/** * $Id: KX_BlenderInputDevice.h 29259 2010-06-06 01:15:44Z campbellbarton $ * * ***** BEGIN GPL LICENSE BLOCK ***** * * 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, write to the Free Software Foundation, * Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. * * The Original Code is Copyright (C) 2001-2002 by NaN Holding BV. * All rights reserved. * * The Original Code is: all of this file. * * Contributor(s): none yet. * * ***** END GPL LICENSE BLOCK ***** */ #ifndef __KX_BLENDERINPUTDEVICE #define __KX_BLENDERINPUTDEVICE #ifdef WIN32 #pragma warning(disable : 4786) // shut off 255 char limit debug template warning #endif #include #include "wm_event_types.h" #include "WM_types.h" #include "SCA_IInputDevice.h" #ifdef WITH_CXX_GUARDEDALLOC #include "MEM_guardedalloc.h" #endif /** Base Class for Blender specific inputdevices. Blender specific inputdevices are used when the gameengine is running in embedded mode instead of standalone mode. */ class BL_BlenderInputDevice : public SCA_IInputDevice { // this map is Blender specific: a conversion between blender and ketsji enums std::map m_reverseKeyTranslateTable; public: BL_BlenderInputDevice() { /* The reverse table. In order to not confuse ourselves, we */ /* immediately convert all events that come in to KX codes. */ m_reverseKeyTranslateTable[LEFTMOUSE ] = KX_LEFTMOUSE ; m_reverseKeyTranslateTable[MIDDLEMOUSE ] = KX_MIDDLEMOUSE ; m_reverseKeyTranslateTable[RIGHTMOUSE ] = KX_RIGHTMOUSE ; m_reverseKeyTranslateTable[WHEELUPMOUSE ] = KX_WHEELUPMOUSE ; m_reverseKeyTranslateTable[WHEELDOWNMOUSE ] = KX_WHEELDOWNMOUSE ; m_reverseKeyTranslateTable[MOUSEX ] = KX_MOUSEX ; m_reverseKeyTranslateTable[MOUSEY ] = KX_MOUSEY ; // TIMERS m_reverseKeyTranslateTable[TIMER0 ] = KX_TIMER0 ; m_reverseKeyTranslateTable[TIMER1 ] = KX_TIMER1 ; m_reverseKeyTranslateTable[TIMER2 ] = KX_TIMER2 ; // SYSTEM #if 0 /* **** XXX **** */ m_reverseKeyTranslateTable[KEYBD ] = KX_KEYBD ; m_reverseKeyTranslateTable[RAWKEYBD ] = KX_RAWKEYBD ; m_reverseKeyTranslateTable[REDRAW ] = KX_REDRAW ; m_reverseKeyTranslateTable[INPUTCHANGE ] = KX_INPUTCHANGE ; m_reverseKeyTranslateTable[QFULL ] = KX_QFULL ; m_reverseKeyTranslateTable[WINFREEZE ] = KX_WINFREEZE ; m_reverseKeyTranslateTable[WINTHAW ] = KX_WINTHAW ; m_reverseKeyTranslateTable[WINCLOSE ] = KX_WINCLOSE ; m_reverseKeyTranslateTable[WINQUIT ] = KX_WINQUIT ; m_reverseKeyTranslateTable[Q_FIRSTTIME ] = KX_Q_FIRSTTIME ; /* **** XXX **** */ #endif // standard keyboard m_reverseKeyTranslateTable[AKEY ] = KX_AKEY ; m_reverseKeyTranslateTable[BKEY ] = KX_BKEY ; m_reverseKeyTranslateTable[CKEY ] = KX_CKEY ; m_reverseKeyTranslateTable[DKEY ] = KX_DKEY ; m_reverseKeyTranslateTable[EKEY ] = KX_EKEY ; m_reverseKeyTranslateTable[FKEY ] = KX_FKEY ; m_reverseKeyTranslateTable[GKEY ] = KX_GKEY ; //XXX clean up #ifdef WIN32 #define HKEY 'h' #endif m_reverseKeyTranslateTable[HKEY ] = KX_HKEY ; //XXX clean up #ifdef WIN32 #undef HKEY #endif m_reverseKeyTranslateTable[IKEY ] = KX_IKEY ; m_reverseKeyTranslateTable[JKEY ] = KX_JKEY ; m_reverseKeyTranslateTable[KKEY ] = KX_KKEY ; m_reverseKeyTranslateTable[LKEY ] = KX_LKEY ; m_reverseKeyTranslateTable[MKEY ] = KX_MKEY ; m_reverseKeyTranslateTable[NKEY ] = KX_NKEY ; m_reverseKeyTranslateTable[OKEY ] = KX_OKEY ; m_reverseKeyTranslateTable[PKEY ] = KX_PKEY ; m_reverseKeyTranslateTable[QKEY ] = KX_QKEY ; m_reverseKeyTranslateTable[RKEY ] = KX_RKEY ; m_reverseKeyTranslateTable[SKEY ] = KX_SKEY ; m_reverseKeyTranslateTable[TKEY ] = KX_TKEY ; m_reverseKeyTranslateTable[UKEY ] = KX_UKEY ; m_reverseKeyTranslateTable[VKEY ] = KX_VKEY ; m_reverseKeyTranslateTable[WKEY ] = KX_WKEY ; m_reverseKeyTranslateTable[XKEY ] = KX_XKEY ; m_reverseKeyTranslateTable[YKEY ] = KX_YKEY ; m_reverseKeyTranslateTable[ZKEY ] = KX_ZKEY ; m_reverseKeyTranslateTable[ZEROKEY ] = KX_ZEROKEY ; m_reverseKeyTranslateTable[ONEKEY ] = KX_ONEKEY ; m_reverseKeyTranslateTable[TWOKEY ] = KX_TWOKEY ; m_reverseKeyTranslateTable[THREEKEY ] = KX_THREEKEY ; m_reverseKeyTranslateTable[FOURKEY ] = KX_FOURKEY ; m_reverseKeyTranslateTable[FIVEKEY ] = KX_FIVEKEY ; m_reverseKeyTranslateTable[SIXKEY ] = KX_SIXKEY ; m_reverseKeyTranslateTable[SEVENKEY ] = KX_SEVENKEY ; m_reverseKeyTranslateTable[EIGHTKEY ] = KX_EIGHTKEY ; m_reverseKeyTranslateTable[NINEKEY ] = KX_NINEKEY ; m_reverseKeyTranslateTable[CAPSLOCKKEY ] = KX_CAPSLOCKKEY ; m_reverseKeyTranslateTable[LEFTCTRLKEY ] = KX_LEFTCTRLKEY ; m_reverseKeyTranslateTable[LEFTALTKEY ] = KX_LEFTALTKEY ; m_reverseKeyTranslateTable[RIGHTALTKEY ] = KX_RIGHTALTKEY ; m_reverseKeyTranslateTable[RIGHTCTRLKEY ] = KX_RIGHTCTRLKEY ; m_reverseKeyTranslateTable[RIGHTSHIFTKEY ] = KX_RIGHTSHIFTKEY ; m_reverseKeyTranslateTable[LEFTSHIFTKEY ] = KX_LEFTSHIFTKEY ; m_reverseKeyTranslateTable[ESCKEY ] = KX_ESCKEY ; m_reverseKeyTranslateTable[TABKEY ] = KX_TABKEY ; m_reverseKeyTranslateTable[RETKEY ] = KX_RETKEY ; m_reverseKeyTranslateTable[SPACEKEY ] = KX_SPACEKEY ; m_reverseKeyTranslateTable[LINEFEEDKEY ] = KX_LINEFEEDKEY ; m_reverseKeyTranslateTable[BACKSPACEKEY ] = KX_BACKSPACEKEY ; m_reverseKeyTranslateTable[DELKEY ] = KX_DELKEY ; m_reverseKeyTranslateTable[SEMICOLONKEY ] = KX_SEMICOLONKEY ; m_reverseKeyTranslateTable[PERIODKEY ] = KX_PERIODKEY ; m_reverseKeyTranslateTable[COMMAKEY ] = KX_COMMAKEY ; m_reverseKeyTranslateTable[QUOTEKEY ] = KX_QUOTEKEY ; m_reverseKeyTranslateTable[ACCENTGRAVEKEY ] = KX_ACCENTGRAVEKEY ; m_reverseKeyTranslateTable[MINUSKEY ] = KX_MINUSKEY ; m_reverseKeyTranslateTable[SLASHKEY ] = KX_SLASHKEY ; m_reverseKeyTranslateTable[BACKSLASHKEY ] = KX_BACKSLASHKEY ; m_reverseKeyTranslateTable[EQUALKEY ] = KX_EQUALKEY ; m_reverseKeyTranslateTable[LEFTBRACKETKEY ] = KX_LEFTBRACKETKEY ; m_reverseKeyTranslateTable[RIGHTBRACKETKEY ] = KX_RIGHTBRACKETKEY ; m_reverseKeyTranslateTable[LEFTARROWKEY ] = KX_LEFTARROWKEY ; m_reverseKeyTranslateTable[DOWNARROWKEY ] = KX_DOWNARROWKEY ; m_reverseKeyTranslateTable[RIGHTARROWKEY ] = KX_RIGHTARROWKEY ; m_reverseKeyTranslateTable[UPARROWKEY ] = KX_UPARROWKEY ; m_reverseKeyTranslateTable[PAD2 ] = KX_PAD2 ; m_reverseKeyTranslateTable[PAD4 ] = KX_PAD4 ; m_reverseKeyTranslateTable[PAD6 ] = KX_PAD6 ; m_reverseKeyTranslateTable[PAD8 ] = KX_PAD8 ; m_reverseKeyTranslateTable[PAD1 ] = KX_PAD1 ; m_reverseKeyTranslateTable[PAD3 ] = KX_PAD3 ; m_reverseKeyTranslateTable[PAD5 ] = KX_PAD5 ; m_reverseKeyTranslateTable[PAD7 ] = KX_PAD7 ; m_reverseKeyTranslateTable[PAD9 ] = KX_PAD9 ; m_reverseKeyTranslateTable[PADPERIOD ] = KX_PADPERIOD ; m_reverseKeyTranslateTable[PADSLASHKEY ] = KX_PADSLASHKEY ; m_reverseKeyTranslateTable[PADASTERKEY ] = KX_PADASTERKEY ; m_reverseKeyTranslateTable[PAD0 ] = KX_PAD0 ; m_reverseKeyTranslateTable[PADMINUS ] = KX_PADMINUS ; m_reverseKeyTranslateTable[PADENTER ] = KX_PADENTER ; m_reverseKeyTranslateTable[PADPLUSKEY ] = KX_PADPLUSKEY ; m_reverseKeyTranslateTable[F1KEY ] = KX_F1KEY ; m_reverseKeyTranslateTable[F2KEY ] = KX_F2KEY ; m_reverseKeyTranslateTable[F3KEY ] = KX_F3KEY ; m_reverseKeyTranslateTable[F4KEY ] = KX_F4KEY ; m_reverseKeyTranslateTable[F5KEY ] = KX_F5KEY ; m_reverseKeyTranslateTable[F6KEY ] = KX_F6KEY ; m_reverseKeyTranslateTable[F7KEY ] = KX_F7KEY ; m_reverseKeyTranslateTable[F8KEY ] = KX_F8KEY ; m_reverseKeyTranslateTable[F9KEY ] = KX_F9KEY ; m_reverseKeyTranslateTable[F10KEY ] = KX_F10KEY ; m_reverseKeyTranslateTable[F11KEY ] = KX_F11KEY ; m_reverseKeyTranslateTable[F12KEY ] = KX_F12KEY ; m_reverseKeyTranslateTable[F13KEY ] = KX_F13KEY ; m_reverseKeyTranslateTable[F14KEY ] = KX_F14KEY ; m_reverseKeyTranslateTable[F15KEY ] = KX_F15KEY ; m_reverseKeyTranslateTable[F16KEY ] = KX_F16KEY ; m_reverseKeyTranslateTable[F17KEY ] = KX_F17KEY ; m_reverseKeyTranslateTable[F18KEY ] = KX_F18KEY ; m_reverseKeyTranslateTable[F19KEY ] = KX_F19KEY ; m_reverseKeyTranslateTable[PAUSEKEY ] = KX_PAUSEKEY ; m_reverseKeyTranslateTable[INSERTKEY ] = KX_INSERTKEY ; m_reverseKeyTranslateTable[HOMEKEY ] = KX_HOMEKEY ; m_reverseKeyTranslateTable[PAGEUPKEY ] = KX_PAGEUPKEY ; m_reverseKeyTranslateTable[PAGEDOWNKEY ] = KX_PAGEDOWNKEY ; m_reverseKeyTranslateTable[ENDKEY ] = KX_ENDKEY ; } virtual ~BL_BlenderInputDevice() { } KX_EnumInputs ToNative(unsigned short incode) { return m_reverseKeyTranslateTable[incode]; } virtual bool IsPressed(SCA_IInputDevice::KX_EnumInputs inputcode)=0; // virtual const SCA_InputEvent& GetEventValue(SCA_IInputDevice::KX_EnumInputs inputcode)=0; virtual bool ConvertBlenderEvent(unsigned short incode,short val)=0; #ifdef WITH_CXX_GUARDEDALLOC public: void *operator new(size_t num_bytes) { return MEM_mallocN(num_bytes, "GE:BL_BlenderInputDevice"); } void operator delete(void *mem) { MEM_freeN(mem); } #endif }; #endif //__KX_BLENDERINPUTDEVICE