VirtualForceSensor.h
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00001 // -*- C++ -*-
00010 #ifndef VIRTUAL_FORCE_SENSOR_H
00011 #define VIRTUAL_FORCE_SENSOR_H
00012 
00013 #include <rtm/idl/BasicDataType.hh>
00014 #include <rtm/Manager.h>
00015 #include <rtm/DataFlowComponentBase.h>
00016 #include <rtm/CorbaPort.h>
00017 #include <rtm/DataInPort.h>
00018 #include <rtm/DataOutPort.h>
00019 #include <rtm/idl/BasicDataTypeSkel.h>
00020 
00021 #include <hrpModel/Body.h>
00022 #include <hrpModel/Link.h>
00023 #include <hrpModel/JointPath.h>
00024 #include <hrpUtil/EigenTypes.h>
00025 
00026 #include "VirtualForceSensorService_impl.h"
00027 
00028 // Service implementation headers
00029 // <rtc-template block="service_impl_h">
00030 
00031 // </rtc-template>
00032 
00033 // Service Consumer stub headers
00034 // <rtc-template block="consumer_stub_h">
00035 
00036 // </rtc-template>
00037 
00038 using namespace RTC;
00039 
00043 class VirtualForceSensor
00044   : public RTC::DataFlowComponentBase
00045 {
00046  public:
00051   VirtualForceSensor(RTC::Manager* manager);
00055   virtual ~VirtualForceSensor();
00056 
00057   // The initialize action (on CREATED->ALIVE transition)
00058   // formaer rtc_init_entry()
00059   virtual RTC::ReturnCode_t onInitialize();
00060 
00061   // The finalize action (on ALIVE->END transition)
00062   // formaer rtc_exiting_entry()
00063   // virtual RTC::ReturnCode_t onFinalize();
00064 
00065   // The startup action when ExecutionContext startup
00066   // former rtc_starting_entry()
00067   // virtual RTC::ReturnCode_t onStartup(RTC::UniqueId ec_id);
00068 
00069   // The shutdown action when ExecutionContext stop
00070   // former rtc_stopping_entry()
00071   // virtual RTC::ReturnCode_t onShutdown(RTC::UniqueId ec_id);
00072 
00073   // The activated action (Active state entry action)
00074   // former rtc_active_entry()
00075   virtual RTC::ReturnCode_t onActivated(RTC::UniqueId ec_id);
00076 
00077   // The deactivated action (Active state exit action)
00078   // former rtc_active_exit()
00079   virtual RTC::ReturnCode_t onDeactivated(RTC::UniqueId ec_id);
00080 
00081   // The execution action that is invoked periodically
00082   // former rtc_active_do()
00083   virtual RTC::ReturnCode_t onExecute(RTC::UniqueId ec_id);
00084 
00085   // The aborting action when main logic error occurred.
00086   // former rtc_aborting_entry()
00087   // virtual RTC::ReturnCode_t onAborting(RTC::UniqueId ec_id);
00088 
00089   // The error action in ERROR state
00090   // former rtc_error_do()
00091   // virtual RTC::ReturnCode_t onError(RTC::UniqueId ec_id);
00092 
00093   // The reset action that is invoked resetting
00094   // This is same but different the former rtc_init_entry()
00095   // virtual RTC::ReturnCode_t onReset(RTC::UniqueId ec_id);
00096 
00097   // The state update action that is invoked after onExecute() action
00098   // no corresponding operation exists in OpenRTm-aist-0.2.0
00099   // virtual RTC::ReturnCode_t onStateUpdate(RTC::UniqueId ec_id);
00100 
00101   // The action that is invoked when execution context's rate is changed
00102   // no corresponding operation exists in OpenRTm-aist-0.2.0
00103   // virtual RTC::ReturnCode_t onRateChanged(RTC::UniqueId ec_id);
00104 
00105   bool removeVirtualForceSensorOffset(std::string sensorName);
00106 
00107  protected:
00108   // Configuration variable declaration
00109   // <rtc-template block="config_declare">
00110   
00111   // </rtc-template>
00112   // TimedDoubleSeq m_qRef;
00113   TimedDoubleSeq m_qCurrent;
00114   TimedDoubleSeq m_tauIn;
00115   
00116   // DataInPort declaration
00117   // <rtc-template block="inport_declare">
00118   InPort<TimedDoubleSeq> m_qCurrentIn;
00119   InPort<TimedDoubleSeq> m_tauInIn;
00120   
00121   // </rtc-template>
00122 
00123   // DataOutPort declaration
00124   // <rtc-template block="outport_declare">
00125   std::vector<TimedDoubleSeq> m_force;
00126   std::vector<OutPort<TimedDoubleSeq> *> m_forceOut;
00127   
00128   // </rtc-template>
00129 
00130   // DataOutPort declaration
00131   // <rtc-template block="outport_declare">
00132   
00133   // </rtc-template>
00134 
00135   // CORBA Port declaration
00136   // <rtc-template block="corbaport_declare">
00137   
00138   // </rtc-template>
00139 
00140   // Service declaration
00141   // <rtc-template block="service_declare">
00142   RTC::CorbaPort m_VirtualForceSensorServicePort;
00143   
00144   // </rtc-template>
00145 
00146   // Consumer declaration
00147   // <rtc-template block="consumer_declare">
00148   VirtualForceSensorService_impl m_service0;
00149   
00150   // </rtc-template>
00151 
00152  private:
00153   struct VirtualForceSensorParam {
00154     std::string base_name, target_name;
00155     hrp::Vector3 p;
00156     hrp::Matrix33 R;
00157     hrp::Vector3 forceOffset;
00158     hrp::Vector3 momentOffset;
00159     hrp::JointPathPtr path;
00160   };
00161   std::map<std::string, VirtualForceSensorParam> m_sensors;
00162   double m_dt;
00163   hrp::BodyPtr m_robot;
00164   unsigned int m_debugLevel;
00165 
00166   bool calcRawVirtualForce(std::string sensorName, hrp::dvector &outputForce);
00167   
00168 };
00169 
00170 
00171 extern "C"
00172 {
00173   void VirtualForceSensorInit(RTC::Manager* manager);
00174 };
00175 
00176 #endif // VIRTUAL_FORCE_SENSOR_H


hrpsys
Author(s): AIST, Fumio Kanehiro
autogenerated on Wed May 15 2019 05:02:19