/* The zlib/libpng License Copyright (c) 2005-2007 Phillip Castaneda (pjcast -- www.wreckedgames.com) This software is provided 'as-is', without any express or implied warranty. In no event will the authors be held liable for any damages arising from the use of this software. Permission is granted to anyone to use this software for any purpose, including commercial applications, and to alter it and redistribute it freely, subject to the following restrictions: 1. The origin of this software must not be misrepresented; you must not claim that you wrote the original software. If you use this software in a product, an acknowledgment in the product documentation would be appreciated but is not required. 2. Altered source versions must be plainly marked as such, and must not be misrepresented as being the original software. 3. This notice may not be removed or altered from any source distribution. */ #include "win32/Win32JoyStick.h" #include "win32/Win32InputManager.h" #include "win32/Win32ForceFeedback.h" #include "OISEvents.h" #include "OISException.h" #include #include #include //#include #ifndef SAFE_RELEASE #define SAFE_RELEASE(x) \ if(x != NULL) \ { \ x->Release(); \ x = NULL; \ } #endif #ifdef OIS_WIN32_XINPUT_SUPPORT # pragma comment(lib, "xinput.lib") #endif //DX Only defines macros for the JOYSTICK not JOYSTICK2, so fix it #undef DIJOFS_BUTTON #undef DIJOFS_POV #define DIJOFS_BUTTON(n) (FIELD_OFFSET(DIJOYSTATE2, rgbButtons) + (n)) #define DIJOFS_POV(n) (FIELD_OFFSET(DIJOYSTATE2, rgdwPOV)+(n)*sizeof(DWORD)) #define DIJOFS_SLIDER0(n) (FIELD_OFFSET(DIJOYSTATE2, rglSlider)+(n) * sizeof(LONG)) #define DIJOFS_SLIDER1(n) (FIELD_OFFSET(DIJOYSTATE2, rglVSlider)+(n) * sizeof(LONG)) #define DIJOFS_SLIDER2(n) (FIELD_OFFSET(DIJOYSTATE2, rglASlider)+(n) * sizeof(LONG)) #define DIJOFS_SLIDER3(n) (FIELD_OFFSET(DIJOYSTATE2, rglFSlider)+(n) * sizeof(LONG)) #define XINPUT_TRANSLATED_BUTTON_COUNT 12 #define XINPUT_TRANSLATED_AXIS_COUNT 6 using namespace OIS; //--------------------------------------------------------------------------------------------------// Win32JoyStick::Win32JoyStick( InputManager* creator, IDirectInput8* pDI, bool buffered, DWORD coopSettings, const JoyStickInfo &info ) : JoyStick(info.vendor, buffered, info.devId, creator), mDirectInput(pDI), coopSetting(coopSettings), mJoyStick(0), mJoyInfo(info), mFfDevice(0) { } //--------------------------------------------------------------------------------------------------// Win32JoyStick::~Win32JoyStick() { delete mFfDevice; if(mJoyStick) { mJoyStick->Unacquire(); mJoyStick->Release(); mJoyStick = 0; } //Return joystick to pool static_cast(mCreator)->_returnJoyStick(mJoyInfo); } //--------------------------------------------------------------------------------------------------// void Win32JoyStick::_initialize() { if (mJoyInfo.isXInput) { _enumerate(); } else { //Clear old state mState.mAxes.clear(); delete mFfDevice; mFfDevice = 0; DIPROPDWORD dipdw; dipdw.diph.dwSize = sizeof(DIPROPDWORD); dipdw.diph.dwHeaderSize = sizeof(DIPROPHEADER); dipdw.diph.dwObj = 0; dipdw.diph.dwHow = DIPH_DEVICE; dipdw.dwData = JOYSTICK_DX_BUFFERSIZE; if(FAILED(mDirectInput->CreateDevice(mJoyInfo.deviceID, &mJoyStick, NULL))) OIS_EXCEPT( E_General, "Win32JoyStick::_initialize() >> Could not initialize joy device!"); if(FAILED(mJoyStick->SetDataFormat(&c_dfDIJoystick2))) OIS_EXCEPT( E_General, "Win32JoyStick::_initialize() >> data format error!"); HWND hwin = ((Win32InputManager*)mCreator)->getWindowHandle(); if(FAILED(mJoyStick->SetCooperativeLevel( hwin, coopSetting))) OIS_EXCEPT( E_General, "Win32JoyStick::_initialize() >> failed to set cooperation level!"); if( FAILED(mJoyStick->SetProperty(DIPROP_BUFFERSIZE, &dipdw.diph)) ) OIS_EXCEPT( E_General, "Win32Mouse::Win32Mouse >> Failed to set buffer size property" ); //Enumerate all axes/buttons/sliders/etc before aquiring _enumerate(); mState.clear(); capture(); } } //--------------------------------------------------------------------------------------------------// void Win32JoyStick::_enumerate() { if (mJoyInfo.isXInput) { mPOVs = 1; mState.mButtons.resize(XINPUT_TRANSLATED_BUTTON_COUNT); mState.mAxes.resize(XINPUT_TRANSLATED_AXIS_COUNT); } else { // Get joystick capabilities. mDIJoyCaps.dwSize = sizeof(DIDEVCAPS); if( FAILED(mJoyStick->GetCapabilities(&mDIJoyCaps)) ) OIS_EXCEPT( E_General, "Win32JoyStick::_enumerate >> Failed to get capabilities" ); mPOVs = (short)mDIJoyCaps.dwPOVs; mState.mButtons.resize(mDIJoyCaps.dwButtons); mState.mAxes.resize(mDIJoyCaps.dwAxes); //Reset the axis mapping enumeration value _AxisNumber = 0; //Enumerate Force Feedback (if any) mJoyStick->EnumEffects(DIEnumEffectsCallback, this, DIEFT_ALL); //Enumerate and set axis constraints (and check FF Axes) mJoyStick->EnumObjects(DIEnumDeviceObjectsCallback, this, DIDFT_AXIS); } } //--------------------------------------------------------------------------------------------------// BOOL CALLBACK Win32JoyStick::DIEnumDeviceObjectsCallback(LPCDIDEVICEOBJECTINSTANCE lpddoi, LPVOID pvRef) { Win32JoyStick* _this = (Win32JoyStick*)pvRef; //Setup mappings DIPROPPOINTER diptr; diptr.diph.dwSize = sizeof(DIPROPPOINTER); diptr.diph.dwHeaderSize = sizeof(DIPROPHEADER); diptr.diph.dwHow = DIPH_BYID; diptr.diph.dwObj = lpddoi->dwType; //Add a magic number to recognise we set seomthing diptr.uData = 0x13130000 | _this->_AxisNumber; //Check if axis is slider, if so, do not treat as regular axis if(GUID_Slider == lpddoi->guidType) { ++_this->mSliders; //Decrease Axes, since this slider shows up in a different place _this->mState.mAxes.pop_back(); } else if (FAILED(_this->mJoyStick->SetProperty(DIPROP_APPDATA, &diptr.diph))) { //If for some reason we could not set needed user data, just ignore this axis return DIENUM_CONTINUE; } //Increase for next time through if(GUID_Slider != lpddoi->guidType) _this->_AxisNumber += 1; //Set range DIPROPRANGE diprg; diprg.diph.dwSize = sizeof(DIPROPRANGE); diprg.diph.dwHeaderSize = sizeof(DIPROPHEADER); diprg.diph.dwHow = DIPH_BYID; diprg.diph.dwObj = lpddoi->dwType; diprg.lMin = MIN_AXIS; diprg.lMax = MAX_AXIS; if (FAILED(_this->mJoyStick->SetProperty(DIPROP_RANGE, &diprg.diph))) OIS_EXCEPT( E_General, "Win32JoyStick::_DIEnumDeviceObjectsCallback >> Failed to set min/max range property" ); //Check if FF Axes, and if so, increment counter if((lpddoi->dwFlags & DIDOI_FFACTUATOR) != 0 ) { if( _this->mFfDevice ) { _this->mFfDevice->_addFFAxis(); } } //Force the flags for gain and auto-center support to true, //as DInput has no API to query the device for these capabilities //(the only way to know is to try them ...) if( _this->mFfDevice ) { _this->mFfDevice->_setGainSupport(true); _this->mFfDevice->_setAutoCenterSupport(true); } return DIENUM_CONTINUE; } //--------------------------------------------------------------------------------------------------// BOOL CALLBACK Win32JoyStick::DIEnumEffectsCallback(LPCDIEFFECTINFO pdei, LPVOID pvRef) { Win32JoyStick* _this = (Win32JoyStick*)pvRef; //Create the FF instance only after we know there is at least one effect type if( _this->mFfDevice == 0 ) _this->mFfDevice = new Win32ForceFeedback(_this->mJoyStick, &_this->mDIJoyCaps); _this->mFfDevice->_addEffectSupport(pdei); return DIENUM_CONTINUE; } //--------------------------------------------------------------------------------------------------// void Win32JoyStick::capture() { #ifdef OIS_WIN32_XINPUT_SUPPORT //handle xbox controller differently if (mJoyInfo.isXInput) { captureXInput(); return; } #endif //handle directinput based devices DIDEVICEOBJECTDATA diBuff[JOYSTICK_DX_BUFFERSIZE]; DWORD entries = JOYSTICK_DX_BUFFERSIZE; // Poll the device to read the current state HRESULT hr = mJoyStick->Poll(); if( hr == DI_OK ) hr = mJoyStick->GetDeviceData( sizeof(DIDEVICEOBJECTDATA), diBuff, &entries, 0 ); if( hr != DI_OK ) { hr = mJoyStick->Acquire(); while( hr == DIERR_INPUTLOST ) hr = mJoyStick->Acquire(); // Poll the device to read the current state mJoyStick->Poll(); hr = mJoyStick->GetDeviceData( sizeof(DIDEVICEOBJECTDATA), diBuff, &entries, 0 ); //Perhaps the user just tabbed away if( FAILED(hr) ) return; } bool axisMoved[24] = {false,false,false,false,false,false,false,false,false,false,false,false,false,false,false,false, false,false,false,false,false,false,false,false}; bool sliderMoved[4] = {false,false,false,false}; //Loop through all the events for(unsigned int i = 0; i < entries; ++i) { //This may seem outof order, but is in order of the way these variables //are declared in the JoyStick State 2 structure. switch(diBuff[i].dwOfs) { //------ slider -// case DIJOFS_SLIDER0(0): sliderMoved[0] = true; mState.mSliders[0].abX = diBuff[i].dwData; break; case DIJOFS_SLIDER0(1): sliderMoved[0] = true; mState.mSliders[0].abY = diBuff[i].dwData; break; //----- Max 4 POVs Next ---------------// case DIJOFS_POV(0): if(!_changePOV(0,diBuff[i])) return; break; case DIJOFS_POV(1): if(!_changePOV(1,diBuff[i])) return; break; case DIJOFS_POV(2): if(!_changePOV(2,diBuff[i])) return; break; case DIJOFS_POV(3): if(!_changePOV(3,diBuff[i])) return; break; case DIJOFS_SLIDER1(0): sliderMoved[1] = true; mState.mSliders[1].abX = diBuff[i].dwData; break; case DIJOFS_SLIDER1(1): sliderMoved[1] = true; mState.mSliders[1].abY = diBuff[i].dwData; break; case DIJOFS_SLIDER2(0): sliderMoved[2] = true; mState.mSliders[2].abX = diBuff[i].dwData; break; case DIJOFS_SLIDER2(1): sliderMoved[2] = true; mState.mSliders[2].abY = diBuff[i].dwData; break; case DIJOFS_SLIDER3(0): sliderMoved[3] = true; mState.mSliders[3].abX = diBuff[i].dwData; break; case DIJOFS_SLIDER3(1): sliderMoved[3] = true; mState.mSliders[3].abY = diBuff[i].dwData; break; //-----------------------------------------// default: //Handle Button Events Easily using the DX Offset Macros if( diBuff[i].dwOfs >= DIJOFS_BUTTON(0) && diBuff[i].dwOfs < DIJOFS_BUTTON(128) ) { if(!_doButtonClick((diBuff[i].dwOfs - DIJOFS_BUTTON(0)), diBuff[i])) return; } else if((short)(diBuff[i].uAppData >> 16) == 0x1313) { //If it was nothing else, might be axis enumerated earlier (determined by magic number) int axis = (int)(0x0000FFFF & diBuff[i].uAppData); //Mask out the high bit assert( axis >= 0 && axis < (int)mState.mAxes.size() && "Axis out of range!"); if(axis >= 0 && axis < (int)mState.mAxes.size()) { mState.mAxes[axis].abs = diBuff[i].dwData; axisMoved[axis] = true; } } break; } //end case } //end for //Check to see if any of the axes values have changed.. if so send events if( mBuffered && mListener && entries > 0 ) { JoyStickEvent temp(this, mState); //Update axes for( int i = 0; i < 24; ++i ) if( axisMoved[i] ) if( mListener->axisMoved( temp, i ) == false ) return; //Now update sliders for( int i = 0; i < 4; ++i ) if( sliderMoved[i] ) if( mListener->sliderMoved( temp, i ) == false ) return; } } //--------------------------------------------------------------------------------------------------// void Win32JoyStick::captureXInput() { #ifdef OIS_WIN32_XINPUT_SUPPORT XINPUT_STATE inputState; if (XInputGetState((DWORD)mJoyInfo.xInputDev, &inputState) != ERROR_SUCCESS) memset(&inputState, 0, sizeof(inputState)); //Sticks and triggers int value; bool axisMoved[XINPUT_TRANSLATED_AXIS_COUNT] = {false,false,false,false,false,false}; //LeftY value = -(int)inputState.Gamepad.sThumbLY; mState.mAxes[0].rel = value - mState.mAxes[0].abs; mState.mAxes[0].abs = value; if(mState.mAxes[0].rel != 0) axisMoved[0] = true; //LeftX mState.mAxes[1].rel = inputState.Gamepad.sThumbLX - mState.mAxes[1].abs; mState.mAxes[1].abs = inputState.Gamepad.sThumbLX; if(mState.mAxes[1].rel != 0) axisMoved[1] = true; //RightY value = -(int)inputState.Gamepad.sThumbRY; mState.mAxes[2].rel = value - mState.mAxes[2].abs; mState.mAxes[2].abs = value; if(mState.mAxes[2].rel != 0) axisMoved[2] = true; //RightX mState.mAxes[3].rel = inputState.Gamepad.sThumbRX - mState.mAxes[3].abs; mState.mAxes[3].abs = inputState.Gamepad.sThumbRX; if(mState.mAxes[3].rel != 0) axisMoved[3] = true; //Left trigger value = inputState.Gamepad.bLeftTrigger * 129; if(value > JoyStick::MAX_AXIS) value = JoyStick::MAX_AXIS; mState.mAxes[4].rel = value - mState.mAxes[4].abs; mState.mAxes[4].abs = value; if(mState.mAxes[4].rel != 0) axisMoved[4] = true; //Right trigger value = (int)inputState.Gamepad.bRightTrigger * 129; if(value > JoyStick::MAX_AXIS) value = JoyStick::MAX_AXIS; mState.mAxes[5].rel = value - mState.mAxes[5].abs; mState.mAxes[5].abs = value; if(mState.mAxes[5].rel != 0) axisMoved[5] = true; //POV int previousPov = mState.mPOV[0].direction; int& pov = mState.mPOV[0].direction; pov = Pov::Centered; if (inputState.Gamepad.wButtons & XINPUT_GAMEPAD_DPAD_UP) pov |= Pov::North; else if (inputState.Gamepad.wButtons & XINPUT_GAMEPAD_DPAD_DOWN) pov |= Pov::South; if (inputState.Gamepad.wButtons & XINPUT_GAMEPAD_DPAD_LEFT) pov |= Pov::West; else if (inputState.Gamepad.wButtons & XINPUT_GAMEPAD_DPAD_RIGHT) pov |= Pov::East; //Buttons - The first 4 buttons don't need to be checked since they represent the dpad bool previousButtons[XINPUT_TRANSLATED_BUTTON_COUNT]; std::copy(mState.mButtons.begin(), mState.mButtons.end(), previousButtons); for (size_t i = 0; i < XINPUT_TRANSLATED_BUTTON_COUNT; i++) mState.mButtons[i] = (inputState.Gamepad.wButtons & (1 << (i + 4))) != 0; //Send events if (mBuffered && mListener) { JoyStickEvent joystickEvent(this, mState); //Axes for (int i = 0; i < XINPUT_TRANSLATED_AXIS_COUNT; i++) { if (axisMoved[i] && !mListener->axisMoved(joystickEvent, i)) return; } //POV if (previousPov != pov && !mListener->povMoved(joystickEvent, 0)) return; //Buttons for (int i = 0; i < XINPUT_TRANSLATED_BUTTON_COUNT; i++) { if (!previousButtons[i] && mState.mButtons[i]) { if (!mListener->buttonPressed(joystickEvent, i)) return; } else if (previousButtons[i] && !mState.mButtons[i]) { if (!mListener->buttonReleased(joystickEvent, i)) return; } } } #endif } //--------------------------------------------------------------------------------------------------// bool Win32JoyStick::_doButtonClick( int button, DIDEVICEOBJECTDATA& di ) { if( di.dwData & 0x80 ) { mState.mButtons[button] = true; if( mBuffered && mListener ) return mListener->buttonPressed( JoyStickEvent( this, mState ), button ); } else { mState.mButtons[button] = false; if( mBuffered && mListener ) return mListener->buttonReleased( JoyStickEvent( this, mState ), button ); } return true; } //--------------------------------------------------------------------------------------------------// bool Win32JoyStick::_changePOV( int pov, DIDEVICEOBJECTDATA& di ) { //Some drivers report a value of 65,535, instead of —1, //for the center position if(LOWORD(di.dwData) == 0xFFFF) { mState.mPOV[pov].direction = Pov::Centered; } else { switch(di.dwData) { case 0: mState.mPOV[pov].direction = Pov::North; break; case 4500: mState.mPOV[pov].direction = Pov::NorthEast; break; case 9000: mState.mPOV[pov].direction = Pov::East; break; case 13500: mState.mPOV[pov].direction = Pov::SouthEast; break; case 18000: mState.mPOV[pov].direction = Pov::South; break; case 22500: mState.mPOV[pov].direction = Pov::SouthWest; break; case 27000: mState.mPOV[pov].direction = Pov::West; break; case 31500: mState.mPOV[pov].direction = Pov::NorthWest; break; } } if( mBuffered && mListener ) return mListener->povMoved( JoyStickEvent( this, mState ), pov ); return true; } //--------------------------------------------------------------------------------------------------// void Win32JoyStick::setBuffered(bool buffered) { mBuffered = buffered; } //--------------------------------------------------------------------------------------------------// Interface* Win32JoyStick::queryInterface(Interface::IType type) { if( mFfDevice && type == Interface::ForceFeedback ) return mFfDevice; else return 0; } //--------------------------------------------------------------------------------------------------// void Win32JoyStick::CheckXInputDevices(JoyStickInfoList &joys) { IWbemLocator* pIWbemLocator = NULL; IEnumWbemClassObject* pEnumDevices = NULL; IWbemClassObject* pDevices[20] = {0}; IWbemServices* pIWbemServices = NULL; BSTR bstrNamespace = NULL; BSTR bstrDeviceID = NULL; BSTR bstrClassName = NULL; DWORD uReturned = 0; bool bIsXinputDevice= false; DWORD iDevice = 0; int xDevice = 0; VARIANT var; HRESULT hr; if(joys.size() == 0) return; // CoInit if needed hr = CoInitialize(NULL); bool bCleanupCOM = SUCCEEDED(hr); // Create WMI hr = CoCreateInstance(__uuidof(WbemLocator), NULL, CLSCTX_INPROC_SERVER, __uuidof(IWbemLocator), (LPVOID*)&pIWbemLocator); if( FAILED(hr) || pIWbemLocator == NULL ) goto LCleanup; bstrNamespace = SysAllocString( L"\\\\.\\root\\cimv2" ); if( bstrNamespace == NULL ) goto LCleanup; bstrClassName = SysAllocString( L"Win32_PNPEntity" ); if( bstrClassName == NULL ) goto LCleanup; bstrDeviceID = SysAllocString( L"DeviceID" ); if( bstrDeviceID == NULL ) goto LCleanup; // Connect to WMI hr = pIWbemLocator->ConnectServer( bstrNamespace, NULL, NULL, 0L, 0L, NULL, NULL, &pIWbemServices ); if( FAILED(hr) || pIWbemServices == NULL ) goto LCleanup; // Switch security level to IMPERSONATE. CoSetProxyBlanket(pIWbemServices, RPC_C_AUTHN_WINNT, RPC_C_AUTHZ_NONE, NULL, RPC_C_AUTHN_LEVEL_CALL, RPC_C_IMP_LEVEL_IMPERSONATE, NULL, EOAC_NONE ); hr = pIWbemServices->CreateInstanceEnum( bstrClassName, 0, NULL, &pEnumDevices ); if( FAILED(hr) || pEnumDevices == NULL ) goto LCleanup; // Loop over all devices for( ;; ) { // Get 20 at a time hr = pEnumDevices->Next(5000, 20, pDevices, &uReturned); if( FAILED(hr) ) goto LCleanup; if( uReturned == 0 ) break; for(iDevice = 0; iDevice < uReturned; iDevice++) { // For each device, get its device ID hr = pDevices[iDevice]->Get(bstrDeviceID, 0L, &var, NULL, NULL); if(SUCCEEDED(hr) && var.vt == VT_BSTR && var.bstrVal != NULL) { // Check if the device ID contains "IG_". If it does, then it's an XInput device - This information can not be found from DirectInput if(wcsstr(var.bstrVal, L"IG_")) { // If it does, then get the VID/PID from var.bstrVal DWORD dwPid = 0, dwVid = 0; WCHAR* strVid = wcsstr( var.bstrVal, L"VID_" ); if(strVid && swscanf_s( strVid, L"VID_%4X", &dwVid ) != 1) dwVid = 0; WCHAR* strPid = wcsstr( var.bstrVal, L"PID_" ); if(strPid && swscanf_s( strPid, L"PID_%4X", &dwPid ) != 1) dwPid = 0; // Compare the VID/PID to the DInput device DWORD dwVidPid = MAKELONG(dwVid, dwPid); for(JoyStickInfoList::iterator i = joys.begin(); i != joys.end(); ++i) { if(dwVidPid == i->productGuid.Data1) { i->isXInput = true; i->xInputDev = xDevice; } } if(joys.size() == 0) goto LCleanup; } } SAFE_RELEASE(pDevices[iDevice]); } } LCleanup: if(bstrNamespace) SysFreeString(bstrNamespace); if(bstrDeviceID) SysFreeString(bstrDeviceID); if(bstrClassName) SysFreeString(bstrClassName); for(iDevice=0; iDevice < 20; iDevice++) SAFE_RELEASE(pDevices[iDevice]); SAFE_RELEASE(pEnumDevices); SAFE_RELEASE(pIWbemLocator); SAFE_RELEASE(pIWbemServices); if(bCleanupCOM) CoUninitialize(); }