RecognizerThread.cpp
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00001 
00002 #include <blort/ThreadObject/RecognizerThread.h>
00003 #include <stdexcept>
00004 #include <opencv2/legacy/compat.hpp>
00005 
00006 using namespace std;
00007 
00008 CRecognizerThread::CRecognizerThread(const blortRecognizer::CameraParameter& params, std::string config_root)
00009 {
00010         m_mutex.Lock();
00011                 m_quit = false;
00012                 m_params = params;
00013                 this->config_root = config_root;
00014                 cmd = IDLE;
00015                 m_image = cvCreateImage( cvSize(params.w, params.h), 8, 3 );
00016         m_mutex.Unlock();
00017 
00018 }
00019 
00020 CRecognizerThread::~CRecognizerThread()
00021 {
00022         m_mutex.Lock();
00023                 m_quit = true;  // stop running loop
00024         m_mutex.Unlock();
00025         
00026         m_evCmd.Set();
00027         m_evData.Set();
00028         
00029         m_running.Wait();       // wait for running loop to stop
00030         
00031 }
00032 
00033 void CRecognizerThread::Recognize(IplImage* image, TomGine::tgPose& pose, float& conf)
00034 {
00035         m_mutex.Lock();
00036                 cvCopyImage(image, m_image);
00037                 m_pose = pose;
00038                 cmd = RECOGNIZE;
00039         m_mutex.Unlock();
00040         
00041         m_evCmd.Set();
00042         m_evData.Wait(); m_evData.Reset();
00043         
00044         m_mutex.Lock();
00045                 pose = m_pose;
00046                 conf = m_conf;
00047         m_mutex.Unlock();
00048 }
00049 
00050 void CRecognizerThread::LearnSifts(IplImage* image,  TomGine::tgModel &model, TomGine::tgPose& pose)
00051 {
00052         m_mutex.Lock();
00053                 cvCopyImage(image, m_image);
00054                 m_pose = pose;
00055                 m_model = model;
00056                 cmd = LEARN;
00057         m_mutex.Unlock();
00058         
00059         m_evCmd.Set();
00060         m_evData.Wait(); m_evData.Reset();
00061 }
00062 
00063 void CRecognizerThread::LoadSiftModel(const std::string sift_file)
00064 {
00065         m_mutex.Lock();
00066                 m_sift_file = string(sift_file);
00067                 cmd = LOAD;
00068         m_mutex.Unlock();
00069         
00070         m_evCmd.Set();
00071         m_evData.Wait(); m_evData.Reset();
00072 }
00073 
00074 void CRecognizerThread::SaveSiftModel(const std::string sift_file)
00075 {
00076         m_mutex.Lock();
00077                 m_sift_file = string(sift_file);
00078                 cmd = SAVE;
00079         m_mutex.Unlock();
00080         
00081         m_evCmd.Set();
00082         m_evData.Wait(); m_evData.Reset();
00083 }
00084 
00085 void CRecognizerThread::GetSifts(std::vector<blortRecognizer::Siftex>& sl)
00086 {
00087         m_mutex.Lock();
00088                 cmd = GETSIFT;
00089         m_mutex.Unlock();
00090         
00091         m_evCmd.Set();
00092         m_evData.Wait(); m_evData.Reset();
00093         
00094         m_mutex.Lock();
00095                 sl = m_siftexlist;
00096         m_mutex.Unlock();
00097 }
00098 
00099 void CRecognizerThread::GetLastSifts(std::vector<blortRecognizer::Siftex>& sl)
00100 {
00101         m_mutex.Lock();
00102                 cmd = GETLASTSIFT;
00103         m_mutex.Unlock();
00104         
00105         m_evCmd.Set();
00106         m_evData.Wait(); m_evData.Reset();
00107         
00108         m_mutex.Lock();
00109                 sl = m_lastsiftexlist;
00110         m_mutex.Unlock();
00111 }
00112 
00113 BOOL CRecognizerThread::OnTask()
00114 {
00115         m_running.Lock();
00116         
00117         
00118         blortRecognizer::Recognizer3D m_recognizer(m_params, config_root, true);
00119         //m_recognizer.setDoUndistort(false);
00120         
00121         while(!m_quit)
00122         {
00123                 switch(cmd)
00124                 {
00125                         
00126                         case RECOGNIZE:
00127                                 m_mutex.Lock();
00128                                         m_recognizer.recognize(m_image, m_pose, m_conf);
00129                                         result = m_recognizer.getImage();
00130                                         m_evData.Set();
00131                                         cmd = IDLE;
00132                                 m_mutex.Unlock();
00133                                 break;
00134                         
00135                         case LEARN:
00136                                 m_mutex.Lock();
00137                                         m_recognizer.learnSifts(m_image, m_model, m_pose);
00138                                         m_evData.Set();
00139                                         cmd = IDLE;
00140                                 m_mutex.Unlock();
00141                                 break;
00142                         
00143                         case LOAD:
00144                                 m_mutex.Lock();
00145                                         m_recognizer.loadModelFromFile(m_sift_file.c_str());
00146                                         m_evData.Set();
00147                                         cmd = IDLE;
00148                                 m_mutex.Unlock();
00149                                 break;
00150                         
00151                         case SAVE:
00152                                 m_mutex.Lock();
00153                                         m_recognizer.saveModelToFile(m_sift_file.c_str());
00154                                         m_evData.Set();
00155                                         cmd = IDLE;
00156                                 m_mutex.Unlock();
00157                                 break;
00158                                 
00159                         case GETSIFT:
00160                                 m_mutex.Lock();
00161                                         m_recognizer.getSifts(m_siftexlist);
00162                                         m_evData.Set();
00163                                         cmd = IDLE;
00164                                 m_mutex.Unlock();
00165                                 break;
00166                                 
00167                         case GETLASTSIFT:
00168                                 m_mutex.Lock();
00169                                         m_recognizer.getLastSifts(m_lastsiftexlist);
00170                                         m_evData.Set();
00171                                         cmd = IDLE;
00172                                 m_mutex.Unlock();
00173                                 break;
00174                         
00175                         case IDLE:
00176                         default:
00177                                 m_evCmd.Wait(); m_evCmd.Reset();
00178                                 break;          
00179                 }
00180         }
00181 
00182         m_running.Unlock();
00183         return TRUE;
00184 }
00185 
00186 
00187 
00188

blort
Author(s): Michael Zillich, Thomas Mörwald, Johann Prankl, Andreas Richtsfeld, Bence Magyar (ROS version)
autogenerated on Thu Jan 2 2014 11:38:25