#include "toonzqt/planeviewer.h"
// TnzQt includes
#include "toonzqt/imageutils.h"
#include "toonzqt/menubarcommand.h"
#include "toonzqt/viewcommandids.h"
#include "../toonz/menubarcommandids.h"
// TnzLib includes
#include "toonz/stage.h"
// TnzCore includes
#include "trasterimage.h"
#include "ttoonzimage.h"
#include "tvectorimage.h"
#include "trop.h"
#include "tvectorrenderdata.h"
#include "tgl.h"
#include "tvectorgl.h"
#include "tpalette.h"
// Qt includes
#include <QMouseEvent>
#include <QWheelEvent>
#include <QResizeEvent>
#include <QHideEvent>
#include <QGestureEvent>
// #define PRINT_AFF
//**********************************************************************************
// Local namespace stuff
//**********************************************************************************
namespace {
struct PlaneViewerZoomer final : public ImageUtils::ShortcutZoomer {
PlaneViewerZoomer(PlaneViewer *planeViewer) : ShortcutZoomer(planeViewer) {}
private:
bool zoom(bool zoomin, bool resetZoom) override;
bool fit() override;
};
//========================================================================
bool PlaneViewerZoomer::zoom(bool zoomin, bool resetZoom) {
PlaneViewer &planeViewer = static_cast<PlaneViewer &>(*getWidget());
resetZoom ? planeViewer.resetView()
: zoomin ? planeViewer.zoomIn()
: planeViewer.zoomOut();
return true;
}
bool PlaneViewerZoomer::fit() {
PlaneViewer &planeViewer = static_cast<PlaneViewer &>(*getWidget());
planeViewer.fitView();
return true;
}
} // namespace
//=========================================================================================
PlaneViewer::PlaneViewer(QWidget *parent)
: GLWidgetForHighDpi(parent)
, m_firstResize(true)
, m_xpos(0)
, m_ypos(0)
, m_aff() // initialized at the first resize
, m_chessSize(40.0)
, m_firstDraw(true)
, m_dpiX(0.0)
, m_dpiY(0.0) {
m_zoomRange[0] = 1e-3, m_zoomRange[1] = 1024.0;
setBgColor(TPixel32(235, 235, 235), TPixel32(235, 235, 235));
setAttribute(Qt::WA_AcceptTouchEvents);
grabGesture(Qt::SwipeGesture);
grabGesture(Qt::PanGesture);
grabGesture(Qt::PinchGesture);
}
//=========================================================================================
void PlaneViewer::setZoomRange(double zoomMin, double zoomMax) {
m_zoomRange[0] = zoomMin, m_zoomRange[1] = zoomMax;
}
//------------------------------------------------------------------------
void PlaneViewer::setBgColor(const TPixel32 &color1, const TPixel32 &color2) {
m_bgColorF[0] = color1.r / 255.0, m_bgColorF[1] = color1.g / 255.0,
m_bgColorF[2] = color1.b / 255.0;
m_bgColorF[3] = color2.r / 255.0, m_bgColorF[4] = color2.g / 255.0,
m_bgColorF[5] = color2.b / 255.0;
}
//------------------------------------------------------------------------
void PlaneViewer::getBgColor(TPixel32 &color1, TPixel32 &color2) const {
color1.r = m_bgColorF[0] * 255.0, color1.g = m_bgColorF[1] * 255.0,
color1.b = m_bgColorF[2] * 255.0;
color2.r = m_bgColorF[3] * 255.0, color2.g = m_bgColorF[4] * 255.0,
color2.b = m_bgColorF[5] * 255.0;
}
//------------------------------------------------------------------------
void PlaneViewer::drawBackground() {
glClearColor(m_bgColorF[0], m_bgColorF[1], m_bgColorF[2], 1.0);
glClear(GL_COLOR_BUFFER_BIT);
if (m_bgColorF[0] != m_bgColorF[3] || m_bgColorF[1] != m_bgColorF[4] ||
m_bgColorF[2] != m_bgColorF[5]) {
// Cast the widget rect to world rect
TRectD rect(winToWorld(0, 0), winToWorld(width(), height()));
// Deduce chess geometry
TRect chessRect(tfloor(rect.x0 / m_chessSize),
tfloor(rect.y0 / m_chessSize), tceil(rect.x1 / m_chessSize),
tceil(rect.y1 / m_chessSize));
// Draw chess squares
glColor3f(m_bgColorF[3], m_bgColorF[4], m_bgColorF[5]);
glBegin(GL_QUADS);
int x, y;
TPointD pos;
double chessSize2 = 2.0 * m_chessSize;
for (y = chessRect.y0; y < chessRect.y1; ++y) {
pos.y = y * m_chessSize;
for (x = chessRect.x0 + ((chessRect.x0 + y) % 2), pos.x = x * m_chessSize;
x < chessRect.x1; x += 2, pos.x += chessSize2) {
glVertex2d(pos.x, pos.y);
glVertex2d(pos.x + m_chessSize, pos.y);
glVertex2d(pos.x + m_chessSize, pos.y + m_chessSize);
glVertex2d(pos.x, pos.y + m_chessSize);
}
}
glEnd();
}
}
//=========================================================================================
void PlaneViewer::initializeGL() { initializeOpenGLFunctions(); }
void PlaneViewer::resizeGL(int width, int height) {
width *= getDevPixRatio();
height *= getDevPixRatio();
glViewport(0, 0, width, height);
glMatrixMode(GL_PROJECTION);
glLoadIdentity();
gluOrtho2D(0, width, 0, height);
glMatrixMode(GL_MODELVIEW);
glLoadIdentity();
if (m_firstResize) {
m_firstResize = false;
m_aff = TTranslation(0.5 * width, 0.5 * height);
m_width = width;
m_height = height;
} else {
TPointD oldCenter(m_width * 0.5, m_height * 0.5);
TPointD newCenter(width * 0.5, height * 0.5);
m_aff = m_aff.place(m_aff.inv() * oldCenter, newCenter);
m_width = width;
m_height = height;
}
}
//=========================================================================================
void PlaneViewer::mouseMoveEvent(QMouseEvent *event) {
if (m_gestureActive && m_touchDevice == QTouchDevice::TouchScreen &&
!m_stylusUsed) {
return;
}
QPoint curPos = event->pos() * getDevPixRatio();
if (event->buttons() & Qt::MiddleButton)
moveView(curPos.x() - m_xpos, height() - curPos.y() - m_ypos);
m_xpos = curPos.x(), m_ypos = height() - curPos.y();
}
//------------------------------------------------------
void PlaneViewer::mousePressEvent(QMouseEvent *event) {
// qDebug() << "[mousePressEvent]";
if (m_gestureActive && m_touchDevice == QTouchDevice::TouchScreen &&
!m_stylusUsed) {
return;
}
m_xpos = event->x() * getDevPixRatio();
m_ypos = height() - event->y() * getDevPixRatio();
}
//------------------------------------------------------
void PlaneViewer::mouseDoubleClickEvent(QMouseEvent *event) {
// qDebug() << "[mouseDoubleClickEvent]";
if (m_gestureActive && !m_stylusUsed) {
m_gestureActive = false;
fitView();
return;
}
}
//------------------------------------------------------
void PlaneViewer::mouseReleaseEvent(QMouseEvent *event) {
m_gestureActive = false;
m_zooming = false;
m_panning = false;
m_stylusUsed = false;
}
//------------------------------------------------------
void PlaneViewer::wheelEvent(QWheelEvent *event) {
int delta = 0;
switch (event->source()) {
case Qt::MouseEventNotSynthesized: {
if (event->modifiers() & Qt::AltModifier)
delta = event->angleDelta().x();
else
delta = event->angleDelta().y();
break;
}
case Qt::MouseEventSynthesizedBySystem: {
QPoint numPixels = event->pixelDelta();
QPoint numDegrees = event->angleDelta() / 8;
if (!numPixels.isNull()) {
delta = event->pixelDelta().y();
} else if (!numDegrees.isNull()) {
QPoint numSteps = numDegrees / 15;
delta = numSteps.y();
}
break;
}
default: // Qt::MouseEventSynthesizedByQt,
// Qt::MouseEventSynthesizedByApplication
{
std::cout << "not supported event: Qt::MouseEventSynthesizedByQt, "
"Qt::MouseEventSynthesizedByApplication"
<< std::endl;
break;
}
} // end switch
if (abs(delta) > 0) {
if ((m_gestureActive == true &&
m_touchDevice == QTouchDevice::TouchScreen) ||
m_gestureActive == false) {
#if (QT_VERSION >= QT_VERSION_CHECK(5, 14, 0))
TPointD pos(event->position().x() * getDevPixRatio(),
height() - event->position().y() * getDevPixRatio());
#else
TPointD pos(event->pos().x() * getDevPixRatio(),
height() - event->pos().y() * getDevPixRatio());
#endif
double zoom_par = 1 + event->angleDelta().y() * 0.001;
zoomView(pos.x, pos.y, zoom_par);
}
}
event->accept();
}
//------------------------------------------------------
void PlaneViewer::keyPressEvent(QKeyEvent *event) {
if (PlaneViewerZoomer(this).exec(event)) return;
QOpenGLWidget::keyPressEvent(event);
}
//------------------------------------------------------
//! Disposes of the auxiliary internal rasterBuffer().
void PlaneViewer::hideEvent(QHideEvent *event) {
m_rasterBuffer = TRaster32P();
m_dpiX = 0.0; // reset dpi
m_dpiY = 0.0;
}
//------------------------------------------------------------------
void PlaneViewer::contextMenuEvent(QContextMenuEvent *event) {
QMenu *menu = new QMenu(this);
QAction *reset = menu->addAction(tr("Reset View"));
reset->setShortcut(
QKeySequence(CommandManager::instance()->getKeyFromId(V_ZoomReset)));
connect(reset, SIGNAL(triggered()), SLOT(resetView()));
QAction *fit = menu->addAction(tr("Fit To Window"));
fit->setShortcut(
QKeySequence(CommandManager::instance()->getKeyFromId(V_ZoomFit)));
connect(fit, SIGNAL(triggered()), SLOT(fitView()));
menu->exec(event->globalPos());
delete menu;
update();
}
//------------------------------------------------------------------
void PlaneViewer::tabletEvent(QTabletEvent *e) {
// qDebug() << "[tabletEvent]";
if (e->type() == QTabletEvent::TabletPress) {
m_stylusUsed = e->pointerType() ? true : false;
} else if (e->type() == QTabletEvent::TabletRelease) {
m_stylusUsed = false;
}
e->accept();
}
//------------------------------------------------------------------
void PlaneViewer::gestureEvent(QGestureEvent *e) {
// qDebug() << "[gestureEvent]";
m_gestureActive = false;
if (QGesture *swipe = e->gesture(Qt::SwipeGesture)) {
m_gestureActive = true;
} else if (QGesture *pan = e->gesture(Qt::PanGesture)) {
m_gestureActive = true;
}
if (QGesture *pinch = e->gesture(Qt::PinchGesture)) {
QPinchGesture *gesture = static_cast<QPinchGesture *>(pinch);
QPinchGesture::ChangeFlags changeFlags = gesture->changeFlags();
QPoint firstCenter = gesture->centerPoint().toPoint();
if (m_touchDevice == QTouchDevice::TouchScreen)
firstCenter = mapFromGlobal(firstCenter);
if (gesture->state() == Qt::GestureStarted) {
m_gestureActive = true;
} else if (gesture->state() == Qt::GestureFinished) {
m_gestureActive = false;
m_zooming = false;
m_scaleFactor = 0.0;
} else {
if (changeFlags & QPinchGesture::ScaleFactorChanged) {
double scaleFactor = gesture->scaleFactor();
// the scale factor makes for too sensitive scaling
// divide the change in half
if (scaleFactor > 1) {
double decimalValue = scaleFactor - 1;
decimalValue /= 1.5;
scaleFactor = 1 + decimalValue;
} else if (scaleFactor < 1) {
double decimalValue = 1 - scaleFactor;
decimalValue /= 1.5;
scaleFactor = 1 - decimalValue;
}
if (!m_zooming) {
double delta = scaleFactor - 1;
m_scaleFactor += delta;
if (m_scaleFactor > .2 || m_scaleFactor < -.2) {
m_zooming = true;
}
}
if (m_zooming) {
zoomView(firstCenter.x() * getDevPixRatio(),
firstCenter.y() * getDevPixRatio(), scaleFactor);
m_panning = false;
}
m_gestureActive = true;
}
if (changeFlags & QPinchGesture::CenterPointChanged) {
QPointF centerDelta = (gesture->centerPoint() * getDevPixRatio()) -
(gesture->lastCenterPoint() * getDevPixRatio());
if (centerDelta.manhattanLength() > 1) {
// panQt(centerDelta.toPoint());
}
m_gestureActive = true;
}
}
}
e->accept();
}
void PlaneViewer::touchEvent(QTouchEvent *e, int type) {
// qDebug() << "[touchEvent]";
if (type == QEvent::TouchBegin) {
m_touchActive = true;
m_firstPanPoint = e->touchPoints().at(0).pos();
// obtain device type
m_touchDevice = e->device()->type();
} else if (m_touchActive) {
// touchpads must have 2 finger panning for tools and navigation to be
// functional on other devices, 1 finger panning is preferred
if ((e->touchPoints().count() == 2 &&
m_touchDevice == QTouchDevice::TouchPad) ||
(e->touchPoints().count() == 1 &&
m_touchDevice == QTouchDevice::TouchScreen)) {
QTouchEvent::TouchPoint panPoint = e->touchPoints().at(0);
if (!m_panning) {
QPointF deltaPoint = panPoint.pos() - m_firstPanPoint;
// minimize accidental and jerky zooming/rotating during 2 finger
// panning
if ((deltaPoint.manhattanLength() > 100) && !m_zooming) {
m_panning = true;
}
}
if (m_panning) {
QPoint curPos = panPoint.pos().toPoint() * getDevPixRatio();
QPoint lastPos = panPoint.lastPos().toPoint() * getDevPixRatio();
QPoint centerDelta = curPos - lastPos;
moveView(centerDelta.x(), -centerDelta.y());
}
}
}
if (type == QEvent::TouchEnd || type == QEvent::TouchCancel) {
m_touchActive = false;
m_panning = false;
}
e->accept();
}
bool PlaneViewer::event(QEvent *e) {
/*
switch (e->type()) {
case QEvent::TabletPress: {
QTabletEvent *te = static_cast<QTabletEvent *>(e);
qDebug() << "[event] TabletPress: pointerType(" << te->pointerType()
<< ") device(" << te->device() << ")";
} break;
case QEvent::TabletRelease:
qDebug() << "[event] TabletRelease";
break;
case QEvent::TouchBegin:
qDebug() << "[event] TouchBegin";
break;
case QEvent::TouchEnd:
qDebug() << "[event] TouchEnd";
break;
case QEvent::TouchCancel:
qDebug() << "[event] TouchCancel";
break;
case QEvent::MouseButtonPress:
qDebug() << "[event] MouseButtonPress";
break;
case QEvent::MouseButtonDblClick:
qDebug() << "[event] MouseButtonDblClick";
break;
case QEvent::MouseButtonRelease:
qDebug() << "[event] MouseButtonRelease";
break;
case QEvent::Gesture:
qDebug() << "[event] Gesture";
break;
default:
break;
}
*/
if (e->type() == QEvent::Gesture && CommandManager::instance()
->getAction(MI_TouchGestureControl)
->isChecked()) {
gestureEvent(static_cast<QGestureEvent *>(e));
return true;
}
if ((e->type() == QEvent::TouchBegin || e->type() == QEvent::TouchEnd ||
e->type() == QEvent::TouchCancel || e->type() == QEvent::TouchUpdate) &&
CommandManager::instance()
->getAction(MI_TouchGestureControl)
->isChecked()) {
touchEvent(static_cast<QTouchEvent *>(e), e->type());
m_gestureActive = true;
return true;
}
return GLWidgetForHighDpi::event(e);
}
//=========================================================================================
void PlaneViewer::resetView() {
m_aff = TTranslation(0.5 * width(), 0.5 * height());
update();
}
void PlaneViewer::fitView() {
if (m_imageBounds.isEmpty()) return;
m_aff = TTranslation(0.5 * width(), 0.5 * height());
double imageScale = std::min(width() / (double)m_imageBounds.getLx(),
height() / (double)m_imageBounds.getLy());
m_aff = TScale(imageScale, imageScale);
if (m_dpiX != 0.0 && m_dpiY != 0.0)
m_aff *= TScale(m_dpiX / Stage::inch, m_dpiY / Stage::inch);
m_aff.a13 = 0.5 * width();
m_aff.a23 = 0.5 * height();
update();
}
//------------------------------------------------------
void PlaneViewer::setViewPos(double x, double y) {
m_aff.a13 = x, m_aff.a23 = y;
update();
#ifdef PRINT_AFF
qDebug("zoom = %.4f; pos = %.4f, %.4f", m_aff.a11, m_aff.a13, m_aff.a23);
#endif
}
//------------------------------------------------------
void PlaneViewer::setViewZoom(double x, double y, double zoom) {
zoom = tcrop(zoom, m_zoomRange[0], m_zoomRange[1]);
double delta = zoom / m_aff.a11;
m_aff.a13 = x + delta * (m_aff.a13 - x);
m_aff.a23 = y + delta * (m_aff.a23 - y);
m_aff.a11 = m_aff.a22 = zoom;
update();
#ifdef PRINT_AFF
qDebug("zoom = %.4f; pos = %.4f, %.4f", m_aff.a11, m_aff.a13, m_aff.a23);
#endif
}
//------------------------------------------------------
void PlaneViewer::zoomIn() {
setViewZoom(ImageUtils::getQuantizedZoomFactor(m_aff.a11, true));
}
//------------------------------------------------------
void PlaneViewer::zoomOut() {
setViewZoom(ImageUtils::getQuantizedZoomFactor(m_aff.a11, false));
}
//=========================================================================================
void PlaneViewer::pushGLWorldCoordinates() {
m_matrix[0] = m_aff.a11;
m_matrix[4] = m_aff.a12;
m_matrix[12] = m_aff.a13;
m_matrix[1] = m_aff.a21;
m_matrix[5] = m_aff.a22;
m_matrix[13] = m_aff.a23;
m_matrix[2] = m_matrix[3] = m_matrix[6] = m_matrix[7] = m_matrix[8] =
m_matrix[9] = m_matrix[10] = m_matrix[11] = m_matrix[14] = 0;
m_matrix[15] = 1.0;
glPushMatrix();
glLoadMatrixd(m_matrix); //(GLdouble*) &m_matrix
}
//------------------------------------------------------
void PlaneViewer::pushGLWinCoordinates() {
glPushMatrix();
glLoadIdentity();
}
//------------------------------------------------------
void PlaneViewer::popGLCoordinates() { glPopMatrix(); }
//=========================================================================================
TRaster32P PlaneViewer::rasterBuffer() {
if (!m_rasterBuffer || m_rasterBuffer->getLx() != width() ||
m_rasterBuffer->getLy() != height())
m_rasterBuffer = TRaster32P(width(), height());
return m_rasterBuffer;
}
//------------------------------------------------------
void PlaneViewer::flushRasterBuffer() {
assert(m_rasterBuffer);
glPixelStorei(GL_UNPACK_ROW_LENGTH, 0);
glRasterPos2d(0, 0);
glDrawPixels(width(), height(), TGL_FMT, TGL_TYPE,
m_rasterBuffer->getRawData());
}
//=========================================================================================
void PlaneViewer::draw(TRasterP ras, double dpiX, double dpiY, TPalette *pal) {
TPointD rasCenter(ras->getCenterD());
TRaster32P aux(rasterBuffer());
m_imageBounds = ras->getBounds();
if (m_dpiX == 0.0 || m_dpiY == 0.0) {
m_dpiX = dpiX;
m_dpiY = dpiY;
}
if (m_firstDraw && !m_imageBounds.isEmpty()) {
m_firstDraw = false;
fitView();
}
aux->lock();
ras->lock();
glGetDoublev(GL_MODELVIEW_MATRIX, m_matrix);
TAffine viewAff(m_matrix[0], m_matrix[4], m_matrix[12], m_matrix[1],
m_matrix[5], m_matrix[13]);
viewAff = viewAff * TScale(Stage::inch / dpiX, Stage::inch / dpiY) *
TTranslation(-rasCenter);
pushGLWinCoordinates();
aux->clear();
if (pal)
TRop::quickPut(aux, (TRasterCM32P)ras, pal, viewAff);
else
TRop::quickPut(aux, ras, viewAff);
flushRasterBuffer();
popGLCoordinates();
}
/*NOTE:
glRasterPos2d could be used, along glBitmap and glPixelZoom...
however, i've never been able to use them effectively...
*/
//------------------------------------------------------
void PlaneViewer::draw(TRasterImageP ri) {
double dpiX, dpiY;
ri->getDpi(dpiX, dpiY);
if (dpiX == 0.0 || dpiY == 0.0) dpiX = dpiY = Stage::inch;
draw(ri->getRaster(), dpiX, dpiY);
}
//------------------------------------------------------
void PlaneViewer::draw(TToonzImageP ti) {
double dpiX, dpiY;
ti->getDpi(dpiX, dpiY);
if (dpiX == 0.0 || dpiY == 0.0) dpiX = dpiY = Stage::inch;
draw(ti->getRaster(), dpiX, dpiY, ti->getPalette());
}
//------------------------------------------------------
void PlaneViewer::draw(TVectorImageP vi) {
TRectD bbox(vi->getBBox());
TRect bboxI(tfloor(bbox.x0), tfloor(bbox.y0), tceil(bbox.x1) - 1,
tceil(bbox.y1) - 1);
m_imageBounds = bboxI;
if (m_dpiX == 0.0 || m_dpiY == 0.0) {
m_dpiX = Stage::inch;
m_dpiY = Stage::inch;
}
if (m_firstDraw) {
m_firstDraw = false;
fitView();
}
TVectorRenderData rd(TAffine(), bboxI, vi->getPalette(), 0, true, true);
tglDraw(rd, vi.getPointer());
}
//------------------------------------------------------
void PlaneViewer::draw(TImageP img) {
{
TRasterImageP ri(img);
if (ri) {
draw(ri);
return;
}
}
{
TToonzImageP ti(img);
if (ti) {
draw(ti);
return;
}
}
{
TVectorImageP vi(img);
if (vi) {
draw(vi);
return;
}
}
}