Loading...
Searching...
No Matches
CallOutBox Class Reference

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. More...

#include <juce_CallOutBox.h>

Inheritance diagram for CallOutBox:

Classes

struct  LookAndFeelMethods
 This abstract base class is implemented by LookAndFeel classes. More...
 

Public Member Functions

 CallOutBox (Component &contentComponent, Rectangle< int > areaToPointTo, Component *parentComponent)
 Creates a CallOutBox.
 
void setArrowSize (float newSize)
 Changes the base width of the arrow.
 
void updatePosition (const Rectangle< int > &newAreaToPointTo, const Rectangle< int > &newAreaToFitIn)
 Updates the position and size of the box.
 
void dismiss ()
 Posts a message which will dismiss the callout box asynchronously.
 
void setDismissalMouseClicksAreAlwaysConsumed (bool shouldAlwaysBeConsumed) noexcept
 Determines whether the mouse events for clicks outside the calloutbox are consumed, or allowed to arrive at the other component that they were aimed at.
 
void paint (Graphics &) override
 Components can override this method to draw their content.
 
void resized () override
 Called when this component's size has been changed.
 
void moved () override
 Called when this component's position has been changed.
 
void childBoundsChanged (Component *) override
 Called when one of this component's children is moved or resized.
 
bool hitTest (int x, int y) override
 Tests whether a given point is inside the component.
 
void inputAttemptWhenModal () override
 Called when the user tries to click on a component that is blocked by another modal component.
 
bool keyPressed (const KeyPress &) override
 Called when a key is pressed.
 
void handleCommandMessage (int) override
 Called to handle a command that was sent by postCommandMessage().
 
int getBorderSize () const noexcept
 
void lookAndFeelChanged () override
 Called to let the component react to a change in the look-and-feel setting.
 
std::unique_ptr< AccessibilityHandlercreateAccessibilityHandler () override
 Override this method to return a custom AccessibilityHandler for this component.
 
- Public Member Functions inherited from Component
 Component () noexcept
 Creates a component.
 
 ~Component () override
 Destructor.
 
 Component (const String &componentName) noexcept
 Creates a component, setting its name at the same time.
 
String getName () const noexcept
 Returns the name of this component.
 
virtual void setName (const String &newName)
 Sets the name of this component.
 
String getComponentID () const noexcept
 Returns the ID string that was set by setComponentID().
 
void setComponentID (const String &newID)
 Sets the component's ID string.
 
virtual void setVisible (bool shouldBeVisible)
 Makes the component visible or invisible.
 
bool isVisible () const noexcept
 Tests whether the component is visible or not.
 
virtual void visibilityChanged ()
 Called when this component's visibility changes.
 
bool isShowing () const
 Tests whether this component and all its parents are visible.
 
virtual void addToDesktop (int windowStyleFlags, void *nativeWindowToAttachTo=nullptr)
 Makes this component appear as a window on the desktop.
 
void removeFromDesktop ()
 If the component is currently showing on the desktop, this will hide it.
 
bool isOnDesktop () const noexcept
 Returns true if this component is currently showing on the desktop.
 
ComponentPeergetPeer () const
 Returns the heavyweight window that contains this component.
 
virtual void userTriedToCloseWindow ()
 For components on the desktop, this is called if the system wants to close the window.
 
virtual void minimisationStateChanged (bool isNowMinimised)
 Called for a desktop component which has just been minimised or un-minimised.
 
virtual float getDesktopScaleFactor () const
 Returns the default scale factor to use for this component when it is placed on the desktop.
 
void toFront (bool shouldAlsoGainKeyboardFocus)
 Brings the component to the front of its siblings.
 
void toBack ()
 Changes this component's z-order to be at the back of all its siblings.
 
void toBehind (Component *other)
 Changes this component's z-order so that it's just behind another component.
 
void setAlwaysOnTop (bool shouldStayOnTop)
 Sets whether the component should always be kept at the front of its siblings.
 
bool isAlwaysOnTop () const noexcept
 Returns true if this component is set to always stay in front of its siblings.
 
int getX () const noexcept
 Returns the x coordinate of the component's left edge.
 
int getY () const noexcept
 Returns the y coordinate of the top of this component.
 
int getWidth () const noexcept
 Returns the component's width in pixels.
 
int getHeight () const noexcept
 Returns the component's height in pixels.
 
int getRight () const noexcept
 Returns the x coordinate of the component's right-hand edge.
 
Point< int > getPosition () const noexcept
 Returns the component's top-left position as a Point.
 
int getBottom () const noexcept
 Returns the y coordinate of the bottom edge of this component.
 
Rectangle< int > getBounds () const noexcept
 Returns this component's bounding box.
 
Rectangle< int > getLocalBounds () const noexcept
 Returns the component's bounds, relative to its own origin.
 
Rectangle< int > getBoundsInParent () const noexcept
 Returns the area of this component's parent which this component covers.
 
int getScreenX () const
 Returns this component's x coordinate relative the screen's top-left origin.
 
int getScreenY () const
 Returns this component's y coordinate relative the screen's top-left origin.
 
Point< int > getScreenPosition () const
 Returns the position of this component's top-left corner relative to the screen's top-left.
 
Rectangle< int > getScreenBounds () const
 Returns the bounds of this component, relative to the screen's top-left.
 
Point< int > getLocalPoint (const Component *sourceComponent, Point< int > pointRelativeToSourceComponent) const
 Converts a point to be relative to this component's coordinate space.
 
Point< float > getLocalPoint (const Component *sourceComponent, Point< float > pointRelativeToSourceComponent) const
 Converts a point to be relative to this component's coordinate space.
 
Rectangle< int > getLocalArea (const Component *sourceComponent, Rectangle< int > areaRelativeToSourceComponent) const
 Converts a rectangle to be relative to this component's coordinate space.
 
Rectangle< float > getLocalArea (const Component *sourceComponent, Rectangle< float > areaRelativeToSourceComponent) const
 Converts a rectangle to be relative to this component's coordinate space.
 
Point< int > localPointToGlobal (Point< int > localPoint) const
 Converts a point relative to this component's top-left into a screen coordinate.
 
Point< float > localPointToGlobal (Point< float > localPoint) const
 Converts a point relative to this component's top-left into a screen coordinate.
 
Rectangle< int > localAreaToGlobal (Rectangle< int > localArea) const
 Converts a rectangle from this component's coordinate space to a screen coordinate.
 
Rectangle< float > localAreaToGlobal (Rectangle< float > localArea) const
 Converts a rectangle from this component's coordinate space to a screen coordinate.
 
void setTopLeftPosition (int x, int y)
 Moves the component to a new position.
 
void setTopLeftPosition (Point< int > newTopLeftPosition)
 Moves the component to a new position.
 
void setTopRightPosition (int x, int y)
 Moves the component to a new position.
 
void setSize (int newWidth, int newHeight)
 Changes the size of the component.
 
void setBounds (int x, int y, int width, int height)
 Changes the component's position and size.
 
void setBounds (Rectangle< int > newBounds)
 Changes the component's position and size.
 
void setBoundsRelative (float proportionalX, float proportionalY, float proportionalWidth, float proportionalHeight)
 Changes the component's position and size in terms of fractions of its parent's size.
 
void setBoundsRelative (Rectangle< float > proportionalArea)
 Changes the component's position and size in terms of fractions of its parent's size.
 
void setBoundsInset (BorderSize< int > borders)
 Changes the component's position and size based on the amount of space to leave around it.
 
void setBoundsToFit (Rectangle< int > targetArea, Justification justification, bool onlyReduceInSize)
 Positions the component within a given rectangle, keeping its proportions unchanged.
 
void setCentrePosition (int x, int y)
 Changes the position of the component's centre.
 
void setCentrePosition (Point< int > newCentrePosition)
 Changes the position of the component's centre.
 
void setCentreRelative (float x, float y)
 Changes the position of the component's centre.
 
void centreWithSize (int width, int height)
 Changes the component's size and centres it within its parent.
 
void setTransform (const AffineTransform &transform)
 Sets a transform matrix to be applied to this component.
 
AffineTransform getTransform () const
 Returns the transform that is currently being applied to this component.
 
bool isTransformed () const noexcept
 Returns true if a non-identity transform is being applied to this component.
 
int proportionOfWidth (float proportion) const noexcept
 Returns a proportion of the component's width.
 
int proportionOfHeight (float proportion) const noexcept
 Returns a proportion of the component's height.
 
int getParentWidth () const noexcept
 Returns the width of the component's parent.
 
int getParentHeight () const noexcept
 Returns the height of the component's parent.
 
Rectangle< int > getParentMonitorArea () const
 Returns the screen coordinates of the monitor that contains this component.
 
int getNumChildComponents () const noexcept
 Returns the number of child components that this component contains.
 
ComponentgetChildComponent (int index) const noexcept
 Returns one of this component's child components, by it index.
 
int getIndexOfChildComponent (const Component *child) const noexcept
 Returns the index of this component in the list of child components.
 
const Array< Component * > & getChildren () const noexcept
 Provides access to the underlying array of child components.
 
ComponentfindChildWithID (StringRef componentID) const noexcept
 Looks for a child component with the specified ID.
 
void addChildComponent (Component *child, int zOrder=-1)
 Adds a child component to this one.
 
void addChildComponent (Component &child, int zOrder=-1)
 Adds a child component to this one.
 
void addAndMakeVisible (Component *child, int zOrder=-1)
 Adds a child component to this one, and also makes the child visible if it isn't already.
 
void addAndMakeVisible (Component &child, int zOrder=-1)
 Adds a child component to this one, and also makes the child visible if it isn't already.
 
void addChildAndSetID (Component *child, const String &componentID)
 Adds a child component to this one, makes it visible, and sets its component ID.
 
void removeChildComponent (Component *childToRemove)
 Removes one of this component's child-components.
 
ComponentremoveChildComponent (int childIndexToRemove)
 Removes one of this component's child-components by index.
 
void removeAllChildren ()
 Removes all this component's children.
 
void deleteAllChildren ()
 Removes and deletes all of this component's children.
 
ComponentgetParentComponent () const noexcept
 Returns the component which this component is inside.
 
template<class TargetClass >
TargetClass * findParentComponentOfClass () const
 Searches the parent components for a component of a specified class.
 
ComponentgetTopLevelComponent () const noexcept
 Returns the highest-level component which contains this one or its parents.
 
bool isParentOf (const Component *possibleChild) const noexcept
 Checks whether a component is anywhere inside this component or its children.
 
virtual void parentHierarchyChanged ()
 Called to indicate that the component's parents have changed.
 
virtual void childrenChanged ()
 Subclasses can use this callback to be told when children are added or removed, or when their z-order changes.
 
virtual WindowControlKind findControlAtPoint (Point< float >) const
 For components that are added to the desktop, this may be called to determine what kind of control is at particular locations in the window.
 
virtual void windowControlClickedClose ()
 For components that are added to the desktop, this may be called to indicate that the mouse was clicked inside the area of the "close" control.
 
virtual void windowControlClickedMinimise ()
 For components that are added to the desktop, this may be called to indicate that the mouse was clicked inside the area of the "minimise" control.
 
virtual void windowControlClickedMaximise ()
 For components that are added to the desktop, this may be called to indicate that the mouse was clicked inside the area of the "maximise" control.
 
void setInterceptsMouseClicks (bool allowClicksOnThisComponent, bool allowClicksOnChildComponents) noexcept
 Changes the default return value for the hitTest() method.
 
void getInterceptsMouseClicks (bool &allowsClicksOnThisComponent, bool &allowsClicksOnChildComponents) const noexcept
 Retrieves the current state of the mouse-click interception flags.
 
bool contains (Point< int > localPoint)
 Returns true if a given point lies within this component or one of its children.
 
bool contains (Point< float > localPoint)
 Returns true if a given point lies within this component or one of its children.
 
bool reallyContains (Point< int > localPoint, bool returnTrueIfWithinAChild)
 Returns true if a given point lies in this component, taking any overlapping siblings into account.
 
bool reallyContains (Point< float > localPoint, bool returnTrueIfWithinAChild)
 Returns true if a given point lies in this component, taking any overlapping siblings into account.
 
ComponentgetComponentAt (int x, int y)
 Returns the component at a certain point within this one.
 
ComponentgetComponentAt (Point< int > position)
 Returns the component at a certain point within this one.
 
ComponentgetComponentAt (Point< float > position)
 Returns the component at a certain point within this one.
 
void repaint ()
 Marks the whole component as needing to be redrawn.
 
void repaint (int x, int y, int width, int height)
 Marks a subsection of this component as needing to be redrawn.
 
void repaint (Rectangle< int > area)
 Marks a subsection of this component as needing to be redrawn.
 
void setBufferedToImage (bool shouldBeBuffered)
 Makes the component use an internal buffer to optimise its redrawing.
 
Image createComponentSnapshot (Rectangle< int > areaToGrab, bool clipImageToComponentBounds=true, float scaleFactor=1.0f)
 Generates a snapshot of part of this component.
 
void paintEntireComponent (Graphics &context, bool ignoreAlphaLevel)
 Draws this component and all its subcomponents onto the specified graphics context.
 
void setPaintingIsUnclipped (bool shouldPaintWithoutClipping) noexcept
 This allows you to indicate that this component doesn't require its graphics context to be clipped when it is being painted.
 
bool isPaintingUnclipped () const noexcept
 Returns true if this component doesn't require its graphics context to be clipped when it is being painted.
 
void setComponentEffect (ImageEffectFilter *newEffect)
 Adds an effect filter to alter the component's appearance.
 
ImageEffectFiltergetComponentEffect () const noexcept
 Returns the current component effect.
 
LookAndFeelgetLookAndFeel () const noexcept
 Finds the appropriate look-and-feel to use for this component.
 
void setLookAndFeel (LookAndFeel *newLookAndFeel)
 Sets the look and feel to use for this component.
 
FontOptions withDefaultMetrics (FontOptions opt) const
 Returns a copy of the FontOptions with the default metrics kind from the component's LookAndFeel.
 
void sendLookAndFeelChange ()
 Calls the methods repaint(), lookAndFeelChanged(), and colourChanged() in this component and all its children recursively.
 
void setOpaque (bool shouldBeOpaque)
 Indicates whether any parts of the component might be transparent.
 
bool isOpaque () const noexcept
 Returns true if no parts of this component are transparent.
 
void setBroughtToFrontOnMouseClick (bool shouldBeBroughtToFront) noexcept
 Indicates whether the component should be brought to the front when clicked.
 
bool isBroughtToFrontOnMouseClick () const noexcept
 Indicates whether the component should be brought to the front when clicked-on.
 
void setExplicitFocusOrder (int newFocusOrderIndex)
 Sets the focus order of this component.
 
int getExplicitFocusOrder () const
 Returns the focus order of this component, if one has been specified.
 
void setFocusContainerType (FocusContainerType containerType) noexcept
 Sets whether this component is a container for components that can have their focus traversed, and the type of focus traversal that it supports.
 
bool isFocusContainer () const noexcept
 Returns true if this component has been marked as a focus container.
 
bool isKeyboardFocusContainer () const noexcept
 Returns true if this component has been marked as a keyboard focus container.
 
ComponentfindFocusContainer () const
 Returns the focus container for this component.
 
ComponentfindKeyboardFocusContainer () const
 Returns the keyboard focus container for this component.
 
void setWantsKeyboardFocus (bool wantsFocus) noexcept
 Sets a flag to indicate whether this component wants keyboard focus or not.
 
bool getWantsKeyboardFocus () const noexcept
 Returns true if the component is interested in getting keyboard focus.
 
void setMouseClickGrabsKeyboardFocus (bool shouldGrabFocus)
 Chooses whether a click on this component automatically grabs the focus.
 
bool getMouseClickGrabsKeyboardFocus () const noexcept
 Returns the last value set with setMouseClickGrabsKeyboardFocus().
 
void grabKeyboardFocus ()
 Tries to give keyboard focus to this component.
 
void giveAwayKeyboardFocus ()
 If this component or any of its children currently have the keyboard focus, this will defocus it, send a focus change notification, and try to pass the focus to the next component.
 
bool hasKeyboardFocus (bool trueIfChildIsFocused) const
 Returns true if this component currently has the keyboard focus.
 
void moveKeyboardFocusToSibling (bool moveToNext)
 Tries to move the keyboard focus to one of this component's siblings.
 
virtual std::unique_ptr< ComponentTraversercreateFocusTraverser ()
 Creates a ComponentTraverser object to determine the logic by which focus should be passed from this component.
 
virtual std::unique_ptr< ComponentTraversercreateKeyboardFocusTraverser ()
 Creates a ComponentTraverser object to use to determine the logic by which keyboard focus should be passed from this component.
 
void setHasFocusOutline (bool hasFocusOutline) noexcept
 Use this to indicate that the component should have an outline drawn around it when it has keyboard focus.
 
bool hasFocusOutline () const noexcept
 Returns true if this component should have a focus outline.
 
bool isEnabled () const noexcept
 Returns true if the component (and all its parents) are enabled.
 
void setEnabled (bool shouldBeEnabled)
 Enables or disables this component.
 
virtual void enablementChanged ()
 Callback to indicate that this component has been enabled or disabled.
 
float getAlpha () const noexcept
 Returns the component's current transparency level.
 
void setAlpha (float newAlpha)
 Changes the transparency of this component.
 
virtual void alphaChanged ()
 Called when setAlpha() is used to change the alpha value of this component.
 
void setMouseCursor (const MouseCursor &cursorType)
 Changes the mouse cursor shape to use when the mouse is over this component.
 
virtual MouseCursor getMouseCursor ()
 Returns the mouse cursor shape to use when the mouse is over this component.
 
void updateMouseCursor () const
 Forces the current mouse cursor to be updated.
 
virtual void paintOverChildren (Graphics &g)
 Components can override this method to draw over the top of their children.
 
void mouseMove (const MouseEvent &event) override
 Called when the mouse moves inside a component.
 
void mouseEnter (const MouseEvent &event) override
 Called when the mouse first enters a component.
 
void mouseExit (const MouseEvent &event) override
 Called when the mouse moves out of a component.
 
void mouseDown (const MouseEvent &event) override
 Called when a mouse button is pressed.
 
void mouseDrag (const MouseEvent &event) override
 Called when the mouse is moved while a button is held down.
 
void mouseUp (const MouseEvent &event) override
 Called when a mouse button is released.
 
void mouseDoubleClick (const MouseEvent &event) override
 Called when a mouse button has been double-clicked on a component.
 
void mouseWheelMove (const MouseEvent &event, const MouseWheelDetails &wheel) override
 Called when the mouse-wheel is moved.
 
void mouseMagnify (const MouseEvent &event, float scaleFactor) override
 Called when a pinch-to-zoom mouse-gesture is used.
 
void setRepaintsOnMouseActivity (bool shouldRepaint) noexcept
 Causes automatic repaints when the mouse enters or exits this component.
 
void addMouseListener (MouseListener *newListener, bool wantsEventsForAllNestedChildComponents)
 Registers a listener to be told when mouse events occur in this component.
 
void removeMouseListener (MouseListener *listenerToRemove)
 Deregisters a mouse listener.
 
void addKeyListener (KeyListener *newListener)
 Adds a listener that wants to hear about keypresses that this component receives.
 
void removeKeyListener (KeyListener *listenerToRemove)
 Removes a previously-registered key listener.
 
virtual bool keyStateChanged (bool isKeyDown)
 Called when a key is pressed or released.
 
virtual void modifierKeysChanged (const ModifierKeys &modifiers)
 Called when a modifier key is pressed or released.
 
virtual void focusGained (FocusChangeType cause)
 Called to indicate that this component has just acquired the keyboard focus.
 
virtual void focusGainedWithDirection (FocusChangeType cause, FocusChangeDirection direction)
 Called to indicate that this component has just acquired the keyboard focus.
 
virtual void focusLost (FocusChangeType cause)
 Called to indicate that this component has just lost the keyboard focus.
 
virtual void focusOfChildComponentChanged (FocusChangeType cause)
 Called to indicate a change in whether or not this component is the parent of the currently-focused component.
 
bool isMouseOver (bool includeChildren=false) const
 Returns true if the mouse is currently over this component.
 
bool isMouseButtonDown (bool includeChildren=false) const
 Returns true if the mouse button is currently held down in this component.
 
bool isMouseOverOrDragging (bool includeChildren=false) const
 True if the mouse is over this component, or if it's being dragged in this component.
 
Point< int > getMouseXYRelative () const
 Returns the mouse's current position, relative to this component.
 
virtual void parentSizeChanged ()
 Called when this component's immediate parent has been resized.
 
virtual void broughtToFront ()
 Called when this component has been moved to the front of its siblings.
 
void addComponentListener (ComponentListener *newListener)
 Adds a listener to be told about changes to the component hierarchy or position.
 
void removeComponentListener (ComponentListener *listenerToRemove)
 Removes a component listener.
 
void postCommandMessage (int commandId)
 Dispatches a numbered message to this component.
 
int runModalLoop ()
 Runs a component modally, waiting until the loop terminates.
 
void enterModalState (bool takeKeyboardFocus=true, ModalComponentManager::Callback *callback=nullptr, bool deleteWhenDismissed=false)
 Puts the component into a modal state.
 
void exitModalState (int returnValue=0)
 Ends a component's modal state.
 
bool isCurrentlyModal (bool onlyConsiderForemostModalComponent=true) const noexcept
 Returns true if this component is the modal one.
 
bool isCurrentlyBlockedByAnotherModalComponent () const
 Checks whether there's a modal component somewhere that's stopping this one from receiving messages.
 
virtual bool canModalEventBeSentToComponent (const Component *targetComponent)
 When a component is modal, this callback allows it to choose which other components can still receive events.
 
NamedValueSetgetProperties () noexcept
 Returns the set of properties that belong to this component.
 
const NamedValueSetgetProperties () const noexcept
 Returns the set of properties that belong to this component.
 
Colour findColour (int colourID, bool inheritFromParent=false) const
 Looks for a colour that has been registered with the given colour ID number.
 
void setColour (int colourID, Colour newColour)
 Registers a colour to be used for a particular purpose.
 
void removeColour (int colourID)
 If a colour has been set with setColour(), this will remove it.
 
bool isColourSpecified (int colourID) const
 Returns true if the specified colour ID has been explicitly set for this component using the setColour() method.
 
void copyAllExplicitColoursTo (Component &target) const
 This looks for any colours that have been specified for this component, and copies them to the specified target component.
 
virtual void colourChanged ()
 This method is called when a colour is changed by the setColour() method, or when the look-and-feel is changed by the setLookAndFeel() or sendLookAndFeelChanged() methods.
 
void * getWindowHandle () const
 Returns the underlying native window handle for this component.
 
PositionergetPositioner () const noexcept
 Returns the Positioner object that has been set for this component.
 
void setPositioner (Positioner *newPositioner)
 Sets a new Positioner object for this component.
 
void setCachedComponentImage (CachedComponentImage *newCachedImage)
 Gives the component a CachedComponentImage that should be used to buffer its painting.
 
CachedComponentImagegetCachedComponentImage () const noexcept
 Returns the object that was set by setCachedComponentImage().
 
void setViewportIgnoreDragFlag (bool ignoreDrag) noexcept
 Sets a flag to indicate whether mouse drag events on this Component should be ignored when it is inside a Viewport with drag-to-scroll functionality enabled.
 
bool getViewportIgnoreDragFlag () const noexcept
 Retrieves the current state of the Viewport drag-to-scroll functionality flag.
 
String getTitle () const noexcept
 Returns the title text for this component.
 
void setTitle (const String &newTitle)
 Sets the title for this component.
 
String getDescription () const noexcept
 Returns the description for this component.
 
void setDescription (const String &newDescription)
 Sets the description for this component.
 
String getHelpText () const noexcept
 Returns the help text for this component.
 
void setHelpText (const String &newHelpText)
 Sets the help text for this component.
 
void setAccessible (bool shouldBeAccessible)
 Sets whether this component and its children are visible to accessibility clients.
 
bool isAccessible () const noexcept
 Returns true if this component and its children are visible to accessibility clients.
 
AccessibilityHandlergetAccessibilityHandler ()
 Returns the accessibility handler for this component, or nullptr if this component is not accessible.
 
void invalidateAccessibilityHandler ()
 Invalidates the AccessibilityHandler that is currently being used for this component.
 
- Public Member Functions inherited from MouseListener
virtual ~MouseListener ()=default
 Destructor.
 

Static Public Member Functions

static CallOutBoxlaunchAsynchronously (std::unique_ptr< Component > contentComponent, Rectangle< int > areaToPointTo, Component *parentComponent)
 This will launch a callout box containing the given content, pointing to the specified target component.
 
- Static Public Member Functions inherited from Component
static float JUCE_CALLTYPE getApproximateScaleFactorForComponent (const Component *targetComponent)
 Returns the approximate scale factor for a given component by traversing its parent hierarchy and applying each transform and finally scaling this by the global scale factor.
 
static Component *JUCE_CALLTYPE getCurrentlyFocusedComponent () noexcept
 Returns the component that currently has the keyboard focus.
 
static void JUCE_CALLTYPE unfocusAllComponents ()
 If any component has keyboard focus, this will defocus it.
 
static void JUCE_CALLTYPE beginDragAutoRepeat (int millisecondsBetweenCallbacks)
 Ensures that a non-stop stream of mouse-drag events will be sent during the current mouse-drag operation.
 
static bool JUCE_CALLTYPE isMouseButtonDownAnywhere () noexcept
 Returns true if a mouse button is currently down.
 
static int JUCE_CALLTYPE getNumCurrentlyModalComponents () noexcept
 Returns the number of components that are currently in a modal state.
 
static Component *JUCE_CALLTYPE getCurrentlyModalComponent (int index=0) noexcept
 Returns one of the components that are currently modal.
 

Additional Inherited Members

- Public Types inherited from Component
enum class  WindowControlKind {
  client , caption , minimise , maximise ,
  close , sizeTop , sizeLeft , sizeRight ,
  sizeBottom , sizeTopLeft , sizeTopRight , sizeBottomLeft ,
  sizeBottomRight
}
 Types of control that are commonly found in windows, especially title-bars. More...
 
enum class  FocusContainerType { none , focusContainer , keyboardFocusContainer }
 A focus container type that can be passed to setFocusContainerType(). More...
 
enum  FocusChangeType { focusChangedByMouseClick , focusChangedByTabKey , focusChangedDirectly }
 Enumeration used by the focusGained() and focusLost() methods. More...
 
enum class  FocusChangeDirection { unknown , forward , backward }
 Enumeration used by the focusGainedWithDirection() method. More...
 

Detailed Description

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.

void mouseUp (const MouseEvent&)
{
auto content = std::make_unique<FoobarContentComp>();
content->setSize (300, 300);
auto& myBox = CallOutBox::launchAsynchronously (std::move (content),
nullptr);
}
static CallOutBox & launchAsynchronously(std::unique_ptr< Component > contentComponent, Rectangle< int > areaToPointTo, Component *parentComponent)
This will launch a callout box containing the given content, pointing to the specified target compone...
Rectangle< int > getScreenBounds() const
Returns the bounds of this component, relative to the screen's top-left.
void mouseUp(const MouseEvent &event) override
Called when a mouse button is released.
void setSize(int newWidth, int newHeight)
Changes the size of the component.
Contains position and status information about a mouse event.
Definition juce_MouseEvent.h:51

The call-out will resize and position itself when the content changes size.

Constructor & Destructor Documentation

◆ CallOutBox()

CallOutBox::CallOutBox ( Component & contentComponent,
Rectangle< int > areaToPointTo,
Component * parentComponent )

Creates a CallOutBox.

Parameters
contentComponentthe 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.
areaToPointTothe 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.
parentComponentif not a nullptr, this is the component to add the call-out to. If this is a nullptr, the call-out will be added to the desktop.

Member Function Documentation

◆ setArrowSize()

void CallOutBox::setArrowSize ( float newSize)

Changes the base width of the arrow.

◆ updatePosition()

void CallOutBox::updatePosition ( const Rectangle< int > & newAreaToPointTo,
const Rectangle< int > & newAreaToFitIn )

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.

Parameters
newAreaToPointTothe rectangle to make the box's arrow point to
newAreaToFitInthe area within which the box's position should be constrained

◆ launchAsynchronously()

static CallOutBox & CallOutBox::launchAsynchronously ( std::unique_ptr< Component > contentComponent,
Rectangle< int > areaToPointTo,
Component * parentComponent )
static

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.

Parameters
contentComponentthe 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).
areaToPointTothe 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.
parentComponentif not a nullptr, this is the component to add the call-out to. If this is a nullptr, the call-out will be added to the desktop.

◆ dismiss()

void CallOutBox::dismiss ( )

Posts a message which will dismiss the callout box asynchronously.

NB: it's safe to call this method from any thread.

◆ setDismissalMouseClicksAreAlwaysConsumed()

void CallOutBox::setDismissalMouseClicksAreAlwaysConsumed ( bool shouldAlwaysBeConsumed)
noexcept

Determines whether the mouse events for clicks outside the calloutbox are consumed, or allowed to arrive at the other component that they were aimed at.

By default this is false, so that when you click on something outside the calloutbox, that event will also be sent to the component that was clicked on. If you set it to true, then the first click will always just dismiss the box and not be sent to anything else.

◆ paint()

void CallOutBox::paint ( Graphics & g)
overridevirtual

Components can override this method to draw their content.

The paint() method gets called when a region of a component needs redrawing, either because the component's repaint() method has been called, or because something has happened on the screen that means a section of a window needs to be redrawn.

Any child components will draw themselves over whatever this method draws. If you need to paint over the top of your child components, you can also implement the paintOverChildren() method to do this.

If you want to cause a component to redraw itself, this is done asynchronously - calling the repaint() method marks a region of the component as "dirty", and the paint() method will automatically be called sometime later, by the message thread, to paint any bits that need refreshing. In JUCE (and almost all modern UI frameworks), you never redraw something synchronously.

You should never need to call this method directly - to take a snapshot of the component you could use createComponentSnapshot() or paintEntireComponent().

Parameters
gthe graphics context that must be used to do the drawing operations.
See also
repaint, paintOverChildren, Graphics

Reimplemented from Component.

◆ resized()

void CallOutBox::resized ( )
overridevirtual

Called when this component's size has been changed.

A component can implement this method to do things such as laying out its child components when its width or height changes.

The method is called synchronously as a result of the setBounds or setSize methods, so repeatedly changing a components size will repeatedly call its resized method (unlike things like repainting, where multiple calls to repaint are coalesced together).

If the component is a top-level window on the desktop, its size could also be changed by operating-system factors beyond the application's control.

See also
moved, setSize

Reimplemented from Component.

◆ moved()

void CallOutBox::moved ( )
overridevirtual

Called when this component's position has been changed.

This is called when the position relative to its parent changes, not when its absolute position on the screen changes (so it won't be called for all child components when a parent component is moved).

The method is called synchronously as a result of the setBounds, setTopLeftPosition or any of the other repositioning methods, and like resized(), it will be called each time those methods are called.

If the component is a top-level window on the desktop, its position could also be changed by operating-system factors beyond the application's control.

See also
resized, setBounds

Reimplemented from Component.

◆ childBoundsChanged()

void CallOutBox::childBoundsChanged ( Component * child)
overridevirtual

Called when one of this component's children is moved or resized.

If the parent wants to know about changes to its immediate children (not to children of its children), this is the method to override.

See also
moved, resized, parentSizeChanged

Reimplemented from Component.

◆ hitTest()

bool CallOutBox::hitTest ( int x,
int y )
overridevirtual

Tests whether a given point is inside the component.

Overriding this method allows you to create components which only intercept mouse-clicks within a user-defined area.

This is called to find out whether a particular x, y coordinate is considered to be inside the component or not, and is used by methods such as contains() and getComponentAt() to work out which component the mouse is clicked on.

Components with custom shapes will probably want to override it to perform some more complex hit-testing.

The default implementation of this method returns either 'client' or 'none', depending on the value that was set by calling setInterceptsMouseClicks() ('client' is the default return value).

Note that the hit-test region is not related to the opacity with which areas of a component are painted.

Applications should never call hitTest() directly - instead use the contains() method, because this will also test for occlusion by the component's parent.

Note that for components on the desktop, this method will be ignored, because it's not always possible to implement this behaviour on all platforms.

Parameters
xthe x coordinate to test, relative to the left hand edge of this component. This value is guaranteed to be greater than or equal to zero, and less than the component's width
ythe y coordinate to test, relative to the top edge of this component. This value is guaranteed to be greater than or equal to zero, and less than the component's height
Returns
true if the click is considered to be inside the component
See also
setInterceptsMouseClicks, contains

Reimplemented from Component.

◆ inputAttemptWhenModal()

void CallOutBox::inputAttemptWhenModal ( )
overridevirtual

Called when the user tries to click on a component that is blocked by another modal component.

When a component is modal and the user clicks on one of the other components, the modal component will receive this callback.

The default implementation of this method will play a beep, and bring the currently modal component to the front, but it can be overridden to do other tasks.

See also
isCurrentlyBlockedByAnotherModalComponent, canModalEventBeSentToComponent

Reimplemented from Component.

◆ keyPressed()

bool CallOutBox::keyPressed ( const KeyPress & key)
overridevirtual

Called when a key is pressed.

When a key is pressed, the component that has the keyboard focus will have this method called. Remember that a component will only be given the focus if its setWantsKeyboardFocus() method has been used to enable this.

If your implementation returns true, the event will be consumed and not passed on to any other listeners. If it returns false, the key will be passed to any KeyListeners that have been registered with this component. As soon as one of these returns true, the process will stop, but if they all return false, the event will be passed upwards to this component's parent, and so on.

The default implementation of this method does nothing and returns false.

See also
keyStateChanged, getCurrentlyFocusedComponent, addKeyListener

Reimplemented from Component.

◆ handleCommandMessage()

void CallOutBox::handleCommandMessage ( int commandId)
overridevirtual

Called to handle a command that was sent by postCommandMessage().

This is called by the message thread when a command message arrives, and the component can override this method to process it in any way it needs to.

See also
postCommandMessage

Reimplemented from Component.

◆ getBorderSize()

int CallOutBox::getBorderSize ( ) const
noexcept

◆ lookAndFeelChanged()

void CallOutBox::lookAndFeelChanged ( )
overridevirtual

Called to let the component react to a change in the look-and-feel setting.

When the look-and-feel is changed for a component, this method, repaint(), and colourChanged() are called on the original component and all its children recursively.

It can also be triggered manually by the sendLookAndFeelChange() method, in case an application uses a LookAndFeel class that might have changed internally.

See also
sendLookAndFeelChange, getLookAndFeel

Reimplemented from Component.

◆ createAccessibilityHandler()

std::unique_ptr< AccessibilityHandler > CallOutBox::createAccessibilityHandler ( )
overridevirtual

Override this method to return a custom AccessibilityHandler for this component.

The default implementation creates and returns a AccessibilityHandler object with an unspecified role, meaning that it will be visible to accessibility clients but without a specific role, action callbacks or interfaces. To control how accessibility clients see and interact with your component subclass AccessibilityHandler, implement the desired behaviours, and return an instance of it from this method in your component subclass.

The accessibility handler you return here is guaranteed to be destroyed before its Component, so it's safe to store and use a reference back to the Component inside the AccessibilityHandler if necessary.

This function should rarely be called directly. If you need to query a component's accessibility handler, it's normally better to call getAccessibilityHandler(). The exception to this rule is derived implementations of createAccessibilityHandler(), which may find it useful to call the base class implementation, and then wrap or modify the result.

See also
getAccessibilityHandler

Reimplemented from Component.


The documentation for this class was generated from the following file:
linkedin facebook pinterest youtube rss twitter instagram facebook-blank rss-blank linkedin-blank pinterest youtube twitter instagram