void saveToXML() { xml.clear(); xml.addChild("SKY"); xml.setTo("SKY"); for (auto it = stars.begin(); it != stars.end(); it++) { ofVec2f p = it->getPosition(); int m = it->getMagnitude(); int id = it->getId(); ofXml star; star.addChild("STAR"); star.setTo("STAR"); star.addChild("POSITION"); star.setTo("POSITION"); star.addValue("X", p.x); star.addValue("Y", p.y); star.setTo("../"); star.addValue("MAGNITUDE", m); star.addValue("ID", id); xml.addXml(star); } xml.save("mySettings.xml"); }
void Socket::saveXML(ofXml &xml) { xml.setTo("socket"); if (enabled) xml.setAttribute("enabled", "on"); else xml.setAttribute("enabled", "off"); xml.setAttribute("host", ofToString(host)); xml.setAttribute("send", ofToString(send)); xml.setAttribute("receive", ofToString(receive)); xml.setToParent(); }
void setupFromXml(string filename) { size = ofVec2f(ofGetWidth(), ofGetHeight()); if (xml.load(filename)) { xml.setTo("STAR[0]"); do { xml.setTo("POSITION"); int x = xml.getValue<float>("X"); int y = xml.getValue<float>("Y"); xml.setToParent(); int m = xml.getValue<int>("MAGNITUDE"); int id = xml.getValue<int>("ID"); BPStar s; s.setPosition(x, y); s.setMagnitude(m); s.setId(id); stars.push_back(s); }while( xml.setToSibling() ); // go to next STAR } else { } shader.load("","SkyShader.frag"); skyShader.setup(); }
void ofxControlPanel::loadSequencerFromXml(ofXml &xml) { if (xml.exists("Sequencer")) { xml.setTo("Sequencer"); if (!sequencerMade) { createSequencer(); } sequencer->setFromXml(xml); xml.setToParent(); } else { ofLog(OF_LOG_ERROR, "No sequencer found in preset"); } }
void KinectV2Classifier::setFromLearnXml(ofXml &xml) { xml.setTo("LearnInfo"); if (xml.exists("Classes")) { xml.setTo("Classes"); if (xml.exists("Class[0]")) { xml.setTo("Class[0]"); do { addClass(xml.getValue<string>("Name")); } while(xml.setToSibling()); xml.setToParent(); } xml.setToParent(); } if (xml.exists("Ranges")) { xml.setTo("Ranges"); if (xml.exists("Joint[0]")) { int idx = 0; xml.setTo("Joint[0]"); do { min[idx] = xml.getValue<float>("Min"); max[idx] = xml.getValue<float>("Max"); idx++; } while(xml.setToSibling()); xml.setToParent(); } xml.setToParent(); } if (xml.exists("Training")) { xml.setTo("Training"); if (xml.exists("Entry[0]")) { xml.setTo("Entry[0]"); do { double label = xml.getValue<double>("Label"); vector<string> featureVectorS = ofSplitString(xml.getValue<string>("Features"), ","); vector<float> entry; entry.push_back(label); for (auto f : featureVectorS) { entry.push_back(ofToFloat(f)); } data.addEntry(entry); } while(xml.setToSibling()); xml.setToParent(); } xml.setToParent(); } if (xml.exists("Model")) { xml.setTo("Model"); string path = xml.getValue<string>("Path"); svm.loadModel(path); trained = true; xml.setToParent(); } xml.setToParent(); }
void KinectV2Classifier::setLearnXml(ofXml &xml) { // first save the classifier if (trained) { svm.saveModel(ofToDataPath("svmModel.dat")); } // event-parameter mappings xml.addChild("LearnInfo"); xml.setTo("LearnInfo"); // classes xml.addChild("Classes"); xml.setTo("Classes"); for (int i=0; i<classes.size(); i++) { ofXml xml_; xml_.addChild("Class"); xml_.setTo("Class"); xml_.addValue("Name", classes[i]); xml.addXml(xml_); } xml.setToParent(); // ranges xml.addChild("Ranges"); xml.setTo("Ranges"); for (int i=0; i<min.size(); i++) { ofXml xml_; xml_.addChild("Joint"); xml_.setTo("Joint"); xml_.addValue("Min", min[i]); xml_.addValue("Max", max[i]); xml.addXml(xml_); } xml.setToParent(); vector<vector<float> > & entries = data.getEntries(); if (entries.size() > 0) { xml.addChild("Training"); xml.setTo("Training"); for (int i = 0; i < entries.size(); i++) { vector<string> featureStringV; for (int f=1; f<entries[i].size(); f++) { featureStringV.push_back(ofToString(entries[i][f])); } string featureString = ofJoinString(featureStringV, ","); double label = entries[i][0]; ofXml xml_; xml_.addChild("Entry"); xml_.setTo("Entry"); xml_.addValue("Label", label); xml_.addValue("Features", featureString); xml.addXml(xml_); } xml.setToParent(); } if (trained) { xml.addChild("Model"); xml.setTo("Model"); xml.addValue("Path", ofToDataPath("svmModel.dat")); xml.setToParent(); } xml.setToParent(); }
void ofxShaderGraph::buildFromXml(ofXml x){ unordered_set<string> root_names; x.reset(); unsigned long n = x.getNumChildren(); params.setName(x.getName()); //first pass, create all nodes and set defaults for(unsigned long i=0; i<n; i++){ x.reset(); x.setToChild(i); if(x.getName()!="node") continue; string name = x.getAttribute("name"); if(name==""){ cout<<"ofxShaderGraph warning: anonymous node in XML"<<endl; continue; } ofxBaseShaderNode *node; ofFbo::Settings node_fbo_settings = fbo_settings; //check for modifications to fbo_settings if(x.setTo("scale")){ float scale = x.getFloatValue(); node_fbo_settings.width*=scale; node_fbo_settings.height*=scale; x.setToParent(); } string format = x.getAttribute("format"); if(format!=""){ if(format=="rgba8") node_fbo_settings.internalformat = GL_RGBA8; else if(format=="rgba16") node_fbo_settings.internalformat = GL_RGBA16; else if(format=="rgba32f") node_fbo_settings.internalformat = GL_RGBA32F; else if(format=="rgba16f") node_fbo_settings.internalformat = GL_RGBA16F; else if(format=="rgb8") node_fbo_settings.internalformat = GL_RGB8; else if(format=="rgb16") node_fbo_settings.internalformat = GL_RGB16; else if(format=="rgb32f") node_fbo_settings.internalformat = GL_RGB32F; else if(format=="rgb16f") node_fbo_settings.internalformat = GL_RGB16F; } //check for node to swap buffers with string swap_name = x.getAttribute("swap"); if(swap_name != ""){ //don't duplicate pairs if(swap.count(swap_name)==0){ cout<<"ofxShaderGraph: "<<name<<" swaps with "<<swap_name<<endl; swap.insert(pair<string, string>(name, swap_name)); }else{ cout<<"ofxShaderGraph warning: ignoring duplicate swap of"<<name<<" with "<<swap_name<<endl; } } //check for color to init buffer to if(x.setTo("init")){ float val = x.getFloatValue(); init.insert(pair<string, float>(name, val)); x.setToParent(); } //check for shader path string shader_name = x.getAttribute("shader"); if(shader_name == ""){ //shaderless node node = new ofxConstantShaderNode(allocator, node_fbo_settings, name); } else{ ofShader *shader = new ofShader(); stringstream shader_path; shader_path<<ofToDataPath("../../src/shader/")<<shader_name; shader->load(shader_path.str()); if(!shader->isLoaded()){ cout<<"ofxShaderGraph warning: shader "<<shader_name<<" failed to load from path "<<shader_path.str()<<endl; } else{ cout<<"ofxShaderGraph: loaded shader "<<shader_name<<endl; } node = new ofxBaseShaderNode(allocator, node_fbo_settings, name, shader); } //grab all of the new node's parameters params.add(node->getParameterGroup()); //put it in the map from names to nodes nodes.insert(pair<string, ofxBaseShaderNode*>(name, node)); //everything goes in root_names, to be removed when is appears as an input root_names.insert(name); cout<<"ofxShaderGraph: inserted node "<<name<<endl; //set defaults if(x.setTo("defaults") && x.setToChild(0)){ do{ string param_type = x.getName(); string param_name = x.getAttribute("name"); if(param_type=="float"){ float v = x.getFloatValue(); node->setParameter(param_name, v); }else if(param_type=="int"){ int v = x.getIntValue(); node->setParameter(param_name, v); }else{ cout<<"ofxShaderGraph warning: parameter type "<<param_type<<" unsupported"<<endl; } }while(x.setToSibling()); x.setToParent(); x.setToParent(); } //set aliases /*if(x.setTo("aliases") && x.setToChild(0)){ do{ string param_type = x.getName(); string param_name = x.getAttribute("name"); string alias_name = x.getValue(); if(param_type=="float"){ auto alias_param = aliases.getFloat(alias_name); node->setParameterAlias(param_name, alias_param); }else if(param_type=="int"){ auto alias_param = aliases.getInt(alias_name); node->setParameterAlias(param_name, alias_param); }else{ cout<<"ofxShaderGraph warning: aliased parameter type "<<param_type<<" unsupported"<<endl; } }while(x.setToSibling()); x.setToParent(); x.setToParent(); }*/ } //second pass, fill in inputs for each node and remove all referenced nodes from root_names for(unsigned long i=0; i<n; i++){ x.reset(); x.setToChild(i); if(x.getName()!="node") continue; string name = x.getAttribute("name"); if(name=="") continue; ofxBaseShaderNode *node = nodes[name]; //set inputs if(!x.setTo("inputs")) continue; if(!x.setToChild(0)) continue; do{ string input_name = x.getValue(); if(nodes.find(input_name) == nodes.end()){ cout << "ofxShaderGraph error: node "<<name<<" lists input "<<input_name<<" which does not exist"<<endl; } else{ ofxBaseShaderNode *input = nodes.at(input_name); node->inputs.push_back(input); input->num_dependents++; root_names.erase(input_name); cout<<"ofxShaderGraph: connected node "<<input_name<<" to node "<<name<<endl; } }while(x.setToSibling()); } //populate roots for(string root_name:root_names){ ofxBaseShaderNode *root_node = nodes.at(root_name); roots.insert(root_node); cout<<"ofxShaderGraph: node "<<root_name<<" is a root"<<endl; } }