transmission_interface.h
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00001 
00002 // Copyright (C) 2013, PAL Robotics S.L.
00003 //
00004 // Redistribution and use in source and binary forms, with or without
00005 // modification, are permitted provided that the following conditions are met:
00006 //   * Redistributions of source code must retain the above copyright notice,
00007 //     this list of conditions and the following disclaimer.
00008 //   * Redistributions in binary form must reproduce the above copyright
00009 //     notice, this list of conditions and the following disclaimer in the
00010 //     documentation and/or other materials provided with the distribution.
00011 //   * Neither the name of PAL Robotics S.L. nor the names of its
00012 //     contributors may be used to endorse or promote products derived from
00013 //     this software without specific prior written permission.
00014 //
00015 // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
00016 // AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
00017 // IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
00018 // ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE
00019 // LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
00020 // CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
00021 // SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
00022 // INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
00023 // CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
00024 // ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
00025 // POSSIBILITY OF SUCH DAMAGE.
00027 
00029 
00030 #ifndef TRANSMISSION_INTERFACE_TRANSMISSION_INTERFACE_H
00031 #define TRANSMISSION_INTERFACE_TRANSMISSION_INTERFACE_H
00032 
00033 #include <map>
00034 #include <string>
00035 #include <vector>
00036 
00037 #include <hardware_interface/internal/resource_manager.h>
00038 #include <transmission_interface/transmission.h>
00039 #include <transmission_interface/transmission_interface_exception.h>
00040 
00041 namespace transmission_interface
00042 {
00043 
00048 class TransmissionHandle
00049 {
00050 public:
00052   std::string getName() const {return name_;}
00053 
00054 protected:
00055   std::string   name_;
00056   Transmission* transmission_;
00057   ActuatorData  actuator_data_;
00058   JointData     joint_data_;
00059 
00070   TransmissionHandle(const std::string&  name,
00071                      Transmission*       transmission,
00072                      const ActuatorData& actuator_data,
00073                      const JointData&    joint_data)
00074     : name_(name),
00075       transmission_(transmission),
00076       actuator_data_(actuator_data),
00077       joint_data_(joint_data)
00078   {
00079     // Precondition: Valid transmission
00080     if (!transmission_)
00081     {
00082       throw TransmissionInterfaceException("Unspecified transmission.");
00083     }
00084 
00085     // Catch trivial error: All data vectors are empty (handle can't do anything without data)
00086     if (actuator_data.position.empty() && actuator_data.velocity.empty() && actuator_data.effort.empty() &&
00087         joint_data.position.empty() && joint_data.velocity.empty() && joint_data.effort.empty())
00088     {
00089        throw TransmissionInterfaceException("All data vectors are empty. Transmission instance can't do anything!.");
00090     }
00091 
00092     // Precondition: All non-empty data vectors must have sizes consistent with the transmission
00093     if (!actuator_data.position.empty() && actuator_data.position.size() != transmission_->numActuators())
00094     {
00095       throw TransmissionInterfaceException("Actuator position data size does not match transmission.");
00096     }
00097     if (!actuator_data.velocity.empty() && actuator_data.velocity.size() != transmission_->numActuators())
00098     {
00099       throw TransmissionInterfaceException("Actuator velocity data size does not match transmission.");
00100     }
00101     if (!actuator_data.effort.empty() && actuator_data.effort.size() != transmission_->numActuators())
00102     {
00103       throw TransmissionInterfaceException("Actuator effort data size does not match transmission.");
00104     }
00105 
00106     if (!joint_data.position.empty() && joint_data.position.size() != transmission_->numJoints())
00107     {
00108       throw TransmissionInterfaceException("Joint position data size does not match transmission.");
00109     }
00110     if (!joint_data.velocity.empty() && joint_data.velocity.size() != transmission_->numJoints())
00111     {
00112       throw TransmissionInterfaceException("Joint velocity data size does not match transmission.");
00113     }
00114     if (!joint_data.effort.empty() && joint_data.effort.size() != transmission_->numJoints())
00115     {
00116       throw TransmissionInterfaceException("Joint effort data size does not match transmission.");
00117     }
00118 
00119     // Precondition: Valid pointers to raw data
00120     if (!hasValidPointers(actuator_data.position))
00121     {
00122       throw TransmissionInterfaceException("Actuator position data contains null pointers.");
00123     }
00124     if (!hasValidPointers(actuator_data.velocity))
00125     {
00126       throw TransmissionInterfaceException("Actuator velocity data contains null pointers.");
00127     }
00128     if (!hasValidPointers(actuator_data.effort))
00129     {
00130       throw TransmissionInterfaceException("Actuator effort data contains null pointers.");
00131     }
00132 
00133     if (!hasValidPointers(joint_data.position))
00134     {
00135       throw TransmissionInterfaceException("Joint position data contains null pointers.");
00136     }
00137     if (!hasValidPointers(joint_data.velocity))
00138     {
00139       throw TransmissionInterfaceException("Joint velocity data contains null pointers.");
00140     }
00141     if (!hasValidPointers(joint_data.effort))
00142     {
00143       throw TransmissionInterfaceException("Joint effort data contains null pointers.");
00144     }
00145   }
00146 
00147 private:
00148   static bool hasValidPointers(const std::vector<double*>& data)
00149   {
00150     for (std::vector<double*>::const_iterator it = data.begin(); it != data.end(); ++it)
00151     {
00152       if (!(*it)) {return false;}
00153     }
00154     return true;
00155   }
00156 };
00157 
00161 class ActuatorToJointStateHandle : public TransmissionHandle
00162 {
00163 public:
00165   ActuatorToJointStateHandle(const std::string&  name,
00166                              Transmission*       transmission,
00167                              const ActuatorData& actuator_data,
00168                              const JointData&    joint_data)
00169     : TransmissionHandle(name, transmission, actuator_data, joint_data) {}
00170 
00174   void propagate()
00175   {
00176     transmission_->actuatorToJointPosition(actuator_data_, joint_data_);
00177     transmission_->actuatorToJointVelocity(actuator_data_, joint_data_);
00178     transmission_->actuatorToJointEffort(  actuator_data_, joint_data_);
00179   }
00180   /*\}*/
00181 };
00182 
00183 
00185 class ActuatorToJointPositionHandle : public TransmissionHandle
00186 {
00187 public:
00189   ActuatorToJointPositionHandle(const std::string&  name,
00190                                 Transmission*       transmission,
00191                                 const ActuatorData& actuator_data,
00192                                 const JointData&    joint_data)
00193     : TransmissionHandle(name, transmission, actuator_data, joint_data) {}
00194 
00198   void propagate() {transmission_->actuatorToJointPosition(actuator_data_, joint_data_);}
00199   /*\}*/
00200 };
00201 
00202 
00204 class ActuatorToJointVelocityHandle : public TransmissionHandle
00205 {
00206 public:
00208   ActuatorToJointVelocityHandle(const std::string&  name,
00209                                 Transmission*       transmission,
00210                                 const ActuatorData& actuator_data,
00211                                 const JointData&    joint_data)
00212     : TransmissionHandle(name, transmission, actuator_data, joint_data) {}
00213 
00217   void propagate() {transmission_->actuatorToJointVelocity(actuator_data_, joint_data_);}
00218   /*\}*/
00219 };
00220 
00221 
00223 class ActuatorToJointEffortHandle : public TransmissionHandle
00224 {
00225 public:
00227   ActuatorToJointEffortHandle(const std::string&  name,
00228                               Transmission*       transmission,
00229                               const ActuatorData& actuator_data,
00230                               const JointData&    joint_data)
00231     : TransmissionHandle(name, transmission, actuator_data, joint_data) {}
00232 
00236   void propagate() {transmission_->actuatorToJointEffort(actuator_data_, joint_data_);}
00237   /*\}*/
00238 };
00239 
00240 
00244 class JointToActuatorStateHandle : public TransmissionHandle
00245 {
00246 public:
00248   JointToActuatorStateHandle(const std::string&  name,
00249                              Transmission*       transmission,
00250                              const ActuatorData& actuator_data,
00251                              const JointData&    joint_data)
00252     : TransmissionHandle(name, transmission, actuator_data, joint_data) {}
00253 
00257   void propagate()
00258   {
00259     transmission_->jointToActuatorPosition(joint_data_, actuator_data_);
00260     transmission_->jointToActuatorVelocity(joint_data_, actuator_data_);
00261     transmission_->jointToActuatorEffort(  joint_data_, actuator_data_);
00262   }
00263   /*\}*/
00264 };
00265 
00266 
00268 class JointToActuatorPositionHandle : public TransmissionHandle
00269 {
00270 public:
00272   JointToActuatorPositionHandle(const std::string&  name,
00273                                 Transmission*       transmission,
00274                                 const ActuatorData& actuator_data,
00275                                 const JointData&    joint_data)
00276     : TransmissionHandle(name, transmission, actuator_data, joint_data) {}
00277 
00281   void propagate() {transmission_->jointToActuatorPosition(joint_data_, actuator_data_);}
00282   /*\}*/
00283 };
00284 
00285 
00287 class JointToActuatorVelocityHandle : public TransmissionHandle
00288 {
00289 public:
00291   JointToActuatorVelocityHandle(const std::string&  name,
00292                                 Transmission*       transmission,
00293                                 const ActuatorData& actuator_data,
00294                                 const JointData&    joint_data)
00295     : TransmissionHandle(name, transmission, actuator_data, joint_data) {}
00296 
00300   void propagate() {transmission_->jointToActuatorVelocity(joint_data_, actuator_data_);}
00301   /*\}*/
00302 };
00303 
00304 
00306 class JointToActuatorEffortHandle : public TransmissionHandle
00307 {
00308 public:
00310   JointToActuatorEffortHandle(const std::string&  name,
00311                               Transmission*       transmission,
00312                               const ActuatorData& actuator_data,
00313                               const JointData&    joint_data)
00314     : TransmissionHandle(name, transmission, actuator_data, joint_data) {}
00315 
00319   void propagate() {transmission_->jointToActuatorEffort(joint_data_, actuator_data_);}
00320   /*\}*/
00321 };
00322 
00340 template <class HandleType>
00341 class TransmissionInterface : public hardware_interface::ResourceManager<HandleType>
00342 {
00343 public:
00344 
00345   HandleType getHandle(const std::string& name)
00346   {
00347     // Rethrow exception with a meaningful type
00348     try
00349     {
00350       return this->hardware_interface::ResourceManager<HandleType>::getHandle(name);
00351     }
00352     catch(const std::logic_error& e)
00353     {
00354       throw TransmissionInterfaceException(e.what());
00355     }
00356   }
00357 
00361   void propagate()
00362   {
00363     typedef typename hardware_interface::ResourceManager<HandleType>::ResourceMap::iterator ItratorType;
00364     for (ItratorType it = this->resource_map_.begin(); it != this->resource_map_.end(); ++it)
00365     {
00366       it->second.propagate();
00367     }
00368   }
00369   /*\}*/
00370 };
00371 
00372 // Convenience typedefs
00373 
00375 class ActuatorToJointStateInterface : public TransmissionInterface<ActuatorToJointStateHandle> {};
00376 
00378 class ActuatorToJointPositionInterface : public TransmissionInterface<ActuatorToJointPositionHandle> {};
00379 
00381 class ActuatorToJointVelocityInterface : public TransmissionInterface<ActuatorToJointVelocityHandle> {};
00382 
00384 class ActuatorToJointEffortInterface : public TransmissionInterface<ActuatorToJointEffortHandle> {};
00385 
00387 class JointToActuatorStateInterface : public TransmissionInterface<JointToActuatorStateHandle> {};
00388 
00390 class JointToActuatorPositionInterface : public TransmissionInterface<JointToActuatorPositionHandle> {};
00391 
00393 class JointToActuatorVelocityInterface : public TransmissionInterface<JointToActuatorVelocityHandle> {};
00394 
00396 class JointToActuatorEffortInterface : public TransmissionInterface<JointToActuatorEffortHandle> {};
00397 
00398 } // transmission_interface
00399 
00400 #endif // TRANSMISSION_INTERFACE_TRANSMISSION_INTERFACE_H


transmission_interface
Author(s): Adolfo Rodriguez Tsouroukdissian
autogenerated on Sat Jun 8 2019 20:09:31