/* * This program source code file is part of KiCad, a free EDA CAD application. * * Copyright (C) 2013 CERN * @author Tomasz Wlostowski * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation; either version 2 * of the License, or (at your option) any later version. * * This program 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. * * You should have received a copy of the GNU General Public License * along with this program; if not, you may find one here: * http://www.gnu.org/licenses/old-licenses/gpl-2.0.html * or you may search the http://www.gnu.org website for the version 2 license, * or you may write to the Free Software Foundation, Inc., * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA */ #ifndef __TOOL_EVENT_H #define __TOOL_EVENT_H #include #include #include #include #include #ifdef WX_COMPATIBILITY #include #else #include #endif class TOOL_ACTION; class TOOL_MANAGER; class TOOL_BASE; /** * Internal (GUI-independent) event definitions. * Enums are mostly self-explanatory. */ enum TOOL_EVENT_CATEGORY { TC_NONE = 0x00, TC_MOUSE = 0x01, TC_KEYBOARD = 0x02, TC_COMMAND = 0x04, TC_MESSAGE = 0x08, TC_VIEW = 0x10, TC_ANY = 0xffffffff }; enum TOOL_ACTIONS { // UI input events TA_NONE = 0x0000, TA_MOUSE_CLICK = 0x0001, TA_MOUSE_DBLCLICK = 0x0002, TA_MOUSE_UP = 0x0004, TA_MOUSE_DOWN = 0x0008, TA_MOUSE_DRAG = 0x0010, TA_MOUSE_MOTION = 0x0020, TA_MOUSE_WHEEL = 0x0040, TA_MOUSE = 0x007f, TA_KEY_PRESSED = 0x0080, TA_KEYBOARD = TA_KEY_PRESSED, // View related events TA_VIEW_REFRESH = 0x0100, TA_VIEW_ZOOM = 0x0200, TA_VIEW_PAN = 0x0400, TA_VIEW_DIRTY = 0x0800, TA_VIEW = 0x0f00, TA_CHANGE_LAYER = 0x1000, // Tool cancel event. Issued automagically when the user hits escape or selects End Tool from // the context menu. TA_CANCEL_TOOL = 0x2000, // Context menu update. Issued whenever context menu is open and the user hovers the mouse // over one of choices. Used in dynamic highligting in disambiguation menu TA_CHOICE_MENU_UPDATE = 0x4000, // Context menu choice. Sent if the user picked something from the context menu or // closed it without selecting anything. TA_CHOICE_MENU_CHOICE = 0x8000, // Context menu is closed, no matter whether anything has been chosen or not. TA_CHOICE_MENU_CLOSED = 0x10000, TA_CHOICE_MENU = TA_CHOICE_MENU_UPDATE | TA_CHOICE_MENU_CHOICE | TA_CHOICE_MENU_CLOSED, // This event is sent *before* undo/redo command is performed. TA_UNDO_REDO_PRE = 0x20000, // This event is sent *after* undo/redo command is performed. TA_UNDO_REDO_POST = 0x40000, // Tool action (allows one to control tools). TA_ACTION = 0x80000, // Tool activation event. TA_ACTIVATE = 0x100000, // Model has changed (partial update). TA_MODEL_CHANGE = 0x200000, // Tool priming event (a special mouse click) TA_PRIME = 0x400001, TA_ANY = 0xffffffff }; enum TOOL_MOUSE_BUTTONS { BUT_NONE = 0x0, BUT_LEFT = 0x1, BUT_RIGHT = 0x2, BUT_MIDDLE = 0x4, BUT_BUTTON_MASK = BUT_LEFT | BUT_RIGHT | BUT_MIDDLE, BUT_ANY = 0xffffffff }; enum TOOL_MODIFIERS { MD_SHIFT = 0x1000, MD_CTRL = 0x2000, MD_ALT = 0x4000, MD_MODIFIER_MASK = MD_SHIFT | MD_CTRL | MD_ALT, }; /// Scope of tool actions enum TOOL_ACTION_SCOPE { AS_CONTEXT = 1, ///> Action belongs to a particular tool (i.e. a part of a pop-up menu) AS_ACTIVE, ///> All active tools AS_GLOBAL ///> Global action (toolbar/main menu event, global shortcut) }; /// Flags for tool actions enum TOOL_ACTION_FLAGS { AF_NONE = 0, AF_ACTIVATE = 1, ///> Action activates a tool AF_NOTIFY = 2 ///> Action is a notification (it is by default passed to all tools) }; /// Defines when a context menu is opened. enum CONTEXT_MENU_TRIGGER { CMENU_BUTTON = 0, // On the right button CMENU_NOW, // Right now (after TOOL_INTERACTIVE::SetContextMenu) CMENU_OFF // Never }; /** * Class TOOL_EVENT * * Generic, UI-independent tool event. */ class TOOL_EVENT { public: /** * Function Format() * Returns information about event in form of a human-readable string. * * @return Event information. */ const std::string Format() const; TOOL_EVENT( TOOL_EVENT_CATEGORY aCategory = TC_NONE, TOOL_ACTIONS aAction = TA_NONE, TOOL_ACTION_SCOPE aScope = AS_GLOBAL, void* aParameter = nullptr ) : m_category( aCategory ), m_actions( aAction ), m_scope( aScope ), m_mouseButtons( 0 ), m_keyCode( 0 ), m_modifiers( 0 ), m_param( aParameter ), m_firstResponder( nullptr ) { init(); } TOOL_EVENT( TOOL_EVENT_CATEGORY aCategory, TOOL_ACTIONS aAction, int aExtraParam, TOOL_ACTION_SCOPE aScope = AS_GLOBAL, void* aParameter = nullptr ) : m_category( aCategory ), m_actions( aAction ), m_scope( aScope ), m_mouseButtons( 0 ), m_keyCode( 0 ), m_modifiers( 0 ), m_param( aParameter ), m_firstResponder( nullptr ) { if( aCategory == TC_MOUSE ) { setMouseButtons( aExtraParam & BUT_BUTTON_MASK ); } else if( aCategory == TC_KEYBOARD ) { m_keyCode = aExtraParam & ~MD_MODIFIER_MASK; // Filter out modifiers } else if( aCategory == TC_COMMAND ) { m_commandId = aExtraParam; } if( aCategory & ( TC_MOUSE | TC_KEYBOARD ) ) { m_modifiers = aExtraParam & MD_MODIFIER_MASK; } init(); } TOOL_EVENT( TOOL_EVENT_CATEGORY aCategory, TOOL_ACTIONS aAction, const std::string& aExtraParam, TOOL_ACTION_SCOPE aScope = AS_GLOBAL, void* aParameter = nullptr ) : m_category( aCategory ), m_actions( aAction ), m_scope( aScope ), m_mouseButtons( 0 ), m_keyCode( 0 ), m_modifiers( 0 ), m_param( aParameter ), m_firstResponder( nullptr ) { if( aCategory == TC_COMMAND || aCategory == TC_MESSAGE ) m_commandStr = aExtraParam; init(); } ///> Returns the category (eg. mouse/keyboard/action) of an event.. TOOL_EVENT_CATEGORY Category() const { return m_category; } ///> Returns more specific information about the type of an event. TOOL_ACTIONS Action() const { return m_actions; } ///> These give a tool a method of informing the TOOL_MANAGER that a particular event should ///> be passed on to subsequent tools on the stack. Defaults to true for TC_MESSAGES; false ///> for everything else. bool PassEvent() const { return m_passEvent; } void SetPassEvent() { m_passEvent = true; } ///> Returns if it this event has a valid position (true for mouse events and context-menu ///> or hotkey-based command events) bool HasPosition() const { return m_hasPosition; } void SetHasPosition( bool aHasPosition ) { m_hasPosition = aHasPosition; } TOOL_BASE* FirstResponder() const { return m_firstResponder; } void SetFirstResponder( TOOL_BASE* aTool ) { m_firstResponder = aTool; } ///> Returns information about difference between current mouse cursor position and the place ///> where dragging has started. const VECTOR2D Delta() const { return returnCheckedPosition( m_mouseDelta ); } ///> Returns mouse cursor position in world coordinates. const VECTOR2D Position() const { return returnCheckedPosition( m_mousePos ); } ///> Returns the point where dragging has started. const VECTOR2D DragOrigin() const { return returnCheckedPosition( m_mouseDragOrigin ); } ///> Returns information about mouse buttons state. int Buttons() const { assert( m_category == TC_MOUSE ); // this should be used only with mouse events return m_mouseButtons; } bool IsClick( int aButtonMask = BUT_ANY ) const; bool IsDblClick( int aButtonMask = BUT_ANY ) const; bool IsDrag( int aButtonMask = BUT_ANY ) const { return m_actions == TA_MOUSE_DRAG && ( m_mouseButtons & aButtonMask ) == m_mouseButtons; } bool IsMouseUp( int aButtonMask = BUT_ANY ) const { return m_actions == TA_MOUSE_UP && ( m_mouseButtons & aButtonMask ) == m_mouseButtons; } bool IsMotion() const { return m_actions == TA_MOUSE_MOTION; } bool IsMouseAction() const { return ( m_actions & TA_MOUSE ); } bool IsCancel() const { return m_actions == TA_CANCEL_TOOL; } bool IsActivate() const { return m_actions == TA_ACTIVATE; } bool IsUndoRedo() const { return m_actions & ( TA_UNDO_REDO_PRE | TA_UNDO_REDO_POST ); } bool IsChoiceMenu() const { return m_actions & TA_CHOICE_MENU; } bool IsPrime() const { return m_actions == TA_PRIME; } ///> Returns information about key modifiers state (Ctrl, Alt, etc.) int Modifier( int aMask = MD_MODIFIER_MASK ) const { return m_modifiers & aMask; } int KeyCode() const { return m_keyCode; } bool IsKeyPressed() const { return m_actions == TA_KEY_PRESSED; } /** * Function Matches() * Tests whether two events match in terms of category & action or command. * * @param aEvent is the event to test against. * @return True if two events match, false otherwise. */ bool Matches( const TOOL_EVENT& aEvent ) const { if( !( m_category & aEvent.m_category ) ) return false; if( m_category == TC_COMMAND || m_category == TC_MESSAGE ) { if( (bool) m_commandStr && (bool) aEvent.m_commandStr ) return *m_commandStr == *aEvent.m_commandStr; if( (bool) m_commandId && (bool) aEvent.m_commandId ) return *m_commandId == *aEvent.m_commandId; } // BUGFIX: TA_ANY should match EVERYTHING, even TA_NONE (for TC_MESSAGE) if( m_actions == TA_ANY && aEvent.m_actions == TA_NONE && aEvent.m_category == TC_MESSAGE ) return true; // BUGFIX: This check must happen after the TC_COMMAND check because otherwise events of // the form { TC_COMMAND, TA_NONE } will be incorrectly skipped if( !( m_actions & aEvent.m_actions ) ) return false; return true; } /** * Function IsAction() * Tests if the event contains an action issued upon activation of the given TOOL_ACTION. * @param aAction is the TOOL_ACTION to be checked against. * @return True if it matches the given TOOL_ACTION. */ bool IsAction( const TOOL_ACTION* aAction ) const; /** * Function IsCancelInteractive() * * Indicates the event should restart/end an ongoing interactive tool's event loop (eg esc * key, click cancel, start different tool). */ bool IsCancelInteractive(); /** * Function IsSelectionEvent() * * Indicates an selection-changed notification event. */ bool IsSelectionEvent(); /** * Function IsPointEditor * * Indicates if the event is from one of the point editors. Usually used to allow the * point editor to activate itself without de-activating the current drawing tool. */ bool IsPointEditor(); /** * Function IsMoveTool * * Indicates if the event is from one of the move tools. Usually used to allow move to * be done without de-activating the current drawing tool. */ bool IsMoveTool(); /** * Function Parameter() * Returns a non-standard parameter assigned to the event. Its meaning depends on the * target tool. */ template inline T Parameter() const { // Exhibit #798 on why I love to hate C++ // - reinterpret_cast needs to be used for pointers // - static_cast must be used for enums // - templates can't usefully distinguish between pointer and non-pointer types // Fortunately good old C's cast can be a reinterpret_cast or a static_cast, and // C99 gave us intptr_t which is guaranteed to be round-trippable with a pointer. return (T) reinterpret_cast( m_param ); } /** * Function SetParameter() * Sets a non-standard parameter assigned to the event. Its meaning depends on the * target tool. * @param aParam is the new parameter. */ template void SetParameter(T aParam) { m_param = (void*) aParam; } OPT GetCommandId() const { return m_commandId; } OPT GetCommandStr() const { return m_commandStr; } void SetMousePosition( const VECTOR2D& aP ) { m_mousePos = aP; } private: friend class TOOL_DISPATCHER; void init(); void setMouseDragOrigin( const VECTOR2D& aP ) { m_mouseDragOrigin = aP; } void setMouseDelta( const VECTOR2D& aP ) { m_mouseDelta = aP; } void setMouseButtons( int aButtons ) { assert( ( aButtons & ~BUT_BUTTON_MASK ) == 0 ); m_mouseButtons = aButtons; } void setModifiers( int aMods ) { assert( ( aMods & ~MD_MODIFIER_MASK ) == 0 ); m_modifiers = aMods; } /** * Ensure that the event is a type that has a position before returning a * position, otherwise return a null-constructed position. * Used to defend the position accessors from runtime access when the event * does not have a valid position. * * @param aPos the position to return if the event is valid * @return the checked position */ VECTOR2D returnCheckedPosition( const VECTOR2D& aPos ) const { #ifdef WX_COMPATIBILITY wxCHECK_MSG( HasPosition(), VECTOR2D(), "Attempted to get position from non-position event" ); #else assert( HasPosition() ); #endif return aPos; } TOOL_EVENT_CATEGORY m_category; TOOL_ACTIONS m_actions; TOOL_ACTION_SCOPE m_scope; bool m_passEvent; bool m_hasPosition; ///> Difference between mouse cursor position and ///> the point where dragging event has started VECTOR2D m_mouseDelta; ///> Current mouse cursor position VECTOR2D m_mousePos; ///> Point where dragging has started VECTOR2D m_mouseDragOrigin; ///> State of mouse buttons int m_mouseButtons; ///> Stores code of pressed/released key int m_keyCode; ///> State of key modifierts (Ctrl/Alt/etc.) int m_modifiers; ///> Generic parameter used for passing non-standard data. void* m_param; ///> The first tool to receive the event TOOL_BASE* m_firstResponder; OPT m_commandId; OPT m_commandStr; }; typedef OPT OPT_TOOL_EVENT; /** * Class TOOL_EVENT_LIST * * A list of TOOL_EVENTs, with overloaded || operators allowing for * concatenating TOOL_EVENTs with little code. */ class TOOL_EVENT_LIST { public: typedef TOOL_EVENT value_type; typedef std::deque::iterator iterator; typedef std::deque::const_iterator const_iterator; ///> Default constructor. Creates an empty list. TOOL_EVENT_LIST() {} ///> Constructor for a list containing only one TOOL_EVENT. TOOL_EVENT_LIST( const TOOL_EVENT& aSingleEvent ) { m_events.push_back( aSingleEvent ); } /** * Function Format() * Returns information about event in form of a human-readable string. * * @return Event information. */ const std::string Format() const; OPT Matches( const TOOL_EVENT& aEvent ) const { for( const TOOL_EVENT& event : m_events ) { if( event.Matches( aEvent ) ) return event; } return OPT(); } /** * Function Add() * Adds a tool event to the list. * @param aEvent is the tool event to be addded. */ void Add( const TOOL_EVENT& aEvent ) { m_events.push_back( aEvent ); } iterator begin() { return m_events.begin(); } iterator end() { return m_events.end(); } const_iterator cbegin() const { return m_events.begin(); } const_iterator cend() const { return m_events.end(); } int size() const { return m_events.size(); } void clear() { m_events.clear(); } TOOL_EVENT_LIST& operator=( const TOOL_EVENT_LIST& aEventList ) { m_events.clear(); for( const TOOL_EVENT& event : aEventList.m_events ) m_events.push_back( event ); return *this; } TOOL_EVENT_LIST& operator=( const TOOL_EVENT& aEvent ) { m_events.clear(); m_events.push_back( aEvent ); return *this; } TOOL_EVENT_LIST& operator||( const TOOL_EVENT& aEvent ) { Add( aEvent ); return *this; } TOOL_EVENT_LIST& operator||( const TOOL_EVENT_LIST& aEvent ) { std::copy( aEvent.m_events.begin(), aEvent.m_events.end(), std::back_inserter( m_events ) ); return *this; } private: std::deque m_events; }; inline const TOOL_EVENT_LIST operator||( const TOOL_EVENT& aEventA, const TOOL_EVENT& aEventB ) { TOOL_EVENT_LIST l; l.Add( aEventA ); l.Add( aEventB ); return l; } inline const TOOL_EVENT_LIST operator||( const TOOL_EVENT& aEvent, const TOOL_EVENT_LIST& aEventList ) { TOOL_EVENT_LIST l( aEventList ); l.Add( aEvent ); return l; } #endif