You can not select more than 25 topics Topics must start with a letter or number, can include dashes ('-') and can be up to 35 characters long.
 
 
 
 
 
 
dexed/JuceLibraryCode/modules/juce_gui_basics/buttons/juce_Button.h

516 lines
20 KiB

/*
==============================================================================
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_BUTTON_H_INCLUDED
#define JUCE_BUTTON_H_INCLUDED
//==============================================================================
/**
A base class for buttons.
This contains all the logic for button behaviours such as enabling/disabling,
responding to shortcut keystrokes, auto-repeating when held down, toggle-buttons
and radio groups, etc.
@see TextButton, DrawableButton, ToggleButton
*/
class JUCE_API Button : public Component,
public SettableTooltipClient
{
protected:
//==============================================================================
/** Creates a button.
@param buttonName the text to put in the button (the component's name is also
initially set to this string, but these can be changed later
using the setName() and setButtonText() methods)
*/
explicit Button (const String& buttonName);
public:
/** Destructor. */
virtual ~Button();
//==============================================================================
/** Changes the button's text.
@see getButtonText
*/
void setButtonText (const String& newText);
/** Returns the text displayed in the button.
@see setButtonText
*/
const String& getButtonText() const { return text; }
//==============================================================================
/** Returns true if the button is currently being held down.
@see isOver
*/
bool isDown() const noexcept;
/** Returns true if the mouse is currently over the button.
This will be also be true if the button is being held down.
@see isDown
*/
bool isOver() const noexcept;
//==============================================================================
/** A button has an on/off state associated with it, and this changes that.
By default buttons are 'off' and for simple buttons that you click to perform
an action you won't change this. Toggle buttons, however will want to
change their state when turned on or off.
@param shouldBeOn whether to set the button's toggle state to be on or
off. If it's a member of a button group, this will
always try to turn it on, and to turn off any other
buttons in the group
@param notification determines the behaviour if the value changes - this
can invoke a synchronous call to clicked(), but
sendNotificationAsync is not supported
@see getToggleState, setRadioGroupId
*/
void setToggleState (bool shouldBeOn, NotificationType notification);
/** Returns true if the button is 'on'.
By default buttons are 'off' and for simple buttons that you click to perform
an action you won't change this. Toggle buttons, however will want to
change their state when turned on or off.
@see setToggleState
*/
bool getToggleState() const noexcept { return isOn.getValue(); }
/** Returns the Value object that represents the botton's toggle state.
You can use this Value object to connect the button's state to external values or setters,
either by taking a copy of the Value, or by using Value::referTo() to make it point to
your own Value object.
@see getToggleState, Value
*/
Value& getToggleStateValue() noexcept { return isOn; }
/** This tells the button to automatically flip the toggle state when
the button is clicked.
If set to true, then before the clicked() callback occurs, the toggle-state
of the button is flipped.
*/
void setClickingTogglesState (bool shouldAutoToggleOnClick) noexcept;
/** Returns true if this button is set to be an automatic toggle-button.
This returns the last value that was passed to setClickingTogglesState().
*/
bool getClickingTogglesState() const noexcept;
//==============================================================================
/** Enables the button to act as a member of a mutually-exclusive group
of 'radio buttons'.
If the group ID is set to a non-zero number, then this button will
act as part of a group of buttons with the same ID, only one of
which can be 'on' at the same time. Note that when it's part of
a group, clicking a toggle-button that's 'on' won't turn it off.
To find other buttons with the same ID, this button will search through
its sibling components for ToggleButtons, so all the buttons for a
particular group must be placed inside the same parent component.
Set the group ID back to zero if you want it to act as a normal toggle
button again.
The notification argument lets you specify how other buttons should react
to being turned on or off in response to this call.
@see getRadioGroupId
*/
void setRadioGroupId (int newGroupId, NotificationType notification = sendNotification);
/** Returns the ID of the group to which this button belongs.
(See setRadioGroupId() for an explanation of this).
*/
int getRadioGroupId() const noexcept { return radioGroupId; }
//==============================================================================
/**
Used to receive callbacks when a button is clicked.
@see Button::addListener, Button::removeListener
*/
class JUCE_API Listener
{
public:
/** Destructor. */
virtual ~Listener() {}
/** Called when the button is clicked. */
virtual void buttonClicked (Button*) = 0;
/** Called when the button's state changes. */
virtual void buttonStateChanged (Button*) {}
};
/** Registers a listener to receive events when this button's state changes.
If the listener is already registered, this will not register it again.
@see removeListener
*/
void addListener (Listener* newListener);
/** Removes a previously-registered button listener
@see addListener
*/
void removeListener (Listener* listener);
//==============================================================================
/** Causes the button to act as if it's been clicked.
This will asynchronously make the button draw itself going down and up, and
will then call back the clicked() method as if mouse was clicked on it.
@see clicked
*/
virtual void triggerClick();
//==============================================================================
/** Sets a command ID for this button to automatically invoke when it's clicked.
When the button is pressed, it will use the given manager to trigger the
command ID.
Obviously be careful that the ApplicationCommandManager doesn't get deleted
before this button is. To disable the command triggering, call this method and
pass nullptr as the command manager.
If generateTooltip is true, then the button's tooltip will be automatically
generated based on the name of this command and its current shortcut key.
@see addShortcut, getCommandID
*/
void setCommandToTrigger (ApplicationCommandManager* commandManagerToUse,
CommandID commandID,
bool generateTooltip);
/** Returns the command ID that was set by setCommandToTrigger(). */
CommandID getCommandID() const noexcept { return commandID; }
//==============================================================================
/** Assigns a shortcut key to trigger the button.
The button registers itself with its top-level parent component for keypresses.
Note that a different way of linking buttons to keypresses is by using the
setCommandToTrigger() method to invoke a command.
@see clearShortcuts
*/
void addShortcut (const KeyPress&);
/** Removes all key shortcuts that had been set for this button.
@see addShortcut
*/
void clearShortcuts();
/** Returns true if the given keypress is a shortcut for this button.
@see addShortcut
*/
bool isRegisteredForShortcut (const KeyPress&) const;
//==============================================================================
/** Sets an auto-repeat speed for the button when it is held down.
(Auto-repeat is disabled by default).
@param initialDelayInMillisecs how long to wait after the mouse is pressed before
triggering the next click. If this is zero, auto-repeat
is disabled
@param repeatDelayInMillisecs the frequently subsequent repeated clicks should be
triggered
@param minimumDelayInMillisecs if this is greater than 0, the auto-repeat speed will
get faster, the longer the button is held down, up to the
minimum interval specified here
*/
void setRepeatSpeed (int initialDelayInMillisecs,
int repeatDelayInMillisecs,
int minimumDelayInMillisecs = -1) noexcept;
/** Sets whether the button click should happen when the mouse is pressed or released.
By default the button is only considered to have been clicked when the mouse is
released, but setting this to true will make it call the clicked() method as soon
as the button is pressed.
This is useful if the button is being used to show a pop-up menu, as it allows
the click to be used as a drag onto the menu.
*/
void setTriggeredOnMouseDown (bool isTriggeredOnMouseDown) noexcept;
/** Returns the number of milliseconds since the last time the button
went into the 'down' state.
*/
uint32 getMillisecondsSinceButtonDown() const noexcept;
//==============================================================================
/** Sets the tooltip for this button.
@see TooltipClient, TooltipWindow
*/
void setTooltip (const String& newTooltip) override;
/** Returns the tooltip set by setTooltip(), or the description corresponding to
the currently mapped command if one is enabled (see setCommandToTrigger).
*/
String getTooltip() override;
//==============================================================================
/** A combination of these flags are used by setConnectedEdges(). */
enum ConnectedEdgeFlags
{
ConnectedOnLeft = 1,
ConnectedOnRight = 2,
ConnectedOnTop = 4,
ConnectedOnBottom = 8
};
/** Hints about which edges of the button might be connected to adjoining buttons.
The value passed in is a bitwise combination of any of the values in the
ConnectedEdgeFlags enum.
E.g. if you are placing two buttons adjacent to each other, you could use this to
indicate which edges are touching, and the LookAndFeel might choose to drawn them
without rounded corners on the edges that connect. It's only a hint, so the
LookAndFeel can choose to ignore it if it's not relevent for this type of
button.
*/
void setConnectedEdges (int connectedEdgeFlags);
/** Returns the set of flags passed into setConnectedEdges(). */
int getConnectedEdgeFlags() const noexcept { return connectedEdgeFlags; }
/** Indicates whether the button adjoins another one on its left edge.
@see setConnectedEdges
*/
bool isConnectedOnLeft() const noexcept { return (connectedEdgeFlags & ConnectedOnLeft) != 0; }
/** Indicates whether the button adjoins another one on its right edge.
@see setConnectedEdges
*/
bool isConnectedOnRight() const noexcept { return (connectedEdgeFlags & ConnectedOnRight) != 0; }
/** Indicates whether the button adjoins another one on its top edge.
@see setConnectedEdges
*/
bool isConnectedOnTop() const noexcept { return (connectedEdgeFlags & ConnectedOnTop) != 0; }
/** Indicates whether the button adjoins another one on its bottom edge.
@see setConnectedEdges
*/
bool isConnectedOnBottom() const noexcept { return (connectedEdgeFlags & ConnectedOnBottom) != 0; }
//==============================================================================
/** Used by setState(). */
enum ButtonState
{
buttonNormal,
buttonOver,
buttonDown
};
/** Can be used to force the button into a particular state.
This only changes the button's appearance, it won't trigger a click, or stop any mouse-clicks
from happening.
The state that you set here will only last until it is automatically changed when the mouse
enters or exits the button, or the mouse-button is pressed or released.
*/
void setState (ButtonState newState);
// This method's parameters have changed - see the new version.
JUCE_DEPRECATED (void setToggleState (bool, bool));
//==============================================================================
/** This abstract base class is implemented by LookAndFeel classes to provide
button-drawing functionality.
*/
struct JUCE_API LookAndFeelMethods
{
virtual ~LookAndFeelMethods() {}
virtual void drawButtonBackground (Graphics&, Button&, const Colour& backgroundColour,
bool isMouseOverButton, bool isButtonDown) = 0;
virtual Font getTextButtonFont (TextButton&, int buttonHeight) = 0;
virtual int getTextButtonWidthToFitText (TextButton&, int buttonHeight) = 0;
/** Draws the text for a TextButton. */
virtual void drawButtonText (Graphics&, TextButton&, bool isMouseOverButton, bool isButtonDown) = 0;
/** Draws the contents of a standard ToggleButton. */
virtual void drawToggleButton (Graphics&, ToggleButton&, bool isMouseOverButton, bool isButtonDown) = 0;
virtual void changeToggleButtonWidthToFitText (ToggleButton&) = 0;
virtual void drawTickBox (Graphics&, Component&, float x, float y, float w, float h,
bool ticked, bool isEnabled, bool isMouseOverButton, bool isButtonDown) = 0;
virtual void drawDrawableButton (Graphics&, DrawableButton&, bool isMouseOverButton, bool isButtonDown) = 0;
private:
#if JUCE_CATCH_DEPRECATED_CODE_MISUSE
// These method have been deprecated: see their replacements above.
virtual int getTextButtonFont (TextButton&) { return 0; }
virtual int changeTextButtonWidthToFitText (TextButton&, int) { return 0; }
#endif
};
protected:
//==============================================================================
/** This method is called when the button has been clicked.
Subclasses can override this to perform whatever they actions they need
to do.
Alternatively, a ButtonListener can be added to the button, and these listeners
will be called when the click occurs.
@see triggerClick
*/
virtual void clicked();
/** This method is called when the button has been clicked.
By default it just calls clicked(), but you might want to override it to handle
things like clicking when a modifier key is pressed, etc.
@see ModifierKeys
*/
virtual void clicked (const ModifierKeys& modifiers);
/** Subclasses should override this to actually paint the button's contents.
It's better to use this than the paint method, because it gives you information
about the over/down state of the button.
@param g the graphics context to use
@param isMouseOverButton true if the button is either in the 'over' or
'down' state
@param isButtonDown true if the button should be drawn in the 'down' position
*/
virtual void paintButton (Graphics& g,
bool isMouseOverButton,
bool isButtonDown) = 0;
/** Called when the button's up/down/over state changes.
Subclasses can override this if they need to do something special when the button
goes up or down.
@see isDown, isOver
*/
virtual void buttonStateChanged();
//==============================================================================
/** @internal */
virtual void internalClickCallback (const ModifierKeys&);
/** @internal */
void handleCommandMessage (int commandId) override;
/** @internal */
void mouseEnter (const MouseEvent&) override;
/** @internal */
void mouseExit (const MouseEvent&) override;
/** @internal */
void mouseDown (const MouseEvent&) override;
/** @internal */
void mouseDrag (const MouseEvent&) override;
/** @internal */
void mouseUp (const MouseEvent&) override;
/** @internal */
bool keyPressed (const KeyPress&) override;
/** @internal */
using Component::keyStateChanged;
/** @internal */
void paint (Graphics&) override;
/** @internal */
void parentHierarchyChanged() override;
/** @internal */
void visibilityChanged() override;
/** @internal */
void focusGained (FocusChangeType) override;
/** @internal */
void focusLost (FocusChangeType) override;
/** @internal */
void enablementChanged() override;
private:
//==============================================================================
Array<KeyPress> shortcuts;
WeakReference<Component> keySource;
String text;
ListenerList<Listener> buttonListeners;
class CallbackHelper;
friend class CallbackHelper;
friend struct ContainerDeletePolicy<CallbackHelper>;
ScopedPointer<CallbackHelper> callbackHelper;
uint32 buttonPressTime, lastRepeatTime;
ApplicationCommandManager* commandManagerToUse;
int autoRepeatDelay, autoRepeatSpeed, autoRepeatMinimumDelay;
int radioGroupId, connectedEdgeFlags;
CommandID commandID;
ButtonState buttonState;
Value isOn;
bool lastToggleState;
bool clickTogglesState;
bool needsToRelease;
bool needsRepainting;
bool isKeyDown;
bool triggerOnMouseDown;
bool generateTooltip;
void repeatTimerCallback();
bool keyStateChangedCallback();
void applicationCommandListChangeCallback();
ButtonState updateState();
ButtonState updateState (bool isOver, bool isDown);
bool isShortcutPressed() const;
void turnOffOtherButtonsInGroup (NotificationType);
void flashButtonState();
void sendClickMessage (const ModifierKeys&);
void sendStateMessage();
JUCE_DECLARE_NON_COPYABLE_WITH_LEAK_DETECTOR (Button)
};
#ifndef DOXYGEN
/** This typedef is just for compatibility with old code and VC6 - newer code should use Button::Listener instead. */
typedef Button::Listener ButtonListener;
#endif
#endif // JUCE_BUTTON_H_INCLUDED