/* Copyright (C) 1996-1997 Id Software, Inc. 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. */ // in_win.c -- windows 95 mouse and joystick code // 02/21/97 JCB Added extended DirectInput code to support external controllers. #define DIRECTINPUT_VERSION 0x0700 #include #include "quakedef.h" #include "winquake.h" #define DINPUT_BUFFERSIZE 16 #define iDirectInputCreate(a,b,c,d) pDirectInputCreate(a,b,c,d) HRESULT (WINAPI *pDirectInputCreate)(HINSTANCE hinst, DWORD dwVersion, LPDIRECTINPUT * lplpDirectInput, LPUNKNOWN punkOuter); // mouse variables cvar_t m_filter = {"m_filter", "0"}; // compatibility with old Quake -- setting to 0 disables KP_* codes cvar_t cl_keypad = {"cl_keypad", "1"}; int mouse_buttons; int mouse_oldbuttonstate; POINT current_pos; double mouse_x, mouse_y; int old_mouse_x, old_mouse_y, mx_accum, my_accum; static qboolean restore_spi; static int originalmouseparms[3], newmouseparms[3] = {0, 0, 1}; unsigned int uiWheelMessage; qboolean mouseactive; qboolean mouseinitialized; static qboolean mouseparmsvalid, mouseactivatetoggle; static qboolean mouseshowtoggle = 1; static qboolean dinput_acquired; static unsigned int mstate_di; // joystick defines and variables // where should defines be moved? #define JOY_ABSOLUTE_AXIS 0x00000000 // control like a joystick #define JOY_RELATIVE_AXIS 0x00000010 // control like a mouse, spinner, trackball #define JOY_MAX_AXES 6 // X, Y, Z, R, U, V #define JOY_AXIS_X 0 #define JOY_AXIS_Y 1 #define JOY_AXIS_Z 2 #define JOY_AXIS_R 3 #define JOY_AXIS_U 4 #define JOY_AXIS_V 5 enum _ControlList { AxisNada = 0, AxisForward, AxisLook, AxisSide, AxisTurn }; DWORD dwAxisFlags[JOY_MAX_AXES] = { JOY_RETURNX, JOY_RETURNY, JOY_RETURNZ, JOY_RETURNR, JOY_RETURNU, JOY_RETURNV }; DWORD dwAxisMap[JOY_MAX_AXES]; DWORD dwControlMap[JOY_MAX_AXES]; PDWORD pdwRawValue[JOY_MAX_AXES]; // none of these cvars are saved over a session // this means that advanced controller configuration needs to be executed // each time. this avoids any problems with getting back to a default usage // or when changing from one controller to another. this way at least something // works. cvar_t in_joystick = {"joystick", "0", CVAR_ARCHIVE}; cvar_t joy_name = {"joyname", "joystick"}; cvar_t joy_advanced = {"joyadvanced", "0"}; cvar_t joy_advaxisx = {"joyadvaxisx", "0"}; cvar_t joy_advaxisy = {"joyadvaxisy", "0"}; cvar_t joy_advaxisz = {"joyadvaxisz", "0"}; cvar_t joy_advaxisr = {"joyadvaxisr", "0"}; cvar_t joy_advaxisu = {"joyadvaxisu", "0"}; cvar_t joy_advaxisv = {"joyadvaxisv", "0"}; cvar_t joy_forwardthreshold = {"joyforwardthreshold", "0.15"}; cvar_t joy_sidethreshold = {"joysidethreshold", "0.15"}; cvar_t joy_pitchthreshold = {"joypitchthreshold", "0.15"}; cvar_t joy_yawthreshold = {"joyyawthreshold", "0.15"}; cvar_t joy_forwardsensitivity = {"joyforwardsensitivity", "-1.0"}; cvar_t joy_sidesensitivity = {"joysidesensitivity", "-1.0"}; cvar_t joy_pitchsensitivity = {"joypitchsensitivity", "1.0"}; cvar_t joy_yawsensitivity = {"joyyawsensitivity", "-1.0"}; cvar_t joy_wwhack1 = {"joywwhack1", "0.0"}; cvar_t joy_wwhack2 = {"joywwhack2", "0.0"}; qboolean joy_avail, joy_advancedinit, joy_haspov; DWORD joy_oldbuttonstate, joy_oldpovstate; int joy_id; DWORD joy_flags; DWORD joy_numbuttons; static LPDIRECTINPUT g_pdi; static LPDIRECTINPUTDEVICE g_pMouse; static JOYINFOEX ji; static HINSTANCE hInstDI; static qboolean dinput; typedef struct MYDATA { LONG lX; // X axis goes here LONG lY; // Y axis goes here LONG lZ; // Z axis goes here BYTE bButtonA; // One button goes here BYTE bButtonB; // Another button goes here BYTE bButtonC; // Another button goes here BYTE bButtonD; // Another button goes here } MYDATA; static DIOBJECTDATAFORMAT rgodf[] = { { &GUID_XAxis, FIELD_OFFSET(MYDATA, lX), DIDFT_AXIS | DIDFT_ANYINSTANCE, 0,}, { &GUID_YAxis, FIELD_OFFSET(MYDATA, lY), DIDFT_AXIS | DIDFT_ANYINSTANCE, 0,}, { &GUID_ZAxis, FIELD_OFFSET(MYDATA, lZ), 0x80000000 | DIDFT_AXIS | DIDFT_ANYINSTANCE, 0,}, { 0, FIELD_OFFSET(MYDATA, bButtonA), DIDFT_BUTTON | DIDFT_ANYINSTANCE, 0,}, { 0, FIELD_OFFSET(MYDATA, bButtonB), DIDFT_BUTTON | DIDFT_ANYINSTANCE, 0,}, { 0, FIELD_OFFSET(MYDATA, bButtonC), 0x80000000 | DIDFT_BUTTON | DIDFT_ANYINSTANCE, 0,}, { 0, FIELD_OFFSET(MYDATA, bButtonD), 0x80000000 | DIDFT_BUTTON | DIDFT_ANYINSTANCE, 0,}, }; #define NUM_OBJECTS (sizeof(rgodf) / sizeof(rgodf[0])) static DIDATAFORMAT df = { sizeof(DIDATAFORMAT), // this structure sizeof(DIOBJECTDATAFORMAT), // size of object data format DIDF_RELAXIS, // absolute axis coordinates sizeof(MYDATA), // device data size NUM_OBJECTS, // number of objects rgodf, // and here they are }; // forward-referenced functions void IN_StartupJoystick (void); void Joy_AdvancedUpdate_f (void); void IN_JoyMove (usercmd_t *cmd); cvar_t m_rate = {"m_rate", "60"}; cvar_t m_showrate = {"m_showrate", "0"}; qboolean use_m_smooth; HANDLE m_event; #define M_HIST_SIZE 64 #define M_HIST_MASK (M_HIST_SIZE - 1) typedef struct msnap_s { long data; // data (relative axis pos) double time; // timestamp } msnap_t; msnap_t m_history_x[M_HIST_SIZE]; // history msnap_t m_history_y[M_HIST_SIZE]; int m_history_x_wseq = 0; // write sequence int m_history_y_wseq = 0; int m_history_x_rseq = 0; // read sequence int m_history_y_rseq = 0; int wheel_up_count = 0; int wheel_dn_count = 0; #define INPUT_CASE_DIMOFS_BUTTON(NUM) \ case (DIMOFS_BUTTON0 + NUM): \ if (od.dwData & 0x80) \ mstate_di |= (1 << NUM); \ else \ mstate_di &= ~(1 << NUM); \ break; #define INPUT_CASE_DINPUT_MOUSE_BUTTONS \ INPUT_CASE_DIMOFS_BUTTON(0); \ INPUT_CASE_DIMOFS_BUTTON(1); \ INPUT_CASE_DIMOFS_BUTTON(2); \ INPUT_CASE_DIMOFS_BUTTON(3); \ INPUT_CASE_DIMOFS_BUTTON(4); \ INPUT_CASE_DIMOFS_BUTTON(5); \ INPUT_CASE_DIMOFS_BUTTON(6); \ INPUT_CASE_DIMOFS_BUTTON(7); DWORD WINAPI IN_SMouseProc (void *lpParameter) { // read mouse events and generate history tables DWORD ret; while (1) { if ((ret = WaitForSingleObject(m_event, INFINITE)) == WAIT_OBJECT_0) { int mx = 0, my = 0; DIDEVICEOBJECTDATA od; HRESULT hr; double time; if (!ActiveApp || Minimized || !mouseactive || !dinput_acquired) { Sleep (50); continue; } time = Sys_DoubleTime (); while (1) { DWORD dwElements = 1; hr = IDirectInputDevice_GetDeviceData (g_pMouse, sizeof(DIDEVICEOBJECTDATA), &od, &dwElements, 0); if ((hr == DIERR_INPUTLOST) || (hr == DIERR_NOTACQUIRED)) { dinput_acquired = false; break; } // Unable to read data or no data available if (FAILED(hr) || !dwElements) break; // Look at the element to see what happened switch (od.dwOfs) { case DIMOFS_X: m_history_x[m_history_x_wseq & M_HIST_MASK].time = time; m_history_x[m_history_x_wseq & M_HIST_MASK].data = od.dwData; m_history_x_wseq++; break; case DIMOFS_Y: m_history_y[m_history_y_wseq & M_HIST_MASK].time = time; m_history_y[m_history_y_wseq & M_HIST_MASK].data = od.dwData; m_history_y_wseq++; break; INPUT_CASE_DINPUT_MOUSE_BUTTONS; case DIMOFS_Z: if (od.dwData & 0x80) wheel_dn_count++; else wheel_up_count++; break; } } } } } void IN_SMouseRead (int *mx, int *my) { static acc_x, acc_y; int x = 0, y = 0; double t1, t2, maxtime, mintime; // acquire device IDirectInputDevice_Acquire (g_pMouse); dinput_acquired = true; // gather data from last read seq to now for ( ; m_history_x_rseq < m_history_x_wseq ; m_history_x_rseq++) x += m_history_x[m_history_x_rseq&M_HIST_MASK].data; for ( ; m_history_y_rseq < m_history_y_wseq ; m_history_y_rseq++) y += m_history_y[m_history_y_rseq&M_HIST_MASK].data; x -= acc_x; y -= acc_y; acc_x = acc_y = 0; // show rate if requested if (m_showrate.value) { static last_wseq_printed; if (m_history_x_wseq > last_wseq_printed) { double t = m_history_x[(m_history_x_rseq - 1) & M_HIST_MASK].time - m_history_x[(m_history_x_rseq - 2) & M_HIST_MASK].time; if (t > 0.001) Con_Printf ("mouse rate: %3d\n", (int)(1 / t)); last_wseq_printed = m_history_x_wseq; } } // smoothing goes here mintime = maxtime = 1.0 / max(m_rate.value, 10); maxtime *= 1.2; mintime *= 0.7; // X axis t1 = m_history_x[(m_history_x_rseq - 2) & M_HIST_MASK].time; t2 = m_history_x[(m_history_x_rseq - 1) & M_HIST_MASK].time; if (t2 - t1 > mintime && t2 - t1 < maxtime) { double vel = m_history_x[(m_history_x_rseq - 1) & M_HIST_MASK].data / (t2 - t1); t1 = t2; t2 = Sys_DoubleTime (); if (t2 - t1 < maxtime) acc_x = vel * (t2 - t1); } // Y axis t1 = m_history_y[(m_history_y_rseq - 2) & M_HIST_MASK].time; t2 = m_history_y[(m_history_y_rseq - 1) & M_HIST_MASK].time; if (t2 - t1 > mintime && t2 - t1 < maxtime) { double vel = m_history_y[(m_history_y_rseq-1) & M_HIST_MASK].data / (t2 - t1); t1 = t2; t2 = Sys_DoubleTime (); if (t2 - t1 < maxtime) acc_y = vel * (t2 - t1); } x += acc_x; y += acc_y; // return data *mx = x; *my = y; // serve wheel bound(0, wheel_dn_count, 10); bound(0, wheel_up_count, 10); while (wheel_dn_count > 0) { Key_Event (K_MWHEELDOWN, true); Key_Event (K_MWHEELDOWN, false); wheel_dn_count--; } while (wheel_up_count > 0) { Key_Event (K_MWHEELUP, true); Key_Event (K_MWHEELUP, false); wheel_up_count--; } } void IN_SMouseInit (void) { HRESULT res; DWORD threadid; HANDLE thread; use_m_smooth = false; if (!COM_CheckParm("-m_smooth")) return; // create event object m_event = CreateEvent( NULL, // NULL secutity attributes FALSE, // automatic reset FALSE, // initial state = nonsignaled NULL // NULL name ); if (m_event == NULL) return; // enable di notification if ((res = IDirectInputDevice_SetEventNotification(g_pMouse, m_event)) != DI_OK && res != DI_POLLEDDEVICE) return; // create thread thread = CreateThread ( NULL, // pointer to security attributes 0, // initial thread stack size IN_SMouseProc, // pointer to thread function NULL, // argument for new thread CREATE_SUSPENDED, // creation flags &threadid // pointer to receive thread ID ); if (!thread) return; SetThreadPriority (thread, THREAD_PRIORITY_HIGHEST); ResumeThread (thread); Cvar_Register (&m_rate); Cvar_Register (&m_showrate); use_m_smooth = true; } typedef void (*MW_DllFunc1)(void); typedef int (*MW_DllFunc2)(HWND); MW_DllFunc1 DLL_MW_RemoveHook = NULL; MW_DllFunc2 DLL_MW_SetHook = NULL; qboolean MW_Hook_enabled = false; HINSTANCE mw_hDLL; static void MW_Set_Hook (void) { if (MW_Hook_enabled) { Con_Printf ("MouseWare hook already loaded\n"); return; } if (!(mw_hDLL = LoadLibrary("mw_hook.dll"))) { Con_Printf ("\x02" "Couldn't find mw_hook.dll\n"); return; } DLL_MW_RemoveHook = (MW_DllFunc1)GetProcAddress (mw_hDLL, "MW_RemoveHook"); DLL_MW_SetHook = (MW_DllFunc2)GetProcAddress (mw_hDLL, "MW_SetHook"); if (!DLL_MW_SetHook || !DLL_MW_RemoveHook) { Con_Printf ("\x02" "Error initializing MouseWare hook\n"); FreeLibrary (mw_hDLL); return; } if (!DLL_MW_SetHook(mainwindow)) { Con_Printf ("\x02" "Couldn't initialize MouseWare hook\n"); FreeLibrary (mw_hDLL); return; } MW_Hook_enabled = true; Con_Printf ("MouseWare hook initialized\n"); } static void MW_Remove_Hook (void) { if (MW_Hook_enabled) { DLL_MW_RemoveHook (); FreeLibrary (mw_hDLL); MW_Hook_enabled = false; Con_Printf ("MouseWare hook removed\n"); return; } Con_Printf ("MouseWare hook not loaded\n"); } static void MW_Shutdown (void) { if (!MW_Hook_enabled) return; MW_Remove_Hook (); } void MW_Hook_Message (long buttons) { int key, flag; long changed_buttons; static long old_buttons = 0; buttons &= 0xFFF8; changed_buttons = buttons ^ old_buttons; for (key = K_MOUSE4, flag = 8 ; key <= K_MOUSE8 ; key++, flag <<= 1) if (changed_buttons & flag) Key_Event (key, !!(buttons & flag)); old_buttons = buttons; } /* =========== Force_CenterView_f =========== */ void Force_CenterView_f (void) { cl.viewangles[PITCH] = 0; } /* =========== IN_UpdateClipCursor =========== */ void IN_UpdateClipCursor (void) { if (mouseinitialized && mouseactive && !dinput) ClipCursor (&window_rect); } /* =========== IN_ShowMouse =========== */ void IN_ShowMouse (void) { if (!mouseshowtoggle) { ShowCursor (TRUE); mouseshowtoggle = 1; } } /* =========== IN_HideMouse =========== */ void IN_HideMouse (void) { if (mouseshowtoggle) { ShowCursor (FALSE); mouseshowtoggle = 0; } } /* =========== IN_ActivateMouse =========== */ void IN_ActivateMouse (void) { mouseactivatetoggle = true; if (mouseinitialized) { if (dinput) { if (g_pMouse) { if (!dinput_acquired) { IDirectInputDevice_Acquire (g_pMouse); dinput_acquired = true; } } else { return; } } else { if (mouseparmsvalid) restore_spi = SystemParametersInfo (SPI_SETMOUSE, 0, newmouseparms, 0); SetCursorPos (window_center_x, window_center_y); SetCapture (mainwindow); ClipCursor (&window_rect); } mouseactive = true; } } /* =========== IN_SetQuakeMouseState =========== */ void IN_SetQuakeMouseState (void) { if (mouseactivatetoggle) IN_ActivateMouse (); } /* =========== IN_DeactivateMouse =========== */ void IN_DeactivateMouse (void) { mouseactivatetoggle = false; if (mouseinitialized) { if (dinput) { if (g_pMouse) { if (dinput_acquired) { IDirectInputDevice_Unacquire(g_pMouse); dinput_acquired = false; } } } else { if (restore_spi) SystemParametersInfo (SPI_SETMOUSE, 0, originalmouseparms, 0); ClipCursor (NULL); ReleaseCapture (); } mouseactive = false; } } /* =========== IN_RestoreOriginalMouseState =========== */ void IN_RestoreOriginalMouseState (void) { if (mouseactivatetoggle) { IN_DeactivateMouse (); mouseactivatetoggle = true; } // try to redraw the cursor so it gets reinitialized, because sometimes it // has garbage after the mode switch ShowCursor (TRUE); ShowCursor (FALSE); } /* =========== IN_InitDInput =========== */ qboolean IN_InitDInput (void) { HRESULT hr; DIPROPDWORD dipdw = { { sizeof(DIPROPDWORD), // diph.dwSize sizeof(DIPROPHEADER), // diph.dwHeaderSize 0, // diph.dwObj DIPH_DEVICE, // diph.dwHow }, DINPUT_BUFFERSIZE, // dwData }; if (!hInstDI) { hInstDI = LoadLibrary ("dinput.dll"); if (hInstDI == NULL) { Con_Printf ("Couldn't load dinput.dll\n"); return false; } } if (!pDirectInputCreate) { pDirectInputCreate = (void *)GetProcAddress(hInstDI,"DirectInputCreateA"); if (!pDirectInputCreate) { Con_Printf ("Couldn't get DI proc addr\n"); return false; } } // register with DirectInput and get an IDirectInput to play with. hr = iDirectInputCreate (global_hInstance, DIRECTINPUT_VERSION, &g_pdi, NULL); if (FAILED(hr)) return false; // obtain an interface to the system mouse device. hr = IDirectInput_CreateDevice (g_pdi, &GUID_SysMouse, &g_pMouse, NULL); if (FAILED(hr)) { Con_Printf ("Couldn't open DI mouse device\n"); return false; } // set the data format to "mouse format". hr = IDirectInputDevice_SetDataFormat (g_pMouse, &df); if (FAILED(hr)) { Con_Printf ("Couldn't set DI mouse format\n"); return false; } // set the cooperativity level. hr = IDirectInputDevice_SetCooperativeLevel (g_pMouse, mainwindow, DISCL_EXCLUSIVE | DISCL_FOREGROUND); if (FAILED(hr)) { Con_Printf ("Couldn't set DI coop level\n"); return false; } // set the buffer size to DINPUT_BUFFERSIZE elements. // the buffer size is a DWORD property associated with the device hr = IDirectInputDevice_SetProperty (g_pMouse, DIPROP_BUFFERSIZE, &dipdw.diph); if (FAILED(hr)) { Con_Printf ("Couldn't set DI buffersize\n"); return false; } IN_SMouseInit (); return true; } /* =========== IN_StartupMouse =========== */ void IN_StartupMouse (void) { if (COM_CheckParm("-nomouse")) return; mouseinitialized = true; if (COM_CheckParm("-dinput")) { dinput = IN_InitDInput (); if (dinput) { Con_Printf ("DirectInput initialized\n"); mouse_buttons = 8; if (use_m_smooth) Con_Printf ("Mouse smoothing initialized\n"); } else { Con_Printf ("DirectInput not initialized\n"); } } if (!dinput) { mouseparmsvalid = SystemParametersInfo (SPI_GETMOUSE, 0, originalmouseparms, 0); if (mouseparmsvalid) { if (COM_CheckParm("-noforcemspd")) newmouseparms[2] = originalmouseparms[2]; if (COM_CheckParm("-noforcemaccel")) { newmouseparms[0] = originalmouseparms[0]; newmouseparms[1] = originalmouseparms[1]; } if (COM_CheckParm("-noforcemparms")) { newmouseparms[0] = originalmouseparms[0]; newmouseparms[1] = originalmouseparms[1]; newmouseparms[2] = originalmouseparms[2]; } } mouse_buttons = 8; } if (COM_CheckParm ("-m_mwhook")) MW_Set_Hook (); // if a fullscreen video mode was set before the mouse was initialized, set the mouse state appropriately if (mouseactivatetoggle) IN_ActivateMouse (); } /* =========== IN_Init =========== */ void IN_Init (void) { // mouse variables Cvar_Register (&m_filter); // keyboard variables Cvar_Register (&cl_keypad); // joystick variables Cvar_Register (&in_joystick); Cvar_Register (&joy_name); Cvar_Register (&joy_advanced); Cvar_Register (&joy_advaxisx); Cvar_Register (&joy_advaxisy); Cvar_Register (&joy_advaxisz); Cvar_Register (&joy_advaxisr); Cvar_Register (&joy_advaxisu); Cvar_Register (&joy_advaxisv); Cvar_Register (&joy_forwardthreshold); Cvar_Register (&joy_sidethreshold); Cvar_Register (&joy_pitchthreshold); Cvar_Register (&joy_yawthreshold); Cvar_Register (&joy_forwardsensitivity); Cvar_Register (&joy_sidesensitivity); Cvar_Register (&joy_pitchsensitivity); Cvar_Register (&joy_yawsensitivity); Cvar_Register (&joy_wwhack1); Cvar_Register (&joy_wwhack2); Cmd_AddCommand ("force_centerview", Force_CenterView_f); Cmd_AddCommand ("joyadvancedupdate", Joy_AdvancedUpdate_f); uiWheelMessage = RegisterWindowMessage ("MSWHEEL_ROLLMSG"); IN_StartupMouse (); IN_StartupJoystick (); } /* =========== IN_Shutdown =========== */ void IN_Shutdown (void) { IN_DeactivateMouse (); IN_ShowMouse (); if (g_pMouse) { IDirectInputDevice_Release (g_pMouse); g_pMouse = NULL; } if (g_pdi) { IDirectInput_Release (g_pdi); g_pdi = NULL; } } /* =========== IN_MouseEvent =========== */ void IN_MouseEvent (int mstate) { int i; if (mouseactive && !dinput) { // perform button actions for (i = 0 ; i < mouse_buttons ; i++) { if ((mstate & (1<sidemove += m_side.value * mouse_x; else cl.viewangles[YAW] -= m_yaw.value * mouse_x; if (mlook_active) V_StopPitchDrift (); if (mlook_active && !(in_strafe.state & 1)) { cl.viewangles[PITCH] += m_pitch.value * mouse_y; cl.viewangles[PITCH] = bound(-70, cl.viewangles[PITCH], 80); } else { if ((in_strafe.state & 1) && noclip_anglehack) cmd->upmove -= m_forward.value * mouse_y; else cmd->forwardmove -= m_forward.value * mouse_y; } // if the mouse has moved, force it to the center, so there's room to move if (mx || my) SetCursorPos (window_center_x, window_center_y); } /* =========== IN_Move =========== */ void IN_Move (usercmd_t *cmd) { if (ActiveApp && !Minimized) { IN_MouseMove (cmd); IN_JoyMove (cmd); } } /* =========== IN_Accumulate =========== */ void IN_Accumulate (void) { if (mouseactive) { if (!dinput) { GetCursorPos (¤t_pos); mx_accum += current_pos.x - window_center_x; my_accum += current_pos.y - window_center_y; // force the mouse to the center, so there's room to move SetCursorPos (window_center_x, window_center_y); } } } /* =================== IN_ClearStates =================== */ void IN_ClearStates (void) { if (mouseactive) mx_accum = my_accum = mouse_oldbuttonstate = 0; } /* =============== IN_StartupJoystick =============== */ void IN_StartupJoystick (void) { int numdevs; JOYCAPS jc; MMRESULT mmr; // assume no joystick joy_avail = false; // abort startup if user requests no joystick if (COM_CheckParm("-nojoy")) return; // verify joystick driver is present if (!(numdevs = joyGetNumDevs())) { Con_Printf ("joystick not found -- driver not present\n"); return; } // cycle through the joystick ids for the first valid one for (joy_id = 0 ; joy_id < numdevs ; joy_id++) { memset (&ji, 0, sizeof(ji)); ji.dwSize = sizeof(ji); ji.dwFlags = JOY_RETURNCENTERED; if ((mmr = joyGetPosEx(joy_id, &ji)) == JOYERR_NOERROR) break; } // abort startup if we didn't find a valid joystick if (mmr != JOYERR_NOERROR) { Con_DPrintf ("joystick not found -- no valid joysticks (%x)\n", mmr); return; } // get the capabilities of the selected joystick // abort startup if command fails memset (&jc, 0, sizeof(jc)); if ((mmr = joyGetDevCaps(joy_id, &jc, sizeof(jc))) != JOYERR_NOERROR) { Con_Printf ("joystick not found -- invalid joystick capabilities (%x)\n", mmr); return; } // save the joystick's number of buttons and POV status joy_numbuttons = jc.wNumButtons; joy_haspov = jc.wCaps & JOYCAPS_HASPOV; // old button and POV states default to no buttons pressed joy_oldbuttonstate = joy_oldpovstate = 0; // mark the joystick as available and advanced initialization not completed // this is needed as cvars are not available during initialization joy_avail = true; joy_advancedinit = false; Con_Printf ("joystick detected\n"); } /* =========== RawValuePointer =========== */ PDWORD RawValuePointer (int axis) { switch (axis) { case JOY_AXIS_X: return &ji.dwXpos; case JOY_AXIS_Y: return &ji.dwYpos; case JOY_AXIS_Z: return &ji.dwZpos; case JOY_AXIS_R: return &ji.dwRpos; case JOY_AXIS_U: return &ji.dwUpos; case JOY_AXIS_V: return &ji.dwVpos; } return NULL; // shut up compiler } /* =========== Joy_AdvancedUpdate_f =========== */ void Joy_AdvancedUpdate_f (void) { // called once by IN_ReadJoystick and by user whenever an update is needed // cvars are now available int i; DWORD dwTemp; // initialize all the maps for (i=0 ; i 14000.0) fTemp = 14000.0; // restore direction information fAxisValue = (fAxisValue > 0.0) ? fTemp : -fTemp; } } // convert range from -32768..32767 to -1..1 fAxisValue /= 32768.0; switch (dwAxisMap[i]) { case AxisForward: if ((joy_advanced.value == 0.0) && mlook_active) { // user wants forward control to become look control if (fabs(fAxisValue) > joy_pitchthreshold.value) { // if mouse invert is on, invert the joystick pitch value // only absolute control support here (joy_advanced is false) if (m_pitch.value < 0.0) cl.viewangles[PITCH] -= (fAxisValue * joy_pitchsensitivity.value) * aspeed * cl_pitchspeed.value; else cl.viewangles[PITCH] += (fAxisValue * joy_pitchsensitivity.value) * aspeed * cl_pitchspeed.value; V_StopPitchDrift (); } else { // no pitch movement // disable pitch return-to-center unless requested by user // *** this code can be removed when the lookspring bug is fixed // *** the bug always has the lookspring feature on if (lookspring.value == 0.0) V_StopPitchDrift (); } } else { // user wants forward control to be forward control if (fabs(fAxisValue) > joy_forwardthreshold.value) cmd->forwardmove += (fAxisValue * joy_forwardsensitivity.value) * speed * cl_forwardspeed.value; } break; case AxisSide: if (fabs(fAxisValue) > joy_sidethreshold.value) cmd->sidemove += (fAxisValue * joy_sidesensitivity.value) * speed * cl_sidespeed.value; break; case AxisTurn: if ((in_strafe.state & 1) || (lookstrafe.value && mlook_active)) { // user wants turn control to become side control if (fabs(fAxisValue) > joy_sidethreshold.value) cmd->sidemove -= (fAxisValue * joy_sidesensitivity.value) * speed * cl_sidespeed.value; } else { // user wants turn control to be turn control if (fabs(fAxisValue) > joy_yawthreshold.value) { if (dwControlMap[i] == JOY_ABSOLUTE_AXIS) cl.viewangles[YAW] += (fAxisValue * joy_yawsensitivity.value) * aspeed * cl_yawspeed.value; else cl.viewangles[YAW] += (fAxisValue * joy_yawsensitivity.value) * speed * 180.0; } } break; case AxisLook: if (mlook_active) { if (fabs(fAxisValue) > joy_pitchthreshold.value) { // pitch movement detected and pitch movement desired by user if (dwControlMap[i] == JOY_ABSOLUTE_AXIS) cl.viewangles[PITCH] += (fAxisValue * joy_pitchsensitivity.value) * aspeed * cl_pitchspeed.value; else cl.viewangles[PITCH] += (fAxisValue * joy_pitchsensitivity.value) * speed * 180.0; V_StopPitchDrift (); } else { // no pitch movement // disable pitch return-to-center unless requested by user // *** this code can be removed when the lookspring bug is fixed // *** the bug always has the lookspring feature on if (lookspring.value == 0.0) V_StopPitchDrift (); } } break; default: break; } } // bounds check pitch cl.viewangles[PITCH] = bound(-70, cl.viewangles[PITCH], 80); } //========================================================================== static byte scantokey[128] = { // 0 1 2 3 4 5 6 7 // 8 9 A B C D E F 0 , K_ESCAPE,'1', '2', '3', '4', '5', '6', '7', '8', '9', '0', '-', '=', K_BACKSPACE, 9, // 0 'q', 'w', 'e', 'r', 't', 'y', 'u', 'i', 'o', 'p', '[', ']', K_ENTER,K_LCTRL, 'a', 's', // 1 'd', 'f', 'g', 'h', 'j', 'k', 'l', ';', '\'', '`', K_LSHIFT,'\\', 'z', 'x', 'c', 'v', // 2 'b', 'n', 'm', ',', '.', '/', K_RSHIFT,KP_STAR, K_LALT, ' ', K_CAPSLOCK,K_F1, K_F2, K_F3, K_F4, K_F5, // 3 K_F6, K_F7, K_F8, K_F9, K_F10, K_PAUSE,K_SCRLCK,K_HOME, K_UPARROW,K_PGUP,KP_MINUS,K_LEFTARROW,KP_5,K_RIGHTARROW,KP_PLUS,K_END, // 4 K_DOWNARROW,K_PGDN,K_INS,K_DEL, 0, 0, 0, K_F11, K_F12, 0, 0, K_LWIN, K_RWIN, K_MENU, 0, 0, // 5 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, // 6 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 // 7 }; /* =========== IN_MapKey Map from windows to quake keynums =========== */ int IN_MapKey (int key) { int extended; extended = (key >> 24) & 1; key = (key >> 16) & 255; if (key > 127) return 0; key = scantokey[key]; if (cl_keypad.value) { if (extended) { switch (key) { case K_ENTER: return KP_ENTER; case '/': return KP_SLASH; case K_PAUSE: return KP_NUMLOCK; case K_LALT: return K_RALT; case K_LCTRL: return K_RCTRL; } } else { switch (key) { case K_HOME: return KP_HOME; case K_UPARROW: return KP_UPARROW; case K_PGUP: return KP_PGUP; case K_LEFTARROW: return KP_LEFTARROW; case K_RIGHTARROW: return KP_RIGHTARROW; case K_END: return KP_END; case K_DOWNARROW: return KP_DOWNARROW; case K_PGDN: return KP_PGDN; case K_INS: return KP_INS; case K_DEL: return KP_DEL; } } } else { // cl_keypad 0, compatibility mode switch (key) { case KP_STAR: return '*'; case KP_MINUS: return '-'; case KP_5: return '5'; case KP_PLUS: return '+'; } } return key; }