doxygen/internal_friction_2backup__old__controllers_2_t6_rest_length_controller_8cpp_source.html

 /*

  * Copyright © 2012, United States Government, as represented by the

  * Administrator of the National Aeronautics and Space Administration.

  * All rights reserved.

  *

  * The NASA Tensegrity Robotics Toolkit (NTRT) v1 platform is licensed

  * under the Apache License, Version 2.0 (the "License");

  * you may not use this file except in compliance with the License.

  * You may obtain a copy of the License at

  * http://www.apache.org/licenses/LICENSE-2.0.

  *

  * Unless required by applicable law or agreed to in writing,

  * software distributed under the License is distributed on an

  * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND,

  * either express or implied. See the License for the specific language

  * governing permissions and limitations under the License.

  */


 // This module

 #include "T6RestLengthController.h"

 // This application

 #include "T6Model.h"

 // This library

 #include "core/tgBasicActuator.h"

 #include "core/tgBulletSpringCable.h"

 #include "tgcreator/tgUtil.h"

 // The C++ Standard Library

 #include <cassert>

 #include <stdexcept>

 #include <vector>

 #include <iostream>


 T6RestLengthController::T6RestLengthController(T6Model* subject, const double restLengthDiff) :

     m_restLengthDiff(restLengthDiff),

                 m_controllerMuscleRatio(subject->muscleRatio())

 {

     if (restLengthDiff < 0.0)

     {

         throw std::invalid_argument("You tried to push a rope!");

     }

 }


 void T6RestLengthController::onSetup(T6Model& subject)

 {

     // Do a one-time update of all cable rest lengths

     // First, get all muscles (cables)


                 const std::vector<tgBasicActuator*> passiveMuscles = subject.getPassiveMuscles();

                 const std::vector<tgBasicActuator*> activeMuscles = subject.getActiveMuscles();


                 // then, iterate over all muscles

                 for (size_t i = 0; i < passiveMuscles.size(); ++i)

                 {

                                 tgBasicActuator * const pMuscle = passiveMuscles[i];

                                 assert(pMuscle != NULL);


                                 // set rest length of the i-th muscle

                                 double desiredRestLength = pMuscle->getStartLength() - 0.7;

                                 pMuscle->setRestLengthSingleStep(desiredRestLength);

                 }

                 for (size_t i = 0; i < activeMuscles.size(); ++i)

                 {

                                 tgBasicActuator * const pMuscle = activeMuscles[i];

                                 assert(pMuscle != NULL);


                                 // set rest length of the i-th muscle

                                 double desiredRestLength = pMuscle->getStartLength() - 0.22;

                                 pMuscle->setRestLengthSingleStep(desiredRestLength);

                 }

 }


 void T6RestLengthController::onStep(T6Model& subject, double dt)

 {

                 static int count = 0;

                 const std::vector<tgBasicActuator*> strings = subject.getAllMuscles();

                 const tgBulletSpringCable* muscles;


                 if(count > 100)

                 {

                                 for(size_t i=0; i<strings.size(); i++)

                                 {

                                                 std::cout << (strings[i]->getTension())/10 << "\t";

                                 }

                                 std::cout << "\n";

                                 for(size_t i=0; i<strings.size(); i++)

                                                 {

                                                                 std::cout << (strings[i]->getCurrentLength())/10 << "\t";

                                                 }

                                 std::cout << "\n";

 //                              for(size_t i=0; i<strings.size(); i++)

 //                                              muscles = strings[i]->getMuscle();

 //                                              {

 //                                                              std::cout << getTransform(muscles->anchor1->getWorldPosition() - muscles->anchor2->getWorldPosition()) << "\t";

 //                                              }

 //                              std::cout << "\n";

                 count = 0;

                 }

                 else

                 {

                                 count++;

                 }


       // Nothing!!

 }

tgSpringCableActuator::getStartLength
virtual const double getStartLength() const
Definition: tgSpringCableActuator.cpp:162

T6RestLengthController::T6RestLengthController
T6RestLengthController(T6Model *subject, const double restLengthDiff=4)
Definition: T6RestLengthController.cpp:41

tgBasicActuator
Definition: tgBasicActuator.h:40

T6Model::getAllMuscles
const std::vector< tgBasicActuator * > & getAllMuscles() const
Definition: T6Model.cpp:247

tgBulletSpringCable
Definition: tgBulletSpringCable.h:47

T6Model::getPassiveMuscles
const std::vector< tgBasicActuator * > & getPassiveMuscles() const
Definition: T6Model.cpp:252

T6Model
Definition: T6Model.h:43

tgBasicActuator.h
Contains the definition of class tgBasicActuator.

T6RestLengthController::onSetup
virtual void onSetup(T6Model &subject)
Definition: T6RestLengthController.cpp:51

T6Model::getActiveMuscles
const std::vector< tgBasicActuator * > & getActiveMuscles() const
Definition: T6Model.cpp:257

tgUtil.h
Rand seeding simular to the evolution and terrain classes.

tgBulletSpringCable.h
Definitions of classes tgBulletSpringCable $Id$.

T6RestLengthController::onStep
virtual void onStep(T6Model &subject, double dt)
Definition: T6RestLengthController.cpp:80