EReturn AICOProblem::initDerived(tinyxml2::XMLHandle & handle) { EReturn ret_value = SUCCESS; tinyxml2::XMLElement* xmltmp; bool hastime = false; XML_CHECK("T"); XML_OK(getInt(*xmltmp, T)); if (T <= 2) { INDICATE_FAILURE ; return PAR_ERR; } xmltmp = handle.FirstChildElement("duration").ToElement(); if (xmltmp) { XML_OK(getDouble(*xmltmp, tau)); tau = tau / ((double) T); hastime = true; } if (hastime) { xmltmp = handle.FirstChildElement("tau").ToElement(); if (xmltmp) WARNING("Duration has already been specified, tau is ignored."); } else { XML_CHECK("tau"); XML_OK(getDouble(*xmltmp, tau)); } XML_CHECK("Qrate"); XML_OK(getDouble(*xmltmp, Q_rate)); XML_CHECK("Hrate"); XML_OK(getDouble(*xmltmp, H_rate)); XML_CHECK("Wrate"); XML_OK(getDouble(*xmltmp, W_rate)); { Eigen::VectorXd tmp; XML_CHECK("W"); XML_OK(getVector(*xmltmp, tmp)); W = Eigen::MatrixXd::Identity(tmp.rows(), tmp.rows()); W.diagonal() = tmp; } for (TaskDefinition_map::const_iterator it = task_defs_.begin(); it != task_defs_.end() and ok(ret_value); ++it) { if (it->second->type().compare(std::string("TaskSqrError")) == 0) ERROR("Task variable " << it->first << " is not an squared error!"); } // Set number of time steps return setTime(T); }
void Identity::initDerived(tinyxml2::XMLHandle & handle) { // Load the goal if (handle.FirstChildElement("Ref").ToElement()) { getVector(*(handle.FirstChildElement("Ref").ToElement()), jointRef); jointMap.resize(jointRef.rows()); for (int i = 0; i < jointRef.rows(); i++) jointMap[i] = i; useRef = true; } }
void TaskTerminationCriterion::initDerived(tinyxml2::XMLHandle & handle) { TaskSqrError::initDerived(handle); double thr; if (handle.FirstChildElement("Threshold").ToElement()) { getDouble(*(handle.FirstChildElement("Threshold").ToElement()),thr); threshold0_(0) = thr; } else { throw_named("Threshold was not specified"); } setTimeSteps(1); }
void IMesh::initDerived(tinyxml2::XMLHandle & handle) { EParam<std_msgs::String> ref; tinyxml2::XMLHandle tmp_handle = handle.FirstChildElement("ReferenceFrame"); server_->registerParam(ns_, tmp_handle, ref); if (!tmp_handle.ToElement()) ref->data = "/world"; initDebug(ref->data); eff_size_ = scene_->getMapSize(object_name_); weights_.setOnes(eff_size_, eff_size_); initialised_ = true; }
void Server::initialise(tinyxml2::XMLHandle & handle) { static bool first = true; if (!singleton_server_) { name_ = handle.ToElement()->Attribute("name"); std::string ns = name_; } tinyxml2::XMLHandle param_handle(handle.FirstChildElement("Parameters")); tinyxml2::XMLHandle tmp_handle = param_handle.FirstChild(); while (tmp_handle.ToElement()) { createParam(name_, tmp_handle); tmp_handle = tmp_handle.NextSibling(); } if (first) { HIGHLIGHT_NAMED(name_, "EXOTica Server Initialised"); first = false; } }
std::string extract(tinyxml2::XMLHandle handle) { tinyxml2::XMLElement* element = handle.ToElement(); if (element == nullptr) { throw std::runtime_error("Missing element!"); } const char* str = element->GetText(); if (str == nullptr) { throw std::runtime_error("Missing text!"); } return std::string(str); }
void IKProblem::initDerived(tinyxml2::XMLHandle & handle) { tinyxml2::XMLElement* xmltmp; xmltmp = handle.FirstChildElement("W").ToElement(); if (xmltmp) { Eigen::VectorXd tmp; getVector(*xmltmp, tmp); config_w_ = Eigen::MatrixXd::Identity(tmp.rows(), tmp.rows()); config_w_.diagonal() = tmp; } xmltmp = handle.FirstChildElement("Tolerance").ToElement(); if (xmltmp) { getDouble(*xmltmp, tau_); } xmltmp = handle.FirstChildElement("T").ToElement(); if (xmltmp) { try { getInt(*xmltmp, T_); } catch (Exception e) { T_ = 1; } } else { T_ = 1; } for (auto& it : task_defs_) { it.second->setTimeSteps(T_); } }
void OMPLsolver::initDerived(tinyxml2::XMLHandle & handle) { tinyxml2::XMLHandle tmp_handle = handle.FirstChildElement( "TrajectorySmooth"); server_->registerParam<std_msgs::Bool>(ns_, tmp_handle, smooth_); tmp_handle = handle.FirstChildElement("Solver"); server_->registerParam<std_msgs::String>(ns_, tmp_handle, solver_); tmp_handle = handle.FirstChildElement("SolverPackage"); server_->registerParam<std_msgs::String>(ns_, tmp_handle,solver_package_); try { HIGHLIGHT_NAMED(object_name_, "Using ["<<solver_->data<<"] from package ["<<solver_package_->data<<"]."); base_solver_ = OMPLBaseSolver::base_solver_loader.createInstance( "ompl_solver/" + solver_->data); } catch (pluginlib::PluginlibException& ex) { throw_named("EXOTica-OMPL plugin failed to load solver "<<solver_->data<<". Solver package: '"<<solver_package_->data<< "'. \nError: " << ex.what()); } base_solver_->initialiseBaseSolver(handle, server_); }
EReturn Initialiser::initialise(tinyxml2::XMLHandle root_handle, Server_ptr & server) { server = Server::Instance(); tinyxml2::XMLHandle server_handle(root_handle.FirstChildElement("Server")); if (server_handle.ToElement()) { if (ok(server->initialise(server_handle))) { return SUCCESS; } else { INDICATE_FAILURE return FAILURE; } } else {
EReturn OMPLsolver::initDerived(tinyxml2::XMLHandle & handle) { tinyxml2::XMLHandle tmp_handle = handle.FirstChildElement( "TrajectorySmooth"); server_->registerParam<std_msgs::Bool>(ns_, tmp_handle, smooth_); tmp_handle = handle.FirstChildElement("SaveResults"); server_->registerParam<std_msgs::Bool>(ns_, tmp_handle, saveResults_); tinyxml2::XMLElement* xmltmp; std::string txt; XML_CHECK("algorithm"); { txt = std::string(xmltmp->GetText()); bool known = false; std::vector<std::string> nm = getPlannerNames(); for (std::string s : nm) { if (txt.compare(s.substr(11)) == 0) { selected_planner_ = s; INFO( "Using planning algorithm: "<<selected_planner_<<". Trajectory smoother is "<<(smooth_->data?"Enabled":"Disabled")); known = true; break; } } if (!known) { ERROR("Unknown planning algorithm ["<<txt<<"]"); HIGHLIGHT_NAMED(object_name_, "Available algorithms:"); for (std::string s : nm) HIGHLIGHT_NAMED(object_name_, s); return FAILURE; } } XML_CHECK("max_goal_sampling_attempts"); XML_OK(getInt(*xmltmp, goal_ampling_max_attempts_)); projection_components_.clear(); tmp_handle = handle.FirstChildElement("Projection"); if (tmp_handle.ToElement()) { projector_ = tmp_handle.ToElement()->Attribute("type"); tinyxml2::XMLHandle jnt_handle = tmp_handle.FirstChildElement( "component"); while (jnt_handle.ToElement()) { const char* atr = jnt_handle.ToElement()->Attribute("name"); if (atr) { projection_components_.push_back(std::string(atr)); } else { INDICATE_FAILURE ; return FAILURE; } jnt_handle = jnt_handle.NextSiblingElement("component"); } } tmp_handle = handle.FirstChildElement("Range"); if (tmp_handle.ToElement()) { server_->registerParam<std_msgs::String>(ns_, tmp_handle, range_); } if (saveResults_->data) { std::string path = ros::package::getPath("ompl_solver") + "/result/" + txt + ".txt"; result_file_.open(path); if (!result_file_.is_open()) { ERROR("Error open "<<path); return FAILURE; } } succ_cnt_ = 0; return SUCCESS; }
void Server::createParam(const std::string & ns, tinyxml2::XMLHandle & tmp_handle) { std::string name = ns + "/" + tmp_handle.ToElement()->Name(); std::string type = tmp_handle.ToElement()->Attribute("type"); if (type.compare("int") == 0) { double dou; getDouble(*tmp_handle.FirstChildElement("default").ToElement(), dou); std_msgs::Int64 val; val.data = dou; params_[name] = boost::shared_ptr<std_msgs::Int64>( new std_msgs::Int64(val)); } else if (type.compare("double") == 0) { double dou; getDouble(*tmp_handle.FirstChildElement("default").ToElement(), dou); std_msgs::Float64 val; val.data = dou; params_[name] = boost::shared_ptr<std_msgs::Float64>( new std_msgs::Float64(val)); } else if (type.compare("vector") == 0) { exotica::Vector vec; getStdVector(*tmp_handle.FirstChildElement("default").ToElement(), vec.data); params_[name] = boost::shared_ptr<exotica::Vector>( new exotica::Vector(vec)); } else if (type.compare("bool") == 0) { bool val; getBool(*tmp_handle.FirstChildElement("default").ToElement(), val); std_msgs::Bool ros_bool; ros_bool.data = val; params_[name] = boost::shared_ptr<std_msgs::Bool>( new std_msgs::Bool(ros_bool)); } else if (type.compare("boollist") == 0) { exotica::BoolList boollist; std::vector<bool> vec; getBoolVector(*tmp_handle.FirstChildElement("default").ToElement(), vec); boollist.data.resize(vec.size()); for (int i = 0; i < vec.size(); i++) boollist.data[i] = vec[i]; params_[name] = boost::shared_ptr<exotica::BoolList>( new exotica::BoolList(boollist)); } else if (type.compare("string") == 0) { std::string str = tmp_handle.FirstChildElement("default").ToElement()->GetText(); if (str.size() == 0) { throw_pretty("Invalid string!"); } std_msgs::String ros_s; ros_s.data = tmp_handle.FirstChildElement("default").ToElement()->GetText(); params_[name] = boost::shared_ptr<std_msgs::String>( new std_msgs::String(ros_s)); } else if (type.compare("stringlist") == 0) { exotica::StringList list; getList(*tmp_handle.FirstChildElement("default").ToElement(), list.strings); params_[name] = boost::shared_ptr<exotica::StringList>( new exotica::StringList(list)); } else { throw_pretty("Unknown type!"); } INFO("Register new paramter "<<name) }