From ba994f4404b6eadcab4e0ead46ef4d3ffeceb024 Mon Sep 17 00:00:00 2001 From: Antoine Villeret Date: Thu, 10 Jul 2014 14:39:22 +0000 Subject: lots of changes ! 1. switch to a new build system based on automake (because we need to check for some lib on ./configure before make) 2. sort files in different directory 3. add some new features (some of them need OpenCV >= 2.4.5) svn path=/trunk/externals/pix_opencv/; revision=17324 --- src/pix_opencv_blobtrack.cc | 693 ++++++++++++++++++++++++++++++++++++++++++++ 1 file changed, 693 insertions(+) create mode 100644 src/pix_opencv_blobtrack.cc (limited to 'src/pix_opencv_blobtrack.cc') diff --git a/src/pix_opencv_blobtrack.cc b/src/pix_opencv_blobtrack.cc new file mode 100644 index 0000000..909dd76 --- /dev/null +++ b/src/pix_opencv_blobtrack.cc @@ -0,0 +1,693 @@ +//////////////////////////////////////////////////////// +// +// GEM - Graphics Environment for Multimedia +// +// zmoelnig@iem.kug.ac.at +// +// Implementation file +// +// Copyright (c) 1997-2000 Mark Danks. +// Copyright (c) Günther Geiger. +// Copyright (c) 2001-2002 IOhannes m zmoelnig. forum::für::umläute. IEM +// Copyright (c) 2002 James Tittle & Chris Clepper +// For information on usage and redistribution, and for a DISCLAIMER OF ALL +// WARRANTIES, see the file, "GEM.LICENSE.TERMS" in this distribution. +// +///////////////////////////////////////////////////////// +// based on code written by Lluis Gomez i Bigorda ( lluisgomez _at_ hangar _dot_ org ) (pix_opencv) +// mainly copy and paste from blobtrack_sample.cpp provided by OpenCV 2.3 SVN rev7875 + +#include "pix_opencv_blobtrack.h" + + + +CPPEXTERN_NEW(pix_opencv_blobtrack) + +///////////////////////////////////////////////////////// +// +// pix_opencv_blobtrack +// +///////////////////////////////////////////////////////// +// Constructor +// +///////////////////////////////////////////////////////// + +pix_opencv_blobtrack :: pix_opencv_blobtrack() : m_fg_name(FGDetector_Modules[0].nickname), \ + m_bd_name(BlobDetector_Modules[0].nickname), \ + m_bt_name(BlobTracker_Modules[0].nickname), \ + m_btpp_name(BlobTrackPostProc_Modules[0].nickname), \ + m_bta_name(BlobTrackAnalysis_Modules[0].nickname), \ + m_bt_corr("none"), \ + m_FGTrainFrames(6), \ + m_monitoring_stage(0), \ + m_areaThreshold(0.), \ + m_tracker(NULL) +{ + m_param.pBT=NULL; + m_param.pBD=NULL; + m_param.pBTGen=NULL; + m_param.pBTA=NULL; + m_param.pFG=NULL; + m_dataout = outlet_new(this->x_obj, 0); + setupModules(); + createModules(); + //~printParamsMess(); +} + +///////////////////////////////////////////////////////// +// Destructor +// +///////////////////////////////////////////////////////// +pix_opencv_blobtrack :: ~pix_opencv_blobtrack() +{ + releaseModules(); +} + +///////////////////////////////////////////////////////// +// processImage +// +///////////////////////////////////////////////////////// +void pix_opencv_blobtrack :: processRGBAImage(imageStruct &image) +{ + cv::Mat imgMat( image.ysize, image.xsize, CV_8UC4, image.data, image.csize*image.xsize); // just transform imageStruct to IplImage without copying data + IplImage img = imgMat; // convert cv::Mat to IplImage + RunBlobTrackingAuto( &img ); +} + +void pix_opencv_blobtrack :: processRGBImage(imageStruct &image) { + cv::Mat imgMat( image.ysize, image.xsize, CV_8UC3, image.data, image.csize*image.xsize); // just transform imageStruct to IplImage without copying data + IplImage img = imgMat; + RunBlobTrackingAuto( &img ); +} + +void pix_opencv_blobtrack :: processYUVImage(imageStruct &image) { + + error("YVU format not supported"); +} + +void pix_opencv_blobtrack :: processGrayImage(imageStruct &image) +{ + cv::Mat imgMat( image.ysize, image.xsize, CV_8UC1, image.data, image.csize*image.xsize); // convert imageStruct to cv::Mat without copying data + IplImage img = imgMat; // convert cv::Mat to IplImage + RunBlobTrackingAuto( &img ); +} + +void pix_opencv_blobtrack :: RunBlobTrackingAuto( IplImage* img ) +{ + IplImage* pMask = NULL; + IplImage* imgRGB = NULL; + + if ( x_size != img->width || y_size != img->height ){ + releaseModules(); + createModules(); + x_size = img->width; + y_size = img->height; + } + + imgRGB = cvCreateImage(cvSize(img->width,img->height),img->depth,3); + switch (img->nChannels){ + case 1: + cvCvtColor(img, imgRGB, CV_GRAY2RGB); + break; + case 4: + cvCvtColor(img, imgRGB, CV_RGBA2RGB); + break; + } + + /* Process: */ + m_tracker->Process(imgRGB, pMask); + + //~ t_atom blob_num; + //~ SETFLOAT(&blob_num, m_tracker->GetBlobNum()); + //~ outlet_anything(m_dataout, gensym("blobnum"), 1, &blob_num); + + int blob_num=m_tracker->GetBlobNum(); + int blobMatrixWidth=6; + int blob_atom_size = 2+blob_num*blobMatrixWidth; + + t_atom* blob_atom = new t_atom[blob_atom_size]; + SETFLOAT(&blob_atom[0], blob_num); + SETFLOAT(&blob_atom[1], blobMatrixWidth); + + for(int i=0; iGetBlob(i); + if ( blob->w*blob->h/(img->width*img->height) > m_areaThreshold ){ + SETFLOAT(&blob_atom[2+i*blobMatrixWidth], blob->ID); + SETFLOAT(&blob_atom[3+i*blobMatrixWidth], blob->x/img->width); + SETFLOAT(&blob_atom[4+i*blobMatrixWidth], blob->y/img->height); + SETFLOAT(&blob_atom[5+i*blobMatrixWidth], blob->w/img->width); + SETFLOAT(&blob_atom[6+i*blobMatrixWidth], blob->h/img->height); + SETFLOAT(&blob_atom[7+i*blobMatrixWidth], m_tracker->GetState(blob->ID)); + } + } + + outlet_anything(m_dataout, gensym("cvblob"), blob_atom_size, blob_atom); + + if(blob_atom) delete blob_atom; + blob_atom = NULL; + + if ( m_monitoring_stage == 1 ) { // show foreground + IplImage* fg = m_tracker->GetFGMask(); + switch (img->nChannels){ + case 1: + cvCopy(fg, img); + break; + case 4: + cvCvtColor(fg, img, CV_GRAY2RGBA); + break; + } + } + + if ( m_monitoring_stage == 2 ) { + /* Draw all information about test sequence: */ + char str[1024]; + int line_type = CV_AA; // Change it to 8 to see non-antialiased graphics. + CvFont font; + int i; + + cvInitFont( &font, CV_FONT_HERSHEY_PLAIN, 0.7, 0.7, 0, 1, line_type ); + + for(i=m_tracker->GetBlobNum(); i>0; i--) + { + CvSize TextSize; + CvBlob* pB = m_tracker->GetBlob(i-1); + CvPoint p = cvPoint(cvRound(pB->x*256),cvRound(pB->y*256)); + CvSize s = cvSize(MAX(1,cvRound(CV_BLOB_RX(pB)*256)), MAX(1,cvRound(CV_BLOB_RY(pB)*256))); + int c = cvRound(255*m_tracker->GetState(CV_BLOB_ID(pB))); + + cvEllipse( imgRGB, + p, + s, + 0, 0, 360, + CV_RGB(c,255-c,0), cvRound(1+(3*0)/255), CV_AA, 8 ); + + p.x >>= 8; + p.y >>= 8; + s.width >>= 8; + s.height >>= 8; + sprintf(str,"%03d",CV_BLOB_ID(pB)); + cvGetTextSize( str, &font, &TextSize, NULL ); + p.y -= s.height; + cvPutText( imgRGB, str, p, &font, CV_RGB(0,255,255)); + { + const char* pS = m_tracker->GetStateDesc(CV_BLOB_ID(pB)); + + if(pS) + { + char* pStr = strdup(pS); + char* pStrFree = pStr; + + while (pStr && strlen(pStr) > 0) + { + char* str_next = strchr(pStr,'\n'); + + if(str_next) + { + str_next[0] = 0; + str_next++; + } + + p.y += TextSize.height+1; + cvPutText( imgRGB, pStr, p, &font, CV_RGB(0,255,255)); + pStr = str_next; + } + free(pStrFree); + } + } + + } /* Next blob. */; + switch (img->nChannels){ + case 1: + cvCvtColor(imgRGB, img, CV_RGB2GRAY); + break; + case 4: + cvCvtColor(imgRGB, img, CV_RGB2RGBA); + break; + } + + }/* Draw all information about test sequence. */ + cvReleaseImage(&imgRGB); + imgRGB = NULL; + +} /* RunBlobTrackingAuto */ + +///////////////////////////////////////////////////////// +// static member function +// +///////////////////////////////////////////////////////// +void pix_opencv_blobtrack :: obj_setupCallback(t_class *classPtr) +{ + CPPEXTERN_MSG1(classPtr, "monitorStage", monitorStageMess, int); + CPPEXTERN_MSG1(classPtr, "fgTrainFrames", fgTrainFramesMess, int); + CPPEXTERN_MSG (classPtr, "getParam", getParamMess); + CPPEXTERN_MSG (classPtr, "setParam", setParamMess); + CPPEXTERN_MSG (classPtr, "getModule", getModuleMess); + CPPEXTERN_MSG (classPtr, "setModule", setModuleMess); + CPPEXTERN_MSG1 (classPtr, "areaThreshold", areaThresholdMess, t_float); +} + +///////////////////////////////////////////////////////// +// private function +// +///////////////////////////////////////////////////////// +void pix_opencv_blobtrack :: setupModules() +{ + const char* fg_name = m_fg_name.c_str(); + const char* bd_name = m_bd_name.c_str(); + const char* bt_name = m_bt_name.c_str(); + const char* btpp_name = m_btpp_name.c_str(); + const char* bta_name = m_bta_name.c_str(); + + for(m_FGModule=FGDetector_Modules; m_FGModule->nickname; ++m_FGModule) + if( fg_name && MY_STRICMP(fg_name,m_FGModule->nickname)==0 ) break; + if ( m_FGModule->nickname == NULL ){ + error("FG Module %s doesn't exist, swith to default one", fg_name); + m_FGModule=FGDetector_Modules; + } + + for(m_BDModule=BlobDetector_Modules; m_BDModule->nickname; ++m_BDModule) + if( bd_name && MY_STRICMP(bd_name,m_BDModule->nickname)==0 ) break; + if ( m_BDModule->nickname == NULL ){ + error("BD Module %s doesn't exist, swith to default one", bd_name); + m_BDModule=BlobDetector_Modules; + } + + for(m_BTModule=BlobTracker_Modules; m_BTModule->nickname; ++m_BTModule) + if( bt_name && MY_STRICMP(bt_name,m_BTModule->nickname)==0 ) break; + if ( m_BTModule->nickname == NULL ){ + error("BT Module %s doesn't exist, swith to default one", bt_name); + m_BTModule=BlobTracker_Modules; + } + + for(m_BTPostProcModule=BlobTrackPostProc_Modules; m_BTPostProcModule->nickname; ++m_BTPostProcModule) + if( btpp_name && MY_STRICMP(btpp_name,m_BTPostProcModule->nickname)==0 ) break; + if ( m_BTPostProcModule->nickname == NULL ){ + error("BTPP Module %s doesn't exist, swith to default one", btpp_name); + m_BTPostProcModule=BlobTrackPostProc_Modules; + } + + for(m_BTAnalysisModule=BlobTrackAnalysis_Modules; m_BTAnalysisModule->nickname; ++m_BTAnalysisModule) + if( bta_name && MY_STRICMP(bta_name,m_BTAnalysisModule->nickname)==0 ) break; + if ( m_BTAnalysisModule->nickname == NULL ){ + error("BTA Module %s doesn't exist, swith to default one", bta_name); + m_BTAnalysisModule=BlobTrackAnalysis_Modules; + } +} /* setupModules */ + +void pix_opencv_blobtrack :: createModules() +{ /* Create autotracker module and its components: */ + + m_param.FGTrainFrames = m_FGTrainFrames; + /* Create FG Detection module: */ + m_param.pFG = m_FGModule->create(); + if(!m_param.pFG){ + error("Can not create FGDetector module"); + return; + } + m_param.pFG->SetNickName(m_FGModule->nickname); + //~ set_params(argc, argv, m_param.pFG, "fg", m_FGModule->nickname); + /* Create Blob Entrance Detection module: */ + m_param.pBD = m_BDModule->create(); + if(!m_param.pBD){ + error("Can not create BlobDetector module"); + return; + } + m_param.pBD->SetNickName(m_BDModule->nickname); + //~ set_params(argc, argv, m_param.pBD, "bd", m_BDModule->nickname); + + /* Create blob tracker module: */ + m_param.pBT = m_BTModule->create(); + if(!m_param.pBT){ + error("Can not create BlobTracker module"); + } + m_param.pBT->SetNickName(m_BTModule->nickname); + //~ set_params(argc, argv, m_param.pBT, "bt", m_BTModule->nickname); + + /* Create blob trajectory generation module: */ + /* + m_param.pBTGen = NULL; + if(m_BTGenModule && track_name && m_BTGenModule->create) + { + m_param.pBTGen = m_BTGenModule->create(); + m_param.pBTGen->SetFileName(track_name); + } + if(m_param.pBTGen) + { + m_param.pBTGen->SetNickName(m_BTGenModule->nickname); + //~ set_params(argc, argv, m_param.pBTGen, "btgen", m_BTGenModule->nickname); + } + */ + + /* Create blob trajectory post processing module: */ + m_param.pBTPP = NULL; + if(m_BTPostProcModule && m_BTPostProcModule->create) + { + m_param.pBTPP = m_BTPostProcModule->create(); + } + if(m_param.pBTPP) + { + m_param.pBTPP->SetNickName(m_BTPostProcModule->nickname); + //~ set_params(argc, argv, m_param.pBTPP, "btpp", pBTPostProcModule->nickname); + } + + const char * bt_corr = m_bt_corr.c_str(); + + m_param.UsePPData = (bt_corr && MY_STRICMP(bt_corr,"PostProcRes")==0); + + /* Create blob trajectory analysis module: */ + m_param.pBTA = NULL; + if(m_BTAnalysisModule && m_BTAnalysisModule->create) + { + m_param.pBTA = m_BTAnalysisModule->create(); + //~ m_param.pBTA->SetFileName(bta_data_name); + } + if(m_param.pBTA) + { + m_param.pBTA->SetNickName(m_BTAnalysisModule->nickname); + //~ set_params(argc, argv, m_param.pBTA, "bta", m_BTAnalysisModule->nickname); + } + + /* Create whole pipline: */ + m_tracker = cvCreateBlobTrackerAuto1(&m_param); + if(!m_tracker) + error("Can not create BlobTrackerAuto"); +} /* createModules */ + +void pix_opencv_blobtrack :: releaseModules(void) +{ + if(m_param.pBT)cvReleaseBlobTracker(&m_param.pBT); + if(m_param.pBD)cvReleaseBlobDetector(&m_param.pBD); + if(m_param.pBTGen)cvReleaseBlobTrackGen(&m_param.pBTGen); + if(m_param.pBTA)cvReleaseBlobTrackAnalysis(&m_param.pBTA); + if(m_param.pFG)cvReleaseFGDetector(&m_param.pFG); + if(m_tracker)cvReleaseBlobTrackerAuto(&m_tracker); +} /* releaseModules */ + +void pix_opencv_blobtrack :: print_params(CvVSModule* pM, const char* module) +{ + int i; + if(pM->GetParamName(0) == NULL ) return; + + + post("%s(%s) module parameters:",module,pM->GetNickName()); + + for (i=0; ; ++i) + { + const char* param = pM->GetParamName(i); + const char* str = param?pM->GetParamStr(param):NULL; + if(param == NULL)break; + if(str) + { + post(" %s: %s",param,str); + } + else + { + post(" %s: %g",param,pM->GetParam(param)); + } + } +} /* print_params */ + +///////////////////////////////////////////////////////// +// messages handling +// +///////////////////////////////////////////////////////// +void pix_opencv_blobtrack :: monitorStageMess(int arg) +{ + m_monitoring_stage = int(arg); + t_atom data_out; + SETFLOAT(&data_out, m_monitoring_stage); + outlet_anything( m_dataout, gensym("monitorStage"), 1, &data_out); +} + +void pix_opencv_blobtrack :: areaThresholdMess(t_float arg) +{ + m_areaThreshold = arg; + t_atom data_out; + SETFLOAT(&data_out, m_areaThreshold); + outlet_anything( m_dataout, gensym("areaThreshold"), 1, &data_out); +} + +void pix_opencv_blobtrack :: fgTrainFramesMess(int arg) +{ + //~ m_FGTrainFrames = int(arg); + t_atom data_out; + SETFLOAT(&data_out, m_FGTrainFrames); + outlet_anything( m_dataout, gensym("FGTrainFrames"), 1, &data_out); +} + +void pix_opencv_blobtrack :: printParamsMess(void) +{ /* Print module parameters: */ + struct DefMMM + { + CvVSModule* pM; + const char* name; + } Modules[] = { + {(CvVSModule*)m_param.pFG,"FGdetector"}, + {(CvVSModule*)m_param.pBD,"BlobDetector"}, + {(CvVSModule*)m_param.pBT,"BlobTracker"}, + {(CvVSModule*)m_param.pBTGen,"TrackGen"}, + {(CvVSModule*)m_param.pBTPP,"PostProcessing"}, + {(CvVSModule*)m_param.pBTA,"TrackAnalysis"}, + {NULL,NULL} + }; + int i; + for(i=0; Modules[i].name; ++i) + { + if(Modules[i].pM) + print_params(Modules[i].pM,Modules[i].name); + } +} /* Print module parameters. */ + +void pix_opencv_blobtrack :: getParamMess(t_symbol*s, int argc, t_atom*argv) +{ + int i; + CvVSModule* pM; + pM=NULL; + if ( argc < 1 ){ + error("getParam need a module name as symbol arg"); + return; + } + + if ( argv[0].a_type == A_SYMBOL ) { + if (std::string(argv[0].a_w.w_symbol->s_name) == "fg") { + pM=m_param.pFG; + } + else if (std::string(argv[0].a_w.w_symbol->s_name) == "bd") { + pM=m_param.pBD; + } + else if (std::string(argv[0].a_w.w_symbol->s_name) == "bt") { + pM=m_param.pBT; + } + else if (std::string(argv[0].a_w.w_symbol->s_name) == "btpp") { + pM=m_param.pBTPP; + } + else if (std::string(argv[0].a_w.w_symbol->s_name) == "bta") { + pM=m_param.pBTA; + } + else { + error("unknown module : %s",argv[0].a_w.w_symbol->s_name); + return; + } + } else { + error("getParam need a module name as symbol arg"); + } + + t_atom a_param[4]; + t_atom a_params; + + a_param[0] = argv[0]; + + if(pM->GetParamName(0) == NULL ) return; + + for (i=0; ; ++i) + { + const char* param = pM->GetParamName(i); + if(param == NULL)break; + } + SETFLOAT(&a_params, i); + outlet_anything(m_dataout, gensym("params"), 1, &a_params); + + for (i=0; ; ++i) + { + const char* param = pM->GetParamName(i); + const char* str = param?pM->GetParamStr(param):NULL; + + if(param == NULL)break; + SETSYMBOL(a_param+1,gensym(param)); + if(str) + { + SETSYMBOL(a_param+2,gensym(str)); + } + else + { + SETFLOAT(a_param+2,pM->GetParam(param)); + } + const char* comment = pM->GetParamComment(param); + if ( !comment ) comment = "N/A"; + SETSYMBOL(a_param+3,gensym(comment)); + + outlet_anything(m_dataout, gensym("param"), 4, a_param); + } +} /* getParamMess */ + +void pix_opencv_blobtrack :: setParamMess(t_symbol*s, int argc, t_atom*argv) +{ + if ( argc != 3 ){ + error("setParam need 3 args : "); + return; + } + + int i; + CvVSModule* pM; + pM=NULL; + + if ( argv[0].a_type == A_SYMBOL ) { + if (std::string(argv[0].a_w.w_symbol->s_name) == "fg") { + pM=m_param.pFG; + } + else if (std::string(argv[0].a_w.w_symbol->s_name) == "bd") { + pM=m_param.pBD; + } + else if (std::string(argv[0].a_w.w_symbol->s_name) == "bt") { + pM=m_param.pBT; + } + else if (std::string(argv[0].a_w.w_symbol->s_name) == "btpp") { + pM=m_param.pBTPP; + } + else if (std::string(argv[0].a_w.w_symbol->s_name) == "bta") { + pM=m_param.pBTA; + } + else { + error("unknown module : %s",argv[0].a_w.w_symbol->s_name); + return; + } + } else { + error("getParam need a module name as symbol arg"); + } + + const char* param; + const char* str; + for ( i = 0 ; ; i++ ){ + param = pM->GetParamName(i); + str = param?pM->GetParamStr(param):NULL; + + if(param == NULL){ + error("module %s doesn't have a %s parameter", argv[0].a_w.w_symbol->s_name, argv[1].a_w.w_symbol->s_name); + return; + } + + if( std::string(argv[1].a_w.w_symbol->s_name) == param ) + break; + } + + if ( str ){ /* parameter is a string */ + if ( argv[2].a_type != A_SYMBOL ){ + error("module (%s) parameter (%s) is a symbol"); + return; + } else { + pM->SetParamStr(param, argv[2].a_w.w_symbol->s_name); + } + } else { + if ( argv[2].a_type != A_FLOAT ){ + error("module (%s) parameter (%s) is a float"); + return; + } else { + pM->SetParam(param, argv[2].a_w.w_float); + } + } + + pM->ParamUpdate(); +} + +void pix_opencv_blobtrack :: getModuleMess(t_symbol*s, int argc, t_atom*argv) +{ + if ( argc == 0 ){ // no args : print all modules in pipeline + post("avaible modules in pipeline :\n \ + fg : ForeGround detector\n \ + bd : Blob Detector\n \ + bt : Blob Tracker\n \ + btpp : Blob Tracker Post Processing\n \ + bta : Blob Tracker Analysis"); + + t_atom module_list[5]; + SETSYMBOL(&module_list[0], gensym("fg")); + SETSYMBOL(&module_list[1], gensym("bd")); + SETSYMBOL(&module_list[2], gensym("bt")); + SETSYMBOL(&module_list[3], gensym("btpp")); + SETSYMBOL(&module_list[4], gensym("bta")); + outlet_anything(m_dataout, gensym("modulelist"), 5, module_list); + + } else if ( argc == 1 ) { // one arg : print available algo for specified module + if ( argv[0].a_type == A_SYMBOL ) { + t_atom algo_list[512]; + int i; + if ( std::string(argv[0].a_w.w_symbol->s_name) == "fg" ){ + post("available foreground detector algo :"); + for (i = 0 ; FGDetector_Modules[i].nickname!=NULL ; i++){ + post("\t%s : %s", FGDetector_Modules[i].nickname, FGDetector_Modules[i].description); + SETSYMBOL(&algo_list[i],gensym(FGDetector_Modules[i].nickname)); + } + outlet_anything(m_dataout, gensym("fg_algo"), i, algo_list); + } else if ( std::string(argv[0].a_w.w_symbol->s_name) == "bd" ){ + post("available blob detector algo :"); + for (i = 0 ; BlobDetector_Modules[i].nickname!=NULL ; i++){ + post("\t%s : %s", BlobDetector_Modules[i].nickname, BlobDetector_Modules[i].description); + SETSYMBOL(&algo_list[i],gensym(BlobDetector_Modules[i].nickname)); + } + outlet_anything(m_dataout, gensym("bd_algo"), i, algo_list); + } else if ( std::string(argv[0].a_w.w_symbol->s_name) == "bt" ){ + post("available blob tracker algo :"); + for (i = 0 ; BlobTracker_Modules[i].nickname!=NULL ; i++){ + post("\t%s : %s", BlobTracker_Modules[i].nickname, BlobTracker_Modules[i].description); + SETSYMBOL(&algo_list[i],gensym(BlobTracker_Modules[i].nickname)); + } + outlet_anything(m_dataout, gensym("bt_algo"), i, algo_list); + } else if ( std::string(argv[0].a_w.w_symbol->s_name) == "btpp" ){ + post("available blob tracker post processing algo :"); + for (i = 0 ; BlobTrackPostProc_Modules[i].nickname!=NULL ; i++){ + post("\t%s : %s", BlobTrackPostProc_Modules[i].nickname, BlobTrackPostProc_Modules[i].description); + SETSYMBOL(&algo_list[i],gensym(BlobTrackPostProc_Modules[i].nickname)); + } + outlet_anything(m_dataout, gensym("btpp_algo"), i, algo_list); + } else if ( std::string(argv[0].a_w.w_symbol->s_name) == "bta" ){ + post("available blob tracker analysis algo :"); + for (i = 0 ; BlobTrackAnalysis_Modules[i].nickname!=NULL ; i++){ + post("\t%s : %s", BlobTrackAnalysis_Modules[i].nickname, BlobTrackAnalysis_Modules[i].description); + SETSYMBOL(&algo_list[i],gensym(BlobTrackAnalysis_Modules[i].nickname)); + } + outlet_anything(m_dataout, gensym("bd_algo"), i, algo_list); + } + } else error("getModules []"); + } else error("getModules [] : need 1 or 2 args"); +} + +void pix_opencv_blobtrack :: setModuleMess(t_symbol*s, int argc, t_atom*argv) +{ + if ( argc != 2 ){ + error("use : setModule "); + error("try getModule to get available module list"); + return; + } + + if ( argv[0].a_type == A_SYMBOL ) { + if (std::string(argv[0].a_w.w_symbol->s_name) == "fg") { + m_fg_name = argv[1].a_w.w_symbol->s_name; + } + else if (std::string(argv[0].a_w.w_symbol->s_name) == "bd") { + m_bd_name = argv[1].a_w.w_symbol->s_name; + } + else if (std::string(argv[0].a_w.w_symbol->s_name) == "bt") { + m_bt_name = argv[1].a_w.w_symbol->s_name; + } + else if (std::string(argv[0].a_w.w_symbol->s_name) == "btpp") { + m_btpp_name = argv[1].a_w.w_symbol->s_name; + } + else if (std::string(argv[0].a_w.w_symbol->s_name) == "bta") { + m_bta_name = argv[1].a_w.w_symbol->s_name; + } + releaseModules(); + setupModules(); + createModules(); + printParamsMess(); + } +} -- cgit v1.2.1