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- /*
- ==============================================================================
-
- 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_APPLICATIONCOMMANDMANAGER_H_INCLUDED
- #define JUCE_APPLICATIONCOMMANDMANAGER_H_INCLUDED
-
-
- //==============================================================================
- /**
- One of these objects holds a list of all the commands your app can perform,
- and despatches these commands when needed.
-
- Application commands are a good way to trigger actions in your app, e.g. "Quit",
- "Copy", "Paste", etc. Menus, buttons and keypresses can all be given commands
- to invoke automatically, which means you don't have to handle the result of a menu
- or button click manually. Commands are despatched to ApplicationCommandTarget objects
- which can choose which events they want to handle.
-
- This architecture also allows for nested ApplicationCommandTargets, so that for example
- you could have two different objects, one inside the other, both of which can respond to
- a "delete" command. Depending on which one has focus, the command will be sent to the
- appropriate place, regardless of whether it was triggered by a menu, keypress or some other
- method.
-
- To set up your app to use commands, you'll need to do the following:
-
- - Create a global ApplicationCommandManager to hold the list of all possible
- commands. (This will also manage a set of key-mappings for them).
-
- - Make some of your UI components (or other objects) inherit from ApplicationCommandTarget.
- This allows the object to provide a list of commands that it can perform, and
- to handle them.
-
- - Register each type of command using ApplicationCommandManager::registerAllCommandsForTarget(),
- or ApplicationCommandManager::registerCommand().
-
- - If you want key-presses to trigger your commands, use the ApplicationCommandManager::getKeyMappings()
- method to access the key-mapper object, which you will need to register as a key-listener
- in whatever top-level component you're using. See the KeyPressMappingSet class for more help
- about setting this up.
-
- - Use methods such as PopupMenu::addCommandItem() or Button::setCommandToTrigger() to
- cause these commands to be invoked automatically.
-
- - Commands can be invoked directly by your code using ApplicationCommandManager::invokeDirectly().
-
- When a command is invoked, the ApplicationCommandManager will try to choose the best
- ApplicationCommandTarget to receive the specified command. To do this it will use the
- current keyboard focus to see which component might be interested, and will search the
- component hierarchy for those that also implement the ApplicationCommandTarget interface.
- If an ApplicationCommandTarget isn't interested in the command that is being invoked, then
- the next one in line will be tried (see the ApplicationCommandTarget::getNextCommandTarget()
- method), and so on until ApplicationCommandTarget::getNextCommandTarget() returns nullptr.
- At this point if the command still hasn't been performed, it will be passed to the current
- JUCEApplication object (which is itself an ApplicationCommandTarget).
-
- To exert some custom control over which ApplicationCommandTarget is chosen to invoke a command,
- you can override the ApplicationCommandManager::getFirstCommandTarget() method and choose
- the object yourself.
-
- @see ApplicationCommandTarget, ApplicationCommandInfo
- */
- class JUCE_API ApplicationCommandManager : private AsyncUpdater,
- private FocusChangeListener
- {
- public:
- //==============================================================================
- /** Creates an ApplicationCommandManager.
-
- Once created, you'll need to register all your app's commands with it, using
- ApplicationCommandManager::registerAllCommandsForTarget() or
- ApplicationCommandManager::registerCommand().
- */
- ApplicationCommandManager();
-
- /** Destructor.
-
- Make sure that you don't delete this if pointers to it are still being used by
- objects such as PopupMenus or Buttons.
- */
- virtual ~ApplicationCommandManager();
-
- //==============================================================================
- /** Clears the current list of all commands.
- Note that this will also clear the contents of the KeyPressMappingSet.
- */
- void clearCommands();
-
- /** Adds a command to the list of registered commands.
- @see registerAllCommandsForTarget
- */
- void registerCommand (const ApplicationCommandInfo& newCommand);
-
- /** Adds all the commands that this target publishes to the manager's list.
-
- This will use ApplicationCommandTarget::getAllCommands() and ApplicationCommandTarget::getCommandInfo()
- to get details about all the commands that this target can do, and will call
- registerCommand() to add each one to the manger's list.
-
- @see registerCommand
- */
- void registerAllCommandsForTarget (ApplicationCommandTarget* target);
-
- /** Removes the command with a specified ID.
- Note that this will also remove any key mappings that are mapped to the command.
- */
- void removeCommand (CommandID commandID);
-
- /** This should be called to tell the manager that one of its registered commands may have changed
- its active status.
-
- Because the command manager only finds out whether a command is active or inactive by querying
- the current ApplicationCommandTarget, this is used to tell it that things may have changed. It
- allows things like buttons to update their enablement, etc.
-
- This method will cause an asynchronous call to ApplicationCommandManagerListener::applicationCommandListChanged()
- for any registered listeners.
- */
- void commandStatusChanged();
-
- //==============================================================================
- /** Returns the number of commands that have been registered.
- @see registerCommand
- */
- int getNumCommands() const noexcept { return commands.size(); }
-
- /** Returns the details about one of the registered commands.
- The index is between 0 and (getNumCommands() - 1).
- */
- const ApplicationCommandInfo* getCommandForIndex (int index) const noexcept { return commands [index]; }
-
- /** Returns the details about a given command ID.
-
- This will search the list of registered commands for one with the given command
- ID number, and return its associated info. If no matching command is found, this
- will return nullptr.
- */
- const ApplicationCommandInfo* getCommandForID (CommandID commandID) const noexcept;
-
- /** Returns the name field for a command.
-
- An empty string is returned if no command with this ID has been registered.
- @see getDescriptionOfCommand
- */
- String getNameOfCommand (CommandID commandID) const noexcept;
-
- /** Returns the description field for a command.
-
- An empty string is returned if no command with this ID has been registered. If the
- command has no description, this will return its short name field instead.
-
- @see getNameOfCommand
- */
- String getDescriptionOfCommand (CommandID commandID) const noexcept;
-
- /** Returns the list of categories.
-
- This will go through all registered commands, and return a list of all the distinct
- categoryName values from their ApplicationCommandInfo structure.
-
- @see getCommandsInCategory()
- */
- StringArray getCommandCategories() const;
-
- /** Returns a list of all the command UIDs in a particular category.
- @see getCommandCategories()
- */
- Array<CommandID> getCommandsInCategory (const String& categoryName) const;
-
- //==============================================================================
- /** Returns the manager's internal set of key mappings.
-
- This object can be used to edit the keypresses. To actually link this object up
- to invoke commands when a key is pressed, see the comments for the KeyPressMappingSet
- class.
-
- @see KeyPressMappingSet
- */
- KeyPressMappingSet* getKeyMappings() const noexcept { return keyMappings; }
-
-
- //==============================================================================
- /** Invokes the given command directly, sending it to the default target.
- This is just an easy way to call invoke() without having to fill out the InvocationInfo
- structure.
- */
- bool invokeDirectly (CommandID commandID, bool asynchronously);
-
- /** Sends a command to the default target.
-
- This will choose a target using getFirstCommandTarget(), and send the specified command
- to it using the ApplicationCommandTarget::invoke() method. This means that if the
- first target can't handle the command, it will be passed on to targets further down the
- chain (see ApplicationCommandTarget::invoke() for more info).
-
- @param invocationInfo this must be correctly filled-in, describing the context for
- the invocation.
- @param asynchronously if false, the command will be performed before this method returns.
- If true, a message will be posted so that the command will be performed
- later on the message thread, and this method will return immediately.
-
- @see ApplicationCommandTarget::invoke
- */
- bool invoke (const ApplicationCommandTarget::InvocationInfo& invocationInfo,
- bool asynchronously);
-
-
- //==============================================================================
- /** Chooses the ApplicationCommandTarget to which a command should be sent.
-
- Whenever the manager needs to know which target a command should be sent to, it calls
- this method to determine the first one to try.
-
- By default, this method will return the target that was set by calling setFirstCommandTarget().
- If no target is set, it will return the result of findDefaultComponentTarget().
-
- If you need to make sure all commands go via your own custom target, then you can
- either use setFirstCommandTarget() to specify a single target, or override this method
- if you need more complex logic to choose one.
-
- It may return nullptr if no targets are available.
-
- @see getTargetForCommand, invoke, invokeDirectly
- */
- virtual ApplicationCommandTarget* getFirstCommandTarget (CommandID commandID);
-
- /** Sets a target to be returned by getFirstCommandTarget().
-
- If this is set to nullptr, then getFirstCommandTarget() will by default return the
- result of findDefaultComponentTarget().
-
- If you use this to set a target, make sure you call setFirstCommandTarget(nullptr)
- before deleting the target object.
- */
- void setFirstCommandTarget (ApplicationCommandTarget* newTarget) noexcept;
-
- /** Tries to find the best target to use to perform a given command.
-
- This will call getFirstCommandTarget() to find the preferred target, and will
- check whether that target can handle the given command. If it can't, then it'll use
- ApplicationCommandTarget::getNextCommandTarget() to find the next one to try, and
- so on until no more are available.
-
- If no targets are found that can perform the command, this method will return nullptr.
-
- If a target is found, then it will get the target to fill-in the upToDateInfo
- structure with the latest info about that command, so that the caller can see
- whether the command is disabled, ticked, etc.
- */
- ApplicationCommandTarget* getTargetForCommand (CommandID commandID,
- ApplicationCommandInfo& upToDateInfo);
-
- //==============================================================================
- /** Registers a listener that will be called when various events occur. */
- void addListener (ApplicationCommandManagerListener* listener);
-
- /** Deregisters a previously-added listener. */
- void removeListener (ApplicationCommandManagerListener* listener);
-
- //==============================================================================
- /** Looks for a suitable command target based on which Components have the keyboard focus.
-
- This is used by the default implementation of ApplicationCommandTarget::getFirstCommandTarget(),
- but is exposed here in case it's useful.
-
- It tries to pick the best ApplicationCommandTarget by looking at focused components, top level
- windows, etc., and using the findTargetForComponent() method.
- */
- static ApplicationCommandTarget* findDefaultComponentTarget();
-
- /** Examines this component and all its parents in turn, looking for the first one
- which is an ApplicationCommandTarget.
-
- Returns the first ApplicationCommandTarget that it finds, or nullptr if none of them
- implement that class.
- */
- static ApplicationCommandTarget* findTargetForComponent (Component*);
-
-
- private:
- //==============================================================================
- OwnedArray<ApplicationCommandInfo> commands;
- ListenerList<ApplicationCommandManagerListener> listeners;
- ScopedPointer<KeyPressMappingSet> keyMappings;
- ApplicationCommandTarget* firstTarget;
-
- void sendListenerInvokeCallback (const ApplicationCommandTarget::InvocationInfo&);
- void handleAsyncUpdate() override;
- void globalFocusChanged (Component*) override;
- ApplicationCommandInfo* getMutableCommandForID (CommandID) const noexcept;
-
- #if JUCE_CATCH_DEPRECATED_CODE_MISUSE
- // This is just here to cause a compile error in old code that hasn't been changed to use the new
- // version of this method.
- virtual short getFirstCommandTarget() { return 0; }
- #endif
-
- JUCE_DECLARE_NON_COPYABLE_WITH_LEAK_DETECTOR (ApplicationCommandManager)
- };
-
-
- //==============================================================================
- /**
- A listener that receives callbacks from an ApplicationCommandManager when
- commands are invoked or the command list is changed.
-
- @see ApplicationCommandManager::addListener, ApplicationCommandManager::removeListener
-
- */
- class JUCE_API ApplicationCommandManagerListener
- {
- public:
- //==============================================================================
- /** Destructor. */
- virtual ~ApplicationCommandManagerListener() {}
-
- /** Called when an app command is about to be invoked. */
- virtual void applicationCommandInvoked (const ApplicationCommandTarget::InvocationInfo&) = 0;
-
- /** Called when commands are registered or deregistered from the
- command manager, or when commands are made active or inactive.
-
- Note that if you're using this to watch for changes to whether a command is disabled,
- you'll need to make sure that ApplicationCommandManager::commandStatusChanged() is called
- whenever the status of your command might have changed.
- */
- virtual void applicationCommandListChanged() = 0;
- };
-
-
-
- #endif // JUCE_APPLICATIONCOMMANDMANAGER_H_INCLUDED
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