/**************************************************************************** ** ** Copyright (C) 2016 The Qt Company Ltd. ** Contact: https://www.qt.io/licensing/ ** ** This file is part of the tools applications of the Qt Toolkit. ** ** $QT_BEGIN_LICENSE:GPL-EXCEPT$ ** Commercial License Usage ** Licensees holding valid commercial Qt licenses may use this file in ** accordance with the commercial license agreement provided with the ** Software or, alternatively, in accordance with the terms contained in ** a written agreement between you and The Qt Company. For licensing terms ** and conditions see https://www.qt.io/terms-conditions. For further ** information use the contact form at https://www.qt.io/contact-us. ** ** GNU General Public License Usage ** Alternatively, this file may be used under the terms of the GNU ** General Public License version 3 as published by the Free Software ** Foundation with exceptions as appearing in the file LICENSE.GPL3-EXCEPT ** included in the packaging of this file. Please review the following ** information to ensure the GNU General Public License requirements will ** be met: https://www.gnu.org/licenses/gpl-3.0.html. ** ** $QT_END_LICENSE$ ** ****************************************************************************/ #include "splineeditor.h" #include "segmentproperties.h" #include #include #include #include #include #include const int canvasWidth = 640; const int canvasHeight = 320; const int canvasMargin = 160; SplineEditor::SplineEditor(QWidget *parent) : QWidget(parent), m_pointListWidget(0), m_block(false) { setFixedSize(canvasWidth + canvasMargin * 2, canvasHeight + canvasMargin * 2); m_controlPoints.append(QPointF(0.4, 0.075)); m_controlPoints.append(QPointF(0.45,0.24)); m_controlPoints.append(QPointF(0.5,0.5)); m_controlPoints.append(QPointF(0.55,0.76)); m_controlPoints.append(QPointF(0.7,0.9)); m_controlPoints.append(QPointF(1.0, 1.0)); m_numberOfSegments = 2; m_activeControlPoint = -1; m_mouseDrag = false; m_pointContextMenu = new QMenu(this); m_deleteAction = new QAction(tr("Delete point"), m_pointContextMenu); m_smoothAction = new QAction(tr("Smooth point"), m_pointContextMenu); m_cornerAction = new QAction(tr("Corner point"), m_pointContextMenu); m_smoothAction->setCheckable(true); m_pointContextMenu->addAction(m_deleteAction); m_pointContextMenu->addAction(m_smoothAction); m_pointContextMenu->addAction(m_cornerAction); m_curveContextMenu = new QMenu(this); m_addPoint = new QAction(tr("Add point"), m_pointContextMenu); m_curveContextMenu->addAction(m_addPoint); initPresets(); invalidateSmoothList(); } static inline QPointF mapToCanvas(const QPointF &point) { return QPointF(point.x() * canvasWidth + canvasMargin, canvasHeight - point.y() * canvasHeight + canvasMargin); } static inline QPointF mapFromCanvas(const QPointF &point) { return QPointF((point.x() - canvasMargin) / canvasWidth , 1 - (point.y() - canvasMargin) / canvasHeight); } static inline void paintControlPoint(const QPointF &controlPoint, QPainter *painter, bool edit, bool realPoint, bool active, bool smooth) { int pointSize = 4; if (active) painter->setBrush(QColor(140, 140, 240, 255)); else painter->setBrush(QColor(120, 120, 220, 255)); if (realPoint) { pointSize = 6; painter->setBrush(QColor(80, 80, 210, 150)); } painter->setPen(QColor(50, 50, 50, 140)); if (!edit) painter->setBrush(QColor(160, 80, 80, 250)); if (smooth) { painter->drawEllipse(QRectF(mapToCanvas(controlPoint).x() - pointSize + 0.5, mapToCanvas(controlPoint).y() - pointSize + 0.5, pointSize * 2, pointSize * 2)); } else { painter->drawRect(QRectF(mapToCanvas(controlPoint).x() - pointSize + 0.5, mapToCanvas(controlPoint).y() - pointSize + 0.5, pointSize * 2, pointSize * 2)); } } static inline bool indexIsRealPoint(int i) { return !((i + 1) % 3); } static inline int pointForControlPoint(int i) { if ((i % 3) == 0) return i - 1; if ((i % 3) == 1) return i + 1; return i; } void drawCleanLine(QPainter *painter, const QPoint p1, QPoint p2) { painter->drawLine(p1 + QPointF(0.5 , 0.5), p2 + QPointF(0.5, 0.5)); } void SplineEditor::paintEvent(QPaintEvent *) { QPainter painter(this); QPen pen(Qt::black); pen.setWidth(1); painter.fillRect(0,0,width() - 1, height() - 1, QBrush(Qt::white)); painter.drawRect(0,0,width() - 1, height() - 1); painter.setRenderHint(QPainter::Antialiasing); pen = QPen(Qt::gray); pen.setWidth(1); pen.setStyle(Qt::DashLine); painter.setPen(pen); drawCleanLine(&painter,mapToCanvas(QPoint(0, 0)).toPoint(), mapToCanvas(QPoint(1, 0)).toPoint()); drawCleanLine(&painter,mapToCanvas(QPoint(0, 1)).toPoint(), mapToCanvas(QPoint(1, 1)).toPoint()); for (int i = 0; i < m_numberOfSegments; i++) { QPainterPath path; QPointF p0; if (i == 0) p0 = mapToCanvas(QPointF(0.0, 0.0)); else p0 = mapToCanvas(m_controlPoints.at(i * 3 - 1)); path.moveTo(p0); QPointF p1 = mapToCanvas(m_controlPoints.at(i * 3)); QPointF p2 = mapToCanvas(m_controlPoints.at(i * 3 + 1)); QPointF p3 = mapToCanvas(m_controlPoints.at(i * 3 + 2)); path.cubicTo(p1, p2, p3); painter.strokePath(path, QPen(QBrush(Qt::black), 2)); QPen pen(Qt::black); pen.setWidth(1); pen.setStyle(Qt::DashLine); painter.setPen(pen); painter.drawLine(p0, p1); painter.drawLine(p3, p2); } paintControlPoint(QPointF(0.0, 0.0), &painter, false, true, false, false); paintControlPoint(QPointF(1.0, 1.0), &painter, false, true, false, false); for (int i = 0; i < m_controlPoints.count() - 1; ++i) paintControlPoint(m_controlPoints.at(i), &painter, true, indexIsRealPoint(i), i == m_activeControlPoint, isControlPointSmooth(i)); } void SplineEditor::mousePressEvent(QMouseEvent *e) { if (e->button() == Qt::LeftButton) { m_activeControlPoint = findControlPoint(e->pos()); if (m_activeControlPoint != -1) { mouseMoveEvent(e); } m_mousePress = e->pos(); e->accept(); } } void SplineEditor::mouseReleaseEvent(QMouseEvent *e) { if (e->button() == Qt::LeftButton) { m_activeControlPoint = -1; m_mouseDrag = false; e->accept(); } } #if QT_CONFIG(contextmenu) void SplineEditor::contextMenuEvent(QContextMenuEvent *e) { int index = findControlPoint(e->pos()); if (index > 0 && indexIsRealPoint(index)) { m_smoothAction->setChecked(isControlPointSmooth(index)); QAction* action = m_pointContextMenu->exec(e->globalPos()); if (action == m_deleteAction) deletePoint(index); else if (action == m_smoothAction) smoothPoint(index); else if (action == m_cornerAction) cornerPoint(index); } else { QAction* action = m_curveContextMenu->exec(e->globalPos()); if (action == m_addPoint) addPoint(e->pos()); } } #endif // contextmenu void SplineEditor::invalidate() { QEasingCurve easingCurve(QEasingCurve::BezierSpline); for (int i = 0; i < m_numberOfSegments; ++i) { easingCurve.addCubicBezierSegment(m_controlPoints.at(i * 3), m_controlPoints.at(i * 3 + 1), m_controlPoints.at(i * 3 + 2)); } setEasingCurve(easingCurve); invalidateSegmentProperties(); } void SplineEditor::invalidateSmoothList() { m_smoothList.clear(); for (int i = 0; i < (m_numberOfSegments - 1); ++i) m_smoothList.append(isSmooth(i * 3 + 2)); } void SplineEditor::invalidateSegmentProperties() { for (int i = 0; i < m_numberOfSegments; ++i) { SegmentProperties *segmentProperties = m_segmentProperties.at(i); bool smooth = false; if (i < (m_numberOfSegments - 1)) { smooth = m_smoothList.at(i); } segmentProperties->setSegment(i, m_controlPoints.mid(i * 3, 3), smooth, i == (m_numberOfSegments - 1)); } } QHash SplineEditor::presets() const { return m_presets; } QString SplineEditor::generateCode() { QString s = QLatin1String("["); for (const QPointF &point : qAsConst(m_controlPoints)) { s += QString::number(point.x(), 'g', 2) + QLatin1Char(',') + QString::number(point.y(), 'g', 3) + QLatin1Char(','); } s.chop(1); //removing last "," s += QLatin1Char(']'); return s; } QStringList SplineEditor::presetNames() const { return m_presets.keys(); } QWidget *SplineEditor::pointListWidget() { if (!m_pointListWidget) { setupPointListWidget(); } return m_pointListWidget; } int SplineEditor::findControlPoint(const QPoint &point) { int pointIndex = -1; qreal distance = -1; for (int i = 0; iisChecked()) { QPointF before = QPointF(0,0); if (index > 3) before = m_controlPoints.at(index - 3); QPointF after = QPointF(1.0, 1.0); if ((index + 3) < m_controlPoints.count()) after = m_controlPoints.at(index + 3); QPointF tangent = (after - before) / 6; QPointF thisPoint = m_controlPoints.at(index); if (index > 0) m_controlPoints[index - 1] = thisPoint - tangent; if (index + 1 < m_controlPoints.count()) m_controlPoints[index + 1] = thisPoint + tangent; m_smoothList[index / 3] = true; } else { m_smoothList[index / 3] = false; } invalidate(); update(); } void SplineEditor::cornerPoint(int index) { QPointF before = QPointF(0,0); if (index > 3) before = m_controlPoints.at(index - 3); QPointF after = QPointF(1.0, 1.0); if ((index + 3) < m_controlPoints.count()) after = m_controlPoints.at(index + 3); QPointF thisPoint = m_controlPoints.at(index); if (index > 0) m_controlPoints[index - 1] = (before - thisPoint) / 3 + thisPoint; if (index + 1 < m_controlPoints.count()) m_controlPoints[index + 1] = (after - thisPoint) / 3 + thisPoint; m_smoothList[(index) / 3] = false; invalidate(); } void SplineEditor::deletePoint(int index) { m_controlPoints.remove(index - 1, 3); m_numberOfSegments--; invalidateSmoothList(); setupPointListWidget(); invalidate(); } void SplineEditor::addPoint(const QPointF point) { QPointF newPos = mapFromCanvas(point); int splitIndex = 0; for (int i=0; i < m_controlPoints.size() - 1; ++i) { if (indexIsRealPoint(i) && m_controlPoints.at(i).x() > newPos.x()) { break; } else if (indexIsRealPoint(i)) splitIndex = i; } QPointF before = QPointF(0,0); if (splitIndex > 0) before = m_controlPoints.at(splitIndex); QPointF after = QPointF(1.0, 1.0); if ((splitIndex + 3) < m_controlPoints.count()) after = m_controlPoints.at(splitIndex + 3); if (splitIndex > 0) { m_controlPoints.insert(splitIndex + 2, (newPos + after) / 2); m_controlPoints.insert(splitIndex + 2, newPos); m_controlPoints.insert(splitIndex + 2, (newPos + before) / 2); } else { m_controlPoints.insert(splitIndex + 1, (newPos + after) / 2); m_controlPoints.insert(splitIndex + 1, newPos); m_controlPoints.insert(splitIndex + 1, (newPos + before) / 2); } m_numberOfSegments++; invalidateSmoothList(); setupPointListWidget(); invalidate(); } void SplineEditor::initPresets() { const QPointF endPoint(1.0, 1.0); { QEasingCurve easingCurve(QEasingCurve::BezierSpline); easingCurve.addCubicBezierSegment(QPointF(0.4, 0.075), QPointF(0.45, 0.24), QPointF(0.5, 0.5)); easingCurve.addCubicBezierSegment(QPointF(0.55, 0.76), QPointF(0.7, 0.9), endPoint); m_presets.insert(tr("Standard Easing"), easingCurve); } { QEasingCurve easingCurve(QEasingCurve::BezierSpline); easingCurve.addCubicBezierSegment(QPointF(0.43, 0.0025), QPointF(0.65, 1), endPoint); m_presets.insert(tr("Simple"), easingCurve); } { QEasingCurve easingCurve(QEasingCurve::BezierSpline); easingCurve.addCubicBezierSegment(QPointF(0.43, 0.0025), QPointF(0.38, 0.51), QPointF(0.57, 0.99)); easingCurve.addCubicBezierSegment(QPointF(0.8, 0.69), QPointF(0.65, 1), endPoint); m_presets.insert(tr("Simple Bounce"), easingCurve); } { QEasingCurve easingCurve(QEasingCurve::BezierSpline); easingCurve.addCubicBezierSegment(QPointF(0.4, 0.075), QPointF(0.64, -0.0025), QPointF(0.74, 0.23)); easingCurve.addCubicBezierSegment(QPointF(0.84, 0.46), QPointF(0.91, 0.77), endPoint); m_presets.insert(tr("Slow in fast out"), easingCurve); } { QEasingCurve easingCurve(QEasingCurve::BezierSpline); easingCurve.addCubicBezierSegment(QPointF(0.43, 0.0025), QPointF(0.47, 0.51), QPointF(0.59, 0.94)); easingCurve.addCubicBezierSegment(QPointF(0.84, 0.95), QPointF( 0.99, 0.94), endPoint); m_presets.insert(tr("Snapping"), easingCurve); } { QEasingCurve easingCurve(QEasingCurve::BezierSpline); easingCurve.addCubicBezierSegment(QPointF( 0.38, 0.35),QPointF(0.38, 0.7), QPointF(0.45, 0.99)); easingCurve.addCubicBezierSegment(QPointF(0.48, 0.66), QPointF(0.62, 0.62), QPointF(0.66, 0.99)); easingCurve.addCubicBezierSegment(QPointF(0.69, 0.76), QPointF(0.77, 0.76), QPointF(0.79, 0.99)); easingCurve.addCubicBezierSegment(QPointF(0.83, 0.91), QPointF(0.87, 0.92), QPointF(0.91, 0.99)); easingCurve.addCubicBezierSegment(QPointF(0.95, 0.95), QPointF(0.97, 0.94), endPoint); m_presets.insert(tr("Complex Bounce"), easingCurve); } { QEasingCurve easingCurve4(QEasingCurve::BezierSpline); easingCurve4.addCubicBezierSegment(QPointF(0.12, -0.12),QPointF(0.23, -0.19), QPointF( 0.35, -0.09)); easingCurve4.addCubicBezierSegment(QPointF(0.47, 0.005), QPointF(0.52, 1), QPointF(0.62, 1.1)); easingCurve4.addCubicBezierSegment(QPointF(0.73, 1.2), QPointF(0.91,1 ), endPoint); m_presets.insert(tr("Overshoot"), easingCurve4); } } void SplineEditor::setupPointListWidget() { if (!m_pointListWidget) m_pointListWidget = new QScrollArea(this); if (m_pointListWidget->widget()) delete m_pointListWidget->widget(); m_pointListWidget->setFrameStyle(QFrame::NoFrame); m_pointListWidget->setWidgetResizable(true); m_pointListWidget->setHorizontalScrollBarPolicy(Qt::ScrollBarAlwaysOff); m_pointListWidget->setWidget(new QWidget(m_pointListWidget)); QVBoxLayout *layout = new QVBoxLayout(m_pointListWidget->widget()); layout->setMargin(0); layout->setSpacing(2); m_pointListWidget->widget()->setLayout(layout); m_segmentProperties.clear(); { //implicit 0,0 QWidget *widget = new QWidget(m_pointListWidget->widget()); Ui_Pane pane; pane.setupUi(widget); pane.p1_x->setValue(0); pane.p1_y->setValue(0); layout->addWidget(widget); pane.label->setText("p0"); widget->setEnabled(false); } for (int i = 0; i < m_numberOfSegments; ++i) { SegmentProperties *segmentProperties = new SegmentProperties(m_pointListWidget->widget()); layout->addWidget(segmentProperties); bool smooth = false; if (i < (m_numberOfSegments - 1)) { smooth = m_smoothList.at(i); } segmentProperties->setSegment(i, m_controlPoints.mid(i * 3, 3), smooth, i == (m_numberOfSegments - 1)); segmentProperties->setSplineEditor(this); m_segmentProperties << segmentProperties; } layout->addSpacerItem(new QSpacerItem(10, 10, QSizePolicy::Expanding, QSizePolicy::Expanding)); m_pointListWidget->viewport()->show(); m_pointListWidget->viewport()->setSizePolicy(QSizePolicy::Minimum, QSizePolicy::Minimum); m_pointListWidget->show(); } bool SplineEditor::isControlPointSmooth(int i) const { if (i == 0) return false; if (i == m_controlPoints.count() - 1) return false; if (m_numberOfSegments == 1) return false; int index = pointForControlPoint(i); if (index == 0) return false; if (index == m_controlPoints.count() - 1) return false; return m_smoothList.at(index / 3); } QPointF limitToCanvas(const QPointF point) { qreal left = -qreal( canvasMargin) / qreal(canvasWidth); qreal width = 1.0 - 2.0 * left; qreal top = -qreal( canvasMargin) / qreal(canvasHeight); qreal height = 1.0 - 2.0 * top; QPointF p = point; QRectF r(left, top, width, height); if (p.x() > r.right()) { p.setX(r.right()); } if (p.x() < r.left()) { p.setX(r.left()); } if (p.y() < r.top()) { p.setY(r.top()); } if (p.y() > r.bottom()) { p.setY(r.bottom()); } return p; } void SplineEditor::mouseMoveEvent(QMouseEvent *e) { // If we've moved more then 25 pixels, assume user is dragging if (!m_mouseDrag && QPoint(m_mousePress - e->pos()).manhattanLength() > qApp->startDragDistance()) m_mouseDrag = true; QPointF p = mapFromCanvas(e->pos()); if (m_mouseDrag && m_activeControlPoint >= 0 && m_activeControlPoint < m_controlPoints.size()) { p = limitToCanvas(p); if (indexIsRealPoint(m_activeControlPoint)) { //move also the tangents QPointF targetPoint = p; QPointF distance = targetPoint - m_controlPoints.at(m_activeControlPoint); m_controlPoints[m_activeControlPoint] = targetPoint; m_controlPoints[m_activeControlPoint - 1] += distance; m_controlPoints[m_activeControlPoint + 1] += distance; } else { if (!isControlPointSmooth(m_activeControlPoint)) { m_controlPoints[m_activeControlPoint] = p; } else { QPointF targetPoint = p; QPointF distance = targetPoint - m_controlPoints.at(m_activeControlPoint); m_controlPoints[m_activeControlPoint] = p; if ((m_activeControlPoint > 1) && (m_activeControlPoint % 3) == 0) { //right control point m_controlPoints[m_activeControlPoint - 2] -= distance; } else if ((m_activeControlPoint < (m_controlPoints.count() - 2)) //left control point && (m_activeControlPoint % 3) == 1) { m_controlPoints[m_activeControlPoint + 2] -= distance; } } } invalidate(); } } void SplineEditor::setEasingCurve(const QEasingCurve &easingCurve) { if (m_easingCurve == easingCurve) return; m_block = true; m_easingCurve = easingCurve; m_controlPoints = m_easingCurve.toCubicSpline(); m_numberOfSegments = m_controlPoints.count() / 3; update(); emit easingCurveChanged(); const QString code = generateCode(); emit easingCurveCodeChanged(code); m_block = false; } void SplineEditor::setPreset(const QString &name) { setEasingCurve(m_presets.value(name)); invalidateSmoothList(); setupPointListWidget(); } void SplineEditor::setEasingCurve(const QString &code) { if (m_block) return; if (code.startsWith(QLatin1Char('[')) && code.endsWith(QLatin1Char(']'))) { const QStringRef cleanCode(&code, 1, code.size() - 2); const auto stringList = cleanCode.split(QLatin1Char(','), QString::SkipEmptyParts); if (stringList.count() >= 6 && (stringList.count() % 6 == 0)) { QVector realList; realList.reserve(stringList.count()); for (const QStringRef &string : stringList) { bool ok; realList.append(string.toDouble(&ok)); if (!ok) return; } QVector points; const int count = realList.count() / 2; points.reserve(count); for (int i = 0; i < count; ++i) points.append(QPointF(realList.at(i * 2), realList.at(i * 2 + 1))); if (points.constLast() == QPointF(1.0, 1.0)) { QEasingCurve easingCurve(QEasingCurve::BezierSpline); for (int i = 0; i < points.count() / 3; ++i) { easingCurve.addCubicBezierSegment(points.at(i * 3), points.at(i * 3 + 1), points.at(i * 3 + 2)); } setEasingCurve(easingCurve); invalidateSmoothList(); setupPointListWidget(); } } } } #include "moc_splineeditor.cpp"