/******************************************************************** KWin - the KDE window manager This file is part of the KDE project. Copyright (C) 1999, 2000 Matthias Ettrich Copyright (C) 1997 to 2002 Cristian Tibirna Copyright (C) 2003 Lubos Lunak 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. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see . *********************************************************************/ #include "placement.h" #ifndef KCMRULES #include "workspace.h" #include "x11client.h" #include "cursor.h" #include "options.h" #include "rules.h" #include "screens.h" #endif #include #include namespace KWin { #ifndef KCMRULES KWIN_SINGLETON_FACTORY(Placement) Placement::Placement(QObject*) { reinitCascading(0); } Placement::~Placement() { s_self = nullptr; } /** * Places the client \a c according to the workspace's layout policy */ void Placement::place(AbstractClient *c, const QRect &area) { Policy policy = c->rules()->checkPlacement(Default); if (policy != Default) { place(c, area, policy); return; } if (c->isUtility()) placeUtility(c, area, options->placement()); else if (c->isDialog()) placeDialog(c, area, options->placement()); else if (c->isSplash()) placeOnMainWindow(c, area); // on mainwindow, if any, otherwise centered else if (c->isOnScreenDisplay() || c->isNotification() || c->isCriticalNotification()) placeOnScreenDisplay(c, area); else if (c->isTransient() && c->hasTransientPlacementHint()) placeTransient(c); else if (c->isTransient() && c->surface()) placeDialog(c, area, options->placement()); else place(c, area, options->placement()); } void Placement::place(AbstractClient *c, const QRect &area, Policy policy, Policy nextPlacement) { if (policy == Unknown) policy = Default; if (policy == Default) policy = options->placement(); if (policy == NoPlacement) return; else if (policy == Random) placeAtRandom(c, area, nextPlacement); else if (policy == Cascade) placeCascaded(c, area, nextPlacement); else if (policy == Centered) placeCentered(c, area, nextPlacement); else if (policy == ZeroCornered) placeZeroCornered(c, area, nextPlacement); else if (policy == UnderMouse) placeUnderMouse(c, area, nextPlacement); else if (policy == OnMainWindow) placeOnMainWindow(c, area, nextPlacement); else if (policy == Maximizing) placeMaximizing(c, area, nextPlacement); else placeSmart(c, area, nextPlacement); if (options->borderSnapZone()) { // snap to titlebar / snap to window borders on inner screen edges const QRect geo(c->frameGeometry()); QPoint corner = geo.topLeft(); const QMargins frameMargins = c->frameMargins(); AbstractClient::Position titlePos = c->titlebarPosition(); const QRect fullRect = workspace()->clientArea(FullArea, c); if (!(c->maximizeMode() & MaximizeHorizontal)) { if (titlePos != AbstractClient::PositionRight && geo.right() == fullRect.right()) { corner.rx() += frameMargins.right(); } if (titlePos != AbstractClient::PositionLeft && geo.left() == fullRect.left()) { corner.rx() -= frameMargins.left(); } } if (!(c->maximizeMode() & MaximizeVertical)) { if (titlePos != AbstractClient::PositionBottom && geo.bottom() == fullRect.bottom()) { corner.ry() += frameMargins.bottom(); } if (titlePos != AbstractClient::PositionTop && geo.top() == fullRect.top()) { corner.ry() -= frameMargins.top(); } } c->move(corner); } } /** * Place the client \a c according to a simply "random" placement algorithm. */ void Placement::placeAtRandom(AbstractClient* c, const QRect& area, Policy /*next*/) { Q_ASSERT(area.isValid()); const int step = 24; static int px = step; static int py = 2 * step; int tx, ty; if (px < area.x()) { px = area.x(); } if (py < area.y()) { py = area.y(); } px += step; py += 2 * step; if (px > area.width() / 2) { px = area.x() + step; } if (py > area.height() / 2) { py = area.y() + step; } tx = px; ty = py; if (tx + c->width() > area.right()) { tx = area.right() - c->width(); if (tx < 0) tx = 0; px = area.x(); } if (ty + c->height() > area.bottom()) { ty = area.bottom() - c->height(); if (ty < 0) ty = 0; py = area.y(); } c->move(tx, ty); } // TODO: one day, there'll be C++11 ... static inline bool isIrrelevant(const AbstractClient *client, const AbstractClient *regarding, int desktop) { if (!client) return true; if (client == regarding) return true; if (!client->isShown(false)) return true; if (!client->isOnDesktop(desktop)) return true; if (!client->isOnCurrentActivity()) return true; if (client->isDesktop()) return true; return false; } /** * Place the client \a c according to a really smart placement algorithm :-) */ void Placement::placeSmart(AbstractClient* c, const QRect& area, Policy /*next*/) { Q_ASSERT(area.isValid()); /* * SmartPlacement by Cristian Tibirna (tibirna@kde.org) * adapted for kwm (16-19jan98) and for kwin (16Nov1999) using (with * permission) ideas from fvwm, authored by * Anthony Martin (amartin@engr.csulb.edu). * Xinerama supported added by Balaji Ramani (balaji@yablibli.com) * with ideas from xfce. */ if (!c->frameGeometry().isValid()) { return; } const int none = 0, h_wrong = -1, w_wrong = -2; // overlap types long int overlap, min_overlap = 0; int x_optimal, y_optimal; int possible; int desktop = c->desktop() == 0 || c->isOnAllDesktops() ? VirtualDesktopManager::self()->current() : c->desktop(); int cxl, cxr, cyt, cyb; //temp coords int xl, xr, yt, yb; //temp coords int basket; //temp holder // get the maximum allowed windows space int x = area.left(); int y = area.top(); x_optimal = x; y_optimal = y; //client gabarit int ch = c->height() - 1; int cw = c->width() - 1; bool first_pass = true; //CT lame flag. Don't like it. What else would do? //loop over possible positions do { //test if enough room in x and y directions if (y + ch > area.bottom() && ch < area.height()) { overlap = h_wrong; // this throws the algorithm to an exit } else if (x + cw > area.right()) { overlap = w_wrong; } else { overlap = none; //initialize cxl = x; cxr = x + cw; cyt = y; cyb = y + ch; for (auto l = workspace()->stackingOrder().constBegin(); l != workspace()->stackingOrder().constEnd() ; ++l) { AbstractClient *client = qobject_cast(*l); if (isIrrelevant(client, c, desktop)) { continue; } xl = client->x(); yt = client->y(); xr = xl + client->width(); yb = yt + client->height(); //if windows overlap, calc the overall overlapping if ((cxl < xr) && (cxr > xl) && (cyt < yb) && (cyb > yt)) { xl = qMax(cxl, xl); xr = qMin(cxr, xr); yt = qMax(cyt, yt); yb = qMin(cyb, yb); if (client->keepAbove()) overlap += 16 * (xr - xl) * (yb - yt); else if (client->keepBelow() && !client->isDock()) // ignore KeepBelow windows overlap += 0; // for placement (see X11Client::belongsToLayer() for Dock) else overlap += (xr - xl) * (yb - yt); } } } //CT first time we get no overlap we stop. if (overlap == none) { x_optimal = x; y_optimal = y; break; } if (first_pass) { first_pass = false; min_overlap = overlap; } //CT save the best position and the minimum overlap up to now else if (overlap >= none && overlap < min_overlap) { min_overlap = overlap; x_optimal = x; y_optimal = y; } // really need to loop? test if there's any overlap if (overlap > none) { possible = area.right(); if (possible - cw > x) possible -= cw; // compare to the position of each client on the same desk for (auto l = workspace()->stackingOrder().constBegin(); l != workspace()->stackingOrder().constEnd() ; ++l) { AbstractClient *client = qobject_cast(*l); if (isIrrelevant(client, c, desktop)) { continue; } xl = client->x(); yt = client->y(); xr = xl + client->width(); yb = yt + client->height(); // if not enough room above or under the current tested client // determine the first non-overlapped x position if ((y < yb) && (yt < ch + y)) { if ((xr > x) && (possible > xr)) possible = xr; basket = xl - cw; if ((basket > x) && (possible > basket)) possible = basket; } } x = possible; } // ... else ==> not enough x dimension (overlap was wrong on horizontal) else if (overlap == w_wrong) { x = area.left(); possible = area.bottom(); if (possible - ch > y) possible -= ch; //test the position of each window on the desk for (auto l = workspace()->stackingOrder().constBegin(); l != workspace()->stackingOrder().constEnd() ; ++l) { AbstractClient *client = qobject_cast(*l); if (isIrrelevant(client, c, desktop)) { continue; } xl = client->x(); yt = client->y(); xr = xl + client->width(); yb = yt + client->height(); // if not enough room to the left or right of the current tested client // determine the first non-overlapped y position if ((yb > y) && (possible > yb)) possible = yb; basket = yt - ch; if ((basket > y) && (possible > basket)) possible = basket; } y = possible; } } while ((overlap != none) && (overlap != h_wrong) && (y < area.bottom())); if (ch >= area.height()) { y_optimal = area.top(); } // place the window c->move(x_optimal, y_optimal); } void Placement::reinitCascading(int desktop) { // desktop == 0 - reinit all if (desktop == 0) { cci.clear(); for (uint i = 0; i < VirtualDesktopManager::self()->count(); ++i) { DesktopCascadingInfo inf; inf.pos = QPoint(-1, -1); inf.col = 0; inf.row = 0; cci.append(inf); } } else { cci[desktop - 1].pos = QPoint(-1, -1); cci[desktop - 1].col = cci[desktop - 1].row = 0; } } QPoint Workspace::cascadeOffset(const AbstractClient *c) const { QRect area = clientArea(PlacementArea, c->frameGeometry().center(), c->desktop()); return QPoint(area.width()/48, area.height()/48); } /** * Place windows in a cascading order, remembering positions for each desktop */ void Placement::placeCascaded(AbstractClient *c, const QRect &area, Policy nextPlacement) { Q_ASSERT(area.isValid()); if (!c->frameGeometry().isValid()) { return; } /* cascadePlacement by Cristian Tibirna (tibirna@kde.org) (30Jan98) */ // work coords int xp, yp; //CT how do I get from the 'Client' class the size that NW squarish "handle" const QPoint delta = workspace()->cascadeOffset(c); const int dn = c->desktop() == 0 || c->isOnAllDesktops() ? (VirtualDesktopManager::self()->current() - 1) : (c->desktop() - 1); // initialize often used vars: width and height of c; we gain speed const int ch = c->height(); const int cw = c->width(); const int X = area.left(); const int Y = area.top(); const int H = area.height(); const int W = area.width(); if (nextPlacement == Unknown) nextPlacement = Smart; //initialize if needed if (cci[dn].pos.x() < 0 || cci[dn].pos.x() < X || cci[dn].pos.y() < Y) { cci[dn].pos = QPoint(X, Y); cci[dn].col = cci[dn].row = 0; } xp = cci[dn].pos.x(); yp = cci[dn].pos.y(); //here to touch in case people vote for resize on placement if ((yp + ch) > H) yp = Y; if ((xp + cw) > W) { if (!yp) { place(c, area, nextPlacement); return; } else xp = X; } //if this isn't the first window if (cci[dn].pos.x() != X && cci[dn].pos.y() != Y) { /* The following statements cause an internal compiler error with * egcs-2.91.66 on SuSE Linux 6.3. The equivalent forms compile fine. * 22-Dec-1999 CS * * if (xp != X && yp == Y) xp = delta.x() * (++(cci[dn].col)); * if (yp != Y && xp == X) yp = delta.y() * (++(cci[dn].row)); */ if (xp != X && yp == Y) { ++(cci[dn].col); xp = delta.x() * cci[dn].col; } if (yp != Y && xp == X) { ++(cci[dn].row); yp = delta.y() * cci[dn].row; } // last resort: if still doesn't fit, smart place it if (((xp + cw) > W - X) || ((yp + ch) > H - Y)) { place(c, area, nextPlacement); return; } } // place the window c->move(QPoint(xp, yp)); // new position cci[dn].pos = QPoint(xp + delta.x(), yp + delta.y()); } /** * Place windows centered, on top of all others */ void Placement::placeCentered(AbstractClient* c, const QRect& area, Policy /*next*/) { Q_ASSERT(area.isValid()); const int xp = area.left() + (area.width() - c->width()) / 2; const int yp = area.top() + (area.height() - c->height()) / 2; // place the window c->move(QPoint(xp, yp)); } /** * Place windows in the (0,0) corner, on top of all others */ void Placement::placeZeroCornered(AbstractClient* c, const QRect& area, Policy /*next*/) { Q_ASSERT(area.isValid()); // get the maximum allowed windows space and desk's origin c->move(area.topLeft()); } void Placement::placeUtility(AbstractClient *c, const QRect &area, Policy /*next*/) { // TODO kwin should try to place utility windows next to their mainwindow, // preferably at the right edge, and going down if there are more of them // if there's not enough place outside the mainwindow, it should prefer // top-right corner // use the default placement for now place(c, area, Default); } void Placement::placeOnScreenDisplay(AbstractClient *c, const QRect &area) { Q_ASSERT(area.isValid()); // place at lower area of the screen const int x = area.left() + (area.width() - c->width()) / 2; const int y = area.top() + 2 * area.height() / 3 - c->height() / 2; c->move(QPoint(x, y)); } void Placement::placeTransient(AbstractClient *c) { const auto parent = c->transientFor(); const QRect screen = Workspace::self()->clientArea(parent->isFullScreen() ? FullScreenArea : PlacementArea, parent); const QRect popupGeometry = c->transientPlacement(screen); c->setFrameGeometry(popupGeometry); // Potentially a client could set no constraint adjustments // and we'll be offscreen. // The spec implies we should place window the offscreen. However, // practically Qt doesn't set any constraint adjustments yet so we can't. // Also kwin generally doesn't let clients do what they want if (!screen.contains(c->frameGeometry())) { c->keepInArea(screen); } } void Placement::placeDialog(AbstractClient *c, const QRect &area, Policy nextPlacement) { placeOnMainWindow(c, area, nextPlacement); } void Placement::placeUnderMouse(AbstractClient *c, const QRect &area, Policy /*next*/) { Q_ASSERT(area.isValid()); QRect geom = c->frameGeometry(); geom.moveCenter(Cursors::self()->mouse()->pos()); c->move(geom.topLeft()); c->keepInArea(area); // make sure it's kept inside workarea } void Placement::placeOnMainWindow(AbstractClient *c, const QRect &area, Policy nextPlacement) { Q_ASSERT(area.isValid()); if (nextPlacement == Unknown) nextPlacement = Centered; if (nextPlacement == Maximizing) // maximize if needed placeMaximizing(c, area, NoPlacement); auto mainwindows = c->mainClients(); AbstractClient* place_on = nullptr; AbstractClient* place_on2 = nullptr; int mains_count = 0; for (auto it = mainwindows.constBegin(); it != mainwindows.constEnd(); ++it) { if (mainwindows.count() > 1 && (*it)->isSpecialWindow()) continue; // don't consider toolbars etc when placing ++mains_count; place_on2 = *it; if ((*it)->isOnCurrentDesktop()) { if (place_on == nullptr) place_on = *it; else { // two or more on current desktop -> center // That's the default at least. However, with maximizing placement // policy as the default, the dialog should be either maximized or // made as large as its maximum size and then placed centered. // So the nextPlacement argument allows chaining. In this case, nextPlacement // is Maximizing and it will call placeCentered(). place(c, area, Centered); return; } } } if (place_on == nullptr) { // 'mains_count' is used because it doesn't include ignored mainwindows if (mains_count != 1) { place(c, area, Centered); return; } place_on = place_on2; // use the only window filtered together with 'mains_count' } if (place_on->isDesktop()) { place(c, area, Centered); return; } QRect geom = c->frameGeometry(); geom.moveCenter(place_on->frameGeometry().center()); c->move(geom.topLeft()); // get area again, because the mainwindow may be on different xinerama screen const QRect placementArea = workspace()->clientArea(PlacementArea, c); c->keepInArea(placementArea); // make sure it's kept inside workarea } void Placement::placeMaximizing(AbstractClient *c, const QRect &area, Policy nextPlacement) { Q_ASSERT(area.isValid()); if (nextPlacement == Unknown) nextPlacement = Smart; if (c->isMaximizable() && c->maxSize().width() >= area.width() && c->maxSize().height() >= area.height()) { if (workspace()->clientArea(MaximizeArea, c) == area) c->maximize(MaximizeFull); else { // if the geometry doesn't match default maximize area (xinerama case?), // it's probably better to use the given area c->setFrameGeometry(area); } } else { c->resizeWithChecks(c->maxSize().boundedTo(area.size())); place(c, area, nextPlacement); } } void Placement::cascadeDesktop() { Workspace *ws = Workspace::self(); const int desktop = VirtualDesktopManager::self()->current(); reinitCascading(desktop); foreach (Toplevel *toplevel, ws->stackingOrder()) { auto client = qobject_cast(toplevel); if (!client || (!client->isOnCurrentDesktop()) || (client->isMinimized()) || (client->isOnAllDesktops()) || (!client->isMovable())) continue; const QRect placementArea = workspace()->clientArea(PlacementArea, client); placeCascaded(client, placementArea); } } void Placement::unclutterDesktop() { const auto &clients = Workspace::self()->allClientList(); for (int i = clients.size() - 1; i >= 0; i--) { auto client = clients.at(i); if ((!client->isOnCurrentDesktop()) || (client->isMinimized()) || (client->isOnAllDesktops()) || (!client->isMovable())) continue; const QRect placementArea = workspace()->clientArea(PlacementArea, client); placeSmart(client, placementArea); } } #endif Placement::Policy Placement::policyFromString(const QString& policy, bool no_special) { if (policy == QStringLiteral("NoPlacement")) return NoPlacement; else if (policy == QStringLiteral("Default") && !no_special) return Default; else if (policy == QStringLiteral("Random")) return Random; else if (policy == QStringLiteral("Cascade")) return Cascade; else if (policy == QStringLiteral("Centered")) return Centered; else if (policy == QStringLiteral("ZeroCornered")) return ZeroCornered; else if (policy == QStringLiteral("UnderMouse")) return UnderMouse; else if (policy == QStringLiteral("OnMainWindow") && !no_special) return OnMainWindow; else if (policy == QStringLiteral("Maximizing")) return Maximizing; else return Smart; } const char* Placement::policyToString(Policy policy) { const char* const policies[] = { "NoPlacement", "Default", "XXX should never see", "Random", "Smart", "Cascade", "Centered", "ZeroCornered", "UnderMouse", "OnMainWindow", "Maximizing" }; Q_ASSERT(policy < int(sizeof(policies) / sizeof(policies[ 0 ]))); return policies[ policy ]; } #ifndef KCMRULES // ******************** // Workspace // ******************** void AbstractClient::packTo(int left, int top) { workspace()->updateFocusMousePosition(Cursors::self()->mouse()->pos()); // may cause leave event; const int oldScreen = screen(); move(left, top); if (screen() != oldScreen) { workspace()->sendClientToScreen(this, screen()); // checks rule validity if (maximizeMode() != MaximizeRestore) checkWorkspacePosition(); } } /** * Moves active window left until in bumps into another window or workarea edge. */ void Workspace::slotWindowPackLeft() { if (active_client && active_client->isMovable()) active_client->packTo(packPositionLeft(active_client, active_client->frameGeometry().left(), true), active_client->y()); } void Workspace::slotWindowPackRight() { if (active_client && active_client->isMovable()) active_client->packTo(packPositionRight(active_client, active_client->frameGeometry().right(), true) - active_client->width() + 1, active_client->y()); } void Workspace::slotWindowPackUp() { if (active_client && active_client->isMovable()) active_client->packTo(active_client->x(), packPositionUp(active_client, active_client->frameGeometry().top(), true)); } void Workspace::slotWindowPackDown() { if (active_client && active_client->isMovable()) active_client->packTo(active_client->x(), packPositionDown(active_client, active_client->frameGeometry().bottom(), true) - active_client->height() + 1); } void Workspace::slotWindowGrowHorizontal() { if (active_client) active_client->growHorizontal(); } void AbstractClient::growHorizontal() { if (!isResizable() || isShade()) return; QRect geom = frameGeometry(); geom.setRight(workspace()->packPositionRight(this, geom.right(), true)); QSize adjsize = constrainFrameSize(geom.size(), SizeModeFixedW); if (frameGeometry().size() == adjsize && geom.size() != adjsize && resizeIncrements().width() > 1) { // take care of size increments int newright = workspace()->packPositionRight(this, geom.right() + resizeIncrements().width() - 1, true); // check that it hasn't grown outside of the area, due to size increments // TODO this may be wrong? if (workspace()->clientArea(MovementArea, QPoint((x() + newright) / 2, frameGeometry().center().y()), desktop()).right() >= newright) geom.setRight(newright); } geom.setSize(constrainFrameSize(geom.size(), SizeModeFixedW)); geom.setSize(constrainFrameSize(geom.size(), SizeModeFixedH)); workspace()->updateFocusMousePosition(Cursors::self()->mouse()->pos()); // may cause leave event; setFrameGeometry(geom); } void Workspace::slotWindowShrinkHorizontal() { if (active_client) active_client->shrinkHorizontal(); } void AbstractClient::shrinkHorizontal() { if (!isResizable() || isShade()) return; QRect geom = frameGeometry(); geom.setRight(workspace()->packPositionLeft(this, geom.right(), false)); if (geom.width() <= 1) return; geom.setSize(constrainFrameSize(geom.size(), SizeModeFixedW)); if (geom.width() > 20) { workspace()->updateFocusMousePosition(Cursors::self()->mouse()->pos()); // may cause leave event; setFrameGeometry(geom); } } void Workspace::slotWindowGrowVertical() { if (active_client) active_client->growVertical(); } void AbstractClient::growVertical() { if (!isResizable() || isShade()) return; QRect geom = frameGeometry(); geom.setBottom(workspace()->packPositionDown(this, geom.bottom(), true)); QSize adjsize = constrainFrameSize(geom.size(), SizeModeFixedH); if (frameGeometry().size() == adjsize && geom.size() != adjsize && resizeIncrements().height() > 1) { // take care of size increments int newbottom = workspace()->packPositionDown(this, geom.bottom() + resizeIncrements().height() - 1, true); // check that it hasn't grown outside of the area, due to size increments if (workspace()->clientArea(MovementArea, QPoint(frameGeometry().center().x(), (y() + newbottom) / 2), desktop()).bottom() >= newbottom) geom.setBottom(newbottom); } geom.setSize(constrainFrameSize(geom.size(), SizeModeFixedH)); workspace()->updateFocusMousePosition(Cursors::self()->mouse()->pos()); // may cause leave event; setFrameGeometry(geom); } void Workspace::slotWindowShrinkVertical() { if (active_client) active_client->shrinkVertical(); } void AbstractClient::shrinkVertical() { if (!isResizable() || isShade()) return; QRect geom = frameGeometry(); geom.setBottom(workspace()->packPositionUp(this, geom.bottom(), false)); if (geom.height() <= 1) return; geom.setSize(constrainFrameSize(geom.size(), SizeModeFixedH)); if (geom.height() > 20) { workspace()->updateFocusMousePosition(Cursors::self()->mouse()->pos()); // may cause leave event; setFrameGeometry(geom); } } void Workspace::quickTileWindow(QuickTileMode mode) { if (!active_client) { return; } active_client->setQuickTileMode(mode, true); } int Workspace::packPositionLeft(const AbstractClient *client, int oldX, bool leftEdge) const { int newX = clientArea(MaximizeArea, client).left(); if (oldX <= newX) { // try another Xinerama screen newX = clientArea(MaximizeArea, QPoint(client->frameGeometry().left() - 1, client->frameGeometry().center().y()), client->desktop()).left(); } if (client->titlebarPosition() != AbstractClient::PositionLeft) { const int right = newX - client->frameMargins().left(); QRect frameGeometry = client->frameGeometry(); frameGeometry.moveRight(right); if (screens()->intersecting(frameGeometry) < 2) { newX = right; } } if (oldX <= newX) { return oldX; } const int desktop = client->desktop() == 0 || client->isOnAllDesktops() ? VirtualDesktopManager::self()->current() : client->desktop(); for (auto it = m_allClients.constBegin(), end = m_allClients.constEnd(); it != end; ++it) { if (isIrrelevant(*it, client, desktop)) { continue; } const int x = leftEdge ? (*it)->frameGeometry().right() + 1 : (*it)->frameGeometry().left() - 1; if (x > newX && x < oldX && !(client->frameGeometry().top() > (*it)->frameGeometry().bottom() // they overlap in Y direction || client->frameGeometry().bottom() < (*it)->frameGeometry().top())) { newX = x; } } return newX; } int Workspace::packPositionRight(const AbstractClient *client, int oldX, bool rightEdge) const { int newX = clientArea(MaximizeArea, client).right(); if (oldX >= newX) { // try another Xinerama screen newX = clientArea(MaximizeArea, QPoint(client->frameGeometry().right() + 1, client->frameGeometry().center().y()), client->desktop()).right(); } if (client->titlebarPosition() != AbstractClient::PositionRight) { const int right = newX + client->frameMargins().right(); QRect frameGeometry = client->frameGeometry(); frameGeometry.moveRight(right); if (screens()->intersecting(frameGeometry) < 2) { newX = right; } } if (oldX >= newX) { return oldX; } const int desktop = client->desktop() == 0 || client->isOnAllDesktops() ? VirtualDesktopManager::self()->current() : client->desktop(); for (auto it = m_allClients.constBegin(), end = m_allClients.constEnd(); it != end; ++it) { if (isIrrelevant(*it, client, desktop)) { continue; } const int x = rightEdge ? (*it)->frameGeometry().left() - 1 : (*it)->frameGeometry().right() + 1; if (x < newX && x > oldX && !(client->frameGeometry().top() > (*it)->frameGeometry().bottom() || client->frameGeometry().bottom() < (*it)->frameGeometry().top())) { newX = x; } } return newX; } int Workspace::packPositionUp(const AbstractClient *client, int oldY, bool topEdge) const { int newY = clientArea(MaximizeArea, client).top(); if (oldY <= newY) { // try another Xinerama screen newY = clientArea(MaximizeArea, QPoint(client->frameGeometry().center().x(), client->frameGeometry().top() - 1), client->desktop()).top(); } if (client->titlebarPosition() != AbstractClient::PositionTop) { const int top = newY - client->frameMargins().top(); QRect frameGeometry = client->frameGeometry(); frameGeometry.moveTop(top); if (screens()->intersecting(frameGeometry) < 2) { newY = top; } } if (oldY <= newY) { return oldY; } const int desktop = client->desktop() == 0 || client->isOnAllDesktops() ? VirtualDesktopManager::self()->current() : client->desktop(); for (auto it = m_allClients.constBegin(), end = m_allClients.constEnd(); it != end; ++it) { if (isIrrelevant(*it, client, desktop)) { continue; } const int y = topEdge ? (*it)->frameGeometry().bottom() + 1 : (*it)->frameGeometry().top() - 1; if (y > newY && y < oldY && !(client->frameGeometry().left() > (*it)->frameGeometry().right() // they overlap in X direction || client->frameGeometry().right() < (*it)->frameGeometry().left())) { newY = y; } } return newY; } int Workspace::packPositionDown(const AbstractClient *client, int oldY, bool bottomEdge) const { int newY = clientArea(MaximizeArea, client).bottom(); if (oldY >= newY) { // try another Xinerama screen newY = clientArea(MaximizeArea, QPoint(client->frameGeometry().center().x(), client->frameGeometry().bottom() + 1), client->desktop()).bottom(); } if (client->titlebarPosition() != AbstractClient::PositionBottom) { const int bottom = newY + client->frameMargins().bottom(); QRect frameGeometry = client->frameGeometry(); frameGeometry.moveBottom(bottom); if (screens()->intersecting(frameGeometry) < 2) { newY = bottom; } } if (oldY >= newY) { return oldY; } const int desktop = client->desktop() == 0 || client->isOnAllDesktops() ? VirtualDesktopManager::self()->current() : client->desktop(); for (auto it = m_allClients.constBegin(), end = m_allClients.constEnd(); it != end; ++it) { if (isIrrelevant(*it, client, desktop)) { continue; } const int y = bottomEdge ? (*it)->frameGeometry().top() - 1 : (*it)->frameGeometry().bottom() + 1; if (y < newY && y > oldY && !(client->frameGeometry().left() > (*it)->frameGeometry().right() || client->frameGeometry().right() < (*it)->frameGeometry().left())) { newY = y; } } return newY; } #endif } // namespace