// TnzQt includes
#include "toonzqt/menubarcommand.h"
#include "docklayout.h"
// Qt includes
#include <QEvent>
#include <QMouseEvent>
#include <QApplication>
#include <QDesktopWidget>
// STD includes
#include <assert.h>
#include <math.h>
#include <algorithm>
//========================================================
//-----------------------
// Dock Lock Check
//-----------------------
DockingCheck *DockingCheck::instance() {
static DockingCheck _instance;
return &_instance;
}
//-------------------------------------
void DockingCheck::setToggle(QAction *toggle) { m_toggle = toggle; }
//-------------------------------------
void DockingCheck::setIsEnabled(bool on) {
m_enabled = on;
if (m_toggle) m_toggle->setChecked(on);
}
//========================================================
class DockingToggleCommand : public MenuItemHandler {
public:
DockingToggleCommand() : MenuItemHandler("MI_DockingCheck") {}
void execute() override {
DockingCheck *dc = DockingCheck::instance();
dc->setIsEnabled(!dc->isEnabled());
}
} dockingToggleCommand;
//========================================================
//------------------------
// Geometry inlines
//------------------------
//! Calculates infinite-norm distance between points \b a and \b b.
inline int absoluteDistance(const QPoint &a, const QPoint &b) {
return std::max(abs(a.x() - b.x()), abs(a.y() - b.y()));
}
//-------------------------------------
// Il metodo QRectF::toRect pare che faccia la cosa commentata. Ovviamente non
// e' la cosa piu' simpatica - considera
// che in questo modo i bordi del rect di input *non vengono approssimati alle
// piu' vicine coordinate intere*!
// es: topLeft= (1/3, 1/3); width= 4/3, height= 4/3 => left= top= right=
// bottom= 0.
inline QRect toRect(const QRectF &rect) {
// return QRect(qRound(rect.left()), qRound(rect.top()), qRound(rect.width()),
// qRound(rect.height()));
return QRect(rect.topLeft().toPoint(),
rect.bottomRight().toPoint() -= QPoint(1, 1));
}
//========================================================
// Forward declaration
namespace {
QDesktopWidget *desktop;
void getClosestAvailableMousePosition(QPoint &globalPos);
}
//========================================================
//----------------------
// Layout inlines
//----------------------
inline void DockLayout::update() {
// E' necessario?
applyGeometry();
}
//========================================================
//------------------------------
// My Dock Widget Methods
//------------------------------
//! Constructs a dock Widget; every newly constructed dock widget is floating
//! (i.e. not docked
//! into the layout).
DockWidget::DockWidget(QWidget *parent, Qt::WindowFlags flags)
: QWidget(parent, flags)
, m_dragging(false)
, m_resizing(false)
, m_floating(true)
, m_undocking(false)
, m_parentLayout(0)
, m_selectedPlace(0)
, m_maximized(0) {
// Don't let this widget inherit the parent's backround color
// setAutoFillBackground(true);
// setBackgroundRole(QPalette::Background);
// setAttribute(Qt::WA_DeleteOnClose); //Since Toonz just hides panels...
setAttribute(Qt::WA_Hover);
// Set default minimum and maximum sizes.
setMinimumSize(QSize(50, 50));
setMaximumSize(QSize(10000, 10000));
m_decoAllocator = new DockDecoAllocator;
// Make sure the desktop is initialized and known
desktop = qApp->desktop();
}
//-------------------------------------
DockWidget::~DockWidget() {
// Since close button lies on the title bar, make sure mouse is released if
// that is pressed.
if (QWidget::mouseGrabber() == this) releaseMouse();
clearDockPlaceholders();
// Delete deco allocator
delete m_decoAllocator;
}
//-------------------------------------
//! Clears dock placeholders for this dockwidget. This is automatically called
//! at drag ends.
void DockWidget::clearDockPlaceholders() {
unsigned int i;
for (i = 0; i < m_placeholders.size(); ++i) delete m_placeholders[i];
m_placeholders.clear();
}
//-------------------------------------
//! Shows dock widget in docked mode.
//! Returns true or false whether input \b QPoint is inside the dragging grip
//! for \b this DockWidget, or not.
//! Typically (and by default), true is returned whenever p lies inside the
//! widget's title bar when floating;
//! however, you are free to place the drag grip anywhere reimplementing this
//! method in custom dockwidgets.
bool DockWidget::isDragGrip(QPoint p) {
if (isFloating()) {
QRect frame = frameGeometry();
QRect conts = geometry();
int margin = conts.left() - frame.left();
int titleBarHeight = conts.top() - frame.top();
QRect titleArea(QPoint(0, margin - titleBarHeight),
QPoint(width() - 1, -1));
return titleArea.contains(p);
}
return 0;
}
//-------------------------------------
bool DockWidget::event(QEvent *e) {
// qDebug("Dock Widget - Event type: %d", e->type());
// Little deviation or type specifications for received events
switch (e->type()) {
// Dock widgets are hover widgets - since their cursor may change on resize
// grips.
case QEvent::HoverMove:
hoverMoveEvent(static_cast<QHoverEvent *>(e));
return true;
// Native titlebar press events must be redirected to common ones
// - and, in this case mouse has to grabbed
case QEvent::NonClientAreaMouseButtonPress:
// grabMouse(); //Cannot not go here or resizes cannot be natively handled
mousePressEvent(static_cast<QMouseEvent *>(e));
return true;
// Titlebars are not natively handled in this raw class - their responsibility
// falls
// to user implementation of DockWidget class
case QEvent::WindowTitleChange:
windowTitleEvent(e);
return true;
default:
return QWidget::event(e);
}
}
//-------------------------------------
//! Adjusts widget cursor depending on \b isResizeGrip()
// NOTA: Da migliorare: ricordare il cursor settato o se era unset e riapplicare
// quando fuori dal resize grip.
void DockWidget::hoverMoveEvent(QHoverEvent *he) {
if (m_floating && !m_resizing && !m_undocking) {
QCursor newCursor = Qt::ArrowCursor;
if ((m_marginType = isResizeGrip(he->pos()))) {
// Hovering a margin - update cursor shape
if (m_marginType & leftMargin) {
if (m_marginType & topMargin)
newCursor = Qt::SizeFDiagCursor;
else if (m_marginType & bottomMargin)
newCursor = Qt::SizeBDiagCursor;
else
newCursor = Qt::SizeHorCursor;
} else if (m_marginType & rightMargin) {
if (m_marginType & topMargin)
newCursor = Qt::SizeBDiagCursor;
else if (m_marginType & bottomMargin)
newCursor = Qt::SizeFDiagCursor;
else
newCursor = Qt::SizeHorCursor;
} else
newCursor = Qt::SizeVerCursor;
}
if (newCursor.shape() != cursor().shape()) setCursor(newCursor);
}
}
//-------------------------------------
//! Dispatches mouse presses for particular purposes...
//! a) Trigger a window resize (or none with native deco)
//! if press is over a resize grip
//! b) Trigger a window drag if press is over a drag grip
void DockWidget::mousePressEvent(QMouseEvent *me) {
if ((m_marginType = m_floating ? isResizeGrip(me->pos()) : 0)) {
// Resize begins
// NOTE: It is better to assume that resize grips dominate over drag grips:
// this ensures
// that mouse cursor changes are always consistent with resize events.
m_resizing = true;
m_dragMouseInitialPos = me->globalPos(); // Re-used as old position
} else if (isDragGrip(me->pos())) {
// Dragging begins
DockingCheck *lock = DockingCheck::instance(); // Docking system lock
m_dragMouseInitialPos = me->globalPos();
m_dragInitialPos = pos();
// Grab mouse inputs - useful if widget gets under placeholders
if (me->type() == QEvent::NonClientAreaMouseButtonPress)
// If can receive double-clicks, avoid grabbing mouse
grabMouse();
if (m_floating) {
m_dragging = true;
// Do not allow docking if there is a maximized widget or the layout is
// locked
if (m_parentLayout && !m_parentLayout->getMaximized() &&
!lock->isEnabled())
m_parentLayout->calculateDockPlaceholders(this);
} else {
if (!lock->isEnabled()) m_undocking = true;
m_dragInitialPos = parentWidget()->mapToGlobal(m_dragInitialPos);
}
}
}
//-------------------------------------
void DockWidget::mouseMoveEvent(QMouseEvent *me) {
QPoint correctedGlobalPos(me->globalPos());
getClosestAvailableMousePosition(correctedGlobalPos);
if (m_resizing) {
// m_dragMouseInitialPos re-used as old position
int dx = correctedGlobalPos.x() - m_dragMouseInitialPos.x();
int dy = correctedGlobalPos.y() - m_dragMouseInitialPos.y();
QRect geom = geometry();
if (m_marginType & leftMargin) {
int newWidth = geom.width() - dx;
if (newWidth >= minimumWidth() && newWidth <= maximumWidth())
geom.setLeft(geom.left() + dx);
} else if (m_marginType & rightMargin)
geom.setRight(geom.right() + dx);
if (m_marginType & topMargin) {
int newHeight = geom.height() - dy;
if (newHeight >= minimumHeight() && newHeight <= maximumHeight())
geom.setTop(geom.top() + dy);
} else if (m_marginType & bottomMargin)
geom.setBottom(geom.bottom() + dy);
setGeometry(geom);
m_dragMouseInitialPos = correctedGlobalPos;
} else if (m_dragging) {
move(m_dragInitialPos + correctedGlobalPos - m_dragMouseInitialPos);
selectDockPlaceholder(me);
} else if (m_undocking) {
int distance = absoluteDistance(me->globalPos(), m_dragMouseInitialPos);
if (distance > 8) {
m_undocking = false;
// Attempt undocking
if (m_parentLayout->undockItem(this)) {
m_dragging = true;
// Then, move dock widget under cursor, as if drag actually begun at
// button press.
move(m_dragInitialPos + correctedGlobalPos - m_dragMouseInitialPos);
show(); // Dock widget is not automatically shown after undock.
// Re-grab mouse inputs. Seems that making the window float (i.e.:
// reparenting) breaks old grab.
// NOTE: mouse *must* be grabbed only when visible - see Qt manual.
grabMouse();
// After undocking takes place, docking possibilities have to be
// recalculated
m_parentLayout->calculateDockPlaceholders(this);
selectDockPlaceholder(me);
}
}
}
}
//-------------------------------------
void DockWidget::mouseReleaseEvent(QMouseEvent *me) {
// Ensure mouse is released
releaseMouse();
if (m_dragging) {
m_dragging = false;
if (m_floating && m_selectedPlace) {
m_parentLayout->dockItem(this, m_selectedPlace);
} else {
// qDebug("Dock failed");
}
// Clear dock placeholders
clearDockPlaceholders();
m_selectedPlace = 0;
} else if (m_undocking) {
// qDebug("Undock failed");
m_undocking = false;
} else if (m_resizing) {
m_resizing = false;
}
}
//-------------------------------------
//! DockWidgets respond to title bar double clicks maximizing the widget in
//! layout's contents rect.
void DockWidget::mouseDoubleClickEvent(QMouseEvent *me) {
if (!m_floating && isDragGrip(me->pos())) {
parentLayout()->setMaximized(this, !m_maximized);
}
}
//-------------------------------------
//! Switch in selected dock placeholder's hierarchy.
void DockWidget::wheelEvent(QWheelEvent *we) {
if (m_dragging) {
if (m_selectedPlace) {
DockPlaceholder *newSelected =
(we->delta() > 0)
? m_selectedPlace->parentPlaceholder()
: m_selectedPlace->childPlaceholder(
parentWidget()->mapFromGlobal(we->globalPos()));
if (newSelected != m_selectedPlace) {
m_selectedPlace->hide();
newSelected->show();
m_selectedPlace = newSelected;
}
}
}
}
//-------------------------------------
//! Returns widget (separator or docked widget) containing input \point, or 0 if
//! none.
//! Convenience function combining parentLayout() and containerOf(\b point).
//!\b NOTE: Observe that, in any case, the use of QEnterEvents is discouraged
//!for this purpose:
//! remember that we forcedly remain within its boundaries when dragging a dock
//! widget;
//! instead, we are rather interested about entering the dock widgets *below*.
QWidget *DockWidget::hoveredWidget(QMouseEvent *me) {
if (!m_parentLayout) return 0;
QPoint point = parentWidget()->mapFromGlobal(me->globalPos());
return m_parentLayout->containerOf(point);
}
//-------------------------------------
//! Returns adjacent placeholders to hovered widget. If hovered is a separator,
//! just return associated placeholder.
DockPlaceholder *DockWidget::placeAdjacentTo(DockWidget *dockWidget,
int boundary) {
Region *r = parentLayout()->find(dockWidget);
if (((boundary == DockPlaceholder::left ||
boundary == DockPlaceholder::right) &&
r->getOrientation() == Region::horizontal) ||
((boundary == DockPlaceholder::top ||
boundary == DockPlaceholder::bottom) &&
r->getOrientation() == Region::vertical)) {
// Placeholder is coherent with region orientation
return r->placeholders().size() ? r->placeholder(boundary % 2) : 0;
} else {
// Search in parent region
Region *parent = r->getParent();
if (parent) {
unsigned int i = parent->find(r);
return parent->placeholders().size()
? parent->placeholder(i + (boundary % 2))
: 0;
} else {
// No parent region - dockWidget is the only widget of the whole layout;
// Then check the first 2 elements of placeholders vector.
if (!m_placeholders[boundary % 2]->getParentRegion()) {
return m_placeholders.size() ? m_placeholders[boundary % 2] : 0;
}
}
}
return 0;
}
//-------------------------------------
//! Returns placeholder associated with input separator.
DockPlaceholder *DockWidget::placeOfSeparator(DockSeparator *sep) {
Region *r = sep->getParentRegion();
int idx = sep->getIndex();
return r->placeholders().size() ? r->placeholder(idx + 1) : 0;
}
//-------------------------------------
//! Processes an input mouse event to select the active placeholder among the
//! possible ones
//! for \b this dock widget. The selected placeholder is also evidenced with
//! respect to the
//! other (or these are kept hidden) according to the body of this function.
void DockWidget::selectDockPlaceholder(QMouseEvent *me) {
// const int inf= 1000000;
DockPlaceholder *selected = 0;
// Search placeholders cotaining muose position
unsigned int i;
for (i = 0; i < m_placeholders.size(); ++i) {
if (m_placeholders[i]->geometry().contains(me->globalPos())) {
selected = m_placeholders[i];
}
}
// In order to avoid flickering
if (m_selectedPlace != selected) {
if (m_selectedPlace) m_selectedPlace->hide();
if (selected) selected->show();
}
m_selectedPlace = selected;
}
//========================================================
//-------------------------
// Dock Placeholders
//-------------------------
inline QRect DockPlaceholder::parentGeometry() const {
return m_region ? toRect(m_region->getGeometry())
: m_owner->parentLayout()->contentsRect();
}
//------------------------------------------------------
//! Assigns the geometry of \b this placeholder.
//! Once a placeholder is created, in response to a user window drag,
//! dock placeholders are calculated. After a placeholder is created,
//! its geometry is built according to this function. It is possible to
//! reimplement it in order to build custom placeholder styles.
inline void DockPlaceholder::buildGeometry() {
QRect relativeToMainRect;
if (m_separator)
relativeToMainRect = m_separator->geometry();
else {
QRect parentRect = parentGeometry();
DockLayout *layout = m_owner->parentLayout();
QRect mainRect = layout->contentsRect();
int sepWidth = layout->spacing();
int margin = 6; // layout->margin(); //Purtroppo questa info e' assegnata
// prima delle Room...
if (isRoot()) {
// Set the whole contents rect
relativeToMainRect = parentRect;
// Set a square at middle of parent geometry
// QPoint center= parentRect.center();
// relativeToMainRect= QRect(center - QPoint(50,50), center +
// QPoint(50,50));
} else if (getParentRegion() == 0 ||
getParentRegion() == layout->rootRegion()) {
// Outer insertion case
switch (getAttribute()) {
int leftBound, upperBound;
case left:
leftBound = parentRect.left() - margin;
relativeToMainRect =
QRect(leftBound, parentRect.top(), margin, parentRect.height());
break;
case right:
leftBound = parentRect.right() + 1;
relativeToMainRect =
QRect(leftBound, parentRect.top(), margin, parentRect.height());
break;
case top:
upperBound = parentRect.top() - margin;
relativeToMainRect =
QRect(parentRect.left(), upperBound, parentRect.width(), margin);
break;
default:
upperBound = parentRect.bottom() + 1;
relativeToMainRect =
QRect(parentRect.left(), upperBound, parentRect.width(), margin);
break;
}
} else
switch (getAttribute()) {
int leftBound, upperBound;
case left:
leftBound = parentRect.left();
relativeToMainRect =
QRect(leftBound, parentRect.top(), sepWidth, parentRect.height());
break;
case right:
leftBound = parentRect.right() - sepWidth + 1;
relativeToMainRect =
QRect(leftBound, parentRect.top(), sepWidth, parentRect.height());
break;
case top:
upperBound = parentRect.top();
relativeToMainRect =
QRect(parentRect.left(), upperBound, parentRect.width(), sepWidth);
break;
default:
upperBound = parentRect.bottom() - sepWidth + 1;
relativeToMainRect =
QRect(parentRect.left(), upperBound, parentRect.width(), sepWidth);
break;
}
}
QPoint topLeft =
m_owner->parentWidget()->mapToGlobal(relativeToMainRect.topLeft());
QPoint bottomRight =
m_owner->parentWidget()->mapToGlobal(relativeToMainRect.bottomRight());
setGeometry(QRect(topLeft, bottomRight));
}
//------------------------------------------------------
DockPlaceholder::DockPlaceholder(DockWidget *owner, Region *r, int idx,
int attributes)
: QWidget(owner)
, m_owner(owner)
, m_separator(0)
, m_region(r)
, m_idx(idx)
, m_attributes(attributes) {
setWindowFlags(Qt::Tool | Qt::WindowStaysOnTopHint | Qt::FramelessWindowHint);
// Set separators
if (r && idx && idx < (int)r->getChildList().size()) {
m_separator = r->separators()[idx - 1];
}
}
//------------------------------------------------------
inline DockSeparator *DockPlaceholder::getSeparator() const {
return m_separator;
}
//------------------------------------------------------
//! Find the 'parent' of this placeholder (same side/orientation, on grandParent
//! region)
//! NOTE: If no grandParent exists \b this is the root, which is then returned.
DockPlaceholder *DockPlaceholder::parentPlaceholder() {
// Placeholders covering a whole separator or roots have no parent (return
// itself)
if (m_attributes == sepHor || m_attributes == sepVert || isRoot())
return this;
// Now, check if owner Region has a parent.
Region *grandParent;
if (!m_region || !m_region->getParent()) return this;
if ((grandParent = m_region->getParent()->getParent())) {
// Good, we finally have to search in grandParent's region our direct
// parent.
unsigned int idx = grandParent->find(m_region->getParent());
// Since placeholders are built ordered, just use the found idx.
if (m_attributes == left || m_attributes == top)
return grandParent->placeholders().size() ? grandParent->placeholder(idx)
: this;
else
return grandParent->placeholders().size()
? grandParent->placeholder(idx + 1)
: this;
} else {
// GrandParent would be a new root. Then, take the first two possible
// placeholders
// of the entire dockWidget.
if (m_owner->m_placeholders.size()) {
DockPlaceholder *result = m_owner->m_placeholders[m_attributes % 2];
if (!result->m_region) return result;
}
return this;
}
}
//------------------------------------------------------
//! The opposite of parentPlaceholder() - but a point belonging to the child
//! region to be selected is requested as univoque key among all children.
DockPlaceholder *DockPlaceholder::childPlaceholder(QPoint p) {
// Ensure this is not a root placeholder
if (m_attributes == root) return this;
// Define children list and ensure it is not void.
Region *r;
unsigned int i;
bool lastExtremity;
if (m_region) {
if (!m_region->getChildList().size()) return this;
// Search the subregion containing p
for (i = 0; i < m_region->getChildList().size(); ++i)
if (m_region->childRegion(i)->getGeometry().contains(p)) break;
if (i == m_region->getChildList().size())
return this; // No subregion found...
lastExtremity = (m_idx > (int)i);
// Ensure it has subRegions.
r = m_region->childRegion(i);
if (!r->getChildList().size()) return this;
} else {
r = m_owner->parentLayout()->rootRegion();
lastExtremity = m_attributes % 2;
}
// Now, take the 'grandson' region as above.
for (i = 0; i < r->getChildList().size(); ++i)
if (r->childRegion(i)->getGeometry().contains(p)) break;
if (i == r->getChildList().size()) return this; // No subregion found...
r = r->childRegion(i);
// Finally, return child placeholder found.
return r->placeholders().size()
? lastExtremity ? r->placeholders().back()
: r->placeholders().front()
: this;
}
//------------------------------------------------------
//! Returns greatest placeholder which contains this one.
inline DockPlaceholder *DockPlaceholder::greatestPlaceholder() {
DockPlaceholder *old = this, *current = parentPlaceholder();
while (current != old) {
old = current;
current = old->parentPlaceholder();
}
return current;
}
//------------------------------------------------------
//! Returns smallest placeholder contained by this one - a point belonging to
//! the child
//! region to be selected is requested as univoque key among all children.
inline DockPlaceholder *DockPlaceholder::smallestPlaceholder(QPoint p) {
DockPlaceholder *old = this, *current = childPlaceholder(p);
while (current != old) {
old = current;
current = old->childPlaceholder(p);
}
return current;
}
//========================================================================
//------------------
// Separators
//------------------
DockSeparator::DockSeparator(DockLayout *owner, bool orientation,
Region *parentRegion)
: QWidget(owner->parentWidget())
, m_owner(owner)
, m_orientation(orientation)
, m_parentRegion(parentRegion)
, m_pressed(false) {
setObjectName("DockSeparator");
setWindowFlags(Qt::SubWindow);
setAutoFillBackground(false);
// Set appropriate widget cursor
if (m_orientation == Region::horizontal)
setCursor(Qt::SplitHCursor);
else
setCursor(Qt::SplitVCursor);
show();
}
//-------------------------------------
void DockSeparator::mousePressEvent(QMouseEvent *me) {
m_pressed = true;
m_oldPos = me->globalPos();
const std::deque<DockSeparator *> &sepList = m_parentRegion->separators();
const std::deque<Region *> &childList = m_parentRegion->getChildList();
// Find separated Regions (separator index)
unsigned int i;
for (i = 0; i < sepList.size(); ++i)
if (sepList[i] == this) break;
// Calculate bounds for separator shift
// First ensure extremal sizes are recalculated
m_parentRegion->calculateExtremalSizes();
int sepWidth = m_owner->spacing();
Region *r = getParentRegion();
double parentLeft, parentRight;
int leftSepCount = m_index;
int rightSepCount =
r->separators().size() - leftSepCount; // This sep included
if (m_orientation == Region::horizontal) {
parentLeft = r->getGeometry().left();
parentRight = r->getGeometry().right();
} else {
parentLeft = r->getGeometry().top();
parentRight = r->getGeometry().bottom();
}
// Calculate left and right extremal sizes
int j, leftMinSize = 0, rightMinSize = 0, leftMaxSize = 0, rightMaxSize = 0;
for (j = 0; j <= m_index; ++j) {
leftMinSize += r->childRegion(j)->getMinimumSize(m_orientation);
leftMaxSize += r->childRegion(j)->getMaximumSize(m_orientation);
}
int size = r->getChildList().size();
for (j = m_index + 1; j < size; ++j) {
rightMinSize += r->childRegion(j)->getMinimumSize(m_orientation);
rightMaxSize += r->childRegion(j)->getMaximumSize(m_orientation);
}
// Sull'intera regione padre
m_leftBound = std::max(parentLeft + leftMinSize + leftSepCount * sepWidth,
parentRight - rightMaxSize - rightSepCount * sepWidth);
m_rightBound =
std::min(parentLeft + leftMaxSize + leftSepCount * sepWidth,
parentRight - rightMinSize - rightSepCount * sepWidth);
}
//-------------------------------------
inline void DockSeparator::mouseReleaseEvent(QMouseEvent *me) {
m_pressed = false;
}
//-------------------------------------
void DockSeparator::mouseMoveEvent(QMouseEvent *me) {
if (m_pressed) {
double movedPosition, newPosition;
if (m_orientation == Region::horizontal) {
double dx = me->globalX() - m_oldPos.x();
movedPosition =
getParentRegion()->childRegion(m_index)->getGeometry().right() + dx;
newPosition =
std::min(std::max(movedPosition, m_leftBound), m_rightBound);
dx += newPosition - movedPosition;
if (dx) {
Region *r;
QRectF newGeometry;
double newWidth, dxTemp = dx;
int i;
// Propagate dx in left-adjacent regions
for (i = m_index; dx != 0 && i >= 0; --i) {
r = getParentRegion()->childRegion(i);
newGeometry = r->getGeometry();
// Right margin is shifted by dx
newGeometry.adjust(0, 0, dx, 0);
newWidth = newGeometry.width();
// New width absorbs part of dx according to constraints
newWidth = std::min(
std::max(newWidth, (double)r->getMinimumSize(Region::horizontal)),
(double)r->getMaximumSize(Region::horizontal));
newGeometry.adjust(dx = newGeometry.width() - newWidth, 0, 0, 0);
r->setGeometry(newGeometry);
r->redistribute();
}
dx = dxTemp;
int size = getParentRegion()->getChildList().size();
// Propagate dx in right-adjacent regions
for (i = m_index + 1; dx != 0 && i < size; ++i) {
r = getParentRegion()->childRegion(i);
newGeometry = r->getGeometry();
newGeometry.adjust(dx, 0, 0, 0);
newWidth = newGeometry.width();
newWidth = std::min(
std::max(newWidth, (double)r->getMinimumSize(Region::horizontal)),
(double)r->getMaximumSize(Region::horizontal));
newGeometry.adjust(0, 0, dx = newWidth - newGeometry.width(), 0);
r->setGeometry(newGeometry);
r->redistribute();
}
m_owner->update();
}
} else {
double dy = me->globalY() - m_oldPos.y();
movedPosition =
getParentRegion()->childRegion(m_index)->getGeometry().bottom() + dy;
newPosition =
std::min(std::max(movedPosition, m_leftBound), m_rightBound);
dy += newPosition - movedPosition;
if (dy) {
Region *r;
QRectF newGeometry;
double newHeight, dyTemp = dy;
int i;
for (i = m_index; dy != 0 && i >= 0; --i) {
r = getParentRegion()->childRegion(i);
newGeometry = r->getGeometry();
QRectF oldGeometry = newGeometry;
newGeometry.adjust(0, 0, 0, dy);
newHeight = newGeometry.height();
newHeight = std::min(
std::max(newHeight, (double)r->getMinimumSize(Region::vertical)),
(double)r->getMaximumSize(Region::vertical));
newGeometry.adjust(0, dy = newGeometry.height() - newHeight, 0, 0);
r->setGeometry(newGeometry);
r->redistribute();
}
dy = dyTemp;
int size = getParentRegion()->getChildList().size();
for (i = m_index + 1; dy != 0 && i < size; ++i) {
r = getParentRegion()->childRegion(i);
newGeometry = r->getGeometry();
newGeometry.adjust(0, dy, 0, 0);
newHeight = newGeometry.height();
newHeight = std::min(
std::max(newHeight, (double)r->getMinimumSize(Region::vertical)),
(double)r->getMaximumSize(Region::vertical));
newGeometry.adjust(0, 0, 0, dy = newHeight - newGeometry.height());
r->setGeometry(newGeometry);
r->redistribute();
}
m_owner->update();
}
}
m_oldPos = QPoint(me->globalX(), me->globalY());
}
}
//========================================================
//----------------------------------
// Available geometries code
//----------------------------------
namespace {
//-------------------------------------
// Finds the closest mouse point belonging to some available geometry.
void getClosestAvailableMousePosition(QPoint &globalPos) {
// Search the screen rect containing the mouse position
int i, screens = desktop->numScreens();
for (i = 0; i < screens; ++i)
if (desktop->screenGeometry(i).contains(globalPos)) break;
// Find the closest point to the corresponding available region
QRect rect(desktop->availableGeometry(i));
if (rect.contains(globalPos)) return;
// Return the closest point to the available geometry
QPoint result;
if (globalPos.x() < rect.left())
globalPos.setX(rect.left());
else if (globalPos.x() > rect.right())
globalPos.setX(rect.right());
if (globalPos.y() < rect.top())
globalPos.setY(rect.top());
else if (globalPos.y() > rect.bottom())
globalPos.setY(rect.bottom());
}
} // Local namespace