/* ============================================================================== This file is part of the JUCE library. Copyright (c) 2013 - Raw Material Software Ltd. Permission is granted to use this software under the terms of either: a) the GPL v2 (or any later version) b) the Affero GPL v3 Details of these licenses can be found at: www.gnu.org/licenses JUCE 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. ------------------------------------------------------------------------------ To release a closed-source product which uses JUCE, commercial licenses are available: visit www.juce.com for more information. ============================================================================== */ #define CHECK_MESSAGE_MANAGER_IS_LOCKED \ jassert (MessageManager::getInstance()->currentThreadHasLockedMessageManager()); #define CHECK_MESSAGE_MANAGER_IS_LOCKED_OR_OFFSCREEN \ jassert (MessageManager::getInstance()->currentThreadHasLockedMessageManager() || getPeer() == nullptr); Component* Component::currentlyFocusedComponent = nullptr; //============================================================================== class Component::MouseListenerList { public: MouseListenerList() noexcept : numDeepMouseListeners (0) { } void addListener (MouseListener* const newListener, const bool wantsEventsForAllNestedChildComponents) { if (! listeners.contains (newListener)) { if (wantsEventsForAllNestedChildComponents) { listeners.insert (0, newListener); ++numDeepMouseListeners; } else { listeners.add (newListener); } } } void removeListener (MouseListener* const listenerToRemove) { const int index = listeners.indexOf (listenerToRemove); if (index >= 0) { if (index < numDeepMouseListeners) --numDeepMouseListeners; listeners.remove (index); } } static void sendMouseEvent (Component& comp, Component::BailOutChecker& checker, void (MouseListener::*eventMethod) (const MouseEvent&), const MouseEvent& e) { if (checker.shouldBailOut()) return; if (MouseListenerList* const list = comp.mouseListeners) { for (int i = list->listeners.size(); --i >= 0;) { (list->listeners.getUnchecked(i)->*eventMethod) (e); if (checker.shouldBailOut()) return; i = jmin (i, list->listeners.size()); } } for (Component* p = comp.parentComponent; p != nullptr; p = p->parentComponent) { MouseListenerList* const list = p->mouseListeners; if (list != nullptr && list->numDeepMouseListeners > 0) { BailOutChecker2 checker2 (checker, p); for (int i = list->numDeepMouseListeners; --i >= 0;) { (list->listeners.getUnchecked(i)->*eventMethod) (e); if (checker2.shouldBailOut()) return; i = jmin (i, list->numDeepMouseListeners); } } } } static void sendWheelEvent (Component& comp, Component::BailOutChecker& checker, const MouseEvent& e, const MouseWheelDetails& wheel) { if (MouseListenerList* const list = comp.mouseListeners) { for (int i = list->listeners.size(); --i >= 0;) { list->listeners.getUnchecked(i)->mouseWheelMove (e, wheel); if (checker.shouldBailOut()) return; i = jmin (i, list->listeners.size()); } } for (Component* p = comp.parentComponent; p != nullptr; p = p->parentComponent) { MouseListenerList* const list = p->mouseListeners; if (list != nullptr && list->numDeepMouseListeners > 0) { BailOutChecker2 checker2 (checker, p); for (int i = list->numDeepMouseListeners; --i >= 0;) { list->listeners.getUnchecked(i)->mouseWheelMove (e, wheel); if (checker2.shouldBailOut()) return; i = jmin (i, list->numDeepMouseListeners); } } } } private: Array listeners; int numDeepMouseListeners; class BailOutChecker2 { public: BailOutChecker2 (Component::BailOutChecker& boc, Component* const comp) : checker (boc), safePointer (comp) { } bool shouldBailOut() const noexcept { return checker.shouldBailOut() || safePointer == 0; } private: Component::BailOutChecker& checker; const WeakReference safePointer; JUCE_DECLARE_NON_COPYABLE (BailOutChecker2) }; JUCE_DECLARE_NON_COPYABLE (MouseListenerList) }; //============================================================================== struct ScalingHelpers { template static PointOrRect unscaledScreenPosToScaled (float scale, PointOrRect pos) noexcept { return scale != 1.0f ? pos / scale : pos; } template static PointOrRect scaledScreenPosToUnscaled (float scale, PointOrRect pos) noexcept { return scale != 1.0f ? pos * scale : pos; } // For these, we need to avoid getSmallestIntegerContainer being used, which causes // judder when moving windows static Rectangle unscaledScreenPosToScaled (float scale, const Rectangle& pos) noexcept { return scale != 1.0f ? Rectangle (roundToInt (pos.getX() / scale), roundToInt (pos.getY() / scale), roundToInt (pos.getWidth() / scale), roundToInt (pos.getHeight() / scale)) : pos; } static Rectangle scaledScreenPosToUnscaled (float scale, Rectangle& pos) noexcept { return scale != 1.0f ? Rectangle (roundToInt (pos.getX() * scale), roundToInt (pos.getY() * scale), roundToInt (pos.getWidth() * scale), roundToInt (pos.getHeight() * scale)) : pos; } template static PointOrRect unscaledScreenPosToScaled (PointOrRect pos) noexcept { return unscaledScreenPosToScaled (Desktop::getInstance().getGlobalScaleFactor(), pos); } template static PointOrRect scaledScreenPosToUnscaled (PointOrRect pos) noexcept { return scaledScreenPosToUnscaled (Desktop::getInstance().getGlobalScaleFactor(), pos); } template static PointOrRect unscaledScreenPosToScaled (const Component& comp, PointOrRect pos) noexcept { return unscaledScreenPosToScaled (comp.getDesktopScaleFactor(), pos); } template static PointOrRect scaledScreenPosToUnscaled (const Component& comp, PointOrRect pos) noexcept { return scaledScreenPosToUnscaled (comp.getDesktopScaleFactor(), pos); } }; //============================================================================== struct Component::ComponentHelpers { #if JUCE_MODAL_LOOPS_PERMITTED static void* runModalLoopCallback (void* userData) { return (void*) (pointer_sized_int) static_cast (userData)->runModalLoop(); } #endif static Identifier getColourPropertyId (int colourId) { char reversedHex[32]; char* t = reversedHex; for (unsigned int v = (unsigned int) colourId;;) { *t++ = "0123456789abcdef" [(int) (v & 15)]; v >>= 4; if (v == 0) break; } char destBuffer[32]; char* dest = destBuffer; memcpy (dest, "jcclr_", 6); dest += 6; while (t > reversedHex) *dest++ = *--t; *dest++ = 0; return destBuffer; } //============================================================================== static inline bool hitTest (Component& comp, Point localPoint) { return isPositiveAndBelow (localPoint.x, comp.getWidth()) && isPositiveAndBelow (localPoint.y, comp.getHeight()) && comp.hitTest (localPoint.x, localPoint.y); } // converts an unscaled position within a peer to the local position within that peer's component template static PointOrRect rawPeerPositionToLocal (const Component& comp, PointOrRect pos) noexcept { if (comp.isTransformed()) pos = pos.transformedBy (comp.getTransform().inverted()); return ScalingHelpers::unscaledScreenPosToScaled (comp, pos); } // converts a position within a peer's component to the unscaled position within the peer template static PointOrRect localPositionToRawPeerPos (const Component& comp, PointOrRect pos) noexcept { if (comp.isTransformed()) pos = pos.transformedBy (comp.getTransform()); return ScalingHelpers::scaledScreenPosToUnscaled (comp, pos); } template static PointOrRect convertFromParentSpace (const Component& comp, PointOrRect pointInParentSpace) { if (comp.affineTransform != nullptr) pointInParentSpace = pointInParentSpace.transformedBy (comp.affineTransform->inverted()); if (comp.isOnDesktop()) { if (ComponentPeer* peer = comp.getPeer()) pointInParentSpace = ScalingHelpers::unscaledScreenPosToScaled (comp, peer->globalToLocal (ScalingHelpers::scaledScreenPosToUnscaled (pointInParentSpace))); else jassertfalse; } else { pointInParentSpace -= comp.getPosition(); } return pointInParentSpace; } template static PointOrRect convertToParentSpace (const Component& comp, PointOrRect pointInLocalSpace) { if (comp.isOnDesktop()) { if (ComponentPeer* peer = comp.getPeer()) pointInLocalSpace = ScalingHelpers::unscaledScreenPosToScaled (peer->localToGlobal (ScalingHelpers::scaledScreenPosToUnscaled (comp, pointInLocalSpace))); else jassertfalse; } else { pointInLocalSpace += comp.getPosition(); } if (comp.affineTransform != nullptr) pointInLocalSpace = pointInLocalSpace.transformedBy (*comp.affineTransform); return pointInLocalSpace; } template static PointOrRect convertFromDistantParentSpace (const Component* parent, const Component& target, const PointOrRect& coordInParent) { const Component* const directParent = target.getParentComponent(); jassert (directParent != nullptr); if (directParent == parent) return convertFromParentSpace (target, coordInParent); return convertFromParentSpace (target, convertFromDistantParentSpace (parent, *directParent, coordInParent)); } template static PointOrRect convertCoordinate (const Component* target, const Component* source, PointOrRect p) { while (source != nullptr) { if (source == target) return p; if (source->isParentOf (target)) return convertFromDistantParentSpace (source, *target, p); p = convertToParentSpace (*source, p); source = source->getParentComponent(); } jassert (source == nullptr); if (target == nullptr) return p; const Component* const topLevelComp = target->getTopLevelComponent(); p = convertFromParentSpace (*topLevelComp, p); if (topLevelComp == target) return p; return convertFromDistantParentSpace (topLevelComp, *target, p); } static Rectangle getUnclippedArea (const Component& comp) { Rectangle r (comp.getLocalBounds()); if (Component* const p = comp.getParentComponent()) r = r.getIntersection (convertFromParentSpace (comp, getUnclippedArea (*p))); return r; } static bool clipObscuredRegions (const Component& comp, Graphics& g, const Rectangle& clipRect, Point delta) { bool nothingChanged = true; for (int i = comp.childComponentList.size(); --i >= 0;) { const Component& child = *comp.childComponentList.getUnchecked(i); if (child.isVisible() && ! child.isTransformed()) { const Rectangle newClip (clipRect.getIntersection (child.bounds)); if (! newClip.isEmpty()) { if (child.isOpaque() && child.componentTransparency == 0) { g.excludeClipRegion (newClip + delta); nothingChanged = false; } else { const Point childPos (child.getPosition()); if (clipObscuredRegions (child, g, newClip - childPos, childPos + delta)) nothingChanged = false; } } } } return nothingChanged; } static void subtractObscuredRegions (const Component& comp, RectangleList& result, Point delta, const Rectangle& clipRect, const Component* const compToAvoid) { for (int i = comp.childComponentList.size(); --i >= 0;) { const Component* const c = comp.childComponentList.getUnchecked(i); if (c != compToAvoid && c->isVisible()) { if (c->isOpaque() && c->componentTransparency == 0) { Rectangle childBounds (c->bounds.getIntersection (clipRect)); childBounds.translate (delta.x, delta.y); result.subtract (childBounds); } else { Rectangle newClip (clipRect.getIntersection (c->bounds)); newClip.translate (-c->getX(), -c->getY()); subtractObscuredRegions (*c, result, c->getPosition() + delta, newClip, compToAvoid); } } } } static Rectangle getParentOrMainMonitorBounds (const Component& comp) { if (Component* p = comp.getParentComponent()) return p->getLocalBounds(); return Desktop::getInstance().getDisplays().getMainDisplay().userArea; } }; //============================================================================== Component::Component() : parentComponent (nullptr), lookAndFeel (nullptr), effect (nullptr), componentFlags (0), componentTransparency (0) { } Component::Component (const String& name) : componentName (name), parentComponent (nullptr), lookAndFeel (nullptr), effect (nullptr), componentFlags (0), componentTransparency (0) { } Component::~Component() { static_jassert (sizeof (flags) <= sizeof (componentFlags)); componentListeners.call (&ComponentListener::componentBeingDeleted, *this); masterReference.clear(); while (childComponentList.size() > 0) removeChildComponent (childComponentList.size() - 1, false, true); if (parentComponent != nullptr) parentComponent->removeChildComponent (parentComponent->childComponentList.indexOf (this), true, false); else if (currentlyFocusedComponent == this || isParentOf (currentlyFocusedComponent)) giveAwayFocus (currentlyFocusedComponent != this); if (flags.hasHeavyweightPeerFlag) removeFromDesktop(); // Something has added some children to this component during its destructor! Not a smart idea! jassert (childComponentList.size() == 0); } //============================================================================== void Component::setName (const String& name) { // if component methods are being called from threads other than the message // thread, you'll need to use a MessageManagerLock object to make sure it's thread-safe. CHECK_MESSAGE_MANAGER_IS_LOCKED_OR_OFFSCREEN if (componentName != name) { componentName = name; if (flags.hasHeavyweightPeerFlag) if (ComponentPeer* const peer = getPeer()) peer->setTitle (name); BailOutChecker checker (this); componentListeners.callChecked (checker, &ComponentListener::componentNameChanged, *this); } } void Component::setComponentID (const String& newID) { componentID = newID; } void Component::setVisible (bool shouldBeVisible) { if (flags.visibleFlag != shouldBeVisible) { // if component methods are being called from threads other than the message // thread, you'll need to use a MessageManagerLock object to make sure it's thread-safe. CHECK_MESSAGE_MANAGER_IS_LOCKED_OR_OFFSCREEN const WeakReference safePointer (this); flags.visibleFlag = shouldBeVisible; if (shouldBeVisible) repaint(); else repaintParent(); sendFakeMouseMove(); if (! shouldBeVisible) { if (cachedImage != nullptr) cachedImage->releaseResources(); if (currentlyFocusedComponent == this || isParentOf (currentlyFocusedComponent)) { if (parentComponent != nullptr) parentComponent->grabKeyboardFocus(); else giveAwayFocus (true); } } if (safePointer != nullptr) { sendVisibilityChangeMessage(); if (safePointer != nullptr && flags.hasHeavyweightPeerFlag) { if (ComponentPeer* const peer = getPeer()) { peer->setVisible (shouldBeVisible); internalHierarchyChanged(); } } } } } void Component::visibilityChanged() {} void Component::sendVisibilityChangeMessage() { BailOutChecker checker (this); visibilityChanged(); if (! checker.shouldBailOut()) componentListeners.callChecked (checker, &ComponentListener::componentVisibilityChanged, *this); } bool Component::isShowing() const { if (! flags.visibleFlag) return false; if (parentComponent != nullptr) return parentComponent->isShowing(); if (const ComponentPeer* const peer = getPeer()) return ! peer->isMinimised(); return false; } //============================================================================== void* Component::getWindowHandle() const { if (const ComponentPeer* const peer = getPeer()) return peer->getNativeHandle(); return nullptr; } //============================================================================== void Component::addToDesktop (int styleWanted, void* nativeWindowToAttachTo) { // if component methods are being called from threads other than the message // thread, you'll need to use a MessageManagerLock object to make sure it's thread-safe. CHECK_MESSAGE_MANAGER_IS_LOCKED if (isOpaque()) styleWanted &= ~ComponentPeer::windowIsSemiTransparent; else styleWanted |= ComponentPeer::windowIsSemiTransparent; // don't use getPeer(), so that we only get the peer that's specifically // for this comp, and not for one of its parents. ComponentPeer* peer = ComponentPeer::getPeerFor (this); if (peer == nullptr || styleWanted != peer->getStyleFlags()) { const WeakReference safePointer (this); #if JUCE_LINUX // it's wise to give the component a non-zero size before // putting it on the desktop, as X windows get confused by this, and // a (1, 1) minimum size is enforced here. setSize (jmax (1, getWidth()), jmax (1, getHeight())); #endif const Point topLeft (getScreenPosition()); bool wasFullscreen = false; bool wasMinimised = false; ComponentBoundsConstrainer* currentConstainer = nullptr; Rectangle oldNonFullScreenBounds; int oldRenderingEngine = -1; if (peer != nullptr) { ScopedPointer oldPeerToDelete (peer); wasFullscreen = peer->isFullScreen(); wasMinimised = peer->isMinimised(); currentConstainer = peer->getConstrainer(); oldNonFullScreenBounds = peer->getNonFullScreenBounds(); oldRenderingEngine = peer->getCurrentRenderingEngine(); flags.hasHeavyweightPeerFlag = false; Desktop::getInstance().removeDesktopComponent (this); internalHierarchyChanged(); // give comps a chance to react to the peer change before the old peer is deleted. if (safePointer == nullptr) return; setTopLeftPosition (topLeft); } if (parentComponent != nullptr) parentComponent->removeChildComponent (this); if (safePointer != nullptr) { flags.hasHeavyweightPeerFlag = true; peer = createNewPeer (styleWanted, nativeWindowToAttachTo); Desktop::getInstance().addDesktopComponent (this); bounds.setPosition (topLeft); peer->updateBounds(); if (oldRenderingEngine >= 0) peer->setCurrentRenderingEngine (oldRenderingEngine); peer->setVisible (isVisible()); peer = ComponentPeer::getPeerFor (this); if (peer == nullptr) return; if (wasFullscreen) { peer->setFullScreen (true); peer->setNonFullScreenBounds (oldNonFullScreenBounds); } if (wasMinimised) peer->setMinimised (true); #if JUCE_WINDOWS if (isAlwaysOnTop()) peer->setAlwaysOnTop (true); #endif peer->setConstrainer (currentConstainer); repaint(); internalHierarchyChanged(); } } } void Component::removeFromDesktop() { // if component methods are being called from threads other than the message // thread, you'll need to use a MessageManagerLock object to make sure it's thread-safe. CHECK_MESSAGE_MANAGER_IS_LOCKED_OR_OFFSCREEN if (flags.hasHeavyweightPeerFlag) { ComponentPeer* const peer = ComponentPeer::getPeerFor (this); jassert (peer != nullptr); flags.hasHeavyweightPeerFlag = false; delete peer; Desktop::getInstance().removeDesktopComponent (this); } } bool Component::isOnDesktop() const noexcept { return flags.hasHeavyweightPeerFlag; } ComponentPeer* Component::getPeer() const { if (flags.hasHeavyweightPeerFlag) return ComponentPeer::getPeerFor (this); if (parentComponent == nullptr) return nullptr; return parentComponent->getPeer(); } void Component::userTriedToCloseWindow() { /* This means that the user's trying to get rid of your window with the 'close window' system menu option (on windows) or possibly the task manager - you should really handle this and delete or hide your component in an appropriate way. If you want to ignore the event and don't want to trigger this assertion, just override this method and do nothing. */ jassertfalse; } void Component::minimisationStateChanged (bool) {} float Component::getDesktopScaleFactor() const { return Desktop::getInstance().getGlobalScaleFactor(); } //============================================================================== void Component::setOpaque (const bool shouldBeOpaque) { if (shouldBeOpaque != flags.opaqueFlag) { flags.opaqueFlag = shouldBeOpaque; if (flags.hasHeavyweightPeerFlag) if (const ComponentPeer* const peer = ComponentPeer::getPeerFor (this)) addToDesktop (peer->getStyleFlags()); // recreates the heavyweight window repaint(); } } bool Component::isOpaque() const noexcept { return flags.opaqueFlag; } //============================================================================== class StandardCachedComponentImage : public CachedComponentImage { public: StandardCachedComponentImage (Component& c) noexcept : owner (c), scale (1.0f) {} void paint (Graphics& g) override { scale = g.getInternalContext().getPhysicalPixelScaleFactor(); const Rectangle compBounds (owner.getLocalBounds()); const Rectangle imageBounds (compBounds * scale); if (image.isNull() || image.getBounds() != imageBounds) { image = Image (owner.isOpaque() ? Image::RGB : Image::ARGB, jmax (1, imageBounds.getWidth()), jmax (1, imageBounds.getHeight()), ! owner.isOpaque()); validArea.clear(); } { Graphics imG (image); LowLevelGraphicsContext& lg = imG.getInternalContext(); for (const Rectangle* i = validArea.begin(), * const e = validArea.end(); i != e; ++i) lg.excludeClipRectangle (*i); if (! lg.isClipEmpty()) { if (! owner.isOpaque()) { lg.setFill (Colours::transparentBlack); lg.fillRect (imageBounds, true); lg.setFill (Colours::black); } lg.addTransform (AffineTransform::scale (scale)); owner.paintEntireComponent (imG, true); } } validArea = imageBounds; g.setColour (Colours::black.withAlpha (owner.getAlpha())); g.drawImageTransformed (image, AffineTransform::scale (compBounds.getWidth() / (float) imageBounds.getWidth(), compBounds.getHeight() / (float) imageBounds.getHeight()), false); } bool invalidateAll() override { validArea.clear(); return true; } bool invalidate (const Rectangle& area) override { validArea.subtract (area * scale); return true; } void releaseResources() override { image = Image::null; } private: Image image; RectangleList validArea; Component& owner; float scale; JUCE_DECLARE_NON_COPYABLE_WITH_LEAK_DETECTOR (StandardCachedComponentImage) }; void Component::setCachedComponentImage (CachedComponentImage* newCachedImage) { if (cachedImage != newCachedImage) { cachedImage = newCachedImage; repaint(); } } void Component::setBufferedToImage (const bool shouldBeBuffered) { // This assertion means that this component is already using a custom CachedComponentImage, // so by calling setBufferedToImage, you'll be deleting the custom one - this is almost certainly // not what you wanted to happen... If you really do know what you're doing here, and want to // avoid this assertion, just call setCachedComponentImage (nullptr) before setBufferedToImage(). jassert (cachedImage == nullptr || dynamic_cast (cachedImage.get()) != nullptr); if (shouldBeBuffered) { if (cachedImage == nullptr) cachedImage = new StandardCachedComponentImage (*this); } else { cachedImage = nullptr; } } //============================================================================== void Component::reorderChildInternal (const int sourceIndex, const int destIndex) { if (sourceIndex != destIndex) { Component* const c = childComponentList.getUnchecked (sourceIndex); jassert (c != nullptr); c->repaintParent(); childComponentList.move (sourceIndex, destIndex); sendFakeMouseMove(); internalChildrenChanged(); } } void Component::toFront (const bool setAsForeground) { // if component methods are being called from threads other than the message // thread, you'll need to use a MessageManagerLock object to make sure it's thread-safe. CHECK_MESSAGE_MANAGER_IS_LOCKED_OR_OFFSCREEN if (flags.hasHeavyweightPeerFlag) { if (ComponentPeer* const peer = getPeer()) { peer->toFront (setAsForeground); if (setAsForeground && ! hasKeyboardFocus (true)) grabKeyboardFocus(); } } else if (parentComponent != nullptr) { const Array& childList = parentComponent->childComponentList; if (childList.getLast() != this) { const int index = childList.indexOf (this); if (index >= 0) { int insertIndex = -1; if (! flags.alwaysOnTopFlag) { insertIndex = childList.size() - 1; while (insertIndex > 0 && childList.getUnchecked (insertIndex)->isAlwaysOnTop()) --insertIndex; } parentComponent->reorderChildInternal (index, insertIndex); } } if (setAsForeground) { internalBroughtToFront(); grabKeyboardFocus(); } } } void Component::toBehind (Component* const other) { if (other != nullptr && other != this) { // the two components must belong to the same parent.. jassert (parentComponent == other->parentComponent); if (parentComponent != nullptr) { const Array& childList = parentComponent->childComponentList; const int index = childList.indexOf (this); if (index >= 0 && childList [index + 1] != other) { int otherIndex = childList.indexOf (other); if (otherIndex >= 0) { if (index < otherIndex) --otherIndex; parentComponent->reorderChildInternal (index, otherIndex); } } } else if (isOnDesktop()) { jassert (other->isOnDesktop()); if (other->isOnDesktop()) { ComponentPeer* const us = getPeer(); ComponentPeer* const them = other->getPeer(); jassert (us != nullptr && them != nullptr); if (us != nullptr && them != nullptr) us->toBehind (them); } } } } void Component::toBack() { if (isOnDesktop()) { jassertfalse; //xxx need to add this to native window } else if (parentComponent != nullptr) { const Array& childList = parentComponent->childComponentList; if (childList.getFirst() != this) { const int index = childList.indexOf (this); if (index > 0) { int insertIndex = 0; if (flags.alwaysOnTopFlag) while (insertIndex < childList.size() && ! childList.getUnchecked (insertIndex)->isAlwaysOnTop()) ++insertIndex; parentComponent->reorderChildInternal (index, insertIndex); } } } } void Component::setAlwaysOnTop (const bool shouldStayOnTop) { if (shouldStayOnTop != flags.alwaysOnTopFlag) { BailOutChecker checker (this); flags.alwaysOnTopFlag = shouldStayOnTop; if (isOnDesktop()) { if (ComponentPeer* const peer = getPeer()) { if (! peer->setAlwaysOnTop (shouldStayOnTop)) { // some kinds of peer can't change their always-on-top status, so // for these, we'll need to create a new window const int oldFlags = peer->getStyleFlags(); removeFromDesktop(); addToDesktop (oldFlags); } } } if (shouldStayOnTop && ! checker.shouldBailOut()) toFront (false); if (! checker.shouldBailOut()) internalHierarchyChanged(); } } bool Component::isAlwaysOnTop() const noexcept { return flags.alwaysOnTopFlag; } //============================================================================== int Component::proportionOfWidth (const float proportion) const noexcept { return roundToInt (proportion * bounds.getWidth()); } int Component::proportionOfHeight (const float proportion) const noexcept { return roundToInt (proportion * bounds.getHeight()); } int Component::getParentWidth() const noexcept { return parentComponent != nullptr ? parentComponent->getWidth() : getParentMonitorArea().getWidth(); } int Component::getParentHeight() const noexcept { return parentComponent != nullptr ? parentComponent->getHeight() : getParentMonitorArea().getHeight(); } int Component::getScreenX() const { return getScreenPosition().x; } int Component::getScreenY() const { return getScreenPosition().y; } Point Component::getScreenPosition() const { return localPointToGlobal (Point()); } Rectangle Component::getScreenBounds() const { return localAreaToGlobal (getLocalBounds()); } Rectangle Component::getParentMonitorArea() const { return Desktop::getInstance().getDisplays().getDisplayContaining (getScreenBounds().getCentre()).userArea; } Point Component::getLocalPoint (const Component* source, Point point) const { return ComponentHelpers::convertCoordinate (this, source, point); } Rectangle Component::getLocalArea (const Component* source, const Rectangle& area) const { return ComponentHelpers::convertCoordinate (this, source, area); } Point Component::localPointToGlobal (Point point) const { return ComponentHelpers::convertCoordinate (nullptr, this, point); } Rectangle Component::localAreaToGlobal (const Rectangle& area) const { return ComponentHelpers::convertCoordinate (nullptr, this, area); } // Deprecated methods... Point Component::relativePositionToGlobal (Point relativePosition) const { return localPointToGlobal (relativePosition); } Point Component::globalPositionToRelative (Point screenPosition) const { return getLocalPoint (nullptr, screenPosition); } Point Component::relativePositionToOtherComponent (const Component* const targetComponent, Point positionRelativeToThis) const { return targetComponent == nullptr ? localPointToGlobal (positionRelativeToThis) : targetComponent->getLocalPoint (this, positionRelativeToThis); } //============================================================================== void Component::setBounds (const int x, const int y, int w, int h) { // if component methods are being called from threads other than the message // thread, you'll need to use a MessageManagerLock object to make sure it's thread-safe. CHECK_MESSAGE_MANAGER_IS_LOCKED_OR_OFFSCREEN if (w < 0) w = 0; if (h < 0) h = 0; const bool wasResized = (getWidth() != w || getHeight() != h); const bool wasMoved = (getX() != x || getY() != y); #if JUCE_DEBUG // It's a very bad idea to try to resize a window during its paint() method! jassert (! (flags.isInsidePaintCall && wasResized && isOnDesktop())); #endif if (wasMoved || wasResized) { const bool showing = isShowing(); if (showing) { // send a fake mouse move to trigger enter/exit messages if needed.. sendFakeMouseMove(); if (! flags.hasHeavyweightPeerFlag) repaintParent(); } bounds.setBounds (x, y, w, h); if (showing) { if (wasResized) repaint(); else if (! flags.hasHeavyweightPeerFlag) repaintParent(); } else if (cachedImage != nullptr) { cachedImage->invalidateAll(); } if (flags.hasHeavyweightPeerFlag) if (ComponentPeer* const peer = getPeer()) peer->updateBounds(); sendMovedResizedMessages (wasMoved, wasResized); } } void Component::sendMovedResizedMessages (const bool wasMoved, const bool wasResized) { BailOutChecker checker (this); if (wasMoved) { moved(); if (checker.shouldBailOut()) return; } if (wasResized) { resized(); if (checker.shouldBailOut()) return; for (int i = childComponentList.size(); --i >= 0;) { childComponentList.getUnchecked(i)->parentSizeChanged(); if (checker.shouldBailOut()) return; i = jmin (i, childComponentList.size()); } } if (parentComponent != nullptr) parentComponent->childBoundsChanged (this); if (! checker.shouldBailOut()) componentListeners.callChecked (checker, &ComponentListener::componentMovedOrResized, *this, wasMoved, wasResized); } void Component::setSize (const int w, const int h) { setBounds (getX(), getY(), w, h); } void Component::setTopLeftPosition (const int x, const int y) { setBounds (x, y, getWidth(), getHeight()); } void Component::setTopLeftPosition (Point pos) { setBounds (pos.x, pos.y, getWidth(), getHeight()); } void Component::setTopRightPosition (const int x, const int y) { setTopLeftPosition (x - getWidth(), y); } void Component::setBounds (const Rectangle& r) { setBounds (r.getX(), r.getY(), r.getWidth(), r.getHeight()); } void Component::setBounds (const RelativeRectangle& newBounds) { newBounds.applyToComponent (*this); } void Component::setBounds (const String& newBoundsExpression) { setBounds (RelativeRectangle (newBoundsExpression)); } void Component::setBoundsRelative (const float x, const float y, const float w, const float h) { const int pw = getParentWidth(); const int ph = getParentHeight(); setBounds (roundToInt (x * pw), roundToInt (y * ph), roundToInt (w * pw), roundToInt (h * ph)); } void Component::setCentrePosition (const int x, const int y) { setTopLeftPosition (x - getWidth() / 2, y - getHeight() / 2); } void Component::setCentreRelative (const float x, const float y) { setCentrePosition (roundToInt (getParentWidth() * x), roundToInt (getParentHeight() * y)); } void Component::centreWithSize (const int width, const int height) { const Rectangle parentArea (ComponentHelpers::getParentOrMainMonitorBounds (*this)); setBounds (parentArea.getCentreX() - width / 2, parentArea.getCentreY() - height / 2, width, height); } void Component::setBoundsInset (const BorderSize& borders) { setBounds (borders.subtractedFrom (ComponentHelpers::getParentOrMainMonitorBounds (*this))); } void Component::setBoundsToFit (int x, int y, int width, int height, Justification justification, const bool onlyReduceInSize) { // it's no good calling this method unless both the component and // target rectangle have a finite size. jassert (getWidth() > 0 && getHeight() > 0 && width > 0 && height > 0); if (getWidth() > 0 && getHeight() > 0 && width > 0 && height > 0) { int newW, newH; if (onlyReduceInSize && getWidth() <= width && getHeight() <= height) { newW = getWidth(); newH = getHeight(); } else { const double imageRatio = getHeight() / (double) getWidth(); const double targetRatio = height / (double) width; if (imageRatio <= targetRatio) { newW = width; newH = jmin (height, roundToInt (newW * imageRatio)); } else { newH = height; newW = jmin (width, roundToInt (newH / imageRatio)); } } if (newW > 0 && newH > 0) setBounds (justification.appliedToRectangle (Rectangle (newW, newH), Rectangle (x, y, width, height))); } } //============================================================================== void Component::setTransform (const AffineTransform& newTransform) { // If you pass in a transform with no inverse, the component will have no dimensions, // and there will be all sorts of maths errors when converting coordinates. jassert (! newTransform.isSingularity()); if (newTransform.isIdentity()) { if (affineTransform != nullptr) { repaint(); affineTransform = nullptr; repaint(); sendMovedResizedMessages (false, false); } } else if (affineTransform == nullptr) { repaint(); affineTransform = new AffineTransform (newTransform); repaint(); sendMovedResizedMessages (false, false); } else if (*affineTransform != newTransform) { repaint(); *affineTransform = newTransform; repaint(); sendMovedResizedMessages (false, false); } } bool Component::isTransformed() const noexcept { return affineTransform != nullptr; } AffineTransform Component::getTransform() const { return affineTransform != nullptr ? *affineTransform : AffineTransform::identity; } //============================================================================== bool Component::hitTest (int x, int y) { if (! flags.ignoresMouseClicksFlag) return true; if (flags.allowChildMouseClicksFlag) { for (int i = childComponentList.size(); --i >= 0;) { Component& child = *childComponentList.getUnchecked (i); if (child.isVisible() && ComponentHelpers::hitTest (child, ComponentHelpers::convertFromParentSpace (child, Point (x, y)))) return true; } } return false; } void Component::setInterceptsMouseClicks (const bool allowClicks, const bool allowClicksOnChildComponents) noexcept { flags.ignoresMouseClicksFlag = ! allowClicks; flags.allowChildMouseClicksFlag = allowClicksOnChildComponents; } void Component::getInterceptsMouseClicks (bool& allowsClicksOnThisComponent, bool& allowsClicksOnChildComponents) const noexcept { allowsClicksOnThisComponent = ! flags.ignoresMouseClicksFlag; allowsClicksOnChildComponents = flags.allowChildMouseClicksFlag; } bool Component::contains (Point point) { if (ComponentHelpers::hitTest (*this, point)) { if (parentComponent != nullptr) return parentComponent->contains (ComponentHelpers::convertToParentSpace (*this, point)); if (flags.hasHeavyweightPeerFlag) if (const ComponentPeer* const peer = getPeer()) return peer->contains (ComponentHelpers::localPositionToRawPeerPos (*this, point), true); } return false; } bool Component::reallyContains (Point point, const bool returnTrueIfWithinAChild) { if (! contains (point)) return false; Component* const top = getTopLevelComponent(); const Component* const compAtPosition = top->getComponentAt (top->getLocalPoint (this, point)); return (compAtPosition == this) || (returnTrueIfWithinAChild && isParentOf (compAtPosition)); } Component* Component::getComponentAt (Point position) { if (flags.visibleFlag && ComponentHelpers::hitTest (*this, position)) { for (int i = childComponentList.size(); --i >= 0;) { Component* child = childComponentList.getUnchecked(i); child = child->getComponentAt (ComponentHelpers::convertFromParentSpace (*child, position)); if (child != nullptr) return child; } return this; } return nullptr; } Component* Component::getComponentAt (const int x, const int y) { return getComponentAt (Point (x, y)); } //============================================================================== void Component::addChildComponent (Component* const child, int zOrder) { // if component methods are being called from threads other than the message // thread, you'll need to use a MessageManagerLock object to make sure it's thread-safe. CHECK_MESSAGE_MANAGER_IS_LOCKED_OR_OFFSCREEN if (child != nullptr && child->parentComponent != this) { if (child->parentComponent != nullptr) child->parentComponent->removeChildComponent (child); else child->removeFromDesktop(); child->parentComponent = this; if (child->isVisible()) child->repaintParent(); if (! child->isAlwaysOnTop()) { if (zOrder < 0 || zOrder > childComponentList.size()) zOrder = childComponentList.size(); while (zOrder > 0) { if (! childComponentList.getUnchecked (zOrder - 1)->isAlwaysOnTop()) break; --zOrder; } } childComponentList.insert (zOrder, child); child->internalHierarchyChanged(); internalChildrenChanged(); } } void Component::addAndMakeVisible (Component* const child, int zOrder) { if (child != nullptr) { child->setVisible (true); addChildComponent (child, zOrder); } } void Component::addChildAndSetID (Component* const child, const String& childID) { if (child != nullptr) { child->setComponentID (childID); addAndMakeVisible (child); } } void Component::removeChildComponent (Component* const child) { removeChildComponent (childComponentList.indexOf (child), true, true); } Component* Component::removeChildComponent (const int index) { return removeChildComponent (index, true, true); } Component* Component::removeChildComponent (const int index, bool sendParentEvents, const bool sendChildEvents) { // if component methods are being called from threads other than the message // thread, you'll need to use a MessageManagerLock object to make sure it's thread-safe. CHECK_MESSAGE_MANAGER_IS_LOCKED_OR_OFFSCREEN Component* const child = childComponentList [index]; if (child != nullptr) { sendParentEvents = sendParentEvents && child->isShowing(); if (sendParentEvents) { sendFakeMouseMove(); if (child->isVisible()) child->repaintParent(); } childComponentList.remove (index); child->parentComponent = nullptr; if (child->cachedImage != nullptr) child->cachedImage->releaseResources(); // (NB: there are obscure situations where child->isShowing() = false, but it still has the focus) if (currentlyFocusedComponent == child || child->isParentOf (currentlyFocusedComponent)) { if (sendParentEvents) { const WeakReference thisPointer (this); giveAwayFocus (sendChildEvents || currentlyFocusedComponent != child); if (thisPointer == nullptr) return child; grabKeyboardFocus(); } else { giveAwayFocus (sendChildEvents || currentlyFocusedComponent != child); } } if (sendChildEvents) child->internalHierarchyChanged(); if (sendParentEvents) internalChildrenChanged(); } return child; } //============================================================================== void Component::removeAllChildren() { while (childComponentList.size() > 0) removeChildComponent (childComponentList.size() - 1); } void Component::deleteAllChildren() { while (childComponentList.size() > 0) delete (removeChildComponent (childComponentList.size() - 1)); } int Component::getNumChildComponents() const noexcept { return childComponentList.size(); } Component* Component::getChildComponent (const int index) const noexcept { return childComponentList [index]; } int Component::getIndexOfChildComponent (const Component* const child) const noexcept { return childComponentList.indexOf (const_cast (child)); } Component* Component::findChildWithID (StringRef targetID) const noexcept { for (int i = childComponentList.size(); --i >= 0;) { Component* const c = childComponentList.getUnchecked(i); if (c->componentID == targetID) return c; } return nullptr; } Component* Component::getTopLevelComponent() const noexcept { const Component* comp = this; while (comp->parentComponent != nullptr) comp = comp->parentComponent; return const_cast (comp); } bool Component::isParentOf (const Component* possibleChild) const noexcept { while (possibleChild != nullptr) { possibleChild = possibleChild->parentComponent; if (possibleChild == this) return true; } return false; } //============================================================================== void Component::parentHierarchyChanged() {} void Component::childrenChanged() {} void Component::internalChildrenChanged() { if (componentListeners.isEmpty()) { childrenChanged(); } else { BailOutChecker checker (this); childrenChanged(); if (! checker.shouldBailOut()) componentListeners.callChecked (checker, &ComponentListener::componentChildrenChanged, *this); } } void Component::internalHierarchyChanged() { BailOutChecker checker (this); parentHierarchyChanged(); if (checker.shouldBailOut()) return; componentListeners.callChecked (checker, &ComponentListener::componentParentHierarchyChanged, *this); if (checker.shouldBailOut()) return; for (int i = childComponentList.size(); --i >= 0;) { childComponentList.getUnchecked (i)->internalHierarchyChanged(); if (checker.shouldBailOut()) { // you really shouldn't delete the parent component during a callback telling you // that it's changed.. jassertfalse; return; } i = jmin (i, childComponentList.size()); } } //============================================================================== #if JUCE_MODAL_LOOPS_PERMITTED int Component::runModalLoop() { if (! MessageManager::getInstance()->isThisTheMessageThread()) { // use a callback so this can be called from non-gui threads return (int) (pointer_sized_int) MessageManager::getInstance() ->callFunctionOnMessageThread (&ComponentHelpers::runModalLoopCallback, this); } if (! isCurrentlyModal()) enterModalState (true); return ModalComponentManager::getInstance()->runEventLoopForCurrentComponent(); } #endif //============================================================================== void Component::enterModalState (const bool shouldTakeKeyboardFocus, ModalComponentManager::Callback* callback, const bool deleteWhenDismissed) { // if component methods are being called from threads other than the message // thread, you'll need to use a MessageManagerLock object to make sure it's thread-safe. CHECK_MESSAGE_MANAGER_IS_LOCKED // Check for an attempt to make a component modal when it already is! // This can cause nasty problems.. jassert (! flags.currentlyModalFlag); if (! isCurrentlyModal()) { ModalComponentManager* const mcm = ModalComponentManager::getInstance(); mcm->startModal (this, deleteWhenDismissed); mcm->attachCallback (this, callback); flags.currentlyModalFlag = true; setVisible (true); if (shouldTakeKeyboardFocus) grabKeyboardFocus(); } } void Component::exitModalState (const int returnValue) { if (flags.currentlyModalFlag) { if (MessageManager::getInstance()->isThisTheMessageThread()) { ModalComponentManager::getInstance()->endModal (this, returnValue); flags.currentlyModalFlag = false; ModalComponentManager::getInstance()->bringModalComponentsToFront(); } else { class ExitModalStateMessage : public CallbackMessage { public: ExitModalStateMessage (Component* const c, const int res) : target (c), result (res) {} void messageCallback() override { if (target.get() != nullptr) // (get() required for VS2003 bug) target->exitModalState (result); } private: WeakReference target; int result; }; (new ExitModalStateMessage (this, returnValue))->post(); } } } bool Component::isCurrentlyModal() const noexcept { return flags.currentlyModalFlag && getCurrentlyModalComponent() == this; } bool Component::isCurrentlyBlockedByAnotherModalComponent() const { Component* const mc = getCurrentlyModalComponent(); return ! (mc == nullptr || mc == this || mc->isParentOf (this) || mc->canModalEventBeSentToComponent (this)); } int JUCE_CALLTYPE Component::getNumCurrentlyModalComponents() noexcept { return ModalComponentManager::getInstance()->getNumModalComponents(); } Component* JUCE_CALLTYPE Component::getCurrentlyModalComponent (int index) noexcept { return ModalComponentManager::getInstance()->getModalComponent (index); } //============================================================================== void Component::setBroughtToFrontOnMouseClick (const bool shouldBeBroughtToFront) noexcept { flags.bringToFrontOnClickFlag = shouldBeBroughtToFront; } bool Component::isBroughtToFrontOnMouseClick() const noexcept { return flags.bringToFrontOnClickFlag; } //============================================================================== void Component::setMouseCursor (const MouseCursor& newCursor) { if (cursor != newCursor) { cursor = newCursor; if (flags.visibleFlag) updateMouseCursor(); } } MouseCursor Component::getMouseCursor() { return cursor; } void Component::updateMouseCursor() const { Desktop::getInstance().getMainMouseSource().forceMouseCursorUpdate(); } //============================================================================== void Component::setRepaintsOnMouseActivity (const bool shouldRepaint) noexcept { flags.repaintOnMouseActivityFlag = shouldRepaint; } //============================================================================== void Component::setAlpha (const float newAlpha) { const uint8 newIntAlpha = (uint8) (255 - jlimit (0, 255, roundToInt (newAlpha * 255.0))); if (componentTransparency != newIntAlpha) { componentTransparency = newIntAlpha; if (flags.hasHeavyweightPeerFlag) { if (ComponentPeer* const peer = getPeer()) peer->setAlpha (newAlpha); } else { repaint(); } } } float Component::getAlpha() const { return (255 - componentTransparency) / 255.0f; } //============================================================================== void Component::repaint() { internalRepaintUnchecked (getLocalBounds(), true); } void Component::repaint (const int x, const int y, const int w, const int h) { internalRepaint (Rectangle (x, y, w, h)); } void Component::repaint (const Rectangle& area) { internalRepaint (area); } void Component::repaintParent() { if (parentComponent != nullptr) parentComponent->internalRepaint (ComponentHelpers::convertToParentSpace (*this, getLocalBounds())); } void Component::internalRepaint (const Rectangle& area) { const Rectangle r (area.getIntersection (getLocalBounds())); if (! r.isEmpty()) internalRepaintUnchecked (r, false); } void Component::internalRepaintUnchecked (const Rectangle& area, const bool isEntireComponent) { if (flags.visibleFlag) { if (cachedImage != nullptr) if (! (isEntireComponent ? cachedImage->invalidateAll() : cachedImage->invalidate (area))) return; if (flags.hasHeavyweightPeerFlag) { // if component methods are being called from threads other than the message // thread, you'll need to use a MessageManagerLock object to make sure it's thread-safe. CHECK_MESSAGE_MANAGER_IS_LOCKED if (ComponentPeer* const peer = getPeer()) { // Tweak the scaling so that the component's integer size exactly aligns with the peer's scaled size const Rectangle peerBounds (peer->getBounds()); const Rectangle scaled (area * Point (peerBounds.getWidth() / (float) getWidth(), peerBounds.getHeight() / (float) getHeight())); peer->repaint (affineTransform != nullptr ? scaled.transformedBy (*affineTransform) : scaled); } } else { if (parentComponent != nullptr) parentComponent->internalRepaint (ComponentHelpers::convertToParentSpace (*this, area)); } } } //============================================================================== void Component::paint (Graphics&) { // if your component is marked as opaque, you must implement a paint // method and ensure that its entire area is completely painted. jassert (getBounds().isEmpty() || ! isOpaque()); } void Component::paintOverChildren (Graphics&) { // all painting is done in the subclasses } //============================================================================== void Component::paintWithinParentContext (Graphics& g) { g.setOrigin (getPosition()); if (cachedImage != nullptr) cachedImage->paint (g); else paintEntireComponent (g, false); } void Component::paintComponentAndChildren (Graphics& g) { const Rectangle clipBounds (g.getClipBounds()); if (flags.dontClipGraphicsFlag) { paint (g); } else { g.saveState(); if (ComponentHelpers::clipObscuredRegions (*this, g, clipBounds, Point()) || ! g.isClipEmpty()) paint (g); g.restoreState(); } for (int i = 0; i < childComponentList.size(); ++i) { Component& child = *childComponentList.getUnchecked (i); if (child.isVisible()) { if (child.affineTransform != nullptr) { g.saveState(); g.addTransform (*child.affineTransform); if ((child.flags.dontClipGraphicsFlag && ! g.isClipEmpty()) || g.reduceClipRegion (child.getBounds())) child.paintWithinParentContext (g); g.restoreState(); } else if (clipBounds.intersects (child.getBounds())) { g.saveState(); if (child.flags.dontClipGraphicsFlag) { child.paintWithinParentContext (g); } else if (g.reduceClipRegion (child.getBounds())) { bool nothingClipped = true; for (int j = i + 1; j < childComponentList.size(); ++j) { const Component& sibling = *childComponentList.getUnchecked (j); if (sibling.flags.opaqueFlag && sibling.isVisible() && sibling.affineTransform == nullptr) { nothingClipped = false; g.excludeClipRegion (sibling.getBounds()); } } if (nothingClipped || ! g.isClipEmpty()) child.paintWithinParentContext (g); } g.restoreState(); } } } g.saveState(); paintOverChildren (g); g.restoreState(); } void Component::paintEntireComponent (Graphics& g, const bool ignoreAlphaLevel) { #if JUCE_DEBUG flags.isInsidePaintCall = true; #endif if (effect != nullptr) { const float scale = g.getInternalContext().getPhysicalPixelScaleFactor(); const Rectangle scaledBounds (getLocalBounds() * scale); Image effectImage (flags.opaqueFlag ? Image::RGB : Image::ARGB, scaledBounds.getWidth(), scaledBounds.getHeight(), ! flags.opaqueFlag); { Graphics g2 (effectImage); g2.addTransform (AffineTransform::scale (scale)); paintComponentAndChildren (g2); } g.saveState(); g.addTransform (AffineTransform::scale (1.0f / scale)); effect->applyEffect (effectImage, g, scale, ignoreAlphaLevel ? 1.0f : getAlpha()); g.restoreState(); } else if (componentTransparency > 0 && ! ignoreAlphaLevel) { if (componentTransparency < 255) { g.beginTransparencyLayer (getAlpha()); paintComponentAndChildren (g); g.endTransparencyLayer(); } } else { paintComponentAndChildren (g); } #if JUCE_DEBUG flags.isInsidePaintCall = false; #endif } void Component::setPaintingIsUnclipped (const bool shouldPaintWithoutClipping) noexcept { flags.dontClipGraphicsFlag = shouldPaintWithoutClipping; } //============================================================================== Image Component::createComponentSnapshot (const Rectangle& areaToGrab, const bool clipImageToComponentBounds) { Rectangle r (areaToGrab); if (clipImageToComponentBounds) r = r.getIntersection (getLocalBounds()); if (r.isEmpty()) return Image(); Image componentImage (flags.opaqueFlag ? Image::RGB : Image::ARGB, r.getWidth(), r.getHeight(), true); Graphics imageContext (componentImage); imageContext.setOrigin (-r.getPosition()); paintEntireComponent (imageContext, true); return componentImage; } void Component::setComponentEffect (ImageEffectFilter* const newEffect) { if (effect != newEffect) { effect = newEffect; repaint(); } } //============================================================================== LookAndFeel& Component::getLookAndFeel() const noexcept { for (const Component* c = this; c != nullptr; c = c->parentComponent) if (c->lookAndFeel != nullptr) return *(c->lookAndFeel); return LookAndFeel::getDefaultLookAndFeel(); } void Component::setLookAndFeel (LookAndFeel* const newLookAndFeel) { if (lookAndFeel != newLookAndFeel) { lookAndFeel = newLookAndFeel; sendLookAndFeelChange(); } } void Component::lookAndFeelChanged() {} void Component::colourChanged() {} void Component::sendLookAndFeelChange() { const WeakReference safePointer (this); repaint(); lookAndFeelChanged(); if (safePointer != nullptr) { colourChanged(); if (safePointer != nullptr) { for (int i = childComponentList.size(); --i >= 0;) { childComponentList.getUnchecked (i)->sendLookAndFeelChange(); if (safePointer == nullptr) return; i = jmin (i, childComponentList.size()); } } } } Colour Component::findColour (const int colourId, const bool inheritFromParent) const { if (const var* const v = properties.getVarPointer (ComponentHelpers::getColourPropertyId (colourId))) return Colour ((uint32) static_cast (*v)); if (inheritFromParent && parentComponent != nullptr && (lookAndFeel == nullptr || ! lookAndFeel->isColourSpecified (colourId))) return parentComponent->findColour (colourId, true); return getLookAndFeel().findColour (colourId); } bool Component::isColourSpecified (const int colourId) const { return properties.contains (ComponentHelpers::getColourPropertyId (colourId)); } void Component::removeColour (const int colourId) { if (properties.remove (ComponentHelpers::getColourPropertyId (colourId))) colourChanged(); } void Component::setColour (const int colourId, Colour colour) { if (properties.set (ComponentHelpers::getColourPropertyId (colourId), (int) colour.getARGB())) colourChanged(); } void Component::copyAllExplicitColoursTo (Component& target) const { bool changed = false; for (int i = properties.size(); --i >= 0;) { const Identifier name (properties.getName(i)); if (name.toString().startsWith ("jcclr_")) if (target.properties.set (name, properties [name])) changed = true; } if (changed) target.colourChanged(); } //============================================================================== MarkerList* Component::getMarkers (bool /*xAxis*/) { return nullptr; } //============================================================================== Component::Positioner::Positioner (Component& c) noexcept : component (c) { } Component::Positioner* Component::getPositioner() const noexcept { return positioner; } void Component::setPositioner (Positioner* newPositioner) { // You can only assign a positioner to the component that it was created for! jassert (newPositioner == nullptr || this == &(newPositioner->getComponent())); positioner = newPositioner; } //============================================================================== Rectangle Component::getLocalBounds() const noexcept { return bounds.withZeroOrigin(); } Rectangle Component::getBoundsInParent() const noexcept { return affineTransform == nullptr ? bounds : bounds.transformedBy (*affineTransform); } void Component::getVisibleArea (RectangleList& result, const bool includeSiblings) const { result.clear(); const Rectangle unclipped (ComponentHelpers::getUnclippedArea (*this)); if (! unclipped.isEmpty()) { result.add (unclipped); if (includeSiblings) { const Component* const c = getTopLevelComponent(); ComponentHelpers::subtractObscuredRegions (*c, result, getLocalPoint (c, Point()), c->getLocalBounds(), this); } ComponentHelpers::subtractObscuredRegions (*this, result, Point(), unclipped, nullptr); result.consolidate(); } } //============================================================================== void Component::mouseEnter (const MouseEvent&) {} void Component::mouseExit (const MouseEvent&) {} void Component::mouseDown (const MouseEvent&) {} void Component::mouseUp (const MouseEvent&) {} void Component::mouseDrag (const MouseEvent&) {} void Component::mouseMove (const MouseEvent&) {} void Component::mouseDoubleClick (const MouseEvent&) {} void Component::mouseWheelMove (const MouseEvent& e, const MouseWheelDetails& wheel) { // the base class just passes this event up to its parent.. if (parentComponent != nullptr) parentComponent->mouseWheelMove (e.getEventRelativeTo (parentComponent), wheel); } void Component::mouseMagnify (const MouseEvent& e, float magnifyAmount) { // the base class just passes this event up to its parent.. if (parentComponent != nullptr) parentComponent->mouseMagnify (e.getEventRelativeTo (parentComponent), magnifyAmount); } //============================================================================== void Component::resized() {} void Component::moved() {} void Component::childBoundsChanged (Component*) {} void Component::parentSizeChanged() {} void Component::addComponentListener (ComponentListener* const newListener) { // if component methods are being called from threads other than the message // thread, you'll need to use a MessageManagerLock object to make sure it's thread-safe. CHECK_MESSAGE_MANAGER_IS_LOCKED componentListeners.add (newListener); } void Component::removeComponentListener (ComponentListener* const listenerToRemove) { componentListeners.remove (listenerToRemove); } //============================================================================== void Component::inputAttemptWhenModal() { ModalComponentManager::getInstance()->bringModalComponentsToFront(); getLookAndFeel().playAlertSound(); } bool Component::canModalEventBeSentToComponent (const Component*) { return false; } void Component::internalModalInputAttempt() { if (Component* const current = getCurrentlyModalComponent()) current->inputAttemptWhenModal(); } //============================================================================== void Component::postCommandMessage (const int commandId) { class CustomCommandMessage : public CallbackMessage { public: CustomCommandMessage (Component* const c, const int command) : target (c), commandId (command) {} void messageCallback() override { if (target.get() != nullptr) // (get() required for VS2003 bug) target->handleCommandMessage (commandId); } private: WeakReference target; int commandId; }; (new CustomCommandMessage (this, commandId))->post(); } void Component::handleCommandMessage (int) { // used by subclasses } //============================================================================== void Component::addMouseListener (MouseListener* const newListener, const bool wantsEventsForAllNestedChildComponents) { // if component methods are being called from threads other than the message // thread, you'll need to use a MessageManagerLock object to make sure it's thread-safe. CHECK_MESSAGE_MANAGER_IS_LOCKED // If you register a component as a mouselistener for itself, it'll receive all the events // twice - once via the direct callback that all components get anyway, and then again as a listener! jassert ((newListener != this) || wantsEventsForAllNestedChildComponents); if (mouseListeners == nullptr) mouseListeners = new MouseListenerList(); mouseListeners->addListener (newListener, wantsEventsForAllNestedChildComponents); } void Component::removeMouseListener (MouseListener* const listenerToRemove) { // if component methods are being called from threads other than the message // thread, you'll need to use a MessageManagerLock object to make sure it's thread-safe. CHECK_MESSAGE_MANAGER_IS_LOCKED if (mouseListeners != nullptr) mouseListeners->removeListener (listenerToRemove); } //============================================================================== void Component::internalMouseEnter (MouseInputSource source, Point relativePos, Time time) { if (isCurrentlyBlockedByAnotherModalComponent()) { // if something else is modal, always just show a normal mouse cursor source.showMouseCursor (MouseCursor::NormalCursor); return; } if (flags.repaintOnMouseActivityFlag) repaint(); BailOutChecker checker (this); const MouseEvent me (source, relativePos, source.getCurrentModifiers(), this, this, time, relativePos, time, 0, false); mouseEnter (me); if (checker.shouldBailOut()) return; Desktop::getInstance().getMouseListeners().callChecked (checker, &MouseListener::mouseEnter, me); MouseListenerList::sendMouseEvent (*this, checker, &MouseListener::mouseEnter, me); } void Component::internalMouseExit (MouseInputSource source, Point relativePos, Time time) { if (flags.repaintOnMouseActivityFlag) repaint(); BailOutChecker checker (this); const MouseEvent me (source, relativePos, source.getCurrentModifiers(), this, this, time, relativePos, time, 0, false); mouseExit (me); if (checker.shouldBailOut()) return; Desktop::getInstance().getMouseListeners().callChecked (checker, &MouseListener::mouseExit, me); MouseListenerList::sendMouseEvent (*this, checker, &MouseListener::mouseExit, me); } void Component::internalMouseDown (MouseInputSource source, Point relativePos, Time time) { Desktop& desktop = Desktop::getInstance(); BailOutChecker checker (this); if (isCurrentlyBlockedByAnotherModalComponent()) { flags.mouseDownWasBlocked = true; internalModalInputAttempt(); if (checker.shouldBailOut()) return; // If processing the input attempt has exited the modal loop, we'll allow the event // to be delivered.. if (isCurrentlyBlockedByAnotherModalComponent()) { // allow blocked mouse-events to go to global listeners.. const MouseEvent me (source, relativePos, source.getCurrentModifiers(), this, this, time, relativePos, time, source.getNumberOfMultipleClicks(), false); desktop.getMouseListeners().callChecked (checker, &MouseListener::mouseDown, me); return; } } flags.mouseDownWasBlocked = false; for (Component* c = this; c != nullptr; c = c->parentComponent) { if (c->isBroughtToFrontOnMouseClick()) { c->toFront (true); if (checker.shouldBailOut()) return; } } if (! flags.dontFocusOnMouseClickFlag) { grabFocusInternal (focusChangedByMouseClick, true); if (checker.shouldBailOut()) return; } if (flags.repaintOnMouseActivityFlag) repaint(); const MouseEvent me (source, relativePos, source.getCurrentModifiers(), this, this, time, relativePos, time, source.getNumberOfMultipleClicks(), false); mouseDown (me); if (checker.shouldBailOut()) return; desktop.getMouseListeners().callChecked (checker, &MouseListener::mouseDown, me); MouseListenerList::sendMouseEvent (*this, checker, &MouseListener::mouseDown, me); } void Component::internalMouseUp (MouseInputSource source, Point relativePos, Time time, const ModifierKeys oldModifiers) { if (flags.mouseDownWasBlocked && isCurrentlyBlockedByAnotherModalComponent()) return; BailOutChecker checker (this); if (flags.repaintOnMouseActivityFlag) repaint(); const MouseEvent me (source, relativePos, oldModifiers, this, this, time, getLocalPoint (nullptr, source.getLastMouseDownPosition()), source.getLastMouseDownTime(), source.getNumberOfMultipleClicks(), source.hasMouseMovedSignificantlySincePressed()); mouseUp (me); if (checker.shouldBailOut()) return; Desktop& desktop = Desktop::getInstance(); desktop.getMouseListeners().callChecked (checker, &MouseListener::mouseUp, me); MouseListenerList::sendMouseEvent (*this, checker, &MouseListener::mouseUp, me); if (checker.shouldBailOut()) return; // check for double-click if (me.getNumberOfClicks() >= 2) { mouseDoubleClick (me); if (checker.shouldBailOut()) return; desktop.mouseListeners.callChecked (checker, &MouseListener::mouseDoubleClick, me); MouseListenerList::sendMouseEvent (*this, checker, &MouseListener::mouseDoubleClick, me); } } void Component::internalMouseDrag (MouseInputSource source, Point relativePos, Time time) { if (! isCurrentlyBlockedByAnotherModalComponent()) { BailOutChecker checker (this); const MouseEvent me (source, relativePos, source.getCurrentModifiers(), this, this, time, getLocalPoint (nullptr, source.getLastMouseDownPosition()), source.getLastMouseDownTime(), source.getNumberOfMultipleClicks(), source.hasMouseMovedSignificantlySincePressed()); mouseDrag (me); if (checker.shouldBailOut()) return; Desktop::getInstance().getMouseListeners().callChecked (checker, &MouseListener::mouseDrag, me); MouseListenerList::sendMouseEvent (*this, checker, &MouseListener::mouseDrag, me); } } void Component::internalMouseMove (MouseInputSource source, Point relativePos, Time time) { Desktop& desktop = Desktop::getInstance(); if (isCurrentlyBlockedByAnotherModalComponent()) { // allow blocked mouse-events to go to global listeners.. desktop.sendMouseMove(); } else { BailOutChecker checker (this); const MouseEvent me (source, relativePos, source.getCurrentModifiers(), this, this, time, relativePos, time, 0, false); mouseMove (me); if (checker.shouldBailOut()) return; desktop.getMouseListeners().callChecked (checker, &MouseListener::mouseMove, me); MouseListenerList::sendMouseEvent (*this, checker, &MouseListener::mouseMove, me); } } void Component::internalMouseWheel (MouseInputSource source, Point relativePos, Time time, const MouseWheelDetails& wheel) { Desktop& desktop = Desktop::getInstance(); BailOutChecker checker (this); const MouseEvent me (source, relativePos, source.getCurrentModifiers(), this, this, time, relativePos, time, 0, false); if (isCurrentlyBlockedByAnotherModalComponent()) { // allow blocked mouse-events to go to global listeners.. desktop.mouseListeners.callChecked (checker, &MouseListener::mouseWheelMove, me, wheel); } else { mouseWheelMove (me, wheel); if (checker.shouldBailOut()) return; desktop.mouseListeners.callChecked (checker, &MouseListener::mouseWheelMove, me, wheel); if (! checker.shouldBailOut()) MouseListenerList::sendWheelEvent (*this, checker, me, wheel); } } void Component::internalMagnifyGesture (MouseInputSource source, Point relativePos, Time time, float amount) { if (! isCurrentlyBlockedByAnotherModalComponent()) { const MouseEvent me (source, relativePos, source.getCurrentModifiers(), this, this, time, relativePos, time, 0, false); mouseMagnify (me, amount); } } void Component::sendFakeMouseMove() const { MouseInputSource mainMouse = Desktop::getInstance().getMainMouseSource(); if (! mainMouse.isDragging()) mainMouse.triggerFakeMove(); } void JUCE_CALLTYPE Component::beginDragAutoRepeat (const int interval) { Desktop::getInstance().beginDragAutoRepeat (interval); } //============================================================================== void Component::broughtToFront() { } void Component::internalBroughtToFront() { if (flags.hasHeavyweightPeerFlag) Desktop::getInstance().componentBroughtToFront (this); BailOutChecker checker (this); broughtToFront(); if (checker.shouldBailOut()) return; componentListeners.callChecked (checker, &ComponentListener::componentBroughtToFront, *this); if (checker.shouldBailOut()) return; // When brought to the front and there's a modal component blocking this one, // we need to bring the modal one to the front instead.. if (Component* const cm = getCurrentlyModalComponent()) if (cm->getTopLevelComponent() != getTopLevelComponent()) ModalComponentManager::getInstance()->bringModalComponentsToFront (false); // very important that this is false, otherwise in Windows, // non-front components can't get focus when another modal comp is // active, and therefore can't receive mouse-clicks } //============================================================================== void Component::focusGained (FocusChangeType) {} void Component::focusLost (FocusChangeType) {} void Component::focusOfChildComponentChanged (FocusChangeType) {} void Component::internalFocusGain (const FocusChangeType cause) { internalFocusGain (cause, WeakReference (this)); } void Component::internalFocusGain (const FocusChangeType cause, const WeakReference& safePointer) { focusGained (cause); if (safePointer != nullptr) internalChildFocusChange (cause, safePointer); } void Component::internalFocusLoss (const FocusChangeType cause) { const WeakReference safePointer (this); focusLost (focusChangedDirectly); if (safePointer != nullptr) internalChildFocusChange (cause, safePointer); } void Component::internalChildFocusChange (FocusChangeType cause, const WeakReference& safePointer) { const bool childIsNowFocused = hasKeyboardFocus (true); if (flags.childCompFocusedFlag != childIsNowFocused) { flags.childCompFocusedFlag = childIsNowFocused; focusOfChildComponentChanged (cause); if (safePointer == nullptr) return; } if (parentComponent != nullptr) parentComponent->internalChildFocusChange (cause, WeakReference (parentComponent)); } void Component::setWantsKeyboardFocus (const bool wantsFocus) noexcept { flags.wantsFocusFlag = wantsFocus; } void Component::setMouseClickGrabsKeyboardFocus (const bool shouldGrabFocus) { flags.dontFocusOnMouseClickFlag = ! shouldGrabFocus; } bool Component::getMouseClickGrabsKeyboardFocus() const noexcept { return ! flags.dontFocusOnMouseClickFlag; } bool Component::getWantsKeyboardFocus() const noexcept { return flags.wantsFocusFlag && ! flags.isDisabledFlag; } void Component::setFocusContainer (const bool shouldBeFocusContainer) noexcept { flags.isFocusContainerFlag = shouldBeFocusContainer; } bool Component::isFocusContainer() const noexcept { return flags.isFocusContainerFlag; } static const Identifier juce_explicitFocusOrderId ("_jexfo"); int Component::getExplicitFocusOrder() const { return properties [juce_explicitFocusOrderId]; } void Component::setExplicitFocusOrder (const int newFocusOrderIndex) { properties.set (juce_explicitFocusOrderId, newFocusOrderIndex); } KeyboardFocusTraverser* Component::createFocusTraverser() { if (flags.isFocusContainerFlag || parentComponent == nullptr) return new KeyboardFocusTraverser(); return parentComponent->createFocusTraverser(); } void Component::takeKeyboardFocus (const FocusChangeType cause) { // give the focus to this component if (currentlyFocusedComponent != this) { // get the focus onto our desktop window if (ComponentPeer* const peer = getPeer()) { const WeakReference safePointer (this); peer->grabFocus(); if (peer->isFocused() && currentlyFocusedComponent != this) { WeakReference componentLosingFocus (currentlyFocusedComponent); currentlyFocusedComponent = this; Desktop::getInstance().triggerFocusCallback(); // call this after setting currentlyFocusedComponent so that the one that's // losing it has a chance to see where focus is going if (componentLosingFocus != nullptr) componentLosingFocus->internalFocusLoss (cause); if (currentlyFocusedComponent == this) internalFocusGain (cause, safePointer); } } } } void Component::grabFocusInternal (const FocusChangeType cause, const bool canTryParent) { if (isShowing()) { if (flags.wantsFocusFlag && (isEnabled() || parentComponent == nullptr)) { takeKeyboardFocus (cause); } else { if (isParentOf (currentlyFocusedComponent) && currentlyFocusedComponent->isShowing()) { // do nothing if the focused component is actually a child of ours.. } else { // find the default child component.. ScopedPointer traverser (createFocusTraverser()); if (traverser != nullptr) { Component* const defaultComp = traverser->getDefaultComponent (this); traverser = nullptr; if (defaultComp != nullptr) { defaultComp->grabFocusInternal (cause, false); return; } } if (canTryParent && parentComponent != nullptr) { // if no children want it and we're allowed to try our parent comp, // then pass up to parent, which will try our siblings. parentComponent->grabFocusInternal (cause, true); } } } } } void Component::grabKeyboardFocus() { // if component methods are being called from threads other than the message // thread, you'll need to use a MessageManagerLock object to make sure it's thread-safe. CHECK_MESSAGE_MANAGER_IS_LOCKED grabFocusInternal (focusChangedDirectly, true); } void Component::moveKeyboardFocusToSibling (const bool moveToNext) { // if component methods are being called from threads other than the message // thread, you'll need to use a MessageManagerLock object to make sure it's thread-safe. CHECK_MESSAGE_MANAGER_IS_LOCKED if (parentComponent != nullptr) { ScopedPointer traverser (createFocusTraverser()); if (traverser != nullptr) { Component* const nextComp = moveToNext ? traverser->getNextComponent (this) : traverser->getPreviousComponent (this); traverser = nullptr; if (nextComp != nullptr) { if (nextComp->isCurrentlyBlockedByAnotherModalComponent()) { const WeakReference nextCompPointer (nextComp); internalModalInputAttempt(); if (nextCompPointer == nullptr || nextComp->isCurrentlyBlockedByAnotherModalComponent()) return; } nextComp->grabFocusInternal (focusChangedByTabKey, true); return; } } parentComponent->moveKeyboardFocusToSibling (moveToNext); } } bool Component::hasKeyboardFocus (const bool trueIfChildIsFocused) const { return (currentlyFocusedComponent == this) || (trueIfChildIsFocused && isParentOf (currentlyFocusedComponent)); } Component* JUCE_CALLTYPE Component::getCurrentlyFocusedComponent() noexcept { return currentlyFocusedComponent; } void JUCE_CALLTYPE Component::unfocusAllComponents() { if (Component* c = getCurrentlyFocusedComponent()) c->giveAwayFocus (true); } void Component::giveAwayFocus (const bool sendFocusLossEvent) { Component* const componentLosingFocus = currentlyFocusedComponent; currentlyFocusedComponent = nullptr; if (sendFocusLossEvent && componentLosingFocus != nullptr) componentLosingFocus->internalFocusLoss (focusChangedDirectly); Desktop::getInstance().triggerFocusCallback(); } //============================================================================== bool Component::isEnabled() const noexcept { return (! flags.isDisabledFlag) && (parentComponent == nullptr || parentComponent->isEnabled()); } void Component::setEnabled (const bool shouldBeEnabled) { if (flags.isDisabledFlag == shouldBeEnabled) { flags.isDisabledFlag = ! shouldBeEnabled; // if any parent components are disabled, setting our flag won't make a difference, // so no need to send a change message if (parentComponent == nullptr || parentComponent->isEnabled()) sendEnablementChangeMessage(); } } void Component::enablementChanged() {} void Component::sendEnablementChangeMessage() { const WeakReference safePointer (this); enablementChanged(); if (safePointer == nullptr) return; for (int i = getNumChildComponents(); --i >= 0;) { if (Component* const c = getChildComponent (i)) { c->sendEnablementChangeMessage(); if (safePointer == nullptr) return; } } } //============================================================================== bool Component::isMouseOver (const bool includeChildren) const { const Array& mouseSources = Desktop::getInstance().getMouseSources(); for (MouseInputSource* mi = mouseSources.begin(), * const e = mouseSources.end(); mi != e; ++mi) { Component* const c = mi->getComponentUnderMouse(); if ((c == this || (includeChildren && isParentOf (c))) && c->reallyContains (c->getLocalPoint (nullptr, mi->getScreenPosition()), false) && (mi->isMouse() || mi->isDragging())) return true; } return false; } bool Component::isMouseButtonDown() const { const Array& mouseSources = Desktop::getInstance().getMouseSources(); for (MouseInputSource* mi = mouseSources.begin(), * const e = mouseSources.end(); mi != e; ++mi) if (mi->isDragging() && mi->getComponentUnderMouse() == this) return true; return false; } bool Component::isMouseOverOrDragging() const { const Array& mouseSources = Desktop::getInstance().getMouseSources(); for (MouseInputSource* mi = mouseSources.begin(), * const e = mouseSources.end(); mi != e; ++mi) if (mi->getComponentUnderMouse() == this && (mi->isMouse() || mi->isDragging())) return true; return false; } bool JUCE_CALLTYPE Component::isMouseButtonDownAnywhere() noexcept { return ModifierKeys::getCurrentModifiers().isAnyMouseButtonDown(); } Point Component::getMouseXYRelative() const { return getLocalPoint (nullptr, Desktop::getMousePosition()); } //============================================================================== void Component::addKeyListener (KeyListener* const newListener) { if (keyListeners == nullptr) keyListeners = new Array (); keyListeners->addIfNotAlreadyThere (newListener); } void Component::removeKeyListener (KeyListener* const listenerToRemove) { if (keyListeners != nullptr) keyListeners->removeFirstMatchingValue (listenerToRemove); } bool Component::keyPressed (const KeyPress&) { return false; } bool Component::keyStateChanged (const bool /*isKeyDown*/) { return false; } void Component::modifierKeysChanged (const ModifierKeys& modifiers) { if (parentComponent != nullptr) parentComponent->modifierKeysChanged (modifiers); } void Component::internalModifierKeysChanged() { sendFakeMouseMove(); modifierKeysChanged (ModifierKeys::getCurrentModifiers()); } //============================================================================== Component::BailOutChecker::BailOutChecker (Component* const component) : safePointer (component) { jassert (component != nullptr); } bool Component::BailOutChecker::shouldBailOut() const noexcept { return safePointer == nullptr; }