///////////////////////////////////////////////////////////////////// // Created by [Dennis Andersen] [2013] ///////////////////////////////////////////////////////////////////// #include "..\..\Include\Win32\Win32Input.h" #include #pragma warning ( disable : 4172 ) using namespace Input; using namespace Input::Enum; using namespace std; Win32Keyboard::Win32Keyboard(HWND target) { this->isActive = false; this->device.usUsagePage = 0x01; this->device.hwndTarget = target; this->device.usUsage = RawInput_Usage_keyboard; this->device.dwFlags = RIDEV_NOLEGACY; memset(&this->keys[0], 0, sizeof(Win32Keyboard::Keys) * MAXKEYS); } Win32Keyboard::~Win32Keyboard() { } bool Win32Keyboard::IsKeyUp (SAKI key) { return !this->keys[key].isDown; } bool Win32Keyboard::IsKeyDown (SAKI key) { return this->keys[key].isDown; } wchar_t* Win32Keyboard::GetAsText(Enum::SAKI key) { if(Enum::SAKI_Unknown == key) return 0; // getting a human-readable string UINT temp = (this->keys[key].makecode << 16) | (this->keys[key].isE0 << 24); wchar_t buff[16] = {0}; GetKeyNameTextW((LONG)temp, buff, 16); return buff; } void Win32Keyboard::Activate () { if(this->isActive) return; this->Create(); } void Win32Keyboard::Deactivate () { if(!this->isActive) return; RAWINPUTDEVICE d; d.dwFlags = RIDEV_REMOVE; d.hwndTarget = 0; d.usUsage = RawInput_Usage_keyboard; d.usUsagePage = 0x01; if(RegisterRawInputDevices(&d, 1, sizeof(RAWINPUTDEVICE))) { this->isActive = true; } } void Win32Keyboard::ProccessKeyboardData (RAWKEYBOARD keyboard) { if(!this->active) { return; } bool isUp = (( keyboard.Flags & RI_KEY_BREAK) != 0); SAKI key = SAKI_Unknown; bool isE0; MapKey(keyboard, key, isE0); if(key != SAKI_Unknown) { //The key is released. if(isUp)/*(k.Flags == RI_KEY_BREAK || k.Flags == (RI_KEY_BREAK | RI_KEY_E0) || k.Flags == (RI_KEY_BREAK | RI_KEY_E1))*/ { InternalOnKeyRelease(key); this->keys[key].isDown = false; this->keys[key].isE0 = isE0; this->keys[key].makecode = keyboard.MakeCode; } //The key is pressed. else /*if (k.Flags == RI_KEY_MAKE || k.Flags == (RI_KEY_MAKE | RI_KEY_E0) || k.Flags == (RI_KEY_MAKE | RI_KEY_E1))*/ { if(this->keys[key].isDown) { this->InternalOnKeyDown(key); } else { this->InternalOnKeyPress(key); this->keys[key].isDown = true; this->keys[key].isE0 = isE0; this->keys[key].makecode = keyboard.MakeCode; } } } if(this->textTarget) { //Parse text UINT virtualKey = MapVirtualKey(keyboard.VKey, MAPVK_VK_TO_CHAR); if(this->keys[SAKI_Backspace].isDown) { if( this->writePos > 0 ) { --this->writePos; this->textTarget->erase( this->writePos, 1 ); } } else if (this->keys[SAKI_Delete].isDown) { if( this->writePos < this->textTarget->size() ) { this->textTarget->erase( this->writePos, 1 ); } } else if (this->keys[SAKI_Left].isDown) { this->writePos = std::max( this->writePos - 1, (wstring::size_type)0 ); } else if (this->keys[SAKI_Right].isDown) { this->writePos = std::min( this->writePos + 1, this->textTarget->size() ); } else if (virtualKey && !isUp) { wchar_t test = towlower((wchar_t)virtualKey); if( this->keys[SAKI_LeftShift].isDown || this->keys[SAKI_RightShift].isDown ) { if(key == SAKI_0) test = L'='; else if(key == SAKI_1) test = L'!'; else if(key == SAKI_2) test = L'"'; else if(key == SAKI_3) test = L'#'; else if(key == SAKI_4) test = L'¤'; else if(key == SAKI_5) test = L'%'; else if(key == SAKI_6) test = L'&'; else if(key == SAKI_7) test = L'/'; else if(key == SAKI_8) test = L'('; else if(key == SAKI_9) test = L')'; else if(key == SAKI_Add) test = L'?'; test = towupper(test); } else if( this->keys[SAKI_LeftAlt].isDown || this->keys[SAKI_RightAlt].isDown ) { if(key == SAKI_2) test = L'@'; else if(key == SAKI_3) test = L'£'; else if(key == SAKI_4) test = L'$'; else if(key == SAKI_5) test = L'€'; else if(key == SAKI_7) test = L'{'; else if(key == SAKI_8) test = L'['; else if(key == SAKI_9) test = L']'; else if(key == SAKI_0) test = L'}'; else if(key == SAKI_Add) test = L'\\'; } this->textTarget->insert( this->writePos, 1, test); ++this->writePos; } } } void Win32Keyboard::MapKey(RAWKEYBOARD& rawKB, SAKI& out_key, bool& isE0) { //------------------------------------------------------------------------------------// // http://molecularmusings.wordpress.com/2011/09/05/properly-handling-keyboard-input/ // //------------------------------------------------------------------------------------// UINT virtualKey = rawKB.VKey; UINT scanCode = rawKB.MakeCode; UINT flags = rawKB.Flags; if (virtualKey == 255) { // discard "fake keys" which are part of an escaped sequence return; } else if (virtualKey == VK_SHIFT) { // correct left-hand / right-hand SHIFT virtualKey = MapVirtualKey(scanCode, MAPVK_VSC_TO_VK_EX); } else if (virtualKey == VK_NUMLOCK) { // correct PAUSE/BREAK and NUM LOCK silliness, and set the extended bit scanCode = (MapVirtualKey(virtualKey, MAPVK_VK_TO_VSC) | 0x100); } // e0 and e1 are escape sequences used for certain special keys, such as PRINT and PAUSE/BREAK. // see http://www.win.tue.nl/~aeb/linux/kbd/scancodes-1.html isE0 = ((flags & RI_KEY_E0) != 0); const bool isE1 = ((flags & RI_KEY_E1) != 0); if (isE1) { // for escaped sequences, turn the virtual key into the correct scan code using MapVirtualKey. // however, MapVirtualKey is unable to map VK_PAUSE (this is a known bug), hence we map that by hand. if (virtualKey == VK_PAUSE) scanCode = 0x45; else scanCode = MapVirtualKey(virtualKey, MAPVK_VK_TO_VSC); } switch (virtualKey) { // right-hand CONTROL and ALT have their e0 bit set case VK_CONTROL: if (isE0) out_key = SAKI_RightCtrl; else out_key = SAKI_LeftCtrl; break; case VK_MENU: if (isE0) out_key = SAKI_RightAlt; else out_key = SAKI_LeftAlt; break; // NUMPAD ENTER has its e0 bit set case VK_RETURN: if (isE0) out_key = SAKI_NumpadEnter; break; // the standard INSERT, DELETE, HOME, END, PRIOR and NEXT keys will always have their e0 bit set, but the // corresponding keys on the NUMPAD will not. case VK_INSERT: if (!isE0) out_key = SAKI_Numpad0; break; case VK_DELETE: if (!isE0) out_key = SAKI_NumpadDecimal; break; case VK_HOME: if (!isE0) out_key = SAKI_Numpad7; break; case VK_END: if (!isE0) out_key = SAKI_Numpad1; break; case VK_PRIOR: if (!isE0) out_key = SAKI_Numpad9; break; case VK_NEXT: if (!isE0) out_key = SAKI_Numpad3; break; // the standard arrow keys will always have their e0 bit set, but the // corresponding keys on the NUMPAD will not. case VK_LEFT: if (!isE0) out_key = SAKI_Numpad4; break; case VK_RIGHT: if (!isE0) out_key = SAKI_Numpad6; break; case VK_UP: if (!isE0) out_key = SAKI_Numpad8; break; case VK_DOWN: if (!isE0) out_key = SAKI_Numpad2; break; // NUMPAD 5 doesn't have its e0 bit set case VK_CLEAR: if (!isE0) out_key = SAKI_Numpad5; break; case 0x03 : //VK_CANCEL break; case 0x08 : //VK_BACK out_key = SAKI_Backspace; break; case 0x09 : //VK_TAB out_key = SAKI_Tab; break; case 0x10 : //VK_SHIFT out_key = SAKI_LeftShift; out_key = SAKI_RightShift; break; case 0x13 : //VK_PAUSE out_key = SAKI_Pause; break; case 0x14 : //VK_CAPITAL out_key = SAKI_CapsLock; break; case 0x15 : //VK_KANA break; case 0x1B : //VK_ESCAPE out_key = SAKI_Escape; break; case 0x1C : //VK_CONVERT break; case 0x1D : //VK_NONCONVERT break; case 0x1E : //VK_ACCEPT break; case 0x1F : //VK_MODECHANGE break; case 0x20 : //VK_SPACE out_key = SAKI_Space; break; case 0x29 : //VK_SELECT break; case 0x2A : //VK_PRINT out_key = SAKI_PrintScreen; break; case 0x2B : //VK_EXECUTE break; case 0x2C : //VK_SNAPSHOT break; case 0x2F : //VK_HELP break; case 0x30 : //0 key out_key = SAKI_0; break; case 0x31 : //1 key out_key = SAKI_1; break; case 0x32 : //2 key out_key = SAKI_2; break; case 0x33 : //3 key out_key = SAKI_3; break; case 0x34 : //4 key out_key = SAKI_4; break; case 0x35 : //5 key out_key = SAKI_5; break; case 0x36 : //6 key out_key = SAKI_6; break; case 0x37 : //7 key out_key = SAKI_7; break; case 0x38 : //8 key out_key = SAKI_8; break; case 0x39 : //9 key out_key = SAKI_9; break; case 0x41 : //A key out_key = SAKI_A; break; case 0x42 : //B key out_key = SAKI_B; break; case 0x43 : //C key out_key = SAKI_C; break; case 0x44 : //D key out_key = SAKI_D; break; case 0x45 : //E key out_key = SAKI_E; break; case 0x46 : //F key out_key = SAKI_F; break; case 0x47 : //G key out_key = SAKI_G; break; case 0x48 : //H key out_key = SAKI_H; break; case 0x49 : //I key out_key = SAKI_I; break; case 0x4A : //J key out_key = SAKI_J; break; case 0x4B : //K key out_key = SAKI_K; break; case 0x4C : //L key out_key = SAKI_L; break; case 0x4D : //M key out_key = SAKI_M; break; case 0x4E : //N key out_key = SAKI_N; break; case 0x4F : //O key out_key = SAKI_O; break; case 0x50 : //P key out_key = SAKI_P; break; case 0x51 : //Q key out_key = SAKI_Q; break; case 0x52 : //R key out_key = SAKI_R; break; case 0x53 : //S key out_key = SAKI_S; break; case 0x54 : //T key out_key = SAKI_T; break; case 0x55 : //U key out_key = SAKI_U; break; case 0x56 : //V key out_key = SAKI_V; break; case 0x57 : //W key out_key = SAKI_W; break; case 0x58 : //X key out_key = SAKI_X; break; case 0x59 : //Y key out_key = SAKI_Y; break; case 0x5A : //Z key out_key = SAKI_Z; break; case 0x5B : //VK_LWIN break; case 0x5C : //VK_RWIN break; case 0x5D : //VK_APPS break; case 0x5F : //VK_SLEEP break; case 0x60 : //VK_NUMPAD0 out_key = SAKI_Numpad0; break; case 0x61 : //VK_NUMPAD1 out_key = SAKI_Numpad1; break; case 0x62 : //VK_NUMPAD2 out_key = SAKI_Numpad2; break; case 0x63 : //VK_NUMPAD3 out_key = SAKI_Numpad3; break; case 0x64 : //VK_NUMPAD4 out_key = SAKI_Numpad4; break; case 0x65 : //VK_NUMPAD5 out_key = SAKI_Numpad5; break; case 0x66 : //VK_NUMPAD6 out_key = SAKI_Numpad6; break; case 0x67 : //VK_NUMPAD7 out_key = SAKI_Numpad7; break; case 0x68 : //VK_NUMPAD8 out_key = SAKI_Numpad8; break; case 0x69 : //VK_NUMPAD9 out_key = SAKI_Numpad9; break; case 0x6A : //VK_MULTIPLY out_key = SAKI_NumpadMultiply; break; case 0x6B : //VK_ADD out_key = SAKI_NumpadPlus; break; case 0x6C : //VK_SEPARATOR break; case 0x6D : //VK_SUBTRACT out_key = SAKI_NumpadSubtract; break; case 0x6E : //VK_DECIMAL out_key = SAKI_NumpadDecimal; break; case 0x6F : //VK_DIVIDE out_key = SAKI_NumpadDivide; break; case 0x70 : //VK_F1 out_key = SAKI_F1; break; case 0x71 : //VK_F2 out_key = SAKI_F2; break; case 0x72 : //VK_F3 out_key = SAKI_F3; break; case 0x73 : //VK_F4 out_key = SAKI_F4; break; case 0x74 : //VK_F5 out_key = SAKI_F5; break; case 0x75 : //VK_F6 out_key = SAKI_F6; break; case 0x76 : //VK_F7 out_key = SAKI_F7; break; case 0x77 : //VK_F8 out_key = SAKI_F8; break; case 0x78 : //VK_F9 out_key = SAKI_F9; break; case 0x79 : //VK_F10 out_key = SAKI_F10; break; case 0x7A : //VK_F11 out_key = SAKI_F11; break; case 0x7B : //VK_F12 out_key = SAKI_F12; break; case 0x7C : //VK_F13 out_key = SAKI_F13; break; case 0x7D : //VK_F14 out_key = SAKI_F14; break; case 0x7E : //VK_F15 out_key = SAKI_F15; break; case 0x7F : //VK_F16 out_key = SAKI_F16; break; case 0x80 : //VK_F17 out_key = SAKI_F17; break; case 0x81 : //VK_F18 out_key = SAKI_F18; break; case 0x82 : //VK_F19 out_key = SAKI_F19; break; case 0x83 : //VK_F20 out_key = SAKI_F20; break; case 0x84 : //VK_F21 out_key = SAKI_F21; break; case 0x85 : //VK_F22 out_key = SAKI_F22; break; case 0x86 : //VK_F23 out_key = SAKI_F23; break; case 0x87 : //VK_F24 out_key = SAKI_F24; break; case 0x90 : //VK_NUMLOCK out_key = SAKI_Numlock; break; case 0x91 : //VK_SCROLL out_key = SAKI_ScrlLock; break; case 0xA0 : //VK_LSHIFT out_key = SAKI_LeftShift; break; case 0xA1 : //VK_RSHIFT out_key = SAKI_RightShift; break; case 0xA2 : //VK_LCONTROL out_key = SAKI_LeftCtrl; break; case 0xA3 : //VK_RCONTROL out_key = SAKI_RightCtrl; break; case 0xA4 : //VK_LMENU out_key = SAKI_LeftAlt; break; case 0xA5 : //VK_RMENU out_key = SAKI_RightCtrl; break; case 0xAD : //VK_VOLUME_MUTE out_key = SAKI_VolumeMute; break; case 0xAE : //VK_VOLUME_DOWN out_key = SAKI_VolumeDown; break; case 0xAF : //VK_VOLUME_UP out_key = SAKI_VolumeUp; break; case 0xB0 : //VK_MEDIA_NEXT_TRACK out_key = SAKI_MediaNext; break; case 0xB1 : //VK_MEDIA_PREV_TRACK out_key = SAKI_MediaPrev; break; case 0xB2 : //VK_MEDIA_STOP out_key = SAKI_MediaStop; break; case 0xB3 : //VK_MEDIA_PLAY_PAUSE out_key = SAKI_MediaPlayPause; break; case 0xBB://VK_OEM_PLUS out_key = SAKI_Add; break; case 0xBC://VK_OEM_COMMA out_key = SAKI_Comma; break; case 0xBD://VK_OEM_MINUS out_key = SAKI_Minus; break; case 0xBE://VK_OEM_PERIOD out_key = SAKI_Period; break; case 0xBA://VK_OEM_1 break; case 0xBF://VK_OEM_2 break; case 0xC0://VK_OEM_3 break; case 0xDB://VK_OEM_4 break; case 0xDC://VK_OEM_5 break; case 0xDD://VK_OEM_6 break; case 0xDE://VK_OEM_7 break; case 0xDF://VK_OEM_8 break; } } bool Win32Keyboard::Create() { if(RegisterRawInputDevices(&this->device, 1, sizeof(RAWINPUTDEVICE)) == TRUE) { this->isActive = true; return true; } return false; }