/******************************************************************** KWin - the KDE window manager This file is part of the KDE project. Copyright (C) 2009 Nikhil Marathe Copyright (C) 2011 Arthur Arlt 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 #include #include #include #include #include #include #include "tiling/tile.h" #include "tiling/tilinglayout.h" #include "tilinglayoutfactory.h" #include "workspace.h" namespace KWin { Tiling::Tiling(KWin::Workspace* w) : QObject(w) , m_workspace(w) , m_enabled(false) { } Tiling::~Tiling() { } void Tiling::initShortcuts(KActionCollection* keys){ KAction *a = NULL; #define KEY( name, key, fnSlot ) \ a = keys->addAction( name ); \ a->setText( i18n( name ) ); \ qobject_cast( a )->setGlobalShortcut(KShortcut(key)); \ connect(a, SIGNAL(triggered(bool)), SLOT(fnSlot)); a = keys->addAction("Group:Tiling"); a->setText(i18n("Tiling")); KEY(I18N_NOOP("Enable/Disable Tiling"), Qt::SHIFT + Qt::ALT + Qt::Key_F11, slotToggleTiling()); KEY(I18N_NOOP("Toggle Floating"), Qt::META + Qt::Key_F, slotToggleFloating()); KEY(I18N_NOOP("Switch Focus Left") , Qt::META + Qt::Key_H, slotFocusTileLeft()); KEY(I18N_NOOP("Switch Focus Right") , Qt::META + Qt::Key_L, slotFocusTileRight()); KEY(I18N_NOOP("Switch Focus Up") , Qt::META + Qt::Key_K, slotFocusTileTop()); KEY(I18N_NOOP("Switch Focus Down") , Qt::META + Qt::Key_J, slotFocusTileBottom()); KEY(I18N_NOOP("Move Window Left") , Qt::SHIFT + Qt::META + Qt::Key_H, slotMoveTileLeft()); KEY(I18N_NOOP("Move Window Right") , Qt::SHIFT + Qt::META + Qt::Key_L, slotMoveTileRight()); KEY(I18N_NOOP("Move Window Up") , Qt::SHIFT + Qt::META + Qt::Key_K, slotMoveTileTop()); KEY(I18N_NOOP("Move Window Down") , Qt::SHIFT + Qt::META + Qt::Key_J, slotMoveTileBottom()); KEY(I18N_NOOP("Next Layout"), Qt::META + Qt::Key_PageDown, slotNextTileLayout()); KEY(I18N_NOOP("Previous Layout"), Qt::META + Qt::Key_PageUp, slotPreviousTileLayout()); } bool Tiling::isEnabled() const { return m_enabled; } void Tiling::setEnabled(bool tiling) { if (isEnabled() == tiling) return; m_enabled = tiling; KSharedConfig::Ptr _config = KGlobal::config(); KConfigGroup config(_config, "Windows"); config.writeEntry("TilingOn", m_enabled); config.sync(); options->tilingOn = m_enabled; options->tilingLayout = static_cast(config.readEntry("TilingDefaultLayout", 0)); options->tilingRaisePolicy = config.readEntry("TilingRaisePolicy", 0); if (m_enabled) { connect(m_workspace, SIGNAL(clientAdded(KWin::Client*)), this, SLOT(createTile(KWin::Client*))); connect(m_workspace, SIGNAL(clientAdded(KWin::Client*)), this, SLOT(slotResizeTilingLayouts())); connect(m_workspace, SIGNAL(numberDesktopsChanged(int)), this, SLOT(slotResizeTilingLayouts())); connect(m_workspace, SIGNAL(clientRemoved(KWin::Client*)), this, SLOT(removeTile(KWin::Client*))); connect(m_workspace, SIGNAL(clientActivated(KWin::Client*)), this, SLOT(notifyTilingWindowActivated(KWin::Client*))); m_tilingLayouts.resize(Workspace::self()->numberOfDesktops() + 1); foreach (Client * c, Workspace::self()->stackingOrder()) { createTile(c); } } else { disconnect(m_workspace, SIGNAL(clientAdded(KWin::Client*))); disconnect(m_workspace, SIGNAL(numberDesktopsChanged(int))); disconnect(m_workspace, SIGNAL(clientRemoved(KWin::Client*))); qDeleteAll(m_tilingLayouts); m_tilingLayouts.clear(); } } void Tiling::slotToggleTiling() { if (isEnabled()) { setEnabled(false); QString message = i18n("Tiling Disabled"); KNotification::event("tilingdisabled", message, QPixmap(), NULL, KNotification::CloseOnTimeout, KComponentData("kwin")); } else { setEnabled(true); QString message = i18n("Tiling Enabled"); KNotification::event("tilingenabled", message, QPixmap(), NULL, KNotification::CloseOnTimeout, KComponentData("kwin")); } } void Tiling::createTile(Client* c) { if (c == NULL) return; if (c->desktop() < 0 || c->desktop() >= m_tilingLayouts.size()) return; kDebug(1212) << "Now tiling " << c->caption(); if (!isEnabled() || !tileable(c)) return; Tile *t = new Tile(c, Workspace::self()->clientArea(PlacementArea, c)); if (!tileable(c)) { kDebug(1212) << c->caption() << "is not tileable"; t->floatTile(); } if (!m_tilingLayouts.value(c->desktop())) { m_tilingLayouts[c->desktop()] = TilingLayoutFactory::createLayout(TilingLayoutFactory::DefaultLayout, m_workspace); m_tilingLayouts[c->desktop()]->setParent(this); } m_tilingLayouts[c->desktop()]->addTile(t); m_tilingLayouts[c->desktop()]->commit(); // if tiling is activated, connect to Client's signals and react with rearrangement when (un)minimizing connect(c, SIGNAL(clientMinimized(KWin::Client*,bool)), this, SLOT(notifyTilingWindowMinimizeToggled(KWin::Client*))); connect(c, SIGNAL(clientUnminimized(KWin::Client*,bool)), this, SLOT(notifyTilingWindowMinimizeToggled(KWin::Client*))); connect(c, SIGNAL(s_unminimized()), this, SLOT(updateAllTiles())); } void Tiling::removeTile(Client *c) { if (!m_tilingLayouts.value(c->desktop())) { return; } if (m_tilingLayouts[ c->desktop()]) m_tilingLayouts[ c->desktop()]->removeTile(c); } bool Tiling::tileable(Client* c) { kDebug(1212) << c->caption(); KWindowInfo info = KWindowSystem::windowInfo(c->window(), -1U, NET::WM2WindowClass); kDebug(1212) << "WINDOW CLASS IS " << info.windowClassClass(); if (info.windowClassClass() == "Plasma-desktop") { return false; } // TODO: if application specific settings // to ignore, put them here if (!c->isNormalWindow()) { return false; } // 0 means tile it, if we get 1 (floating), don't tile if (c->rules()->checkTilingOption(0) == 1) { return false; } kDebug() << "Tiling" << c; return true; } void Tiling::belowCursor() { // TODO ... "WHAT?" remove? What's a parameterless void function supposed to do? } Tile* Tiling::getNiceTile() const { if (!isEnabled()) return NULL; if (!m_workspace->activeClient()) return NULL; if (!m_tilingLayouts.value(m_workspace->activeClient()->desktop())) return NULL; return m_tilingLayouts[ m_workspace->activeClient()->desktop()]->findTile(m_workspace->activeClient()); // TODO ... WHAT? } void Tiling::updateAllTiles() { foreach (TilingLayout * t, m_tilingLayouts) { if (!t) continue; t->commit(); } } /* * Resize the neighbouring clients to close any gaps */ void Tiling::notifyTilingWindowResize(Client *c, const QRect &moveResizeGeom, const QRect &orig) { if (m_tilingLayouts.value(c->desktop()) == NULL) return; m_tilingLayouts[ c->desktop()]->clientResized(c, moveResizeGeom, orig); } void Tiling::notifyTilingWindowMove(Client *c, const QRect &moveResizeGeom, const QRect &orig) { if (m_tilingLayouts.value(c->desktop()) == NULL) { return; } m_tilingLayouts[ c->desktop()]->clientMoved(c, moveResizeGeom, orig); updateAllTiles(); } void Tiling::notifyTilingWindowResizeDone(Client *c, const QRect &moveResizeGeom, const QRect &orig, bool canceled) { if (canceled) notifyTilingWindowResize(c, orig, moveResizeGeom); else notifyTilingWindowResize(c, moveResizeGeom, orig); } void Tiling::notifyTilingWindowMoveDone(Client *c, const QRect &moveResizeGeom, const QRect &orig, bool canceled) { if (canceled) notifyTilingWindowMove(c, orig, moveResizeGeom); else notifyTilingWindowMove(c, moveResizeGeom, orig); } void Tiling::notifyTilingWindowDesktopChanged(Client *c, int old_desktop) { if (c->desktop() < 1 || c->desktop() > m_workspace->numberOfDesktops()) return; if (m_tilingLayouts.value(old_desktop)) { Tile *t = m_tilingLayouts[ old_desktop ]->findTile(c); // TODO: copied from createTile(), move this into separate method? if (!m_tilingLayouts.value(c->desktop())) { m_tilingLayouts[c->desktop()] = TilingLayoutFactory::createLayout(TilingLayoutFactory::DefaultLayout, m_workspace); } if (t) m_tilingLayouts[ c->desktop()]->addTile(t); m_tilingLayouts[ old_desktop ]->removeTile(c); m_tilingLayouts[ old_desktop ]->commit(); } } /* * Implements the 3 raising modes in Window Behaviour -> Advanced */ void Tiling::notifyTilingWindowActivated(KWin::Client *c) { if (c == NULL) return; if (options->tilingRaisePolicy == 1) // individual raise/lowers return; if (m_tilingLayouts.value(c->desktop())) { QList tiles = m_tilingLayouts[ c->desktop()]->tiles(); StackingUpdatesBlocker blocker(m_workspace); Tile *tile_to_raise = m_tilingLayouts[ c->desktop()]->findTile(c); if (!tile_to_raise) { return; } kDebug(1212) << "FOUND TILE"; bool raise_floating = false; if (options->tilingRaisePolicy == 2) // floating always on top raise_floating = true; else raise_floating = tile_to_raise->floating(); foreach (Tile * t, tiles) { if (t->floating() == raise_floating && t != tile_to_raise) m_workspace->raiseClient(t->client()); } // raise the current tile last so that it ends up on top // but only if it supposed to be raised, required to support tilingRaisePolicy kDebug(1212) << "Raise floating? " << raise_floating << "to raise is floating?" << tile_to_raise->floating(); if (tile_to_raise->floating() == raise_floating) m_workspace->raiseClient(tile_to_raise->client()); } } void Tiling::notifyTilingWindowMinimizeToggled(KWin::Client* c) { if (m_tilingLayouts.value(c->desktop())) { m_tilingLayouts[ c->desktop()]->clientMinimizeToggled(c); } } void Tiling::notifyTilingWindowMaximized(Client *c, Options::WindowOperation op) { if (m_tilingLayouts.value(c->desktop())) { Tile *t = m_tilingLayouts[ c->desktop()]->findTile(c); if (!t) { createTile(c); t = m_tilingLayouts[ c->desktop()]->findTile(c); // if still no tile, it couldn't be tiled // so ignore it if (!t) return; } // if window IS tiled and a maximize // is attempted, make the window float. // That is all we do since that can // mess up the layout. // In all other cases, don't do // anything, let the user manage toggling // using Meta+F if (!t->floating() && (op == Options::MaximizeOp || op == Options::HMaximizeOp || op == Options::VMaximizeOp)) { m_tilingLayouts[ c->desktop()]->toggleFloatTile(c); } } } Tile* Tiling::findAdjacentTile(Tile *ref, int d) { QRect reference = ref->geometry(); QPoint origin = reference.center(); Tile *closest = NULL; int minDist = -1; QList tiles = m_tilingLayouts[ ref->client()->desktop()]->tiles(); foreach (Tile * t, tiles) { if (t->client() == ref->client() || t->ignoreGeometry()) continue; bool consider = false; QRect other = t->geometry(); QPoint otherCenter = other.center(); switch(d) { case Tile::Top: consider = otherCenter.y() < origin.y() && other.bottom() < reference.top(); break; case Tile::Right: consider = otherCenter.x() > origin.x() && other.left() > reference.right(); break; case Tile::Bottom: consider = otherCenter.y() > origin.y() && other.top() > reference.bottom(); break; case Tile::Left: consider = otherCenter.x() < origin.x() && other.right() < reference.left(); break; default: abort(); } if (consider) { int dist = (otherCenter - origin).manhattanLength(); if (minDist > dist || minDist < 0) { minDist = dist; closest = t; } } } return closest; } void Tiling::focusTile(int d) { Tile *t = getNiceTile(); if (t) { Tile *adj = findAdjacentTile(t, d); if (adj) m_workspace->activateClient(adj->client()); } } void Tiling::moveTile(int d) { Tile *t = getNiceTile(); if (t) { Tile* adj = findAdjacentTile(t, d); m_tilingLayouts[ t->client()->desktop()]->swapTiles(t, adj); } } void Tiling::slotFocusTileLeft() { focusTile(Tile::Left); } void Tiling::slotFocusTileRight() { focusTile(Tile::Right); } void Tiling::slotFocusTileTop() { focusTile(Tile::Top); } void Tiling::slotFocusTileBottom() { focusTile(Tile::Bottom); } void Tiling::slotMoveTileLeft() { moveTile(Tile::Left); } void Tiling::slotMoveTileRight() { moveTile(Tile::Right); } void Tiling::slotMoveTileTop() { moveTile(Tile::Top); } void Tiling::slotMoveTileBottom() { moveTile(Tile::Bottom); } void Tiling::slotToggleFloating() { Client *c = m_workspace->activeClient(); if (!c) return; if (m_tilingLayouts.value(c->desktop())) { m_tilingLayouts[ c->desktop()]->toggleFloatTile(c); } } void Tiling::slotNextTileLayout() { if (m_tilingLayouts.value(m_workspace->currentDesktop())) { m_tilingLayouts.replace(m_workspace->currentDesktop(), TilingLayoutFactory::nextLayout(m_tilingLayouts[m_workspace->currentDesktop()])); m_tilingLayouts[m_workspace->currentDesktop()]->commit(); } } void Tiling::slotPreviousTileLayout() { if (m_tilingLayouts.value(m_workspace->currentDesktop())) { m_tilingLayouts.replace(m_workspace->currentDesktop(), TilingLayoutFactory::previousLayout(m_tilingLayouts[m_workspace->currentDesktop()])); m_tilingLayouts[m_workspace->currentDesktop()]->commit(); } } KDecorationDefines::Position Tiling::supportedTilingResizeMode(Client *c, KDecorationDefines::Position currentMode) { if (m_tilingLayouts.value(c->desktop())) { return m_tilingLayouts[c->desktop()]->resizeMode(c, currentMode); } return currentMode; } void Tiling::dumpTiles() const { foreach (TilingLayout * t, m_tilingLayouts) { if (!t) { kDebug(1212) << "EMPTY DESKTOP"; continue; } kDebug(1212) << "Desktop" << m_tilingLayouts.indexOf(t); foreach (Tile * tile, t->tiles()) { tile->dumpTile("--"); } } } const QVector< TilingLayout* >& Tiling::tilingLayouts() const { return m_tilingLayouts; } void Tiling::slotResizeTilingLayouts() { m_tilingLayouts.resize(m_workspace->numberOfDesktops() + 1); } }