void initializeFace(){ // 顔検出を有効にする auto sts = senseManager->EnableFace(); if (sts<PXC_STATUS_NO_ERROR) { throw std::runtime_error("顔検出の有効化に失敗しました"); } //顔検出器を生成する PXCFaceModule* faceModule = senseManager->QueryFace(); if (faceModule == 0) { throw std::runtime_error("顔検出器の作成に失敗しました"); } //顔検出のプロパティを取得 PXCFaceConfiguration* config = faceModule->CreateActiveConfiguration(); if (config == 0) { throw std::runtime_error("顔検出のプロパティ取得に失敗しました"); } config->SetTrackingMode(PXCFaceConfiguration::TrackingModeType::FACE_MODE_COLOR_PLUS_DEPTH); config->ApplyChanges(); // パイプラインを初期化する sts = senseManager->Init(); if (sts<PXC_STATUS_NO_ERROR) { throw std::runtime_error("パイプラインの初期化に失敗しました"); } // デバイス情報の取得 auto device = senseManager->QueryCaptureManager()->QueryDevice(); if (device == 0) { throw std::runtime_error("デバイスの取得に失敗しました"); } // ミラー表示にする device->SetMirrorMode(PXCCapture::Device::MirrorMode::MIRROR_MODE_HORIZONTAL); PXCCapture::DeviceInfo deviceInfo; device->QueryDeviceInfo(&deviceInfo); if (deviceInfo.model == PXCCapture::DEVICE_MODEL_IVCAM) { device->SetDepthConfidenceThreshold(1); device->SetIVCAMFilterOption(6); device->SetIVCAMMotionRangeTradeOff(21); } config->detection.isEnabled = true; config->landmarks.isEnabled = true; //追加:ランドマーク取得を可能にする config->landmarks.maxTrackedFaces = LANDMARK_MAXFACES; //追加:複数人数に対応させる config->ApplyChanges(); faceData = faceModule->CreateOutput(); }
void Processor::CheckForDepthStream(PXCSenseManager* pp, HWND hwndDlg) { PXCFaceModule* faceModule = pp->QueryFace(); if (faceModule == NULL) { assert(faceModule); return; } PXCFaceConfiguration* config = faceModule->CreateActiveConfiguration(); if (config == NULL) { assert(config); return; } PXCFaceConfiguration::TrackingModeType trackingMode = config->GetTrackingMode(); config->Release(); }
void Emotions::setup() { mSenseMgr = PXCSenseManager::CreateInstance(); if (!mSenseMgr) cout << "failed to create SDK Sense Manager" << endl; mSenseMgr->EnableFace(); faceModule = mSenseMgr->QueryFace(); facec = faceModule->CreateActiveConfiguration(); PXCFaceConfiguration::ExpressionsConfiguration *expc = facec->QueryExpressions(); expc->Enable(); expc->EnableAllExpressions(); facec->SetTrackingMode(PXCFaceConfiguration::TrackingModeType::FACE_MODE_COLOR); facec->ApplyChanges(); fdata = faceModule->CreateOutput(); mSenseMgr->EnableEmotion(); cout << "Initialized" << endl; mSenseMgr->Init(); }
void Genie_Emotion::initilizeFace(){ auto sts = senseManager->EnableFace(); if (sts<PXC_STATUS_NO_ERROR) { throw std::runtime_error("2\n"); } sts = senseManager->EnableEmotion(); PXCFaceModule* faceModule = senseManager->QueryFace(); if (faceModule == 0) { throw std::runtime_error("3\n"); } PXCFaceConfiguration* config = faceModule->CreateActiveConfiguration(); if (config == 0) { throw std::runtime_error("4\n"); } config->SetTrackingMode(PXCFaceConfiguration::TrackingModeType::FACE_MODE_COLOR); sts = senseManager->Init(); if (sts<PXC_STATUS_NO_ERROR) { throw std::runtime_error("5\n"); } auto device = senseManager->QueryCaptureManager()->QueryDevice(); if (device == 0) { throw std::runtime_error("6\n"); } device->SetMirrorMode(PXCCapture::Device::MirrorMode::MIRROR_MODE_HORIZONTAL); PXCCapture::DeviceInfo deviceInfo; device->QueryDeviceInfo(&deviceInfo); if (deviceInfo.model == PXCCapture::DEVICE_MODEL_IVCAM) { device->SetDepthConfidenceThreshold(1); device->SetIVCAMFilterOption(6); device->SetIVCAMMotionRangeTradeOff(21); } config->detection.isEnabled = true; config->QueryExpressions()->Enable(); config->QueryExpressions()->EnableAllExpressions(); config->QueryExpressions()->properties.maxTrackedFaces = 2; config->ApplyChanges(); faceData = faceModule->CreateOutput(); }
void Processor::Process(HWND dialogWindow) { // set startup mode PXCSenseManager* senseManager = session->CreateSenseManager(); if (senseManager == NULL) { Utilities::SetStatus(dialogWindow, L"Failed to create an SDK SenseManager", statusPart); return; } /* Set Mode & Source */ PXCCaptureManager* captureManager = senseManager->QueryCaptureManager(); pxcStatus status = PXC_STATUS_NO_ERROR; if (Utilities::GetPlaybackState(dialogWindow)) { status = captureManager->SetFileName(m_rssdkFilename, false); senseManager->QueryCaptureManager()->SetRealtime(true); } if (status < PXC_STATUS_NO_ERROR) { Utilities::SetStatus(dialogWindow, L"Failed to Set Record/Playback File", statusPart); return; } /* Set Module */ senseManager->EnableFace(); /* Initialize */ Utilities::SetStatus(dialogWindow, L"Init Started", statusPart); PXCFaceModule* faceModule = senseManager->QueryFace(); if (faceModule == NULL) { assert(faceModule); return; } PXCFaceConfiguration* config = faceModule->CreateActiveConfiguration(); if (config == NULL) { assert(config); return; } // Enable Gaze Algo config->QueryGaze()->isEnabled = true; // set dominant eye if (dominant_eye) { PXCFaceData::GazeCalibData::DominantEye eye = (PXCFaceData::GazeCalibData::DominantEye)(dominant_eye - 1); config->QueryGaze()->SetDominantEye(eye); } // set tracking mode config->SetTrackingMode(PXCFaceConfiguration::TrackingModeType::FACE_MODE_COLOR_PLUS_DEPTH); config->ApplyChanges(); // Load Calibration File bool need_calibration = true; if (isLoadCalibFile) { FILE* my_file; errno_t err; err = _wfopen_s(&my_file, m_CalibFilename, L"rb"); if (!err && my_file) { if (calibBuffer == NULL) { calibBuffersize = config->QueryGaze()->QueryCalibDataSize(); calibBuffer = new unsigned char[calibBuffersize]; } fread(calibBuffer, calibBuffersize, sizeof(pxcBYTE), my_file); fclose(my_file); pxcStatus st = config->QueryGaze()->LoadCalibration(calibBuffer, calibBuffersize); if (st != PXC_STATUS_NO_ERROR) { // get save file name calib_status = LOAD_CALIBRATION_ERROR; need_calibration = false; PostMessage(dialogWindow, WM_COMMAND, ID_CALIB_DONE, 0); return; } } isLoadCalibFile = false; need_calibration = false; PostMessage(dialogWindow, WM_COMMAND, ID_CALIB_LOADED, 0); } else if (calibBuffer) { // load existing calib stored in memory config->QueryGaze()->LoadCalibration(calibBuffer, calibBuffersize); need_calibration = false; } // init sense manager if (senseManager->Init() < PXC_STATUS_NO_ERROR) { captureManager->FilterByStreamProfiles(NULL); if (senseManager->Init() < PXC_STATUS_NO_ERROR) { Utilities::SetStatus(dialogWindow, L"Init Failed", statusPart); PostMessage(dialogWindow, WM_COMMAND, ID_STOP, 0); return; } } PXCCapture::DeviceInfo info; senseManager->QueryCaptureManager()->QueryDevice()->QueryDeviceInfo(&info); CheckForDepthStream(senseManager, dialogWindow); AlertHandler alertHandler(dialogWindow); config->detection.isEnabled = true; config->landmarks.isEnabled = true; config->pose.isEnabled = true; config->EnableAllAlerts(); config->SubscribeAlert(&alertHandler); config->ApplyChanges(); //} Utilities::SetStatus(dialogWindow, L"Streaming", statusPart); m_output = faceModule->CreateOutput(); int failed_counter = 0; bool isNotFirstFrame = false; bool isFinishedPlaying = false; bool activeapp = true; ResetEvent(renderer->GetRenderingFinishedSignal()); renderer->SetSenseManager(senseManager); renderer->SetNumberOfLandmarks(config->landmarks.numLandmarks); renderer->SetCallback(renderer->SignalProcessor); // Creating PXCSmoother instance PXCSmoother* smoother = NULL; senseManager->QuerySession()->CreateImpl<PXCSmoother>(&smoother); // Creating 2D smoother with quadratic algorithm with smooth value PXCSmoother::Smoother2D* smoother2D = smoother->Create2DQuadratic(1.0f); // acquisition loop if (!isStopped) { while (true) { if (isPaused) { // allow the application to pause for user input Sleep(200); continue; } if (senseManager->AcquireFrame(true) < PXC_STATUS_NO_ERROR) { isFinishedPlaying = true; } if (isNotFirstFrame) { WaitForSingleObject(renderer->GetRenderingFinishedSignal(), INFINITE); } else { // enable back window if (need_calibration) EnableBackWindow(); } if (isFinishedPlaying || isStopped) { if (isStopped) senseManager->ReleaseFrame(); if (isFinishedPlaying) PostMessage(dialogWindow, WM_COMMAND, ID_STOP, 0); break; } m_output->Update(); pxcI64 stamp = m_output->QueryFrameTimestamp(); PXCCapture::Sample* sample = senseManager->QueryFaceSample(); isNotFirstFrame = true; if (sample != NULL) { DWORD dwWaitResult; dwWaitResult = WaitForSingleObject(g_hMutex, INFINITE); if (dwWaitResult == WAIT_OBJECT_0) { // check calibration state if (need_calibration) { // CALIBRATION FLOW if (m_output->QueryNumberOfDetectedFaces()) { PXCFaceData::Face* trackedFace = m_output->QueryFaceByIndex(0); PXCFaceData::GazeCalibData* gazeData = trackedFace->QueryGazeCalibration(); if (gazeData) { // gaze enabled check calibration PXCFaceData::GazeCalibData::CalibrationState state = trackedFace->QueryGazeCalibration()->QueryCalibrationState(); if (state == PXCFaceData::GazeCalibData::CALIBRATION_NEW_POINT) { // present new point for calibration PXCPointI32 new_point = trackedFace->QueryGazeCalibration()->QueryCalibPoint(); // set the cursor to that point eye_point_x = new_point.x; eye_point_y = new_point.y; SetCursorPos(OUT_OF_SCREEN, OUT_OF_SCREEN); } else if (state == PXCFaceData::GazeCalibData::CALIBRATION_DONE) { // store calib data in a file calibBuffersize = trackedFace->QueryGazeCalibration()->QueryCalibDataSize(); if (calibBuffer == NULL) calibBuffer = new unsigned char[calibBuffersize]; calib_status = trackedFace->QueryGazeCalibration()->QueryCalibData(calibBuffer); dominant_eye = trackedFace->QueryGazeCalibration()->QueryCalibDominantEye(); // get save file name PostMessage(dialogWindow, WM_COMMAND, ID_CALIB_DONE, 0); need_calibration = false; } else if (state == PXCFaceData::GazeCalibData::CALIBRATION_IDLE) { // set the cursor beyond the screen eye_point_x = OUT_OF_SCREEN; eye_point_y = OUT_OF_SCREEN; SetCursorPos(OUT_OF_SCREEN, OUT_OF_SCREEN); } } else { // gaze not enabled stop processing need_calibration = false; PostMessage(dialogWindow, WM_COMMAND, ID_STOP, 0); } } else { failed_counter++; // wait 20 frames , if no detection happens go to failed mode if (failed_counter > NO_DETECTION_FOR_LONG) { calib_status = 3; // failed need_calibration = false; PostMessage(dialogWindow, WM_COMMAND, ID_CALIB_DONE, 0); } } } else { // GAZE PROCESSING AFTER CALIBRATION IS DONE if (m_output->QueryNumberOfDetectedFaces()) { PXCFaceData::Face* trackedFace = m_output->QueryFaceByIndex(0); // get gaze point if (trackedFace != NULL) { if (trackedFace->QueryGaze()) { PXCFaceData::GazePoint gaze_point = trackedFace->QueryGaze()->QueryGazePoint(); PXCPointF32 new_point; new_point.x = (pxcF32)gaze_point.screenPoint.x; new_point.y = (pxcF32)gaze_point.screenPoint.y; // Smoothing PXCPointF32 smoothed2DPoint = smoother2D->SmoothValue(new_point); pxcF64 horizontal_angle = trackedFace->QueryGaze()->QueryGazeHorizontalAngle(); pxcF64 vertical_angle = trackedFace->QueryGaze()->QueryGazeVerticalAngle(); eye_horizontal_angle = (float)horizontal_angle; eye_vertical_angle = (float)vertical_angle; eye_point_x = (int)smoothed2DPoint.x; eye_point_y = (int)smoothed2DPoint.y; } } } } // render output renderer->DrawBitmap(sample); renderer->SetOutput(m_output); renderer->SignalRenderer(); if (!ReleaseMutex(g_hMutex)) { throw std::exception("Failed to release mutex"); return; } } } senseManager->ReleaseFrame(); } m_output->Release(); Utilities::SetStatus(dialogWindow, L"Stopped", statusPart); } config->Release(); senseManager->Close(); senseManager->Release(); }