/* ============================================================================== This file is part of the JUCE library. Copyright (c) 2020 - Raw Material Software Limited JUCE is an open source library subject to commercial or open-source licensing. By using JUCE, you agree to the terms of both the JUCE 6 End-User License Agreement and JUCE Privacy Policy (both effective as of the 16th June 2020). End User License Agreement: www.juce.com/juce-6-licence Privacy Policy: www.juce.com/juce-privacy-policy Or: You may also use this code under the terms of the GPL v3 (see www.gnu.org/licenses). JUCE IS PROVIDED "AS IS" WITHOUT ANY WARRANTY, AND ALL WARRANTIES, WHETHER EXPRESSED OR IMPLIED, INCLUDING MERCHANTABILITY AND FITNESS FOR PURPOSE, ARE DISCLAIMED. ============================================================================== */ namespace juce { //============================================================================== static int numAlwaysOnTopPeers = 0; bool juce_areThereAnyAlwaysOnTopWindows() { return numAlwaysOnTopPeers > 0; } //============================================================================== template class LinuxComponentPeer : public ComponentPeer { public: LinuxComponentPeer (Component& comp, int windowStyleFlags, WindowHandleType parentToAddTo) : ComponentPeer (comp, windowStyleFlags), isAlwaysOnTop (comp.isAlwaysOnTop()) { // it's dangerous to create a window on a thread other than the message thread.. JUCE_ASSERT_MESSAGE_MANAGER_IS_LOCKED if (isAlwaysOnTop) ++numAlwaysOnTopPeers; repainter = std::make_unique (*this); windowH = XWindowSystem::getInstance()->createWindow (parentToAddTo, this); parentWindow = parentToAddTo; setTitle (component.getName()); getNativeRealtimeModifiers = []() -> ModifierKeys { return XWindowSystem::getInstance()->getNativeRealtimeModifiers(); }; } ~LinuxComponentPeer() override { // it's dangerous to delete a window on a thread other than the message thread.. JUCE_ASSERT_MESSAGE_MANAGER_IS_LOCKED repainter = nullptr; XWindowSystem::getInstance()->destroyWindow (windowH); if (isAlwaysOnTop) --numAlwaysOnTopPeers; } //============================================================================== void* getNativeHandle() const override { return (void*) windowH; } //============================================================================== void setBounds (const Rectangle& newBounds, bool isNowFullScreen) override { bounds = newBounds.withSize (jmax (1, newBounds.getWidth()), jmax (1, newBounds.getHeight())); updateScaleFactorFromNewBounds (bounds, false); auto physicalBounds = (parentWindow == 0 ? Desktop::getInstance().getDisplays().logicalToPhysical (bounds) : bounds * currentScaleFactor); WeakReference deletionChecker (&component); XWindowSystem::getInstance()->setBounds (windowH, physicalBounds, isNowFullScreen); fullScreen = isNowFullScreen; if (deletionChecker != nullptr) { updateBorderSize(); handleMovedOrResized(); } } Point getScreenPosition (bool physical) const { auto parentPosition = XWindowSystem::getInstance()->getParentScreenPosition(); auto screenBounds = (parentWindow == 0 ? bounds : bounds.translated (parentPosition.x, parentPosition.y)); if (physical) return Desktop::getInstance().getDisplays().logicalToPhysical (screenBounds.getTopLeft()); return screenBounds.getTopLeft(); } Rectangle getBounds() const override { return bounds; } BorderSize getFrameSize() const override { return windowBorder; } Point localToGlobal (Point relativePosition) override { return relativePosition + getScreenPosition (false).toFloat(); } Point globalToLocal (Point screenPosition) override { return screenPosition - getScreenPosition (false).toFloat(); } using ComponentPeer::localToGlobal; using ComponentPeer::globalToLocal; //============================================================================== StringArray getAvailableRenderingEngines() override { return { "Software Renderer" }; } void setVisible (bool shouldBeVisible) override { XWindowSystem::getInstance()->setVisible (windowH, shouldBeVisible); } void setTitle (const String& title) override { XWindowSystem::getInstance()->setTitle (windowH, title); } void setMinimised (bool shouldBeMinimised) override { if (shouldBeMinimised) XWindowSystem::getInstance()->setMinimised (windowH, shouldBeMinimised); else setVisible (true); } bool isMinimised() const override { return XWindowSystem::getInstance()->isMinimised (windowH); } void setFullScreen (bool shouldBeFullScreen) override { auto r = lastNonFullscreenBounds; // (get a copy of this before de-minimising) setMinimised (false); if (fullScreen != shouldBeFullScreen) { if (shouldBeFullScreen) r = Desktop::getInstance().getDisplays().getPrimaryDisplay()->userArea; if (! r.isEmpty()) setBounds (ScalingHelpers::scaledScreenPosToUnscaled (component, r), shouldBeFullScreen); component.repaint(); } } bool isFullScreen() const override { return fullScreen; } bool contains (Point localPos, bool trueIfInAChildWindow) const override { if (! bounds.withZeroOrigin().contains (localPos)) return false; for (int i = Desktop::getInstance().getNumComponents(); --i >= 0;) { auto* c = Desktop::getInstance().getComponent (i); if (c == &component) break; if (! c->isVisible()) continue; if (auto* peer = c->getPeer()) if (peer->contains (localPos + bounds.getPosition() - peer->getBounds().getPosition(), true)) return false; } if (trueIfInAChildWindow) return true; return XWindowSystem::getInstance()->contains (windowH, localPos * currentScaleFactor); } void toFront (bool makeActive) override { if (makeActive) { setVisible (true); grabFocus(); } XWindowSystem::getInstance()->toFront (windowH, makeActive); handleBroughtToFront(); } void toBehind (ComponentPeer* other) override { if (auto* otherPeer = dynamic_cast (other)) { if (otherPeer->styleFlags & windowIsTemporary) return; setMinimised (false); XWindowSystem::getInstance()->toBehind (windowH, otherPeer->windowH); } else { jassertfalse; // wrong type of window? } } bool isFocused() const override { return XWindowSystem::getInstance()->isFocused (windowH); } void grabFocus() override { if (XWindowSystem::getInstance()->grabFocus (windowH)) isActiveApplication = true; } //============================================================================== void repaint (const Rectangle& area) override { repainter->repaint (area.getIntersection (bounds.withZeroOrigin())); } void performAnyPendingRepaintsNow() override { repainter->performAnyPendingRepaintsNow(); } void setIcon (const Image& newIcon) override { XWindowSystem::getInstance()->setIcon (windowH, newIcon); } double getPlatformScaleFactor() const noexcept override { return currentScaleFactor; } void setAlpha (float) override {} bool setAlwaysOnTop (bool) override { return false; } void textInputRequired (Point, TextInputTarget&) override {} //============================================================================== void addOpenGLRepaintListener (Component* dummy) { if (dummy != nullptr) glRepaintListeners.addIfNotAlreadyThere (dummy); } void removeOpenGLRepaintListener (Component* dummy) { if (dummy != nullptr) glRepaintListeners.removeAllInstancesOf (dummy); } void repaintOpenGLContexts() { for (auto* c : glRepaintListeners) c->handleCommandMessage (0); } //============================================================================== WindowHandleType getParentWindow() { return parentWindow; } void setParentWindow (WindowHandleType newParent) { parentWindow = newParent; } //============================================================================== void updateWindowBounds() { jassert (windowH != 0); if (windowH != 0) { auto physicalBounds = XWindowSystem::getInstance()->getWindowBounds (windowH, parentWindow); updateScaleFactorFromNewBounds (physicalBounds, true); bounds = (parentWindow == 0 ? Desktop::getInstance().getDisplays().physicalToLogical (physicalBounds) : physicalBounds / currentScaleFactor); } } void updateBorderSize() { if ((styleFlags & windowHasTitleBar) == 0) windowBorder = {}; else if (windowBorder.getTopAndBottom() == 0 && windowBorder.getLeftAndRight() == 0) windowBorder = XWindowSystem::getInstance()->getBorderSize (windowH); } //============================================================================== static bool isActiveApplication; bool focused = false; private: //============================================================================== class LinuxRepaintManager : public Timer { public: LinuxRepaintManager (LinuxComponentPeer& p) : peer (p), isSemiTransparentWindow ((peer.getStyleFlags() & ComponentPeer::windowIsSemiTransparent) != 0) { } void timerCallback() override { XWindowSystem::getInstance()->processPendingPaintsForWindow (peer.windowH); if (XWindowSystem::getInstance()->getNumPaintsPendingForWindow (peer.windowH) > 0) return; if (! regionsNeedingRepaint.isEmpty()) { stopTimer(); performAnyPendingRepaintsNow(); } else if (Time::getApproximateMillisecondCounter() > lastTimeImageUsed + 3000) { stopTimer(); image = Image(); } } void repaint (Rectangle area) { if (! isTimerRunning()) startTimer (repaintTimerPeriod); regionsNeedingRepaint.add (area * peer.currentScaleFactor); } void performAnyPendingRepaintsNow() { if (XWindowSystem::getInstance()->getNumPaintsPendingForWindow (peer.windowH) > 0) { startTimer (repaintTimerPeriod); return; } auto originalRepaintRegion = regionsNeedingRepaint; regionsNeedingRepaint.clear(); auto totalArea = originalRepaintRegion.getBounds(); if (! totalArea.isEmpty()) { if (image.isNull() || image.getWidth() < totalArea.getWidth() || image.getHeight() < totalArea.getHeight()) { image = XWindowSystem::getInstance()->createImage (isSemiTransparentWindow, totalArea.getWidth(), totalArea.getHeight(), useARGBImagesForRendering); } startTimer (repaintTimerPeriod); RectangleList adjustedList (originalRepaintRegion); adjustedList.offsetAll (-totalArea.getX(), -totalArea.getY()); if (XWindowSystem::getInstance()->canUseARGBImages()) for (auto& i : originalRepaintRegion) image.clear (i - totalArea.getPosition()); { auto context = peer.getComponent().getLookAndFeel() .createGraphicsContext (image, -totalArea.getPosition(), adjustedList); context->addTransform (AffineTransform::scale ((float) peer.currentScaleFactor)); peer.handlePaint (*context); } for (auto& i : originalRepaintRegion) XWindowSystem::getInstance()->blitToWindow (peer.windowH, image, i, totalArea); } lastTimeImageUsed = Time::getApproximateMillisecondCounter(); startTimer (repaintTimerPeriod); } private: enum { repaintTimerPeriod = 1000 / 100 }; LinuxComponentPeer& peer; const bool isSemiTransparentWindow; Image image; uint32 lastTimeImageUsed = 0; RectangleList regionsNeedingRepaint; bool useARGBImagesForRendering = XWindowSystem::getInstance()->canUseARGBImages(); JUCE_DECLARE_NON_COPYABLE (LinuxRepaintManager) }; //============================================================================== void updateScaleFactorFromNewBounds (const Rectangle& newBounds, bool isPhysical) { if (! JUCEApplicationBase::isStandaloneApp()) return; Point translation = (parentWindow != 0 ? getScreenPosition (isPhysical) : Point()); auto newScaleFactor = Desktop::getInstance().getDisplays().getDisplayForRect (newBounds.translated (translation.x, translation.y), isPhysical)->scale / Desktop::getInstance().getGlobalScaleFactor(); if (! approximatelyEqual (newScaleFactor, currentScaleFactor)) { currentScaleFactor = newScaleFactor; scaleFactorListeners.call ([&] (ScaleFactorListener& l) { l.nativeScaleFactorChanged (currentScaleFactor); }); } } //============================================================================== std::unique_ptr repainter; WindowHandleType windowH = {}, parentWindow = {}, keyProxy = {}; Rectangle bounds; BorderSize windowBorder; bool fullScreen = false, isAlwaysOnTop = false; double currentScaleFactor = 1.0; Array glRepaintListeners; //============================================================================== JUCE_DECLARE_NON_COPYABLE_WITH_LEAK_DETECTOR (LinuxComponentPeer) }; template bool LinuxComponentPeer::isActiveApplication = false; //============================================================================== ComponentPeer* Component::createNewPeer (int styleFlags, void* nativeWindowToAttachTo) { return new LinuxComponentPeer<::Window> (*this, styleFlags, (::Window) nativeWindowToAttachTo); } //============================================================================== JUCE_API bool JUCE_CALLTYPE Process::isForegroundProcess() { return LinuxComponentPeer<::Window>::isActiveApplication; } JUCE_API void JUCE_CALLTYPE Process::makeForegroundProcess() {} JUCE_API void JUCE_CALLTYPE Process::hide() {} //============================================================================== void Desktop::setKioskComponent (Component* comp, bool enableOrDisable, bool) { if (enableOrDisable) comp->setBounds (getDisplays().getDisplayForRect (comp->getScreenBounds())->totalArea); } void Displays::findDisplays (float masterScale) { if (XWindowSystem::getInstance()->getDisplay() != nullptr) { displays = XWindowSystem::getInstance()->findDisplays (masterScale); if (! displays.isEmpty()) updateToLogical(); } } bool Desktop::canUseSemiTransparentWindows() noexcept { return XWindowSystem::getInstance()->canUseSemiTransparentWindows(); } static bool screenSaverAllowed = true; void Desktop::setScreenSaverEnabled (bool isEnabled) { if (screenSaverAllowed != isEnabled) { screenSaverAllowed = isEnabled; XWindowSystem::getInstance()->setScreenSaverEnabled (screenSaverAllowed); } } bool Desktop::isScreenSaverEnabled() { return screenSaverAllowed; } double Desktop::getDefaultMasterScale() { return 1.0; } Desktop::DisplayOrientation Desktop::getCurrentOrientation() const { return upright; } void Desktop::allowedOrientationsChanged() {} //============================================================================== bool MouseInputSource::SourceList::addSource() { if (sources.isEmpty()) { addSource (0, MouseInputSource::InputSourceType::mouse); return true; } return false; } bool MouseInputSource::SourceList::canUseTouch() { return false; } Point MouseInputSource::getCurrentRawMousePosition() { return Desktop::getInstance().getDisplays().physicalToLogical (XWindowSystem::getInstance()->getCurrentMousePosition()); } void MouseInputSource::setRawMousePosition (Point newPosition) { XWindowSystem::getInstance()->setMousePosition (Desktop::getInstance().getDisplays().logicalToPhysical (newPosition)); } //============================================================================== void* CustomMouseCursorInfo::create() const { return XWindowSystem::getInstance()->createCustomMouseCursorInfo (image, hotspot); } void MouseCursor::deleteMouseCursor (void* cursorHandle, bool) { if (cursorHandle != nullptr) XWindowSystem::getInstance()->deleteMouseCursor (cursorHandle); } void* MouseCursor::createStandardMouseCursor (MouseCursor::StandardCursorType type) { return XWindowSystem::getInstance()->createStandardMouseCursor (type); } void MouseCursor::showInWindow (ComponentPeer* peer) const { if (peer != nullptr) XWindowSystem::getInstance()->showCursor ((::Window) peer->getNativeHandle(), getHandle()); } //============================================================================== template static LinuxComponentPeer* getPeerForDragEvent (Component* sourceComp) { if (sourceComp == nullptr) if (auto* draggingSource = Desktop::getInstance().getDraggingMouseSource (0)) sourceComp = draggingSource->getComponentUnderMouse(); if (sourceComp != nullptr) if (auto* lp = dynamic_cast*> (sourceComp->getPeer())) return lp; jassertfalse; // This method must be called in response to a component's mouseDown or mouseDrag event! return nullptr; } bool DragAndDropContainer::performExternalDragDropOfFiles (const StringArray& files, bool canMoveFiles, Component* sourceComp, std::function callback) { if (files.isEmpty()) return false; if (auto* peer = getPeerForDragEvent<::Window> (sourceComp)) return XWindowSystem::getInstance()->externalDragFileInit (peer, files, canMoveFiles, std::move (callback)); // This method must be called in response to a component's mouseDown or mouseDrag event! jassertfalse; return false; } bool DragAndDropContainer::performExternalDragDropOfText (const String& text, Component* sourceComp, std::function callback) { if (text.isEmpty()) return false; if (auto* peer = getPeerForDragEvent<::Window> (sourceComp)) return XWindowSystem::getInstance()->externalDragTextInit (peer, text, std::move (callback)); // This method must be called in response to a component's mouseDown or mouseDrag event! jassertfalse; return false; } //============================================================================== void SystemClipboard::copyTextToClipboard (const String& clipText) { XWindowSystem::getInstance()->copyTextToClipboard (clipText); } String SystemClipboard::getTextFromClipboard() { return XWindowSystem::getInstance()->getTextFromClipboard(); } //============================================================================== bool KeyPress::isKeyCurrentlyDown (int keyCode) { return XWindowSystem::getInstance()->isKeyCurrentlyDown (keyCode); } void LookAndFeel::playAlertSound() { std::cout << "\a" << std::flush; } //============================================================================== #if JUCE_MODAL_LOOPS_PERMITTED void JUCE_CALLTYPE NativeMessageBox::showMessageBox (AlertWindow::AlertIconType iconType, const String& title, const String& message, Component*) { AlertWindow::showMessageBox (iconType, title, message); } #endif void JUCE_CALLTYPE NativeMessageBox::showMessageBoxAsync (AlertWindow::AlertIconType iconType, const String& title, const String& message, Component* associatedComponent, ModalComponentManager::Callback* callback) { AlertWindow::showMessageBoxAsync (iconType, title, message, {}, associatedComponent, callback); } bool JUCE_CALLTYPE NativeMessageBox::showOkCancelBox (AlertWindow::AlertIconType iconType, const String& title, const String& message, Component* associatedComponent, ModalComponentManager::Callback* callback) { return AlertWindow::showOkCancelBox (iconType, title, message, {}, {}, associatedComponent, callback); } int JUCE_CALLTYPE NativeMessageBox::showYesNoCancelBox (AlertWindow::AlertIconType iconType, const String& title, const String& message, Component* associatedComponent, ModalComponentManager::Callback* callback) { return AlertWindow::showYesNoCancelBox (iconType, title, message, {}, {}, {}, associatedComponent, callback); } int JUCE_CALLTYPE NativeMessageBox::showYesNoBox (AlertWindow::AlertIconType iconType, const String& title, const String& message, Component* associatedComponent, ModalComponentManager::Callback* callback) { return AlertWindow::showOkCancelBox (iconType, title, message, TRANS ("Yes"), TRANS ("No"), associatedComponent, callback); } //============================================================================== Image juce_createIconForFile (const File&) { return {}; } void juce_LinuxAddRepaintListener (ComponentPeer* peer, Component* dummy) { if (auto* linuxPeer = dynamic_cast*> (peer)) linuxPeer->addOpenGLRepaintListener (dummy); } void juce_LinuxRemoveRepaintListener (ComponentPeer* peer, Component* dummy) { if (auto* linuxPeer = dynamic_cast*> (peer)) linuxPeer->removeOpenGLRepaintListener (dummy); } } // namespace juce