/* * Copyright (C) 2002-2010 The DOSBox Team * * 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., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ /* $Id: sdl_mapper.cpp,v 1.60 2009-06-01 10:25:51 qbix79 Exp $ */ #include #include #include #include #include #include #include #include "SDL.h" #include "SDL_thread.h" #include "dosbox.h" #include "video.h" #include "keyboard.h" #include "joystick.h" #include "support.h" #include "mapper.h" #include "setup.h" enum { CLR_BLACK=0, CLR_WHITE=1, CLR_RED=2, CLR_BLUE=3, CLR_GREEN=4 }; enum BB_Types { BB_Next,BB_Add,BB_Del, BB_Save,BB_Exit }; enum BC_Types { BC_Mod1,BC_Mod2,BC_Mod3, BC_Hold }; #define BMOD_Mod1 0x0001 #define BMOD_Mod2 0x0002 #define BMOD_Mod3 0x0004 #define BFLG_Hold 0x0001 #define BFLG_Repeat 0x0004 #define MAXSTICKS 8 #define MAXACTIVE 16 #define MAXBUTTON 32 #define MAXBUTTON_CAP 16 class CEvent; class CHandlerEvent; class CButton; class CBind; class CBindGroup; static void SetActiveEvent(CEvent * event); static void SetActiveBind(CBind * _bind); extern Bit8u int10_font_14[256 * 14]; static std::vector events; static std::vector buttons; static std::vector bindgroups; static std::vector handlergroup; typedef std::list CBindList; typedef std::list::iterator CEventList_it; typedef std::list::iterator CBindList_it; typedef std::vector::iterator CButton_it; typedef std::vector::iterator CEventVector_it; typedef std::vector::iterator CHandlerEventVector_it; typedef std::vector::iterator CBindGroup_it; static CBindList holdlist; class CEvent { public: CEvent(char const * const _entry) { safe_strncpy(entry,_entry,16); events.push_back(this); bindlist.clear(); activity=0; current_value=0; } void AddBind(CBind * bind); virtual ~CEvent() {} virtual void Active(bool yesno)=0; virtual void ActivateEvent(bool ev_trigger,bool skip_action)=0; virtual void DeActivateEvent(bool ev_trigger)=0; void DeActivateAll(void); void SetValue(Bits value){ current_value=value; } Bits GetValue(void) { return current_value; } char * GetName(void) { return entry; } virtual bool IsTrigger(void)=0; CBindList bindlist; protected: Bitu activity; char entry[16]; Bits current_value; }; /* class for events which can be ON/OFF only: key presses, joystick buttons, joystick hat */ class CTriggeredEvent : public CEvent { public: CTriggeredEvent(char const * const _entry) : CEvent(_entry) {} virtual bool IsTrigger(void) { return true; } void ActivateEvent(bool ev_trigger,bool skip_action) { if (current_value>25000) { /* value exceeds boundary, trigger event if not active */ if (!activity && !skip_action) Active(true); if (activity<32767) activity++; } else { if (activity>0) { /* untrigger event if it is fully inactive */ DeActivateEvent(ev_trigger); activity=0; } } } void DeActivateEvent(bool /*ev_trigger*/) { activity--; if (!activity) Active(false); } }; /* class for events which have a non-boolean state: joystick axis movement */ class CContinuousEvent : public CEvent { public: CContinuousEvent(char const * const _entry) : CEvent(_entry) {} virtual bool IsTrigger(void) { return false; } void ActivateEvent(bool ev_trigger,bool skip_action) { if (ev_trigger) { activity++; if (!skip_action) Active(true); } else { /* test if no trigger-activity is present, this cares especially about activity of the opposite-direction joystick axis for example */ if (!GetActivityCount()) Active(true); } } void DeActivateEvent(bool ev_trigger) { if (ev_trigger) { if (activity>0) activity--; if (activity==0) { /* test if still some trigger-activity is present, adjust the state in this case accordingly */ if (GetActivityCount()) RepostActivity(); else Active(false); } } else { if (!GetActivityCount()) Active(false); } } virtual Bitu GetActivityCount(void) { return activity; } virtual void RepostActivity(void) {} }; class CBind { public: virtual ~CBind () { list->remove(this); // event->bindlist.remove(this); } CBind(CBindList * _list) { list=_list; _list->push_back(this); mods=flags=0; event=0; active=holding=false; } void AddFlags(char * buf) { if (mods & BMOD_Mod1) strcat(buf," mod1"); if (mods & BMOD_Mod2) strcat(buf," mod2"); if (mods & BMOD_Mod3) strcat(buf," mod3"); if (flags & BFLG_Hold) strcat(buf," hold"); } void SetFlags(char * buf) { char * word; while (*(word=StripWord(buf))) { if (!strcasecmp(word,"mod1")) mods|=BMOD_Mod1; if (!strcasecmp(word,"mod2")) mods|=BMOD_Mod2; if (!strcasecmp(word,"mod3")) mods|=BMOD_Mod3; if (!strcasecmp(word,"hold")) flags|=BFLG_Hold; } } void ActivateBind(Bits _value,bool ev_trigger,bool skip_action=false) { if (event->IsTrigger()) { /* use value-boundary for on/off events */ if (_value>25000) { event->SetValue(_value); if (active) return; event->ActivateEvent(ev_trigger,skip_action); active=true; } else { if (active) { event->DeActivateEvent(ev_trigger); active=false; } } } else { /* store value for possible later use in the activated event */ event->SetValue(_value); event->ActivateEvent(ev_trigger,false); } } void DeActivateBind(bool ev_trigger) { if (event->IsTrigger()) { if (!active) return; active=false; if (flags & BFLG_Hold) { if (!holding) { holdlist.push_back(this); holding=true; return; } else { holdlist.remove(this); holding=false; } } event->DeActivateEvent(ev_trigger); } else { /* store value for possible later use in the activated event */ event->SetValue(0); event->DeActivateEvent(ev_trigger); } } virtual void ConfigName(char * buf)=0; virtual void BindName(char * buf)=0; Bitu mods,flags; Bit16s value; CEvent * event; CBindList * list; bool active,holding; }; void CEvent::AddBind(CBind * bind) { bindlist.push_front(bind); bind->event=this; } void CEvent::DeActivateAll(void) { for (CBindList_it bit=bindlist.begin();bit!=bindlist.end();bit++) { (*bit)->DeActivateBind(true); } } class CBindGroup { public: CBindGroup() { bindgroups.push_back(this); } void ActivateBindList(CBindList * list,Bits value,bool ev_trigger); void DeactivateBindList(CBindList * list,bool ev_trigger); virtual CBind * CreateConfigBind(char *&buf)=0; virtual CBind * CreateEventBind(SDL_Event * event)=0; virtual bool CheckEvent(SDL_Event * event)=0; virtual const char * ConfigStart(void)=0; virtual const char * BindStart(void)=0; virtual ~CBindGroup (void) { } protected: }; #define MAX_SDLKEYS 323 static bool usescancodes; static Bit8u scancode_map[MAX_SDLKEYS]; #define Z SDLK_UNKNOWN #if defined (MACOSX) static SDLKey sdlkey_map[]={ /* Main block printables */ /*00-05*/ SDLK_a, SDLK_s, SDLK_d, SDLK_f, SDLK_h, SDLK_g, /*06-0B*/ SDLK_z, SDLK_x, SDLK_c, SDLK_v, SDLK_WORLD_0, SDLK_b, /*0C-11*/ SDLK_q, SDLK_w, SDLK_e, SDLK_r, SDLK_y, SDLK_t, /*12-17*/ SDLK_1, SDLK_2, SDLK_3, SDLK_4, SDLK_6, SDLK_5, /*18-1D*/ SDLK_EQUALS, SDLK_9, SDLK_7, SDLK_MINUS, SDLK_8, SDLK_0, /*1E-21*/ SDLK_RIGHTBRACKET, SDLK_o, SDLK_u, SDLK_LEFTBRACKET, /*22-23*/ SDLK_i, SDLK_p, /*24-29*/ SDLK_RETURN, SDLK_l, SDLK_j, SDLK_QUOTE, SDLK_k, SDLK_SEMICOLON, /*2A-29*/ SDLK_BACKSLASH, SDLK_COMMA, SDLK_SLASH, SDLK_n, SDLK_m, /*2F-2F*/ SDLK_PERIOD, /* Spaces, controls, modifiers (dosbox uses LMETA only for * hotkeys, it's not really mapped to an emulated key) */ /*30-33*/ SDLK_TAB, SDLK_SPACE, SDLK_BACKQUOTE, SDLK_BACKSPACE, /*34-37*/ Z, SDLK_ESCAPE, Z, SDLK_LMETA, /*38-3B*/ SDLK_LSHIFT, SDLK_CAPSLOCK, SDLK_LALT, SDLK_LCTRL, /*3C-40*/ Z, Z, Z, Z, Z, /* Keypad (KP_EQUALS not supported, NUMLOCK used on what is CLEAR * in Mac OS X) */ /*41-46*/ SDLK_KP_PERIOD, Z, SDLK_KP_MULTIPLY, Z, SDLK_KP_PLUS, Z, /*47-4A*/ SDLK_NUMLOCK /*==SDLK_CLEAR*/, Z, Z, Z, /*4B-4D*/ SDLK_KP_DIVIDE, SDLK_KP_ENTER, Z, /*4E-51*/ SDLK_KP_MINUS, Z, Z, SDLK_KP_EQUALS, /*52-57*/ SDLK_KP0, SDLK_KP1, SDLK_KP2, SDLK_KP3, SDLK_KP4, SDLK_KP5, /*58-5C*/ SDLK_KP6, SDLK_KP7, Z, SDLK_KP8, SDLK_KP9, /*5D-5F*/ Z, Z, Z, /* Function keys and cursor blocks (F13 not supported, F14 => * PRINT[SCREEN], F15 => SCROLLOCK, F16 => PAUSE, HELP => INSERT) */ /*60-64*/ SDLK_F5, SDLK_F6, SDLK_F7, SDLK_F3, SDLK_F8, /*65-6A*/ SDLK_F9, Z, SDLK_F11, Z, SDLK_F13, SDLK_PAUSE /*==SDLK_F16*/, /*6B-70*/ SDLK_PRINT /*==SDLK_F14*/, Z, SDLK_F10, Z, SDLK_F12, Z, /*71-72*/ SDLK_SCROLLOCK /*==SDLK_F15*/, SDLK_INSERT /*==SDLK_HELP*/, /*73-77*/ SDLK_HOME, SDLK_PAGEUP, SDLK_DELETE, SDLK_F4, SDLK_END, /*78-7C*/ SDLK_F2, SDLK_PAGEDOWN, SDLK_F1, SDLK_LEFT, SDLK_RIGHT, /*7D-7E*/ SDLK_DOWN, SDLK_UP, /*7F-7F*/ Z, /* 4 extra keys that don't really exist, but are needed for * round-trip mapping (dosbox uses RMETA only for hotkeys, it's * not really mapped to an emulated key) */ SDLK_RMETA, SDLK_RSHIFT, SDLK_RALT, SDLK_RCTRL, }; #define MAX_SCANCODES (0x80+4) /* Make sure that the table above has the expected size. This expression will raise a compiler error if the condition is false. */ typedef char assert_right_size [MAX_SCANCODES == (sizeof(sdlkey_map)/sizeof(sdlkey_map[0])) ? 1 : -1]; #else // !MACOSX #define MAX_SCANCODES 212 static SDLKey sdlkey_map[MAX_SCANCODES]={SDLK_UNKNOWN,SDLK_ESCAPE, SDLK_1,SDLK_2,SDLK_3,SDLK_4,SDLK_5,SDLK_6,SDLK_7,SDLK_8,SDLK_9,SDLK_0, /* 0x0c: */ SDLK_MINUS,SDLK_EQUALS,SDLK_BACKSPACE,SDLK_TAB, SDLK_q,SDLK_w,SDLK_e,SDLK_r,SDLK_t,SDLK_y,SDLK_u,SDLK_i,SDLK_o,SDLK_p, SDLK_LEFTBRACKET,SDLK_RIGHTBRACKET,SDLK_RETURN,SDLK_LCTRL, SDLK_a,SDLK_s,SDLK_d,SDLK_f,SDLK_g,SDLK_h,SDLK_j,SDLK_k,SDLK_l, SDLK_SEMICOLON,SDLK_QUOTE,SDLK_BACKQUOTE,SDLK_LSHIFT,SDLK_BACKSLASH, SDLK_z,SDLK_x,SDLK_c,SDLK_v,SDLK_b,SDLK_n,SDLK_m, /* 0x33: */ SDLK_COMMA,SDLK_PERIOD,SDLK_SLASH,SDLK_RSHIFT,SDLK_KP_MULTIPLY, SDLK_LALT,SDLK_SPACE,SDLK_CAPSLOCK, SDLK_F1,SDLK_F2,SDLK_F3,SDLK_F4,SDLK_F5,SDLK_F6,SDLK_F7,SDLK_F8,SDLK_F9,SDLK_F10, /* 0x45: */ SDLK_NUMLOCK,SDLK_SCROLLOCK, SDLK_KP7,SDLK_KP8,SDLK_KP9,SDLK_KP_MINUS,SDLK_KP4,SDLK_KP5,SDLK_KP6,SDLK_KP_PLUS, SDLK_KP1,SDLK_KP2,SDLK_KP3,SDLK_KP0,SDLK_KP_PERIOD, SDLK_UNKNOWN,SDLK_UNKNOWN, SDLK_LESS,SDLK_F11,SDLK_F12, Z,Z,Z,Z,Z,Z,Z,Z,Z,Z,Z,Z,Z,Z,Z,Z,Z,Z,Z,Z,Z,Z,Z,Z,Z,Z,Z,Z,Z,Z,Z, Z,Z,Z,Z,Z,Z,Z,Z,Z,Z,Z,Z,Z,Z,Z,Z,Z,Z,Z,Z,Z,Z,Z,Z,Z,Z,Z,Z,Z,Z,Z, Z,Z,Z,Z,Z,Z,Z,Z,Z,Z,Z,Z,Z,Z,Z,Z,Z,Z,Z,Z,Z,Z,Z,Z,Z,Z,Z,Z,Z,Z,Z,Z, /* 0xb7: */ Z,Z,Z,Z,Z,Z,Z,Z,Z,Z,Z,Z,Z,Z,Z,Z,Z,Z,Z,Z,Z,Z,Z,Z,Z,Z,Z,Z,Z /* 0xd4: ... */ }; #endif #undef Z SDLKey MapSDLCode(Bitu skey) { if (usescancodes) { if (skey SDLK_WORLD_95) #endif ) { /* try to retrieve key from symbolic key as scancode is zero */ if (keysym.symtype!=SDL_KEYDOWN) return 0; return CreateKeyBind((SDLKey)GetKeyCode(event->key.keysym)); }; bool CheckEvent(SDL_Event * event) { if (event->type!=SDL_KEYDOWN && event->type!=SDL_KEYUP) return false; Bitu key=GetKeyCode(event->key.keysym); // LOG_MSG("key type %i is %x [%x %x]",event->type,key,event->key.keysym.sym,event->key.keysym.scancode); assert(Bitu(event->key.keysym.sym)type==SDL_KEYDOWN) ActivateBindList(&lists[key],0x7fff,true); else DeactivateBindList(&lists[key],true); return 0; } CBind * CreateKeyBind(SDLKey _key) { if (!usescancodes) assert((Bitu)_keyConfigStart(),axis,positive ? 1 : 0); } void BindName(char * buf) { sprintf(buf,"%s Axis %d%s",group->BindStart(),axis,positive ? "+" : "-"); } protected: CBindGroup * group; Bitu axis; bool positive; }; class CJButtonBind : public CBind { public: CJButtonBind(CBindList * _list,CBindGroup * _group,Bitu _button) : CBind(_list) { group = _group; button=_button; } void ConfigName(char * buf) { sprintf(buf,"%s button %d",group->ConfigStart(),button); } void BindName(char * buf) { sprintf(buf,"%s Button %d",group->BindStart(),button); } protected: CBindGroup * group; Bitu button; }; class CJHatBind : public CBind { public: CJHatBind(CBindList * _list,CBindGroup * _group,Bitu _hat,Bit8u _dir) : CBind(_list) { group = _group; hat = _hat; dir = _dir; /* allow only one hat position */ if (dir&SDL_HAT_UP) dir=SDL_HAT_UP; else if (dir&SDL_HAT_RIGHT) dir=SDL_HAT_RIGHT; else if (dir&SDL_HAT_DOWN) dir=SDL_HAT_DOWN; else if (dir&SDL_HAT_LEFT) dir=SDL_HAT_LEFT; else E_Exit("MAPPER:JOYSTICK:Invalid hat position"); } void ConfigName(char * buf) { sprintf(buf,"%s hat %d %d",group->ConfigStart(),hat,dir); } void BindName(char * buf) { sprintf(buf,"%s Hat %d %s",group->BindStart(),hat,(dir==SDL_HAT_UP)?"up": ((dir==SDL_HAT_RIGHT)?"right": ((dir==SDL_HAT_DOWN)?"down":"left"))); } protected: CBindGroup * group; Bitu hat; Bit8u dir; }; bool autofire = false; class CStickBindGroup : public CBindGroup { public: CStickBindGroup(Bitu _stick,Bitu _emustick,bool _dummy=false) : CBindGroup (){ stick=_stick; // the number of the physical device (SDL numbering|) emustick=_emustick; // the number of the emulated device sprintf(configname,"stick_%d",emustick); sdl_joystick=NULL; axes=0; buttons=0; hats=0; button_wrap=0; button_cap=0; axes_cap=0; hats_cap=0; emulated_buttons=0; emulated_axes=0; emulated_hats=0; is_dummy=_dummy; if (_dummy) return; // initialize binding lists and position data pos_axis_lists=new CBindList[4]; neg_axis_lists=new CBindList[4]; button_lists=new CBindList[MAXBUTTON]; hat_lists=new CBindList[4]; Bitu i; for (i=0; iMAXBUTTON_CAP) button_cap = MAXBUTTON_CAP; } if (button_wrap > MAXBUTTON) button_wrap = MAXBUTTON; axes_cap=emulated_axes; if (axes_cap>axes) axes_cap=axes; hats_cap=emulated_hats; if (hats_cap>hats) hats_cap=hats; LOG_MSG("Using joystick %s with %d axes, %d buttons and %d hat(s)",SDL_JoystickName(stick),axes,buttons,hats); } ~CStickBindGroup() { SDL_JoystickClose(sdl_joystick); delete[] pos_axis_lists; delete[] neg_axis_lists; delete[] button_lists; delete[] hat_lists; } CBind * CreateConfigBind(char *& buf) { if (strncasecmp(configname,buf,strlen(configname))) return 0; StripWord(buf);char * type=StripWord(buf); CBind * bind=0; if (!strcasecmp(type,"axis")) { Bitu ax=ConvDecWord(StripWord(buf)); bool pos=ConvDecWord(StripWord(buf)) > 0; bind=CreateAxisBind(ax,pos); } else if (!strcasecmp(type,"button")) { Bitu but=ConvDecWord(StripWord(buf)); bind=CreateButtonBind(but); } else if (!strcasecmp(type,"hat")) { Bitu hat=ConvDecWord(StripWord(buf)); Bit8u dir=(Bit8u)ConvDecWord(StripWord(buf)); bind=CreateHatBind(hat,dir); } return bind; } CBind * CreateEventBind(SDL_Event * event) { if (event->type==SDL_JOYAXISMOTION) { if (event->jaxis.which!=stick) return 0; #if defined (REDUCE_JOYSTICK_POLLING) if (event->jaxis.axis>=emulated_axes) return 0; #endif if (abs(event->jaxis.value)<25000) return 0; return CreateAxisBind(event->jaxis.axis,event->jaxis.value>0); } else if (event->type==SDL_JOYBUTTONDOWN) { if (event->button.which!=stick) return 0; #if defined (REDUCE_JOYSTICK_POLLING) return CreateButtonBind(event->jbutton.button%button_wrap); #else return CreateButtonBind(event->jbutton.button); #endif } else if (event->type==SDL_JOYHATMOTION) { if (event->jhat.which!=stick) return 0; if (event->jhat.value==0) return 0; if (event->jhat.value>(SDL_HAT_UP|SDL_HAT_RIGHT|SDL_HAT_DOWN|SDL_HAT_LEFT)) return 0; return CreateHatBind(event->jhat.hat,event->jhat.value); } else return 0; } virtual bool CheckEvent(SDL_Event * event) { SDL_JoyAxisEvent * jaxis = NULL; SDL_JoyButtonEvent * jbutton = NULL; Bitu but = 0; switch(event->type) { case SDL_JOYAXISMOTION: jaxis = &event->jaxis; if(jaxis->which == stick) { if(jaxis->axis == 0) JOYSTICK_Move_X(emustick,(float)(jaxis->value/32768.0)); else if(jaxis->axis == 1) JOYSTICK_Move_Y(emustick,(float)(jaxis->value/32768.0)); } break; case SDL_JOYBUTTONDOWN: case SDL_JOYBUTTONUP: jbutton = &event->jbutton; bool state; state=jbutton->type==SDL_JOYBUTTONDOWN; but = jbutton->button % emulated_buttons; if (jbutton->which == stick) { JOYSTICK_Button(emustick,but,state); } break; } return false; } virtual void UpdateJoystick() { if (is_dummy) return; /* query SDL joystick and activate bindings */ ActivateJoystickBoundEvents(); bool button_pressed[MAXBUTTON]; Bitu i; for (i=0; i1) { if (old_neg_axis_state[i]) { DeactivateBindList(&neg_axis_lists[i],false); old_neg_axis_state[i] = false; } ActivateBindList(&pos_axis_lists[i],caxis_pos,false); old_pos_axis_state[i] = true; } else if (caxis_pos<-1) { if (old_pos_axis_state[i]) { DeactivateBindList(&pos_axis_lists[i],false); old_pos_axis_state[i] = false; } if (caxis_pos!=-32768) caxis_pos=(Sint16)abs(caxis_pos); else caxis_pos=32767; ActivateBindList(&neg_axis_lists[i],caxis_pos,false); old_neg_axis_state[i] = true; } else { /* center */ if (old_pos_axis_state[i]) { DeactivateBindList(&pos_axis_lists[i],false); old_pos_axis_state[i] = false; } if (old_neg_axis_state[i]) { DeactivateBindList(&neg_axis_lists[i],false); old_neg_axis_state[i] = false; } } } for (i=0; iaxes) axes_cap=axes; hats_cap=emulated_hats; if (hats_cap>hats) hats_cap=hats; JOYSTICK_Enable(1,true); } bool CheckEvent(SDL_Event * event) { SDL_JoyAxisEvent * jaxis = NULL; SDL_JoyButtonEvent * jbutton = NULL; Bitu but = 0; switch(event->type) { case SDL_JOYAXISMOTION: jaxis = &event->jaxis; if(jaxis->which == stick && jaxis->axis < 4) { if(jaxis->axis & 1) JOYSTICK_Move_Y(jaxis->axis>>1 & 1,(float)(jaxis->value/32768.0)); else JOYSTICK_Move_X(jaxis->axis>>1 & 1,(float)(jaxis->value/32768.0)); } break; case SDL_JOYBUTTONDOWN: case SDL_JOYBUTTONUP: jbutton = &event->jbutton; bool state; state=jbutton->type==SDL_JOYBUTTONDOWN; but = jbutton->button % emulated_buttons; if (jbutton->which == stick) { JOYSTICK_Button((but >> 1),(but & 1),state); } break; } return false; } virtual void UpdateJoystick() { /* query SDL joystick and activate bindings */ ActivateJoystickBoundEvents(); bool button_pressed[MAXBUTTON]; Bitu i; for (i=0; i>1,i&1,(++button_autofire[i])&1); else JOYSTICK_Button(i>>1,i&1,button_pressed[i]); } JOYSTICK_Move_X(0,((float)virtual_joysticks[0].axis_pos[0])/32768.0f); JOYSTICK_Move_Y(0,((float)virtual_joysticks[0].axis_pos[1])/32768.0f); JOYSTICK_Move_X(1,((float)virtual_joysticks[0].axis_pos[2])/32768.0f); JOYSTICK_Move_Y(1,((float)virtual_joysticks[0].axis_pos[3])/32768.0f); } }; class CFCSBindGroup : public CStickBindGroup { public: CFCSBindGroup(Bitu _stick,Bitu _emustick) : CStickBindGroup (_stick,_emustick){ emulated_axes=4; emulated_buttons=4; old_hat_position=0; emulated_hats=1; if (button_wrapping_enabled) button_wrap=emulated_buttons; axes_cap=emulated_axes; if (axes_cap>axes) axes_cap=axes; hats_cap=emulated_hats; if (hats_cap>hats) hats_cap=hats; JOYSTICK_Enable(1,true); JOYSTICK_Move_Y(1,1.0); } bool CheckEvent(SDL_Event * event) { SDL_JoyAxisEvent * jaxis = NULL; SDL_JoyButtonEvent * jbutton = NULL; SDL_JoyHatEvent * jhat = NULL; Bitu but = 0; switch(event->type) { case SDL_JOYAXISMOTION: jaxis = &event->jaxis; if(jaxis->which == stick) { if(jaxis->axis == 0) JOYSTICK_Move_X(0,(float)(jaxis->value/32768.0)); else if(jaxis->axis == 1) JOYSTICK_Move_Y(0,(float)(jaxis->value/32768.0)); else if(jaxis->axis == 2) JOYSTICK_Move_X(1,(float)(jaxis->value/32768.0)); } break; case SDL_JOYHATMOTION: jhat = &event->jhat; if(jhat->which == stick) DecodeHatPosition(jhat->value); break; case SDL_JOYBUTTONDOWN: case SDL_JOYBUTTONUP: jbutton = &event->jbutton; bool state; state=jbutton->type==SDL_JOYBUTTONDOWN; but = jbutton->button % emulated_buttons; if (jbutton->which == stick) { JOYSTICK_Button((but >> 1),(but & 1),state); } break; } return false; } virtual void UpdateJoystick() { /* query SDL joystick and activate bindings */ ActivateJoystickBoundEvents(); bool button_pressed[MAXBUTTON]; Bitu i; for (i=0; i>1,i&1,(++button_autofire[i])&1); else JOYSTICK_Button(i>>1,i&1,button_pressed[i]); } JOYSTICK_Move_X(0,((float)virtual_joysticks[0].axis_pos[0])/32768.0f); JOYSTICK_Move_Y(0,((float)virtual_joysticks[0].axis_pos[1])/32768.0f); JOYSTICK_Move_X(1,((float)virtual_joysticks[0].axis_pos[2])/32768.0f); Uint8 hat_pos=0; if (virtual_joysticks[0].hat_pressed[0]) hat_pos|=SDL_HAT_UP; else if (virtual_joysticks[0].hat_pressed[2]) hat_pos|=SDL_HAT_DOWN; if (virtual_joysticks[0].hat_pressed[3]) hat_pos|=SDL_HAT_LEFT; else if (virtual_joysticks[0].hat_pressed[1]) hat_pos|=SDL_HAT_RIGHT; if (hat_pos!=old_hat_position) { DecodeHatPosition(hat_pos); old_hat_position=hat_pos; } } private: Uint8 old_hat_position; void DecodeHatPosition(Uint8 hat_pos) { switch(hat_pos) { case SDL_HAT_CENTERED: JOYSTICK_Move_Y(1,1.0); break; case SDL_HAT_UP: JOYSTICK_Move_Y(1,-1.0); break; case SDL_HAT_RIGHT: JOYSTICK_Move_Y(1,-0.5); break; case SDL_HAT_DOWN: JOYSTICK_Move_Y(1,0.0); break; case SDL_HAT_LEFT: JOYSTICK_Move_Y(1,0.5); break; case SDL_HAT_LEFTUP: if(JOYSTICK_GetMove_Y(1) < 0) JOYSTICK_Move_Y(1,0.5); else JOYSTICK_Move_Y(1,-1.0); break; case SDL_HAT_RIGHTUP: if(JOYSTICK_GetMove_Y(1) < -0.7) JOYSTICK_Move_Y(1,-0.5); else JOYSTICK_Move_Y(1,-1.0); break; case SDL_HAT_RIGHTDOWN: if(JOYSTICK_GetMove_Y(1) < -0.2) JOYSTICK_Move_Y(1,0.0); else JOYSTICK_Move_Y(1,-0.5); break; case SDL_HAT_LEFTDOWN: if(JOYSTICK_GetMove_Y(1) > 0.2) JOYSTICK_Move_Y(1,0.0); else JOYSTICK_Move_Y(1,0.5); break; } } }; class CCHBindGroup : public CStickBindGroup { public: CCHBindGroup(Bitu _stick,Bitu _emustick) : CStickBindGroup (_stick,_emustick){ emulated_axes=4; emulated_buttons=6; emulated_hats=1; if (button_wrapping_enabled) button_wrap=emulated_buttons; axes_cap=emulated_axes; if (axes_cap>axes) axes_cap=axes; hats_cap=emulated_hats; if (hats_cap>hats) hats_cap=hats; JOYSTICK_Enable(1,true); button_state=0; } bool CheckEvent(SDL_Event * event) { SDL_JoyAxisEvent * jaxis = NULL; SDL_JoyButtonEvent * jbutton = NULL; SDL_JoyHatEvent * jhat = NULL; Bitu but = 0; static unsigned const button_magic[6]={0x02,0x04,0x10,0x100,0x20,0x200}; static unsigned const hat_magic[2][5]={{0x8888,0x8000,0x800,0x80,0x08}, {0x5440,0x4000,0x400,0x40,0x1000}}; switch(event->type) { case SDL_JOYAXISMOTION: jaxis = &event->jaxis; if(jaxis->which == stick && jaxis->axis < 4) { if(jaxis->axis & 1) JOYSTICK_Move_Y(jaxis->axis>>1 & 1,(float)(jaxis->value/32768.0)); else JOYSTICK_Move_X(jaxis->axis>>1 & 1,(float)(jaxis->value/32768.0)); } break; case SDL_JOYHATMOTION: jhat = &event->jhat; if(jhat->which == stick && jhat->hat < 2) { if(jhat->value == SDL_HAT_CENTERED) button_state&=~hat_magic[jhat->hat][0]; if(jhat->value & SDL_HAT_UP) button_state|=hat_magic[jhat->hat][1]; if(jhat->value & SDL_HAT_RIGHT) button_state|=hat_magic[jhat->hat][2]; if(jhat->value & SDL_HAT_DOWN) button_state|=hat_magic[jhat->hat][3]; if(jhat->value & SDL_HAT_LEFT) button_state|=hat_magic[jhat->hat][4]; } break; case SDL_JOYBUTTONDOWN: jbutton = &event->jbutton; but = jbutton->button % emulated_buttons; if (jbutton->which == stick) button_state|=button_magic[but]; break; case SDL_JOYBUTTONUP: jbutton = &event->jbutton; but = jbutton->button % emulated_buttons; if (jbutton->which == stick) button_state&=~button_magic[but]; break; } unsigned i; Bit16u j; j=button_state; for(i=0;i<16;i++) if (j & 1) break; else j>>=1; JOYSTICK_Button(0,0,i&1); JOYSTICK_Button(0,1,(i>>1)&1); JOYSTICK_Button(1,0,(i>>2)&1); JOYSTICK_Button(1,1,(i>>3)&1); return false; } void UpdateJoystick() { static unsigned const button_priority[6]={7,11,13,14,5,6}; static unsigned const hat_priority[2][4]={{0,1,2,3},{8,9,10,12}}; /* query SDL joystick and activate bindings */ ActivateJoystickBoundEvents(); JOYSTICK_Move_X(0,((float)virtual_joysticks[0].axis_pos[0])/32768.0f); JOYSTICK_Move_Y(0,((float)virtual_joysticks[0].axis_pos[1])/32768.0f); JOYSTICK_Move_X(1,((float)virtual_joysticks[0].axis_pos[2])/32768.0f); JOYSTICK_Move_Y(1,((float)virtual_joysticks[0].axis_pos[3])/32768.0f); Bitu bt_state=15; Bitu i; for (i=0; i<(hats<2?hats:2); i++) { Uint8 hat_pos=0; if (virtual_joysticks[0].hat_pressed[(i<<2)+0]) hat_pos|=SDL_HAT_UP; else if (virtual_joysticks[0].hat_pressed[(i<<2)+2]) hat_pos|=SDL_HAT_DOWN; if (virtual_joysticks[0].hat_pressed[(i<<2)+3]) hat_pos|=SDL_HAT_LEFT; else if (virtual_joysticks[0].hat_pressed[(i<<2)+1]) hat_pos|=SDL_HAT_RIGHT; if (hat_pos & SDL_HAT_UP) if (bt_state>hat_priority[i][0]) bt_state=hat_priority[i][0]; if (hat_pos & SDL_HAT_DOWN) if (bt_state>hat_priority[i][1]) bt_state=hat_priority[i][1]; if (hat_pos & SDL_HAT_RIGHT) if (bt_state>hat_priority[i][2]) bt_state=hat_priority[i][2]; if (hat_pos & SDL_HAT_LEFT) if (bt_state>hat_priority[i][3]) bt_state=hat_priority[i][3]; } bool button_pressed[MAXBUTTON]; for (i=0; ibutton_priority[i])) bt_state=button_priority[i]; } if (bt_state>15) bt_state=15; JOYSTICK_Button(0,0,(bt_state&8)==0); JOYSTICK_Button(0,1,(bt_state&4)==0); JOYSTICK_Button(1,0,(bt_state&2)==0); JOYSTICK_Button(1,1,(bt_state&1)==0); } protected: Bit16u button_state; }; static struct CMapper { SDL_Surface * surface; SDL_Surface * draw_surface; bool exit; CEvent * aevent; //Active Event CBind * abind; //Active Bind CBindList_it abindit; //Location of active bind in list bool redraw; bool addbind; Bitu mods; struct { Bitu num_groups,num; CStickBindGroup * stick[MAXSTICKS]; } sticks; std::string filename; } mapper; void CBindGroup::ActivateBindList(CBindList * list,Bits value,bool ev_trigger) { Bitu validmod=0; CBindList_it it; for (it=list->begin();it!=list->end();it++) { if (((*it)->mods & mapper.mods) == (*it)->mods) { if (validmod<(*it)->mods) validmod=(*it)->mods; } } for (it=list->begin();it!=list->end();it++) { /*BUG:CRASH if keymapper key is removed*/ if (validmod==(*it)->mods) (*it)->ActivateBind(value,ev_trigger); } } void CBindGroup::DeactivateBindList(CBindList * list,bool ev_trigger) { CBindList_it it; for (it=list->begin();it!=list->end();it++) { (*it)->DeActivateBind(ev_trigger); } } static void DrawText(Bitu x,Bitu y,const char * text,Bit8u color) { Bit8u * draw=((Bit8u *)mapper.surface->pixels)+(y*mapper.surface->pitch)+x; while (*text) { Bit8u * font=&int10_font_14[(*text)*14]; Bitu i,j;Bit8u * draw_line=draw; for (i=0;i<14;i++) { Bit8u map=*font++; for (j=0;j<8;j++) { if (map & 0x80) *(draw_line+j)=color; else *(draw_line+j)=CLR_BLACK; map<<=1; } draw_line+=mapper.surface->pitch; } text++;draw+=8; } } class CButton { public: virtual ~CButton(){}; CButton(Bitu _x,Bitu _y,Bitu _dx,Bitu _dy) { x=_x;y=_y;dx=_dx;dy=_dy; buttons.push_back(this); color=CLR_WHITE; enabled=true; } virtual void Draw(void) { if (!enabled) return; Bit8u * point=((Bit8u *)mapper.surface->pixels)+(y*mapper.surface->pitch)+x; for (Bitu lines=0;linespitch; } } virtual bool OnTop(Bitu _x,Bitu _y) { return ( enabled && (_x>=x) && (_x=y) && (_ySetColor(CLR_WHITE); this->SetColor(CLR_GREEN); SetActiveEvent(event); last_clicked=this; } protected: CEvent * event; }; class CCaptionButton : public CButton { public: CCaptionButton(Bitu _x,Bitu _y,Bitu _dx,Bitu _dy) : CButton(_x,_y,_dx,_dy){ caption[0]=0; } void Change(const char * format,...) GCC_ATTRIBUTE(__format__(__printf__,2,3)); void Draw(void) { if (!enabled) return; DrawText(x+2,y+2,caption,color); } protected: char caption[128]; }; void CCaptionButton::Change(const char * format,...) { va_list msg; va_start(msg,format); vsprintf(caption,format,msg); va_end(msg); mapper.redraw=true; } static void change_action_text(const char* text,Bit8u col); static void MAPPER_SaveBinds(void); class CBindButton : public CTextButton { public: CBindButton(Bitu _x,Bitu _y,Bitu _dx,Bitu _dy,const char * _text,BB_Types _type) : CTextButton(_x,_y,_dx,_dy,_text) { type=_type; } void Click(void) { switch (type) { case BB_Add: mapper.addbind=true; SetActiveBind(0); change_action_text("Press a key/joystick button or move the joystick.",CLR_RED); break; case BB_Del: if (mapper.abindit!=mapper.aevent->bindlist.end()) { delete (*mapper.abindit); mapper.abindit=mapper.aevent->bindlist.erase(mapper.abindit); if (mapper.abindit==mapper.aevent->bindlist.end()) mapper.abindit=mapper.aevent->bindlist.begin(); } if (mapper.abindit!=mapper.aevent->bindlist.end()) SetActiveBind(*(mapper.abindit)); else SetActiveBind(0); break; case BB_Next: if (mapper.abindit!=mapper.aevent->bindlist.end()) mapper.abindit++; if (mapper.abindit==mapper.aevent->bindlist.end()) mapper.abindit=mapper.aevent->bindlist.begin(); SetActiveBind(*(mapper.abindit)); break; case BB_Save: MAPPER_SaveBinds(); break; case BB_Exit: mapper.exit=true; break; } } protected: BB_Types type; }; class CCheckButton : public CTextButton { public: CCheckButton(Bitu _x,Bitu _y,Bitu _dx,Bitu _dy,const char * _text,BC_Types _type) : CTextButton(_x,_y,_dx,_dy,_text) { type=_type; } void Draw(void) { if (!enabled) return; bool checked=false; switch (type) { case BC_Mod1: checked=(mapper.abind->mods&BMOD_Mod1)>0; break; case BC_Mod2: checked=(mapper.abind->mods&BMOD_Mod2)>0; break; case BC_Mod3: checked=(mapper.abind->mods&BMOD_Mod3)>0; break; case BC_Hold: checked=(mapper.abind->flags&BFLG_Hold)>0; break; } if (checked) { Bit8u * point=((Bit8u *)mapper.surface->pixels)+((y+2)*mapper.surface->pitch)+x+dx-dy+2; for (Bitu lines=0;lines<(dy-4);lines++) { memset(point,color,dy-4); point+=mapper.surface->pitch; } } CTextButton::Draw(); } void Click(void) { switch (type) { case BC_Mod1: mapper.abind->mods^=BMOD_Mod1; break; case BC_Mod2: mapper.abind->mods^=BMOD_Mod2; break; case BC_Mod3: mapper.abind->mods^=BMOD_Mod3; break; case BC_Hold: mapper.abind->flags^=BFLG_Hold; break; } mapper.redraw=true; } protected: BC_Types type; }; class CKeyEvent : public CTriggeredEvent { public: CKeyEvent(char const * const _entry,KBD_KEYS _key) : CTriggeredEvent(_entry) { key=_key; } void Active(bool yesno) { KEYBOARD_AddKey(key,yesno); }; KBD_KEYS key; }; class CJAxisEvent : public CContinuousEvent { public: CJAxisEvent(char const * const _entry,Bitu _stick,Bitu _axis,bool _positive,CJAxisEvent * _opposite_axis) : CContinuousEvent(_entry) { stick=_stick; axis=_axis; positive=_positive; opposite_axis=_opposite_axis; if (_opposite_axis) { _opposite_axis->SetOppositeAxis(this); } } void Active(bool /*moved*/) { virtual_joysticks[stick].axis_pos[axis]=(Bit16s)(GetValue()*(positive?1:-1)); } virtual Bitu GetActivityCount(void) { return activity|opposite_axis->activity; } virtual void RepostActivity(void) { /* caring for joystick movement into the opposite direction */ opposite_axis->Active(true); } protected: void SetOppositeAxis(CJAxisEvent * _opposite_axis) { opposite_axis=_opposite_axis; } Bitu stick,axis; bool positive; CJAxisEvent * opposite_axis; }; class CJButtonEvent : public CTriggeredEvent { public: CJButtonEvent(char const * const _entry,Bitu _stick,Bitu _button) : CTriggeredEvent(_entry) { stick=_stick; button=_button; } void Active(bool pressed) { virtual_joysticks[stick].button_pressed[button]=pressed; } protected: Bitu stick,button; }; class CJHatEvent : public CTriggeredEvent { public: CJHatEvent(char const * const _entry,Bitu _stick,Bitu _hat,Bitu _dir) : CTriggeredEvent(_entry) { stick=_stick; hat=_hat; dir=_dir; } void Active(bool pressed) { virtual_joysticks[stick].hat_pressed[(hat<<2)+dir]=pressed; } protected: Bitu stick,hat,dir; }; class CModEvent : public CTriggeredEvent { public: CModEvent(char const * const _entry,Bitu _wmod) : CTriggeredEvent(_entry) { wmod=_wmod; } void Active(bool yesno) { if (yesno) mapper.mods|=(1 << (wmod-1)); else mapper.mods&=~(1 << (wmod-1)); }; protected: Bitu wmod; }; class CHandlerEvent : public CTriggeredEvent { public: CHandlerEvent(char const * const _entry,MAPPER_Handler * _handler,MapKeys _key,Bitu _mod,char const * const _buttonname) : CTriggeredEvent(_entry) { handler=_handler; defmod=_mod; defkey=_key; buttonname=_buttonname; handlergroup.push_back(this); } void Active(bool yesno) { (*handler)(yesno); }; const char * ButtonName(void) { return buttonname; } void MakeDefaultBind(char * buf) { Bitu key=0; switch (defkey) { case MK_f1:case MK_f2:case MK_f3:case MK_f4: case MK_f5:case MK_f6:case MK_f7:case MK_f8: case MK_f9:case MK_f10:case MK_f11:case MK_f12: key=SDLK_F1+(defkey-MK_f1); break; case MK_return: key=SDLK_RETURN; break; case MK_kpminus: key=SDLK_KP_MINUS; break; case MK_scrolllock: key=SDLK_SCROLLOCK; break; case MK_pause: key=SDLK_PAUSE; break; case MK_printscreen: key=SDLK_PRINT; break; case MK_home: key=SDLK_HOME; break; } sprintf(buf,"%s \"key %d%s%s%s\"", entry, key, defmod & 1 ? " mod1" : "", defmod & 2 ? " mod2" : "", defmod & 4 ? " mod3" : "" ); } protected: MapKeys defkey; Bitu defmod; MAPPER_Handler * handler; public: const char * buttonname; }; static struct { CCaptionButton * event_title; CCaptionButton * bind_title; CCaptionButton * selected; CCaptionButton * action; CBindButton * save; CBindButton * exit; CBindButton * add; CBindButton * del; CBindButton * next; CCheckButton * mod1,* mod2,* mod3,* hold; } bind_but; static void change_action_text(const char* text,Bit8u col) { bind_but.action->Change(text,""); bind_but.action->SetColor(col); } static void SetActiveBind(CBind * _bind) { mapper.abind=_bind; if (_bind) { bind_but.bind_title->Enable(true); char buf[256];_bind->BindName(buf); bind_but.bind_title->Change("BIND:%s",buf); bind_but.del->Enable(true); bind_but.next->Enable(true); bind_but.mod1->Enable(true); bind_but.mod2->Enable(true); bind_but.mod3->Enable(true); bind_but.hold->Enable(true); } else { bind_but.bind_title->Enable(false); bind_but.del->Enable(false); bind_but.next->Enable(false); bind_but.mod1->Enable(false); bind_but.mod2->Enable(false); bind_but.mod3->Enable(false); bind_but.hold->Enable(false); } } static void SetActiveEvent(CEvent * event) { mapper.aevent=event; mapper.redraw=true; mapper.addbind=false; bind_but.event_title->Change("EVENT:%s",event ? event->GetName(): "none"); if (!event) { change_action_text("Select an event to change.",CLR_WHITE); bind_but.add->Enable(false); SetActiveBind(0); } else { change_action_text("Select a different event or hit the Add/Del/Next buttons.",CLR_WHITE); mapper.abindit=event->bindlist.begin(); if (mapper.abindit!=event->bindlist.end()) { SetActiveBind(*(mapper.abindit)); } else SetActiveBind(0); bind_but.add->Enable(true); } } static void DrawButtons(void) { SDL_FillRect(mapper.surface,0,0); SDL_LockSurface(mapper.surface); for (CButton_it but_it = buttons.begin();but_it!=buttons.end();but_it++) { (*but_it)->Draw(); } SDL_UnlockSurface(mapper.surface); SDL_Flip(mapper.surface); } static CKeyEvent * AddKeyButtonEvent(Bitu x,Bitu y,Bitu dx,Bitu dy,char const * const title,char const * const entry,KBD_KEYS key) { char buf[64]; strcpy(buf,"key_"); strcat(buf,entry); CKeyEvent * event=new CKeyEvent(buf,key); new CEventButton(x,y,dx,dy,title,event); return event; } static CJAxisEvent * AddJAxisButton(Bitu x,Bitu y,Bitu dx,Bitu dy,char const * const title,Bitu stick,Bitu axis,bool positive,CJAxisEvent * opposite_axis) { char buf[64]; sprintf(buf,"jaxis_%d_%d%s",stick,axis,positive ? "+" : "-"); CJAxisEvent * event=new CJAxisEvent(buf,stick,axis,positive,opposite_axis); new CEventButton(x,y,dx,dy,title,event); return event; } static CJAxisEvent * AddJAxisButton_hidden(Bitu stick,Bitu axis,bool positive,CJAxisEvent * opposite_axis) { char buf[64]; sprintf(buf,"jaxis_%d_%d%s",stick,axis,positive ? "+" : "-"); return new CJAxisEvent(buf,stick,axis,positive,opposite_axis); } static void AddJButtonButton(Bitu x,Bitu y,Bitu dx,Bitu dy,char const * const title,Bitu stick,Bitu button) { char buf[64]; sprintf(buf,"jbutton_%d_%d",stick,button); CJButtonEvent * event=new CJButtonEvent(buf,stick,button); new CEventButton(x,y,dx,dy,title,event); } static void AddJButtonButton_hidden(Bitu stick,Bitu button) { char buf[64]; sprintf(buf,"jbutton_%d_%d",stick,button); new CJButtonEvent(buf,stick,button); } static void AddJHatButton(Bitu x,Bitu y,Bitu dx,Bitu dy,char const * const title,Bitu _stick,Bitu _hat,Bitu _dir) { char buf[64]; sprintf(buf,"jhat_%d_%d_%d",_stick,_hat,_dir); CJHatEvent * event=new CJHatEvent(buf,_stick,_hat,_dir); new CEventButton(x,y,dx,dy,title,event); } static void AddModButton(Bitu x,Bitu y,Bitu dx,Bitu dy,char const * const title,Bitu _mod) { char buf[64]; sprintf(buf,"mod_%d",_mod); CModEvent * event=new CModEvent(buf,_mod); new CEventButton(x,y,dx,dy,title,event); } struct KeyBlock { const char * title; const char * entry; KBD_KEYS key; }; static KeyBlock combo_f[12]={ {"F1","f1",KBD_f1}, {"F2","f2",KBD_f2}, {"F3","f3",KBD_f3}, {"F4","f4",KBD_f4}, {"F5","f5",KBD_f5}, {"F6","f6",KBD_f6}, {"F7","f7",KBD_f7}, {"F8","f8",KBD_f8}, {"F9","f9",KBD_f9}, {"F10","f10",KBD_f10}, {"F11","f11",KBD_f11}, {"F12","f12",KBD_f12}, }; static KeyBlock combo_1[14]={ {"`~","grave",KBD_grave}, {"1!","1",KBD_1}, {"2@","2",KBD_2}, {"3#","3",KBD_3}, {"4$","4",KBD_4}, {"5%","5",KBD_5}, {"6^","6",KBD_6}, {"7&","7",KBD_7}, {"8*","8",KBD_8}, {"9(","9",KBD_9}, {"0)","0",KBD_0}, {"-_","minus",KBD_minus}, {"=+","equals",KBD_equals}, {"\x1B","bspace",KBD_backspace}, }; static KeyBlock combo_2[12]={ {"q","q",KBD_q}, {"w","w",KBD_w}, {"e","e",KBD_e}, {"r","r",KBD_r}, {"t","t",KBD_t}, {"y","y",KBD_y}, {"u","u",KBD_u}, {"i","i",KBD_i}, {"o","o",KBD_o}, {"p","p",KBD_p}, {"[","lbracket",KBD_leftbracket}, {"]","rbracket",KBD_rightbracket}, }; static KeyBlock combo_3[12]={ {"a","a",KBD_a}, {"s","s",KBD_s}, {"d","d",KBD_d}, {"f","f",KBD_f}, {"g","g",KBD_g}, {"h","h",KBD_h}, {"j","j",KBD_j}, {"k","k",KBD_k}, {"l","l",KBD_l}, {";","semicolon",KBD_semicolon}, {"'","quote",KBD_quote}, {"\\","backslash",KBD_backslash}, }; static KeyBlock combo_4[11]={ {"<","lessthan",KBD_extra_lt_gt}, {"z","z",KBD_z}, {"x","x",KBD_x}, {"c","c",KBD_c}, {"v","v",KBD_v}, {"b","b",KBD_b}, {"n","n",KBD_n}, {"m","m",KBD_m}, {",","comma",KBD_comma}, {".","period",KBD_period}, {"/","slash",KBD_slash}, }; static CKeyEvent * caps_lock_event=NULL; static CKeyEvent * num_lock_event=NULL; static void CreateLayout(void) { Bitu i; /* Create the buttons for the Keyboard */ #define BW 28 #define BH 20 #define DX 5 #define PX(_X_) ((_X_)*BW + DX) #define PY(_Y_) (10+(_Y_)*BH) AddKeyButtonEvent(PX(0),PY(0),BW,BH,"ESC","esc",KBD_esc); for (i=0;i<12;i++) AddKeyButtonEvent(PX(2+i),PY(0),BW,BH,combo_f[i].title,combo_f[i].entry,combo_f[i].key); for (i=0;i<14;i++) AddKeyButtonEvent(PX( i),PY(1),BW,BH,combo_1[i].title,combo_1[i].entry,combo_1[i].key); AddKeyButtonEvent(PX(0),PY(2),BW*2,BH,"TAB","tab",KBD_tab); for (i=0;i<12;i++) AddKeyButtonEvent(PX(2+i),PY(2),BW,BH,combo_2[i].title,combo_2[i].entry,combo_2[i].key); AddKeyButtonEvent(PX(14),PY(2),BW*2,BH*2,"ENTER","enter",KBD_enter); caps_lock_event=AddKeyButtonEvent(PX(0),PY(3),BW*2,BH,"CLCK","capslock",KBD_capslock); for (i=0;i<12;i++) AddKeyButtonEvent(PX(2+i),PY(3),BW,BH,combo_3[i].title,combo_3[i].entry,combo_3[i].key); AddKeyButtonEvent(PX(0),PY(4),BW*2,BH,"SHIFT","lshift",KBD_leftshift); for (i=0;i<11;i++) AddKeyButtonEvent(PX(2+i),PY(4),BW,BH,combo_4[i].title,combo_4[i].entry,combo_4[i].key); AddKeyButtonEvent(PX(13),PY(4),BW*3,BH,"SHIFT","rshift",KBD_rightshift); /* Last Row */ AddKeyButtonEvent(PX(0) ,PY(5),BW*2,BH,"CTRL","lctrl",KBD_leftctrl); AddKeyButtonEvent(PX(3) ,PY(5),BW*2,BH,"ALT","lalt",KBD_leftalt); AddKeyButtonEvent(PX(5) ,PY(5),BW*6,BH,"SPACE","space",KBD_space); AddKeyButtonEvent(PX(11),PY(5),BW*2,BH,"ALT","ralt",KBD_rightalt); AddKeyButtonEvent(PX(14),PY(5),BW*2,BH,"CTRL","rctrl",KBD_rightctrl); /* Arrow Keys */ #define XO 17 #define YO 0 AddKeyButtonEvent(PX(XO+0),PY(YO),BW,BH,"PRT","printscreen",KBD_printscreen); AddKeyButtonEvent(PX(XO+1),PY(YO),BW,BH,"SCL","scrolllock",KBD_scrolllock); AddKeyButtonEvent(PX(XO+2),PY(YO),BW,BH,"PAU","pause",KBD_pause); AddKeyButtonEvent(PX(XO+0),PY(YO+1),BW,BH,"INS","insert",KBD_insert); AddKeyButtonEvent(PX(XO+1),PY(YO+1),BW,BH,"HOM","home",KBD_home); AddKeyButtonEvent(PX(XO+2),PY(YO+1),BW,BH,"PUP","pageup",KBD_pageup); AddKeyButtonEvent(PX(XO+0),PY(YO+2),BW,BH,"DEL","delete",KBD_delete); AddKeyButtonEvent(PX(XO+1),PY(YO+2),BW,BH,"END","end",KBD_end); AddKeyButtonEvent(PX(XO+2),PY(YO+2),BW,BH,"PDN","pagedown",KBD_pagedown); AddKeyButtonEvent(PX(XO+1),PY(YO+4),BW,BH,"\x18","up",KBD_up); AddKeyButtonEvent(PX(XO+0),PY(YO+5),BW,BH,"\x1B","left",KBD_left); AddKeyButtonEvent(PX(XO+1),PY(YO+5),BW,BH,"\x19","down",KBD_down); AddKeyButtonEvent(PX(XO+2),PY(YO+5),BW,BH,"\x1A","right",KBD_right); #undef XO #undef YO #define XO 0 #define YO 7 /* Numeric KeyPad */ num_lock_event=AddKeyButtonEvent(PX(XO),PY(YO),BW,BH,"NUM","numlock",KBD_numlock); AddKeyButtonEvent(PX(XO+1),PY(YO),BW,BH,"/","kp_divide",KBD_kpdivide); AddKeyButtonEvent(PX(XO+2),PY(YO),BW,BH,"*","kp_multiply",KBD_kpmultiply); AddKeyButtonEvent(PX(XO+3),PY(YO),BW,BH,"-","kp_minus",KBD_kpminus); AddKeyButtonEvent(PX(XO+0),PY(YO+1),BW,BH,"7","kp_7",KBD_kp7); AddKeyButtonEvent(PX(XO+1),PY(YO+1),BW,BH,"8","kp_8",KBD_kp8); AddKeyButtonEvent(PX(XO+2),PY(YO+1),BW,BH,"9","kp_9",KBD_kp9); AddKeyButtonEvent(PX(XO+3),PY(YO+1),BW,BH*2,"+","kp_plus",KBD_kpplus); AddKeyButtonEvent(PX(XO),PY(YO+2),BW,BH,"4","kp_4",KBD_kp4); AddKeyButtonEvent(PX(XO+1),PY(YO+2),BW,BH,"5","kp_5",KBD_kp5); AddKeyButtonEvent(PX(XO+2),PY(YO+2),BW,BH,"6","kp_6",KBD_kp6); AddKeyButtonEvent(PX(XO+0),PY(YO+3),BW,BH,"1","kp_1",KBD_kp1); AddKeyButtonEvent(PX(XO+1),PY(YO+3),BW,BH,"2","kp_2",KBD_kp2); AddKeyButtonEvent(PX(XO+2),PY(YO+3),BW,BH,"3","kp_3",KBD_kp3); AddKeyButtonEvent(PX(XO+3),PY(YO+3),BW,BH*2,"ENT","kp_enter",KBD_kpenter); AddKeyButtonEvent(PX(XO),PY(YO+4),BW*2,BH,"0","kp_0",KBD_kp0); AddKeyButtonEvent(PX(XO+2),PY(YO+4),BW,BH,".","kp_period",KBD_kpperiod); #undef XO #undef YO #define XO 10 #define YO 8 /* Joystick Buttons/Texts */ /* Buttons 1+2 of 1st Joystick */ AddJButtonButton(PX(XO),PY(YO),BW,BH,"1" ,0,0); AddJButtonButton(PX(XO+2),PY(YO),BW,BH,"2" ,0,1); /* Axes 1+2 (X+Y) of 1st Joystick */ CJAxisEvent * cjaxis=AddJAxisButton(PX(XO+1),PY(YO),BW,BH,"Y-",0,1,false,NULL); AddJAxisButton (PX(XO+1),PY(YO+1),BW,BH,"Y+",0,1,true,cjaxis); cjaxis=AddJAxisButton (PX(XO),PY(YO+1),BW,BH,"X-",0,0,false,NULL); AddJAxisButton (PX(XO+2),PY(YO+1),BW,BH,"X+",0,0,true,cjaxis); if (joytype==JOY_2AXIS) { /* Buttons 1+2 of 2nd Joystick */ AddJButtonButton(PX(XO+4),PY(YO),BW,BH,"1" ,1,0); AddJButtonButton(PX(XO+4+2),PY(YO),BW,BH,"2" ,1,1); /* Buttons 3+4 of 1st Joystick, not accessible */ AddJButtonButton_hidden(0,2); AddJButtonButton_hidden(0,3); /* Axes 1+2 (X+Y) of 2nd Joystick */ cjaxis= AddJAxisButton(PX(XO+4),PY(YO+1),BW,BH,"X-",1,0,false,NULL); AddJAxisButton(PX(XO+4+2),PY(YO+1),BW,BH,"X+",1,0,true,cjaxis); cjaxis= AddJAxisButton(PX(XO+4+1),PY(YO+0),BW,BH,"Y-",1,1,false,NULL); AddJAxisButton(PX(XO+4+1),PY(YO+1),BW,BH,"Y+",1,1,true,cjaxis); /* Axes 3+4 (X+Y) of 1st Joystick, not accessible */ cjaxis= AddJAxisButton_hidden(0,2,false,NULL); AddJAxisButton_hidden(0,2,true,cjaxis); cjaxis= AddJAxisButton_hidden(0,3,false,NULL); AddJAxisButton_hidden(0,3,true,cjaxis); } else { /* Buttons 3+4 of 1st Joystick */ AddJButtonButton(PX(XO+4),PY(YO),BW,BH,"3" ,0,2); AddJButtonButton(PX(XO+4+2),PY(YO),BW,BH,"4" ,0,3); /* Buttons 1+2 of 2nd Joystick, not accessible */ AddJButtonButton_hidden(1,0); AddJButtonButton_hidden(1,1); /* Axes 3+4 (X+Y) of 1st Joystick */ cjaxis= AddJAxisButton(PX(XO+4),PY(YO+1),BW,BH,"X-",0,2,false,NULL); AddJAxisButton(PX(XO+4+2),PY(YO+1),BW,BH,"X+",0,2,true,cjaxis); cjaxis= AddJAxisButton(PX(XO+4+1),PY(YO+0),BW,BH,"Y-",0,3,false,NULL); AddJAxisButton(PX(XO+4+1),PY(YO+1),BW,BH,"Y+",0,3,true,cjaxis); /* Axes 1+2 (X+Y) of 2nd Joystick , not accessible*/ cjaxis= AddJAxisButton_hidden(1,0,false,NULL); AddJAxisButton_hidden(1,0,true,cjaxis); cjaxis= AddJAxisButton_hidden(1,1,false,NULL); AddJAxisButton_hidden(1,1,true,cjaxis); } if (joytype==JOY_CH) { /* Buttons 5+6 of 1st Joystick */ AddJButtonButton(PX(XO+8),PY(YO),BW,BH,"5" ,0,4); AddJButtonButton(PX(XO+8+2),PY(YO),BW,BH,"6" ,0,5); } else { /* Buttons 5+6 of 1st Joystick, not accessible */ AddJButtonButton_hidden(0,4); AddJButtonButton_hidden(0,5); } /* Hat directions up, left, down, right */ AddJHatButton(PX(XO+8+1),PY(YO),BW,BH,"UP",0,0,0); AddJHatButton(PX(XO+8+0),PY(YO+1),BW,BH,"LFT",0,0,3); AddJHatButton(PX(XO+8+1),PY(YO+1),BW,BH,"DWN",0,0,2); AddJHatButton(PX(XO+8+2),PY(YO+1),BW,BH,"RGT",0,0,1); /* Labels for the joystick */ if (joytype ==JOY_2AXIS) { new CTextButton(PX(XO+0),PY(YO-1),3*BW,20,"Joystick 1"); new CTextButton(PX(XO+4),PY(YO-1),3*BW,20,"Joystick 2"); new CTextButton(PX(XO+8),PY(YO-1),3*BW,20,"Disabled"); } else if(joytype ==JOY_4AXIS || joytype == JOY_4AXIS_2) { new CTextButton(PX(XO+0),PY(YO-1),3*BW,20,"Axis 1/2"); new CTextButton(PX(XO+4),PY(YO-1),3*BW,20,"Axis 3/4"); new CTextButton(PX(XO+8),PY(YO-1),3*BW,20,"Disabled"); } else if(joytype == JOY_CH) { new CTextButton(PX(XO+0),PY(YO-1),3*BW,20,"Axis 1/2"); new CTextButton(PX(XO+4),PY(YO-1),3*BW,20,"Axis 3/4"); new CTextButton(PX(XO+8),PY(YO-1),3*BW,20,"Hat/D-pad"); } else if ( joytype==JOY_FCS) { new CTextButton(PX(XO+0),PY(YO-1),3*BW,20,"Axis 1/2"); new CTextButton(PX(XO+4),PY(YO-1),3*BW,20,"Axis 3"); new CTextButton(PX(XO+8),PY(YO-1),3*BW,20,"Hat/D-pad"); } else if(joytype == JOY_NONE) { new CTextButton(PX(XO+0),PY(YO-1),3*BW,20,"Disabled"); new CTextButton(PX(XO+4),PY(YO-1),3*BW,20,"Disabled"); new CTextButton(PX(XO+8),PY(YO-1),3*BW,20,"Disabled"); } /* The modifier buttons */ AddModButton(PX(0),PY(14),50,20,"Mod1",1); AddModButton(PX(2),PY(14),50,20,"Mod2",2); AddModButton(PX(4),PY(14),50,20,"Mod3",3); /* Create Handler buttons */ Bitu xpos=3;Bitu ypos=11; for (CHandlerEventVector_it hit=handlergroup.begin();hit!=handlergroup.end();hit++) { new CEventButton(PX(xpos*3),PY(ypos),BW*3,BH,(*hit)->ButtonName(),(*hit)); xpos++; if (xpos>6) { xpos=3;ypos++; } } /* Create some text buttons */ // new CTextButton(PX(6),0,124,20,"Keyboard Layout"); // new CTextButton(PX(17),0,124,20,"Joystick Layout"); bind_but.action=new CCaptionButton(180,330,0,0); bind_but.event_title=new CCaptionButton(0,350,0,0); bind_but.bind_title=new CCaptionButton(0,365,0,0); /* Create binding support buttons */ bind_but.mod1=new CCheckButton(20,410,60,20, "mod1",BC_Mod1); bind_but.mod2=new CCheckButton(20,432,60,20, "mod2",BC_Mod2); bind_but.mod3=new CCheckButton(20,454,60,20, "mod3",BC_Mod3); bind_but.hold=new CCheckButton(100,410,60,20,"hold",BC_Hold); bind_but.next=new CBindButton(250,400,50,20,"Next",BB_Next); bind_but.add=new CBindButton(250,380,50,20,"Add",BB_Add); bind_but.del=new CBindButton(300,380,50,20,"Del",BB_Del); bind_but.save=new CBindButton(400,450,50,20,"Save",BB_Save); bind_but.exit=new CBindButton(450,450,50,20,"Exit",BB_Exit); bind_but.bind_title->Change("Bind Title"); } static SDL_Color map_pal[5]={ {0x00,0x00,0x00,0x00}, //0=black {0xff,0xff,0xff,0x00}, //1=white {0xff,0x00,0x00,0x00}, //2=red {0x10,0x30,0xff,0x00}, //3=blue {0x00,0xff,0x20,0x00} //4=green }; static void CreateStringBind(char * line) { line=trim(line); char * eventname=StripWord(line); CEvent * event; for (CEventVector_it ev_it=events.begin();ev_it!=events.end();ev_it++) { if (!strcasecmp((*ev_it)->GetName(),eventname)) { event=*ev_it; goto foundevent; } } LOG_MSG("Can't find matching event for %s",eventname); return ; foundevent: CBind * bind; for (char * bindline=StripWord(line);*bindline;bindline=StripWord(line)) { for (CBindGroup_it it=bindgroups.begin();it!=bindgroups.end();it++) { bind=(*it)->CreateConfigBind(bindline); if (bind) { event->AddBind(bind); bind->SetFlags(bindline); break; } } } } static struct { const char * eventend; Bitu key; } DefaultKeys[]={ {"f1",SDLK_F1}, {"f2",SDLK_F2}, {"f3",SDLK_F3}, {"f4",SDLK_F4}, {"f5",SDLK_F5}, {"f6",SDLK_F6}, {"f7",SDLK_F7}, {"f8",SDLK_F8}, {"f9",SDLK_F9}, {"f10",SDLK_F10}, {"f11",SDLK_F11}, {"f12",SDLK_F12}, {"1",SDLK_1}, {"2",SDLK_2}, {"3",SDLK_3}, {"4",SDLK_4}, {"5",SDLK_5}, {"6",SDLK_6}, {"7",SDLK_7}, {"8",SDLK_8}, {"9",SDLK_9}, {"0",SDLK_0}, {"a",SDLK_a}, {"b",SDLK_b}, {"c",SDLK_c}, {"d",SDLK_d}, {"e",SDLK_e}, {"f",SDLK_f}, {"g",SDLK_g}, {"h",SDLK_h}, {"i",SDLK_i}, {"j",SDLK_j}, {"k",SDLK_k}, {"l",SDLK_l}, {"m",SDLK_m}, {"n",SDLK_n}, {"o",SDLK_o}, {"p",SDLK_p}, {"q",SDLK_q}, {"r",SDLK_r}, {"s",SDLK_s}, {"t",SDLK_t}, {"u",SDLK_u}, {"v",SDLK_v}, {"w",SDLK_w}, {"x",SDLK_x}, {"y",SDLK_y}, {"z",SDLK_z}, {"space",SDLK_SPACE}, {"esc",SDLK_ESCAPE}, {"equals",SDLK_EQUALS}, {"grave",SDLK_BACKQUOTE}, {"tab",SDLK_TAB}, {"enter",SDLK_RETURN}, {"bspace",SDLK_BACKSPACE}, {"lbracket",SDLK_LEFTBRACKET}, {"rbracket",SDLK_RIGHTBRACKET}, {"minus",SDLK_MINUS}, {"capslock",SDLK_CAPSLOCK}, {"semicolon",SDLK_SEMICOLON}, {"quote", SDLK_QUOTE}, {"backslash",SDLK_BACKSLASH}, {"lshift",SDLK_LSHIFT}, {"rshift",SDLK_RSHIFT}, {"lalt",SDLK_LALT}, {"ralt",SDLK_RALT}, {"lctrl",SDLK_LCTRL}, {"rctrl",SDLK_RCTRL}, {"comma",SDLK_COMMA}, {"period",SDLK_PERIOD}, {"slash",SDLK_SLASH}, {"printscreen",SDLK_PRINT}, {"scrolllock",SDLK_SCROLLOCK}, {"pause",SDLK_PAUSE}, {"pagedown",SDLK_PAGEDOWN}, {"pageup",SDLK_PAGEUP}, {"insert",SDLK_INSERT}, {"home",SDLK_HOME}, {"delete",SDLK_DELETE}, {"end",SDLK_END}, {"up",SDLK_UP}, {"left",SDLK_LEFT}, {"down",SDLK_DOWN}, {"right",SDLK_RIGHT}, {"kp_0",SDLK_KP0}, {"kp_1",SDLK_KP1}, {"kp_2",SDLK_KP2}, {"kp_3",SDLK_KP3}, {"kp_4",SDLK_KP4}, {"kp_5",SDLK_KP5}, {"kp_6",SDLK_KP6}, {"kp_7",SDLK_KP7}, {"kp_8",SDLK_KP8}, {"kp_9",SDLK_KP9}, {"numlock",SDLK_NUMLOCK}, {"kp_divide",SDLK_KP_DIVIDE}, {"kp_multiply",SDLK_KP_MULTIPLY}, {"kp_minus",SDLK_KP_MINUS}, {"kp_plus",SDLK_KP_PLUS}, {"kp_period",SDLK_KP_PERIOD}, {"kp_enter",SDLK_KP_ENTER}, #if defined (MACOSX) /* Intl Mac keyboards in US layout actually put U+00A7 SECTION SIGN here */ {"lessthan",SDLK_WORLD_0}, #else {"lessthan",SDLK_LESS}, #endif {0,0} }; static void CreateDefaultBinds(void) { char buffer[512]; Bitu i=0; while (DefaultKeys[i].eventend) { sprintf(buffer,"key_%s \"key %d\"",DefaultKeys[i].eventend,DefaultKeys[i].key); CreateStringBind(buffer); i++; } sprintf(buffer,"mod_1 \"key %d\"",SDLK_RCTRL);CreateStringBind(buffer); sprintf(buffer,"mod_1 \"key %d\"",SDLK_LCTRL);CreateStringBind(buffer); sprintf(buffer,"mod_2 \"key %d\"",SDLK_RALT);CreateStringBind(buffer); sprintf(buffer,"mod_2 \"key %d\"",SDLK_LALT);CreateStringBind(buffer); for (CHandlerEventVector_it hit=handlergroup.begin();hit!=handlergroup.end();hit++) { (*hit)->MakeDefaultBind(buffer); CreateStringBind(buffer); } /* joystick1, buttons 1-6 */ sprintf(buffer,"jbutton_0_0 \"stick_0 button 0\" ");CreateStringBind(buffer); sprintf(buffer,"jbutton_0_1 \"stick_0 button 1\" ");CreateStringBind(buffer); sprintf(buffer,"jbutton_0_2 \"stick_0 button 2\" ");CreateStringBind(buffer); sprintf(buffer,"jbutton_0_3 \"stick_0 button 3\" ");CreateStringBind(buffer); sprintf(buffer,"jbutton_0_4 \"stick_0 button 4\" ");CreateStringBind(buffer); sprintf(buffer,"jbutton_0_5 \"stick_0 button 5\" ");CreateStringBind(buffer); /* joystick2, buttons 1-2 */ sprintf(buffer,"jbutton_1_0 \"stick_1 button 0\" ");CreateStringBind(buffer); sprintf(buffer,"jbutton_1_1 \"stick_1 button 1\" ");CreateStringBind(buffer); /* joystick1, axes 1-4 */ sprintf(buffer,"jaxis_0_0- \"stick_0 axis 0 0\" ");CreateStringBind(buffer); sprintf(buffer,"jaxis_0_0+ \"stick_0 axis 0 1\" ");CreateStringBind(buffer); sprintf(buffer,"jaxis_0_1- \"stick_0 axis 1 0\" ");CreateStringBind(buffer); sprintf(buffer,"jaxis_0_1+ \"stick_0 axis 1 1\" ");CreateStringBind(buffer); sprintf(buffer,"jaxis_0_2- \"stick_0 axis 2 0\" ");CreateStringBind(buffer); sprintf(buffer,"jaxis_0_2+ \"stick_0 axis 2 1\" ");CreateStringBind(buffer); sprintf(buffer,"jaxis_0_3- \"stick_0 axis 3 0\" ");CreateStringBind(buffer); sprintf(buffer,"jaxis_0_3+ \"stick_0 axis 3 1\" ");CreateStringBind(buffer); /* joystick2, axes 1-2 */ sprintf(buffer,"jaxis_1_0- \"stick_1 axis 0 0\" ");CreateStringBind(buffer); sprintf(buffer,"jaxis_1_0+ \"stick_1 axis 0 1\" ");CreateStringBind(buffer); sprintf(buffer,"jaxis_1_1- \"stick_1 axis 1 0\" ");CreateStringBind(buffer); sprintf(buffer,"jaxis_1_1+ \"stick_1 axis 1 1\" ");CreateStringBind(buffer); /* joystick1, hat */ sprintf(buffer,"jhat_0_0_0 \"stick_0 hat 0 1\" ");CreateStringBind(buffer); sprintf(buffer,"jhat_0_0_1 \"stick_0 hat 0 2\" ");CreateStringBind(buffer); sprintf(buffer,"jhat_0_0_2 \"stick_0 hat 0 4\" ");CreateStringBind(buffer); sprintf(buffer,"jhat_0_0_3 \"stick_0 hat 0 8\" ");CreateStringBind(buffer); } void MAPPER_AddHandler(MAPPER_Handler * handler,MapKeys key,Bitu mods,char const * const eventname,char const * const buttonname) { //Check if it allready exists=> if so return. for(CHandlerEventVector_it it=handlergroup.begin();it!=handlergroup.end();it++) if(strcmp((*it)->buttonname,buttonname) == 0) return; char tempname[17]; strcpy(tempname,"hand_"); strcat(tempname,eventname); new CHandlerEvent(tempname,handler,key,mods,buttonname); return ; } static void MAPPER_SaveBinds(void) { FILE * savefile=fopen(mapper.filename.c_str(),"wt+"); if (!savefile) { LOG_MSG("Can't open %s for saving the mappings",mapper.filename.c_str()); return; } char buf[128]; for (CEventVector_it event_it=events.begin();event_it!=events.end();event_it++) { CEvent * event=*(event_it); fprintf(savefile,"%s ",event->GetName()); for (CBindList_it bind_it=event->bindlist.begin();bind_it!=event->bindlist.end();bind_it++) { CBind * bind=*(bind_it); bind->ConfigName(buf); bind->AddFlags(buf); fprintf(savefile,"\"%s\" ",buf); } fprintf(savefile,"\n"); } fclose(savefile); change_action_text("Mapper file saved.",CLR_WHITE); } static bool MAPPER_LoadBinds(void) { FILE * loadfile=fopen(mapper.filename.c_str(),"rt"); if (!loadfile) return false; char linein[512]; while (fgets(linein,512,loadfile)) { CreateStringBind(linein); } fclose(loadfile); LOG_MSG("MAPPER: Loading mapper settings from %s", mapper.filename.c_str()); return true; } void MAPPER_CheckEvent(SDL_Event * event) { for (CBindGroup_it it=bindgroups.begin();it!=bindgroups.end();it++) { if ((*it)->CheckEvent(event)) return; } } void BIND_MappingEvents(void) { SDL_Event event; while (SDL_PollEvent(&event)) { switch (event.type) { case SDL_MOUSEBUTTONUP: /* Check the press */ for (CButton_it but_it = buttons.begin();but_it!=buttons.end();but_it++) { if ((*but_it)->OnTop(event.button.x,event.button.y)) { (*but_it)->Click(); } } break; case SDL_QUIT: mapper.exit=true; break; default: if (mapper.addbind) for (CBindGroup_it it=bindgroups.begin();it!=bindgroups.end();it++) { CBind * newbind=(*it)->CreateEventBind(&event); if (!newbind) continue; mapper.aevent->AddBind(newbind); SetActiveEvent(mapper.aevent); mapper.addbind=false; break; } } } } static void InitializeJoysticks(void) { mapper.sticks.num=0; mapper.sticks.num_groups=0; if (joytype != JOY_NONE) { mapper.sticks.num=SDL_NumJoysticks(); if (joytype==JOY_AUTO) { // try to figure out what joystick type to select // depending on the number of physically attached joysticks if (mapper.sticks.num>1) { // more than one joystick present; if all are acceptable use 2axis // to allow emulation of two joysticks bool first_usable=false; SDL_Joystick* tmp_stick1=SDL_JoystickOpen(0); if (tmp_stick1) { if ((SDL_JoystickNumAxes(tmp_stick1)>1) || (SDL_JoystickNumButtons(tmp_stick1)>0)) { first_usable=true; } SDL_JoystickClose(tmp_stick1); } bool second_usable=false; SDL_Joystick* tmp_stick2=SDL_JoystickOpen(1); if (tmp_stick2) { if ((SDL_JoystickNumAxes(tmp_stick2)>1) || (SDL_JoystickNumButtons(tmp_stick2)>0)) { second_usable=true; } SDL_JoystickClose(tmp_stick2); } // choose joystick type now that we know which physical joysticks are usable if (first_usable) { if (second_usable) { joytype=JOY_2AXIS; LOG_MSG("Two or more joysticks reported, initializing with 2axis"); } else { joytype=JOY_4AXIS; LOG_MSG("One joystick reported, initializing with 4axis"); } } else if (second_usable) { joytype=JOY_4AXIS_2; LOG_MSG("One joystick reported, initializing with 4axis_2"); } } else if (mapper.sticks.num) { // one joystick present; if it is acceptable use 4axis joytype=JOY_NONE; SDL_Joystick* tmp_stick1=SDL_JoystickOpen(0); if (tmp_stick1) { if ((SDL_JoystickNumAxes(tmp_stick1)>0) || (SDL_JoystickNumButtons(tmp_stick1)>0)) { joytype=JOY_4AXIS; LOG_MSG("One joystick reported, initializing with 4axis"); } } } else { joytype=JOY_NONE; } } } } static void CreateBindGroups(void) { bindgroups.clear(); new CKeyBindGroup(SDLK_LAST); if (joytype != JOY_NONE) { #if defined (REDUCE_JOYSTICK_POLLING) // direct access to the SDL joystick, thus removed from the event handling if (mapper.sticks.num) SDL_JoystickEventState(SDL_DISABLE); #else // enable joystick event handling if (mapper.sticks.num) SDL_JoystickEventState(SDL_ENABLE); else return; #endif Bit8u joyno=0; switch (joytype) { case JOY_NONE: break; case JOY_4AXIS: mapper.sticks.stick[mapper.sticks.num_groups++]=new C4AxisBindGroup(joyno,joyno); new CStickBindGroup(joyno+1U,joyno+1U,true); break; case JOY_4AXIS_2: mapper.sticks.stick[mapper.sticks.num_groups++]=new C4AxisBindGroup(joyno+1U,joyno); new CStickBindGroup(joyno,joyno+1U,true); break; case JOY_FCS: mapper.sticks.stick[mapper.sticks.num_groups++]=new CFCSBindGroup(joyno,joyno); new CStickBindGroup(joyno+1U,joyno+1U,true); break; case JOY_CH: mapper.sticks.stick[mapper.sticks.num_groups++]=new CCHBindGroup(joyno,joyno); new CStickBindGroup(joyno+1U,joyno+1U,true); break; case JOY_2AXIS: default: mapper.sticks.stick[mapper.sticks.num_groups++]=new CStickBindGroup(joyno,joyno); if((joyno+1U) < mapper.sticks.num) { mapper.sticks.stick[mapper.sticks.num_groups++]=new CStickBindGroup(joyno+1U,joyno+1U); } else { new CStickBindGroup(joyno+1U,joyno+1U,true); } break; } } } #if defined (REDUCE_JOYSTICK_POLLING) void MAPPER_UpdateJoysticks(void) { for (Bitu i=0; iUpdateJoystick(); } } #endif void MAPPER_LosingFocus(void) { for (CEventVector_it evit=events.begin();evit!=events.end();evit++) { if(*evit != caps_lock_event && *evit != num_lock_event) (*evit)->DeActivateAll(); } } void MAPPER_Run(bool pressed) { if (pressed) return; KEYBOARD_ClrBuffer(); //Clear buffer GFX_LosingFocus(); //Release any keys pressed (buffer gets filled again). MAPPER_RunInternal(); } void MAPPER_RunInternal() { int cursor = SDL_ShowCursor(SDL_QUERY); SDL_ShowCursor(SDL_ENABLE); bool mousetoggle=false; if(mouselocked) { mousetoggle=true; GFX_CaptureMouse(); } /* Be sure that there is no update in progress */ GFX_EndUpdate( 0 ); mapper.surface=SDL_SetVideoMode(640,480,8,0); if (mapper.surface == NULL) E_Exit("Could not initialize video mode for mapper: %s",SDL_GetError()); /* Set some palette entries */ SDL_SetPalette(mapper.surface, SDL_LOGPAL|SDL_PHYSPAL, map_pal, 0, 5); if (last_clicked) { last_clicked->SetColor(CLR_WHITE); last_clicked=NULL; } /* Go in the event loop */ mapper.exit=false; mapper.redraw=true; SetActiveEvent(0); #if defined (REDUCE_JOYSTICK_POLLING) SDL_JoystickEventState(SDL_ENABLE); #endif while (!mapper.exit) { if (mapper.redraw) { mapper.redraw=false; DrawButtons(); } BIND_MappingEvents(); SDL_Delay(1); } #if defined (REDUCE_JOYSTICK_POLLING) SDL_JoystickEventState(SDL_DISABLE); #endif if(mousetoggle) GFX_CaptureMouse(); SDL_ShowCursor(cursor); GFX_ResetScreen(); } void MAPPER_Init(void) { InitializeJoysticks(); CreateLayout(); CreateBindGroups(); if (!MAPPER_LoadBinds()) CreateDefaultBinds(); if (SDL_GetModState()&KMOD_CAPS) { for (CBindList_it bit=caps_lock_event->bindlist.begin();bit!=caps_lock_event->bindlist.end();bit++) { (*bit)->ActivateBind(32767,true,true); #if SDL_VERSION_ATLEAST(1, 2, 14) (*bit)->DeActivateBind(false); #endif } } if (SDL_GetModState()&KMOD_NUM) { for (CBindList_it bit=num_lock_event->bindlist.begin();bit!=num_lock_event->bindlist.end();bit++) { (*bit)->ActivateBind(32767,true,true); #if SDL_VERSION_ATLEAST(1, 2, 14) (*bit)->DeActivateBind(false); #endif } } } //Somehow including them at the top conflicts with something in setup.h #ifdef C_X11_XKB #include "SDL_syswm.h" #include #endif void MAPPER_StartUp(Section * sec) { Section_prop * section=static_cast(sec); mapper.sticks.num=0; mapper.sticks.num_groups=0; Bitu i; for (i=0; i<16; i++) { virtual_joysticks[0].button_pressed[i]=false; virtual_joysticks[1].button_pressed[i]=false; virtual_joysticks[0].hat_pressed[i]=false; virtual_joysticks[1].hat_pressed[i]=false; } for (i=0; i<8; i++) { virtual_joysticks[0].axis_pos[i]=0; virtual_joysticks[0].axis_pos[i]=0; } usescancodes = false; if (section->Get_bool("usescancodes")) { usescancodes=true; /* Note: table has to be tested/updated for various OSs */ #if defined (MACOSX) /* nothing */ #elif defined(OS2) sdlkey_map[0x61]=SDLK_UP; sdlkey_map[0x66]=SDLK_DOWN; sdlkey_map[0x63]=SDLK_LEFT; sdlkey_map[0x64]=SDLK_RIGHT; sdlkey_map[0x60]=SDLK_HOME; sdlkey_map[0x65]=SDLK_END; sdlkey_map[0x62]=SDLK_PAGEUP; sdlkey_map[0x67]=SDLK_PAGEDOWN; sdlkey_map[0x68]=SDLK_INSERT; sdlkey_map[0x69]=SDLK_DELETE; sdlkey_map[0x5C]=SDLK_KP_DIVIDE; sdlkey_map[0x5A]=SDLK_KP_ENTER; sdlkey_map[0x5B]=SDLK_RCTRL; sdlkey_map[0x5F]=SDLK_PAUSE; // sdlkey_map[0x00]=SDLK_PRINT; sdlkey_map[0x5E]=SDLK_RALT; sdlkey_map[0x40]=SDLK_KP5; sdlkey_map[0x41]=SDLK_KP6; #elif !defined (WIN32) /* => Linux & BSDs */ bool evdev_input = false; #ifdef C_X11_XKB SDL_SysWMinfo info; SDL_VERSION(&info.version); if (SDL_GetWMInfo(&info)) { XkbDescPtr desc = NULL; if((desc = XkbGetMap(info.info.x11.display,XkbAllComponentsMask,XkbUseCoreKbd))) { if(XkbGetNames(info.info.x11.display,XkbAllNamesMask,desc) == 0) { const char* keycodes = XGetAtomName(info.info.x11.display, desc->names->keycodes); // const char* geom = XGetAtomName(info.info.x11.display, desc->names->geometry); if(keycodes) { LOG(LOG_MISC,LOG_NORMAL)("keyboard type %s",keycodes); if (strncmp(keycodes,"evdev",5) == 0) evdev_input = true; } XkbFreeNames(desc,XkbAllNamesMask,True); } XkbFreeClientMap(desc,0,True); } } #endif if (evdev_input) { sdlkey_map[0x67]=SDLK_UP; sdlkey_map[0x6c]=SDLK_DOWN; sdlkey_map[0x69]=SDLK_LEFT; sdlkey_map[0x6a]=SDLK_RIGHT; sdlkey_map[0x66]=SDLK_HOME; sdlkey_map[0x6b]=SDLK_END; sdlkey_map[0x68]=SDLK_PAGEUP; sdlkey_map[0x6d]=SDLK_PAGEDOWN; sdlkey_map[0x6e]=SDLK_INSERT; sdlkey_map[0x6f]=SDLK_DELETE; sdlkey_map[0x62]=SDLK_KP_DIVIDE; sdlkey_map[0x60]=SDLK_KP_ENTER; sdlkey_map[0x61]=SDLK_RCTRL; sdlkey_map[0x77]=SDLK_PAUSE; sdlkey_map[0x63]=SDLK_PRINT; sdlkey_map[0x64]=SDLK_RALT; } else { sdlkey_map[0x5a]=SDLK_UP; sdlkey_map[0x60]=SDLK_DOWN; sdlkey_map[0x5c]=SDLK_LEFT; sdlkey_map[0x5e]=SDLK_RIGHT; sdlkey_map[0x59]=SDLK_HOME; sdlkey_map[0x5f]=SDLK_END; sdlkey_map[0x5b]=SDLK_PAGEUP; sdlkey_map[0x61]=SDLK_PAGEDOWN; sdlkey_map[0x62]=SDLK_INSERT; sdlkey_map[0x63]=SDLK_DELETE; sdlkey_map[0x68]=SDLK_KP_DIVIDE; sdlkey_map[0x64]=SDLK_KP_ENTER; sdlkey_map[0x65]=SDLK_RCTRL; sdlkey_map[0x66]=SDLK_PAUSE; sdlkey_map[0x67]=SDLK_PRINT; sdlkey_map[0x69]=SDLK_RALT; } #else sdlkey_map[0xc8]=SDLK_UP; sdlkey_map[0xd0]=SDLK_DOWN; sdlkey_map[0xcb]=SDLK_LEFT; sdlkey_map[0xcd]=SDLK_RIGHT; sdlkey_map[0xc7]=SDLK_HOME; sdlkey_map[0xcf]=SDLK_END; sdlkey_map[0xc9]=SDLK_PAGEUP; sdlkey_map[0xd1]=SDLK_PAGEDOWN; sdlkey_map[0xd2]=SDLK_INSERT; sdlkey_map[0xd3]=SDLK_DELETE; sdlkey_map[0xb5]=SDLK_KP_DIVIDE; sdlkey_map[0x9c]=SDLK_KP_ENTER; sdlkey_map[0x9d]=SDLK_RCTRL; sdlkey_map[0xc5]=SDLK_PAUSE; sdlkey_map[0xb7]=SDLK_PRINT; sdlkey_map[0xb8]=SDLK_RALT; #endif Bitu i; for (i=0; iGet_path("mapperfile"); mapper.filename = pp->realpath; MAPPER_AddHandler(&MAPPER_Run,MK_f1,MMOD1,"mapper","Mapper"); }