/* ============================================================================== 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. ============================================================================== */ #ifndef JUCE_CALLOUTBOX_H_INCLUDED #define JUCE_CALLOUTBOX_H_INCLUDED //============================================================================== /** A box with a small arrow that can be used as a temporary pop-up window to show extra controls when a button or other component is clicked. Using one of these is similar to having a popup menu attached to a button or other component - but it looks fancier, and has an arrow that can indicate the object that it applies to. The class works best when shown modally, but obviously running modal loops is evil and must never be done, so the launchAsynchronously method is provided as a handy way of launching an instance of a CallOutBox and automatically managing its lifetime, e.g. @code void mouseUp (const MouseEvent&) { FoobarContentComp* content = new FoobarContentComp(); content->setSize (300, 300); CallOutBox& myBox = CallOutBox::launchAsynchronously (content, getScreenBounds(), nullptr); } @endcode The call-out will resize and position itself when the content changes size. */ class JUCE_API CallOutBox : public Component { public: //============================================================================== /** Creates a CallOutBox. @param contentComponent the component to display inside the call-out. This should already have a size set (although the call-out will also update itself when the component's size is changed later). Obviously this component must not be deleted until the call-out box has been deleted. @param areaToPointTo the area that the call-out's arrow should point towards. If a parentComponent is supplied, then this is relative to that parent; otherwise, it's a global screen coord. @param parentComponent if non-zero, this is the component to add the call-out to. If this is a nullptr, the call-out will be added to the desktop. */ CallOutBox (Component& contentComponent, const Rectangle& areaToPointTo, Component* parentComponent); /** Destructor. */ ~CallOutBox(); //============================================================================== /** Changes the length of the arrow. */ void setArrowSize (float newSize); /** Updates the position and size of the box. You shouldn't normally need to call this, unless you need more precise control over the layout. @param newAreaToPointTo the rectangle to make the box's arrow point to @param newAreaToFitIn the area within which the box's position should be constrained */ void updatePosition (const Rectangle& newAreaToPointTo, const Rectangle& newAreaToFitIn); /** This will launch a callout box containing the given content, pointing to the specified target component. This method will create and display a callout, returning immediately, after which the box will continue to run modally until the user clicks on some other component, at which point it will be dismissed and deleted automatically. It returns a reference to the newly-created box so that you can customise it, but don't keep a pointer to it, as it'll be deleted at some point when it gets closed. @param contentComponent the component to display inside the call-out. This should already have a size set (although the call-out will also update itself when the component's size is changed later). This component will be owned by the callout box and deleted later when the box is dismissed. @param areaToPointTo the area that the call-out's arrow should point towards. If a parentComponent is supplied, then this is relative to that parent; otherwise, it's a global screen coord. @param parentComponent if non-zero, this is the component to add the call-out to. If this is a nullptr, the call-out will be added to the desktop. */ static CallOutBox& launchAsynchronously (Component* contentComponent, const Rectangle& areaToPointTo, Component* parentComponent); /** Posts a message which will dismiss the callout box asynchronously. NB: it's safe to call this method from any thread. */ void dismiss(); //============================================================================== /** This abstract base class is implemented by LookAndFeel classes. */ struct JUCE_API LookAndFeelMethods { virtual ~LookAndFeelMethods() {} virtual void drawCallOutBoxBackground (CallOutBox&, Graphics&, const Path&, Image& cachedImage) = 0; }; //============================================================================== /** @internal */ void paint (Graphics&) override; /** @internal */ void resized() override; /** @internal */ void moved() override; /** @internal */ void childBoundsChanged (Component*) override; /** @internal */ bool hitTest (int x, int y) override; /** @internal */ void inputAttemptWhenModal() override; /** @internal */ bool keyPressed (const KeyPress&) override; /** @internal */ void handleCommandMessage (int) override; /** @internal */ int getBorderSize() const noexcept; private: //============================================================================== float arrowSize; Component& content; Path outline; Point targetPoint; Rectangle availableArea, targetArea; Image background; void refreshPath(); JUCE_DECLARE_NON_COPYABLE_WITH_LEAK_DETECTOR (CallOutBox) }; #endif // JUCE_CALLOUTBOX_H_INCLUDED