperties(attributes); bool ok; VerticalScale scale = (VerticalScale) attributes.value("verticalScale").toInt(&ok); if (ok) setVerticalScale(scale); PlotStyle style = (PlotStyle) attributes.value("plotStyle").toInt(&ok); if (ok) setPlotStyle(style); }