#include "ColorMultiAnalysis.h" #include "ofMain.h" #include "Poco/Timer.h" #include "Poco/Thread.h" #include "RefractiveIndex.h" using Poco::Timer; using Poco::TimerCallback; using Poco::Thread; #define NUMBER_RUNS 1 #define ACQUIRE_TIME 20 const int algo_default = 1; const int scale_default = 500; const int draw_style_default = 3; const float line_width_default = 0.5f; void ColorMultiAnalysis::setup(int camWidth, int camHeight) { AbstractAnalysis::setup(camWidth, camHeight); NUM_RUN = RefractiveIndex::XML.getValue("config:analysis_NUM_RUN:NUM_RUN_colormulti", NUMBER_RUNS); cout << "NUM_RUN ColorMultiAnalysis " << NUM_RUN << endl; //NUM_RUN = 5; int acq_run_time; // 10 seconds of acquiring per run acq_run_time = RefractiveIndex::XML.getValue("config:analysis_time:acquiretime_colormulti", ACQUIRE_TIME); cout << "ACQUIRE_TIME ColorMultiAnalysis " << acq_run_time << endl; //int acq_run_time = 35; DELTA_T_SAVE = 1*(10*acq_run_time/2); // for 20 seconds, we want this to be around 200 files // or 10 times per second = every 100 ms _frame_cnt_max = acq_run_time*ofGetFrameRate(); // e.g.: 30 frames per second * 20 seconds = 600 frames //create_dir_allocate_images(); _frame_cnt = 0; _run_cnt = 0; _synth_save_cnt = 0; c = 0; int anim_time = 10; // 10 seconds _anim_cnt_max = anim_time*ofGetFrameRate(); // e.g.: 30 frames per second = 150 frames _show_image = false; _image_shown = false; image1.clear(); image2.clear(); // images use for drawing the synthesized files to the screen /// image1.setUseTexture(false); // the non texture image that is needed to first load the image image2.setUseTexture(true); // the image that needs to get written to the screen which takes the content of image1 image1.allocate(RefractiveIndex::_vid_w,RefractiveIndex::_vid_h, OF_IMAGE_COLOR); image2.allocate(RefractiveIndex::_vid_w,RefractiveIndex::_vid_h, OF_IMAGE_COLOR); ////--------- algo = RefractiveIndex::XML.getValue("config:algorithms:colormulti:algo", algo_default); scale = RefractiveIndex::XML.getValue("config:algorithms:colormulti:scale", scale_default); draw_style = RefractiveIndex::XML.getValue("config:algorithms:colormulti:draw_style", draw_style_default); line_width = RefractiveIndex::XML.getValue("config:algorithms:colormulti:line_width", line_width_default); } void ColorMultiAnalysis::acquire() { Timer* save_timer; TimerCallback save_callback(*this, &ColorMultiAnalysis::save_cb); _run_cnt++; _frame_cnt = 0; _save_cnt = 0; _anim_cnt = 0, _synth_save_cnt = 0; _RUN_DONE = false; create_dir_allocate_images(); // RUN ROUTINE //for(int i = 0; i < NUM_RUN; i++) { // _run_cnt = i; //cout << "RUN NUM = " << i; save_timer = new Timer(0, DELTA_T_SAVE); // timing interval for saving files save_timer->start(save_callback); while(!_RUN_DONE && _state != STATE_STOP) Thread::sleep(3); save_timer->stop(); //} } void ColorMultiAnalysis::synthesise() { //cout << "ColorMultiAnalysis::saving synthesis...\n"; if(_state == STATE_STOP) return; _RUN_DONE = false; // _saved_filenames_synthesis has processed all the files in the analysis images folder while(!_RUN_DONE && _state != STATE_STOP) Thread::sleep(3); } void ColorMultiAnalysis::displayresults() { for(float i=1;i<_saved_filenames_analysis.size();i++){ if(_state == STATE_STOP) return; //cout << "_saved_filenames_analysis[i] - " << _saved_filenames_synthesis[i] << endl; while(!_image_shown){ Thread::sleep(2); //cout << "!_image_shown" << endl; } _show_image = false; if(!image1.loadImage(_saved_filenames_analysis[i])){ //couldn't load image cout << "didn't load image" << endl; } if(image1.loadImage(_saved_filenames_analysis[i])){ //cout << "_show_image = true;" << endl; _show_image = true; _image_shown = false; } } } void ColorMultiAnalysis::draw() { switch (_state) { case STATE_ACQUIRING: { ofEnableAlphaBlending(); if (_frame_cnt < _frame_cnt_max) { int _fade_in_frames = _frame_cnt_max/50; ofColor aColor; if (_frame_cnt < _fade_in_frames) { aColor.setHsb(c, ofMap(_frame_cnt, 0, _fade_in_frames, 0, 255), ofMap(_frame_cnt, 0, _fade_in_frames, 0, 255)); ofSetColor(aColor); ofRect(0, 0, ofGetWidth(), ofGetHeight()); //cout << "FADING IN..." << endl; } if (_frame_cnt >= _fade_in_frames && _frame_cnt < _frame_cnt_max-_fade_in_frames){ aColor.setHsb(c, 255, 255); ofSetColor(aColor); //how far are we as a percent of _frame_count_max * 360 HUE VALUES c = 255.0 * (_frame_cnt_max - _frame_cnt)/(_frame_cnt_max); ofRect(0, 0, ofGetWidth(), ofGetHeight()); } if (_frame_cnt >= (_frame_cnt_max-_fade_in_frames) && _frame_cnt <= _frame_cnt_max) { aColor.set(c, c, c, 255-int(ofMap(_frame_cnt-(_frame_cnt_max-_fade_in_frames), 0, _fade_in_frames, 0, 255))); //aColor.setHsb(c, 255-ofMap(_fade_cnt- (_frame_cnt_max-_fade_in_frames), 0, _fade_in_frames, 0, 255), 255-(ofMap(_fade_cnt-(_frame_cnt_max-_fade_in_frames), 0, _fade_in_frames, 0, 255))); ofSetColor(aColor); ofRect(0, 0, ofGetWidth(), ofGetHeight()); //cout << "FADING OUT..." << endl; } } else { //_state = STATE_SYNTHESISING; _RUN_DONE = true; } _frame_cnt++; ofDisableAlphaBlending(); break; } case STATE_SYNTHESISING: { // display animation of something while the synthesis in on-going... //cout << "ColorMultiAnalysis = STATE_SYNTHESISING...\n"; // display animation of something while the synthesis in on-going... ofEnableAlphaBlending(); ofSetRectMode(OF_RECTMODE_CENTER); ofPushMatrix(); ofTranslate(ofGetWidth()/2, ofGetHeight()/2); if(_anim_cnt < _anim_cnt_max){ ofColor aColour; int rectSizeW = ofGetWidth()/4; int rectSizeH = ofGetHeight()/4; int _fade_in_frames = _anim_cnt_max/2; int c_anim = 10; int fade; //ofRotate(ofMap(_anim_cnt/2.0, 0, _anim_cnt_max, 0, 360)); if (_anim_cnt < _fade_in_frames) { //cout << "ColorMultiAnalysis STATE_SYNTHESIZING = FADING IN ANIMATION...\n"; fade = ofMap(_anim_cnt, 0, _fade_in_frames, 0, 255); for (int i=0; i <= 15; i++){ c_anim = 0+17*i; aColour.set(c_anim, c_anim, c_anim, fade); ofSetColor(aColour); ofRect(0, 0, rectSizeW+10*i, rectSizeH+10*i); ofRect(0, 0, rectSizeW-10*i, rectSizeH-10*i); } } if (_anim_cnt >= _fade_in_frames && _anim_cnt <= (_anim_cnt_max-_fade_in_frames)){ for (int i=0; i <= 15; i++){ c_anim = 255; aColour.set(c_anim, c_anim, c_anim, 255); ofSetColor(aColour); ofRect(0, 0, rectSizeW+10*i, rectSizeH+10*i); ofRect(0, 0, rectSizeW-10*i, rectSizeH-10*i); } } if (_anim_cnt > (_anim_cnt_max-_fade_in_frames) && _anim_cnt <= _anim_cnt_max) { //cout << "_anim_cnt = " << _anim_cnt-(_anim_cnt_max-_fade_in_frames) << endl; fade = ofMap(_anim_cnt-(_anim_cnt_max-_fade_in_frames), 0, _fade_in_frames, 0, 255); //cout << "fade down = " << fade << endl; for (int i=0; i <= 15; i++){ c_anim = (17*i); aColour.set(c_anim, c_anim, c_anim, 255-fade); ofSetColor(aColour); ofRect(0, 0, rectSizeW+10*i, rectSizeH+10*i); ofRect(0, 0, rectSizeW-10*i, rectSizeH-10*i); } } _anim_cnt++; } else { //_state = STATE_DISPLAY_RESULTS; _anim_cnt=0; _RUN_DONE = true; } ofPopMatrix(); ofSetRectMode(OF_RECTMODE_CORNER); ofDisableAlphaBlending(); break; } case STATE_DISPLAY_RESULTS: { //cout << "STATE_DISPLAY_RESULTS...\n" << endl; if (_frame_cnt > 2) { _image_shown = true; _frame_cnt=0; } _frame_cnt++; ofEnableAlphaBlending(); glShadeModel(GL_SMOOTH); glLineWidth(line_width); RefractiveIndex::cam.begin(); ofTranslate(tx, ty, tz); ofRotateX(rx); ofRotateY(ry); ofRotateZ(rz); glScalef(1.5, 1, 1); if (_show_image) image2.setFromPixels(image1.getPixels(), image1.width, image1.height, OF_IMAGE_COLOR); image2.bind(); RefractiveIndex::_shader.begin(); RefractiveIndex::_shader.setUniform1i("algo", algo); RefractiveIndex::_shader.setUniform1f("scale", scale); RefractiveIndex::_shader.setUniform1i("tex0", 0); switch (draw_style) { case VERTS: RefractiveIndex::_mesh_vbo.drawVertices(); break; case WIRE: RefractiveIndex::_mesh_vbo.drawWireframe(); break; case FACE: RefractiveIndex::_mesh_vbo.drawFaces(); break; } RefractiveIndex::_shader.end(); image2.unbind(); RefractiveIndex::cam.end(); _RUN_DONE = true; break; } default: break; } } // this runs at save_cb timer rate = DELTA_T_SAVE void ColorMultiAnalysis::save_cb(Timer& timer) { _save_cnt++; string file_name = ofToString(_save_cnt,2)+"_"+ofToString(c,2)+"_"+ofToString(_run_cnt,2)+".jpg"; saveImageAnalysis(file_name); }