/* =========================================================================== Copyright (C) 1999-2005 Id Software, Inc. This file is part of Quake III Arena source code. Quake III Arena source code 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. Quake III Arena source code 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 Quake III Arena source code; if not, write to the Free Software Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA =========================================================================== */ #include "../client/client.h" #include "win_local.h" struct Mouse { virtual qbool Init() { return qtrue; } virtual qbool Activate( qbool active ); virtual void Shutdown() {} virtual qbool ProcessMessage( UINT msg, WPARAM wParam, LPARAM lParam ) { return qfalse; } // returns true if the event was handled Mouse() : active(qfalse), wheel(0) {} void UpdateWheel( int delta ); private: qbool active; int wheel; }; static Mouse* mouse; qbool Mouse::Activate( qbool _active ) { if (active == _active) return qfalse; active = _active; wheel = 0; return qtrue; } void Mouse::UpdateWheel( int delta ) { wheel += delta; while (wheel >= WHEEL_DELTA) { Sys_QueEvent( g_wv.sysMsgTime, SE_KEY, K_MWHEELUP, qtrue, 0, NULL ); Sys_QueEvent( g_wv.sysMsgTime, SE_KEY, K_MWHEELUP, qfalse, 0, NULL ); wheel -= WHEEL_DELTA; } while (wheel <= -WHEEL_DELTA) { Sys_QueEvent( g_wv.sysMsgTime, SE_KEY, K_MWHEELDOWN, qtrue, 0, NULL ); Sys_QueEvent( g_wv.sysMsgTime, SE_KEY, K_MWHEELDOWN, qfalse, 0, NULL ); wheel += WHEEL_DELTA; } } /////////////////////////////////////////////////////////////// struct rawmouse_t : public Mouse { virtual qbool Init(); virtual qbool Activate( qbool active ); virtual qbool ProcessMessage( UINT msg, WPARAM wParam, LPARAM lParam ); }; static rawmouse_t rawmouse; qbool rawmouse_t::Init() { return Activate( qtrue ); } qbool rawmouse_t::Activate( qbool active ) { // RIDEV_NOLEGACY means we only get WM_INPUT and not WM_LBUTTONDOWN etc RAWINPUTDEVICE rid; rid.usUsagePage = 1; rid.usUsage = 2; rid.dwFlags = active ? RIDEV_NOLEGACY : RIDEV_REMOVE; rid.hwndTarget = NULL; return !!RegisterRawInputDevices( &rid, 1, sizeof(rid) ); } // MSDN says you have to always let DefWindowProc run for WM_INPUT // regardless of whether you process the message or not, so ALWAYS return false here qbool rawmouse_t::ProcessMessage( UINT msg, WPARAM wParam, LPARAM lParam ) { if (msg != WM_INPUT) return qfalse; HRAWINPUT h = (HRAWINPUT)lParam; UINT size; if (GetRawInputData( h, RID_INPUT, NULL, &size, sizeof(RAWINPUTHEADER) ) == -1) return qfalse; RAWINPUT ri; if (GetRawInputData( h, RID_INPUT, &ri, &size, sizeof(RAWINPUTHEADER) ) != size) return qfalse; if ( (ri.header.dwType != RIM_TYPEMOUSE) || (ri.data.mouse.usFlags != MOUSE_MOVE_RELATIVE) ) return qfalse; const int dx = (int)ri.data.mouse.lLastX; const int dy = (int)ri.data.mouse.lLastY; if (dx != 0 || dy != 0) Sys_QueEvent( g_wv.sysMsgTime, SE_MOUSE, dx, dy, 0, NULL ); if (!ri.data.mouse.usButtonFlags) // no button or wheel transitions return qfalse; if (ri.data.mouse.usButtonFlags & RI_MOUSE_WHEEL) UpdateWheel( (SHORT)ri.data.mouse.usButtonData ); // typical MS clusterfuck for button handling, sigh... and better yet, // ulRawButtons isn't actually populated at all with the ms mouse drivers #define QUEUE_RI_BUTTON( button ) \ if (ri.data.mouse.usButtonFlags & (RI_MOUSE_BUTTON_##button##_DOWN)) \ Sys_QueEvent( g_wv.sysMsgTime, SE_KEY, K_MOUSE##button##, qtrue, 0, NULL ); \ if (ri.data.mouse.usButtonFlags & (RI_MOUSE_BUTTON_##button##_UP)) \ Sys_QueEvent( g_wv.sysMsgTime, SE_KEY, K_MOUSE##button##, qfalse, 0, NULL ); QUEUE_RI_BUTTON( 1 ); QUEUE_RI_BUTTON( 2 ); QUEUE_RI_BUTTON( 3 ); QUEUE_RI_BUTTON( 4 ); QUEUE_RI_BUTTON( 5 ); #undef QUEUE_RI_BUTTON return qfalse; } /////////////////////////////////////////////////////////////// struct winmouse_t : public Mouse { virtual qbool Activate( qbool active ); virtual qbool ProcessMessage( UINT msg, WPARAM wParam, LPARAM lParam ); void UpdateWindowCenter(); int window_center_x, window_center_y; qbool active; }; static winmouse_t winmouse; void winmouse_t::UpdateWindowCenter() { const RECT& rect = g_wv.monitorRects[g_wv.monitor]; window_center_x = (int)( rect.left + rect.right ) / 2; window_center_y = (int)( rect.top + rect.bottom ) / 2; } qbool winmouse_t::Activate( qbool _active ) { active = _active; if (!_active) return qtrue; UpdateWindowCenter(); SetCursorPos( window_center_x, window_center_y ); return qtrue; } qbool winmouse_t::ProcessMessage( UINT msg, WPARAM wParam, LPARAM lParam ) { if ( !active ) return qfalse; UpdateWindowCenter(); #define QUEUE_WM_BUTTON( qbutton, mask ) \ Sys_QueEvent( g_wv.sysMsgTime, SE_KEY, qbutton, (wParam & mask), 0, NULL ); POINT p; GetCursorPos( &p ); const int dx = p.x - window_center_x; const int dy = p.y - window_center_y; if (dx != 0 || dy != 0) { Sys_QueEvent( g_wv.sysMsgTime, SE_MOUSE, dx, dy, 0, NULL ); SetCursorPos( window_center_x, window_center_y ); } switch (msg) { case WM_LBUTTONDOWN: case WM_LBUTTONUP: QUEUE_WM_BUTTON( K_MOUSE1, MK_LBUTTON ); break; case WM_RBUTTONDOWN: case WM_RBUTTONUP: QUEUE_WM_BUTTON( K_MOUSE2, MK_RBUTTON ); break; case WM_MBUTTONDOWN: case WM_MBUTTONUP: QUEUE_WM_BUTTON( K_MOUSE3, MK_MBUTTON ); break; case WM_XBUTTONDOWN: case WM_XBUTTONUP: if (GET_XBUTTON_WPARAM(wParam) == XBUTTON1) QUEUE_WM_BUTTON( K_MOUSE4, MK_XBUTTON1 ); if (GET_XBUTTON_WPARAM(wParam) == XBUTTON2) QUEUE_WM_BUTTON( K_MOUSE5, MK_XBUTTON2 ); break; #undef QUEUE_WM_BUTTON case WM_MOUSEWHEEL: UpdateWheel( GET_WHEEL_DELTA_WPARAM(wParam) ); break; default: return qfalse; } return qtrue; } /////////////////////////////////////////////////////////////// static void IN_StartupMouse() { assert( !mouse ); mouse = 0; cvar_t* in_mouse = Cvar_Get( "in_mouse", "1", CVAR_ARCHIVE|CVAR_LATCH ); in_mouse->modified = qfalse; if (!in_mouse->integer) { Com_Printf( "Mouse not active.\n" ); return; } if (in_mouse->integer == 1) { if (rawmouse.Init()) { mouse = &rawmouse; Com_Printf( "Using raw mouse input\n" ); return; } Com_Printf( "Raw mouse initialization failed\n" ); } mouse = &winmouse; mouse->Init(); Com_Printf( "Using Win32 mouse input\n" ); } qbool IN_ProcessMessage( UINT msg, WPARAM wParam, LPARAM lParam ) { if (!mouse) return qfalse; return mouse->ProcessMessage( msg, wParam, lParam ); } /////////////////////////////////////////////////////////////// static void IN_StartupMIDI(); static void IN_ShutdownMIDI(); static void IN_StartupJoystick(); static void IN_JoyMove(); static void IN_StartupHotKey( qbool fullStartUp ); static void IN_ShutDownHotKey(); static void IN_UpdateHotKey(); cvar_t* in_joystick; cvar_t* in_midi; cvar_t* in_minimize; static void IN_Startup() { QSUBSYSTEM_INIT_START( "Input" ); IN_StartupMouse(); IN_StartupJoystick(); IN_StartupMIDI(); IN_StartupHotKey( qtrue ); QSUBSYSTEM_INIT_DONE( "Input" ); } void IN_Init() { in_midi = Cvar_Get( "in_midi", "0", CVAR_ARCHIVE ); in_joystick = Cvar_Get( "in_joystick", "0", CVAR_ARCHIVE|CVAR_LATCH ); in_joystick->modified = qfalse; IN_Startup(); } void IN_Shutdown() { IN_Activate( qfalse ); if (mouse) { mouse->Shutdown(); mouse = NULL; } IN_ShutdownMIDI(); IN_ShutDownHotKey(); } void IN_SetCursorSettings( qbool active ) { if (active) { while (ShowCursor(FALSE) >= 0) ; RECT rc; GetWindowRect( g_wv.hWnd, &rc ); SetCapture( g_wv.hWnd ); ClipCursor( &rc ); } else { while (ShowCursor(TRUE) < 0) ; ClipCursor( NULL ); ReleaseCapture(); } } // called when the window gains or loses focus or changes in some way // the window may have been destroyed and recreated between a deactivate and an activate void IN_Activate( qbool active ) { if ( !mouse || !mouse->Mouse::Activate( active ) ) return; IN_SetCursorSettings( active ); mouse->Activate( active ); } qbool IN_ShouldBeActive() { return g_wv.activeApp && (!(cls.keyCatchers & KEYCATCH_CONSOLE) || Cvar_VariableIntegerValue("r_fullscreen")); } // called every frame, even if not generating commands void IN_Frame() { IN_JoyMove(); IN_UpdateHotKey(); if (!mouse) return; IN_Activate( IN_ShouldBeActive() ); } /* ========================================================================= JOYSTICK ========================================================================= */ typedef struct { qbool avail; int id; // joystick number JOYCAPS jc; int oldbuttonstate; int oldpovstate; JOYINFOEX ji; } joystickInfo_t; static joystickInfo_t joy; static const cvar_t* in_joyBallScale; static const cvar_t* in_debugJoystick; static const cvar_t* joy_threshold; static void IN_StartupJoystick() { // assume no joystick joy.avail = qfalse; if ( !in_joystick->integer ) return; // verify joystick driver is present int numdevs; if ((numdevs = joyGetNumDevs()) == 0) { Com_Printf( "joystick not found -- driver not present\n" ); return; } // cycle through the joystick ids for the first valid one MMRESULT mmr = !JOYERR_NOERROR; for (joy.id=0 ; joy.idinteger ) { Com_Printf( "%8x %5i %5.2f %5.2f %5.2f %5.2f %6i %6i\n", joy.ji.dwButtons, joy.ji.dwPOV, JoyToF( joy.ji.dwXpos ), JoyToF( joy.ji.dwYpos ), JoyToF( joy.ji.dwZpos ), JoyToF( joy.ji.dwRpos ), JoyToI( joy.ji.dwUpos ), JoyToI( joy.ji.dwVpos ) ); } // loop through the joystick buttons // key a joystick event or auxillary event for higher number buttons for each state change buttonstate = joy.ji.dwButtons; for ( i=0 ; i < joy.jc.wNumButtons ; i++ ) { if ( (buttonstate & (1<value ) { povstate |= (1<<(i*2)); } else if ( fAxisValue > joy_threshold->value ) { povstate |= (1<<(i*2+1)); } } // convert POV information from a direction into 4 button bits if ( joy.jc.wCaps & JOYCAPS_HASPOV ) { if ( joy.ji.dwPOV != JOY_POVCENTERED ) { if (joy.ji.dwPOV == JOY_POVFORWARD) povstate |= 1<<12; if (joy.ji.dwPOV == JOY_POVBACKWARD) povstate |= 1<<13; if (joy.ji.dwPOV == JOY_POVRIGHT) povstate |= 1<<14; if (joy.ji.dwPOV == JOY_POVLEFT) povstate |= 1<<15; } } // determine which bits have changed and key an auxillary event for each change for (i=0 ; i < 16 ; i++) { if ( (povstate & (1<= 6 ) { x = JoyToI( joy.ji.dwUpos ) * in_joyBallScale->value; y = JoyToI( joy.ji.dwVpos ) * in_joyBallScale->value; if ( x || y ) { Sys_QueEvent( g_wv.sysMsgTime, SE_MOUSE, x, y, 0, NULL ); } } } /* ========================================================================= MIDI ========================================================================= */ #define MAX_MIDIIN_DEVICES 8 typedef struct { int numDevices; MIDIINCAPS caps[MAX_MIDIIN_DEVICES]; HMIDIIN hMidiIn; } MidiInfo_t; static MidiInfo_t s_midiInfo; static const cvar_t* in_midiport; static const cvar_t* in_midichannel; static const cvar_t* in_mididevice; static void MIDI_NoteOff( int note ) { int qkey; qkey = note - 60 + K_AUX1; if ( qkey > 255 || qkey < K_AUX1 ) return; Sys_QueEvent( g_wv.sysMsgTime, SE_KEY, qkey, qfalse, 0, NULL ); } static void MIDI_NoteOn( int note, int velocity ) { int qkey; if ( velocity == 0 ) MIDI_NoteOff( note ); qkey = note - 60 + K_AUX1; if ( qkey > 255 || qkey < K_AUX1 ) return; Sys_QueEvent( g_wv.sysMsgTime, SE_KEY, qkey, qtrue, 0, NULL ); } static void CALLBACK MidiInProc( HMIDIIN hMidiIn, UINT uMsg, DWORD dwInstance, DWORD dwParam1, DWORD dwParam2 ) { int message; switch ( uMsg ) { case MIM_OPEN: break; case MIM_CLOSE: break; case MIM_DATA: message = dwParam1 & 0xff; if ( ( message & 0xf0 ) == 0x90 ) { if ( ( ( message & 0x0f ) + 1 ) == in_midichannel->integer ) MIDI_NoteOn( ( dwParam1 & 0xff00 ) >> 8, ( dwParam1 & 0xff0000 ) >> 16 ); } else if ( ( message & 0xf0 ) == 0x80 ) { if ( ( ( message & 0x0f ) + 1 ) == in_midichannel->integer ) MIDI_NoteOff( ( dwParam1 & 0xff00 ) >> 8 ); } break; case MIM_LONGDATA: break; case MIM_ERROR: break; case MIM_LONGERROR: break; } // Sys_QueEvent( sys_msg_time, SE_KEY, wMsg, qtrue, 0, NULL ); } static void MidiInfo_f( void ) { int i; const char *enableStrings[] = { "disabled", "enabled" }; Com_Printf( "\nMIDI control: %s\n", enableStrings[in_midi->integer != 0] ); Com_Printf( "port: %d\n", in_midiport->integer ); Com_Printf( "channel: %d\n", in_midichannel->integer ); Com_Printf( "current device: %d\n", in_mididevice->integer ); Com_Printf( "number of devices: %d\n", s_midiInfo.numDevices ); for ( i = 0; i < s_midiInfo.numDevices; i++ ) { if ( i == Cvar_VariableValue( "in_mididevice" ) ) Com_Printf( "***" ); else Com_Printf( "..." ); Com_Printf( "device %2d: %s\n", i, s_midiInfo.caps[i].szPname ); Com_Printf( "...manufacturer ID: 0x%hx\n", s_midiInfo.caps[i].wMid ); Com_Printf( "...product ID: 0x%hx\n", s_midiInfo.caps[i].wPid ); Com_Printf( "\n" ); } } static void IN_StartupMIDI() { int i; if ( !Cvar_VariableValue( "in_midi" ) ) return; // // enumerate MIDI IN devices // s_midiInfo.numDevices = midiInGetNumDevs(); for ( i = 0; i < s_midiInfo.numDevices; i++ ) { midiInGetDevCaps( i, &s_midiInfo.caps[i], sizeof( s_midiInfo.caps[i] ) ); } // activate and archive the cvars since they actually want midi support in_midiport = Cvar_Get ("in_midiport", "1", CVAR_ARCHIVE); in_midichannel = Cvar_Get ("in_midichannel", "1", CVAR_ARCHIVE); in_mididevice = Cvar_Get ("in_mididevice", "0", CVAR_ARCHIVE); Cmd_AddCommand( "midiinfo", MidiInfo_f ); // // open the MIDI IN port // if ( midiInOpen( &s_midiInfo.hMidiIn, in_mididevice->integer, ( unsigned long ) MidiInProc, ( unsigned long ) NULL, CALLBACK_FUNCTION ) != MMSYSERR_NOERROR ) { Com_Printf( "WARNING: could not open MIDI device %d: '%s'\n", in_mididevice->integer , s_midiInfo.caps[( int ) in_mididevice->value] ); return; } midiInStart( s_midiInfo.hMidiIn ); } static void IN_ShutdownMIDI() { if ( s_midiInfo.hMidiIn ) midiInClose( s_midiInfo.hMidiIn ); Com_Memset( &s_midiInfo, 0, sizeof( s_midiInfo ) ); Cmd_RemoveCommand( "midiinfo" ); } /* ========================================================================= MINIMIZE HOTKEY ========================================================================= */ #ifndef MOD_NOREPEAT #define MOD_NOREPEAT 0x4000 #endif static void WIN_RegisterHotKey( UINT modifiers, UINT key ) { if ( g_wv.minimizeHotKeyValid ) return; // the return value, when not 0, is guaranteed to be in // the proper range for RegisterHotKey const int atom = (int)GlobalAddAtom( "cnq3_minimize_hotkey" ); if ( atom == 0 ) return; if ( RegisterHotKey(g_wv.hWnd, atom, modifiers | MOD_NOREPEAT, key) == 0 ) { GlobalDeleteAtom( (ATOM)atom ); Com_Printf( "ERROR: the in_minimize hotkey registration failed\n" ); return; } g_wv.minimizeHotKeyValid = qtrue; g_wv.minimizeHotKeyId = atom; g_wv.minimizeHotKeyKey = key; g_wv.minimizeHotKeyMods = modifiers; } void WIN_RegisterLastValidHotKey() { if ( g_wv.minimizeHotKeyKey != 0 ) WIN_RegisterHotKey( g_wv.minimizeHotKeyMods, g_wv.minimizeHotKeyKey ); } void WIN_UnregisterHotKey() { if ( !g_wv.minimizeHotKeyValid ) return; UnregisterHotKey( g_wv.hWnd, g_wv.minimizeHotKeyId ); GlobalDeleteAtom( (ATOM)g_wv.minimizeHotKeyId ); g_wv.minimizeHotKeyValid = qfalse; g_wv.minimizeHotKeyId = 0; } typedef struct { const char* name; UINT key; // or flag qbool reserved; } win_keyMap_t; #define KEY(Name, Key) { Name, Key, qfalse } #define KEYR(Name, Key) { Name, Key, qtrue } static const win_keyMap_t win_stdKeyMaps[] = { KEYR("back", VK_BACK), KEYR("backspace", VK_BACK), KEY("tab", VK_TAB), KEYR("return", VK_RETURN), KEYR("enter", VK_RETURN), KEY("pause", VK_PAUSE), KEY("capital", VK_CAPITAL), KEY("caps", VK_CAPITAL), KEY("capslock", VK_CAPITAL), KEYR("esc", VK_ESCAPE), KEYR("escape", VK_ESCAPE), KEYR("space", VK_SPACE), KEY("pageup", VK_PRIOR), KEY("pgup", VK_PRIOR), KEY("pagedown", VK_NEXT), KEY("pgdn", VK_NEXT), KEY("end", VK_END), KEY("home", VK_HOME), KEY("left", VK_LEFT), KEY("leftarrow", VK_LEFT), KEY("up", VK_UP), KEY("uparrow", VK_UP), KEY("right", VK_RIGHT), KEY("rightarrow", VK_RIGHT), KEY("down", VK_DOWN), KEY("downarrow", VK_DOWN), KEY("select", VK_SELECT), KEY("print", VK_PRINT), KEY("snapshot", VK_SNAPSHOT), KEY("printscreen", VK_SNAPSHOT), KEY("prtsc", VK_SNAPSHOT), KEY("insert", VK_INSERT), KEY("ins", VK_INSERT), KEYR("delete", VK_DELETE), KEYR("del", VK_DELETE), KEY("kpmultiply", VK_MULTIPLY), KEY("kpmul", VK_MULTIPLY), KEY("kpadd", VK_ADD), KEY("kpsubtract", VK_SUBTRACT), KEY("kpsub", VK_SUBTRACT), KEY("kpdecimal", VK_DECIMAL), KEY("kpdec", VK_DECIMAL), KEY("kpdelete", VK_DECIMAL), KEY("kpdel", VK_DECIMAL), KEY("kpdivide", VK_DIVIDE), KEY("kpdiv", VK_DIVIDE), KEY("numlock", VK_NUMLOCK), KEY("kpnumlock", VK_NUMLOCK), KEY("kplock", VK_NUMLOCK), KEY("scrolllock", VK_SCROLL), KEY("scroll", VK_SCROLL), KEY("oem1", VK_OEM_1), KEY(";", VK_OEM_1), KEY(":", VK_OEM_1), KEY("oem2", VK_OEM_2), KEY("/", VK_OEM_2), KEY("?", VK_OEM_2), KEY("oem3", VK_OEM_3), KEY("backtick", VK_OEM_3), KEY("tilde", VK_OEM_3), KEY("oem4", VK_OEM_4), KEY("[", VK_OEM_4), KEY("{", VK_OEM_4), KEY("oem5", VK_OEM_5), KEY("\\", VK_OEM_5), KEY("|", VK_OEM_5), KEY("oem6", VK_OEM_6), KEY("]", VK_OEM_6), KEY("}", VK_OEM_6), KEY("oem7", VK_OEM_7), KEY("\"", VK_OEM_7), KEY("'", VK_OEM_7), KEY("oem8", VK_OEM_8), KEY("oem102", VK_OEM_102), KEY("+", VK_OEM_PLUS), KEY("=", VK_OEM_PLUS), KEY(",", VK_OEM_COMMA), KEY("<", VK_OEM_COMMA), KEY("-", VK_OEM_MINUS), KEY("_", VK_OEM_MINUS), KEY(".", VK_OEM_PERIOD), KEY(">", VK_OEM_PERIOD), KEY("!", '1'), KEY("@", '2'), KEY("#", '3'), KEY("$", '4'), KEY("%", '5'), KEY("^", '6'), KEY("&", '7'), KEY("*", '8'), KEY("(", '9'), KEY(")", '0'), KEY("kp0", 0x60), KEY("kp1", 0x61), KEY("kp2", 0x62), KEY("kp3", 0x63), KEY("kp4", 0x64), KEY("kp5", 0x65), KEY("kp6", 0x66), KEY("kp7", 0x67), KEY("kp8", 0x68), KEY("kp9", 0x69), KEY("f1", 0x70), KEY("f2", 0x71), KEY("f3", 0x72), KEY("f4", 0x73), KEY("f5", 0x74), KEY("f6", 0x75), KEY("f7", 0x76), KEY("f8", 0x77), KEY("f9", 0x78), KEY("f10", 0x79), KEY("f11", 0x7A), KEY("f12", 0x7B) }; #undef KEY #define MOD(Name, Flag) { Name, Flag } static const win_keyMap_t win_modKeyMaps[] = { MOD("alt", MOD_ALT), MOD("ctl", MOD_CONTROL), MOD("ctrl", MOD_CONTROL), MOD("control", MOD_CONTROL), MOD("shift", MOD_SHIFT), MOD("win", MOD_WIN), MOD("windows", MOD_WIN) }; #undef MOD typedef struct { const char* name; UINT key; UINT mod; } win_hotKey_t; #define KEY(Name, Key, Mod) { Name, Key, Mod } static const win_hotKey_t win_allowedSingleKeys[] = { KEY("alt", VK_MENU, MOD_ALT), KEY("ctl", VK_CONTROL, MOD_CONTROL), KEY("ctrl", VK_CONTROL, MOD_CONTROL), KEY("control", VK_CONTROL, MOD_CONTROL), KEY("shift", VK_SHIFT, MOD_SHIFT) }; #undef KEY #define KEY(Mod, Key, Name) { Name, Key, Mod } static const win_hotKey_t win_reservedHotkeys[] = { KEY(MOD_ALT, VK_RETURN, "fullscreen toggle"), KEY(MOD_ALT, VK_TAB, "task switch"), KEY(MOD_WIN, 'D', "show desktop toggle"), KEY(MOD_WIN, 'M', "minimize everything"), KEY(MOD_CONTROL | MOD_ALT, VK_DELETE, "log-in screen / task manager") }; #undef KEY static qbool WIN_ParseKey( UINT* key, qbool* reserved, const char* name, const win_keyMap_t* keyMaps, int keyCount, qbool modsOnly ) { if ( !modsOnly ) { const int l = (int)strlen( name ); if ( l == 1 ) { const char c = name[0]; // digits if ( c >= 0x30 && c <= 0x39 ) { *key = (UINT)c; *reserved = qtrue; return qtrue; } // uppercase letters else if ( c >= 0x41 && c <= 0x5A ) { *key = (UINT)c; *reserved = qtrue; return qtrue; } // lowercase letters else if ( c >= 0x61 && c <= 0x7A ) { *key = (UINT)c - 0x20; *reserved = qtrue; return qtrue; } } } for ( int i = 0; i < keyCount; ++i ) { if ( Q_stricmp( name, keyMaps[i].name ) == 0 ) { *key = keyMaps[i].key; *reserved = keyMaps[i].reserved; return qtrue; } } return qfalse; } static qbool WIN_IsAllowedSingleHotKey( win_hotKey_t* hotKey, const char* name ) { const int keyCount = ARRAY_LEN( win_allowedSingleKeys ); for(int i = 0; i < keyCount; ++i) { if ( Q_stricmp( name, win_allowedSingleKeys[i].name ) == 0 ) { *hotKey = win_allowedSingleKeys[i]; return qtrue; } } UINT key; qbool reserved; if ( WIN_ParseKey( &key, &reserved, name, win_stdKeyMaps, ARRAY_LEN(win_stdKeyMaps), qfalse ) && !reserved ) { hotKey->key = key; hotKey->mod = 0; hotKey->name = ""; return qtrue; } return qfalse; } static qbool WIN_IsReservedHotKey( win_hotKey_t* hotKey, UINT key, UINT mods ) { const int keyCount = ARRAY_LEN( win_reservedHotkeys ); for(int i = 0; i < keyCount; ++i) { if ( key == win_reservedHotkeys[i].key && mods == win_reservedHotkeys[i].mod ) { *hotKey = win_reservedHotkeys[i]; return qtrue; } } return qfalse; } static void WIN_PrintHotKeyHelp() { Com_Printf( "The key names must be separated by whitespace,\n" ); Com_Printf( "so use double quotes to enclose the key list.\n" ); Com_Printf( "To print the key names, use the minimizekeynames command.\n" ); } static qbool WIN_ParseHotKey( UINT* key, UINT* modifiers ) { Cmd_TokenizeString( in_minimize->string ); const int count = Cmd_Argc(); if ( count <= 0 ) return qfalse; if ( count == 1 ) { win_hotKey_t hotKey; if( !WIN_IsAllowedSingleHotKey( &hotKey, Cmd_Argv(0) ) ) { Com_Printf( "ERROR: this key can't be used alone\n" ); WIN_PrintHotKeyHelp(); return qfalse; } Com_Printf( "the key '%s' will be registered alone as a hotkey\n", Cmd_Argv(0) ); *key = hotKey.key; *modifiers = hotKey.mod; return qtrue; } *modifiers = 0; qbool keyFound = qfalse; for ( int i = 0; i < count; ++i ) { const char* const keyName = Cmd_Argv(i); if ( *keyName == '\0' ) continue; qbool reserved; if ( WIN_ParseKey( key, &reserved, keyName, win_stdKeyMaps, ARRAY_LEN(win_stdKeyMaps), qfalse ) ) { if ( keyFound ) // we allow at most 1 normal key { Com_Printf( "ERROR: in_minimize specified more than 1 non-modifier key\n" ); WIN_PrintHotKeyHelp(); return qfalse; } keyFound = qtrue; continue; } UINT mod; if ( WIN_ParseKey( &mod, &reserved, keyName, win_modKeyMaps, ARRAY_LEN(win_modKeyMaps), qtrue ) ) { *modifiers |= mod; } else { Com_Printf( "ERROR: in_minimize doesn't recognize key name '%s'\n", keyName ); WIN_PrintHotKeyHelp(); return qfalse; } } if ( !keyFound ) { Com_Printf("ERROR: in_minimize didn't specify a non-modifier key\n"); WIN_PrintHotKeyHelp(); return qfalse; } int modCount = 0; UINT mods = *modifiers; for ( UINT i = 0; i < 32; ++i ) { if ((mods & 1) != 0 ) ++modCount; mods >>= 1; } // we require either 1 or 2 modifier keys if ( modCount < 1 || modCount > 2 ) { Com_Printf("ERROR: in_minimize must specify at most 2 modifier keys\n"); WIN_PrintHotKeyHelp(); return qfalse; } // don't use reserved key combos win_hotKey_t hotKey; if( WIN_IsReservedHotKey( &hotKey, *key, *modifiers ) ) { Com_Printf( "ERROR: this combo is reserved for: %s\n", hotKey.name ); return qfalse; } return qtrue; } static void WIN_PrintKeyNames( const win_keyMap_t* keys, int keyCount ) { const int columnCount = 4; const int lineCount = (keyCount + columnCount - 1) / columnCount; int maxColumnWidths[columnCount]; for ( int x = 0; x < columnCount; ++x ) { int maxWidth = 0; for ( int y = 0; y < lineCount; ++y ) { const int k = x * lineCount + y; if ( k >= keyCount ) break; const int l = (int)strlen( keys[k].name ); maxWidth = max( maxWidth, l ); } maxColumnWidths[x] = maxWidth; } for ( int y = 0; y < lineCount; ++y ) { Com_Printf( " " ); for ( int x = 0; x < columnCount; ++x ) { const int k = x * lineCount + y; if ( k >= keyCount ) break; const char* n = keys[k].name; const int l = (int)strlen(n); Com_Printf(n); const int spaceCount = maxColumnWidths[x] - l + 2; for ( int s = 0; s < spaceCount; ++s ) Com_Printf( " " ); } Com_Printf( "\n" ); } } static void WIN_PrintMinimizeKeyNames() { Com_Printf( "Key Names:\n" ); WIN_PrintKeyNames( win_stdKeyMaps, ARRAY_LEN( win_stdKeyMaps ) ); Com_Printf( "\n" ); Com_Printf( "Modifier Key Names:\n" ); WIN_PrintKeyNames( win_modKeyMaps, ARRAY_LEN( win_modKeyMaps ) ); } static void IN_StartupHotKey( qbool fullStartUp ) { in_minimize = Cvar_Get( "in_minimize", "", CVAR_ARCHIVE ); in_minimize->modified = qfalse; if ( fullStartUp ) Cmd_AddCommand( "minimizekeynames", &WIN_PrintMinimizeKeyNames ); WIN_UnregisterHotKey(); if ( in_minimize->string[0] == '\0' ) return; UINT key, modifiers; if ( !WIN_ParseHotKey( &key, &modifiers ) ) return; WIN_RegisterHotKey( modifiers, key ); } static void IN_ShutDownHotKey() { Cmd_RemoveCommand( "minimizekeynames" ); WIN_UnregisterHotKey(); } static void IN_UpdateHotKey() { if ( !in_minimize->modified ) return; in_minimize->modified = qtrue; IN_StartupHotKey( qfalse ); }